zxg10-bsc(v2)operation manual vol 2
Post on 28-Oct-2015
125 Views
Preview:
DESCRIPTION
TRANSCRIPT
ZZXX GG1100 ZZZ TTT EEE GGG SSS MMM WWW LLL LLL SSS YYY SSS TTT EEE MMM
GGSSMM WWLLLL SSYYSSTTEEMM
OOppeerraattiioonn MMaannuuaall OOFF
ZZXXGG1100--BBSSCC ((VV22)) VVooll.. 22
SSHHEENNZZHHEENN,, CCHHIINNAA
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page I of II
Table of Contents
1 Man-machine Commands ...........................................................................1 1.1 Overview of man-machine commands .....................................................................1 1.2 Security management ............................................................................................3 1.2.1 Man-machine commands for user management .......................................................3 1.2.2 Man-machine commands of operation logs ............................................................17 1.3 Alarm management ..............................................................................................20 1.3.1 Man-machine commands of alarm management ....................................................20 1.3.2 Man-machine commands for test management .................................................... 104 1.4 Performance management ................................................................................. 113 1.4.1 Man-machine commands of measurement jobs ................................................... 113 1.4.2 Man-machine commands of observation jobs....................................................... 120 1.4.3 Man-machine commands of alarm threshold ........................................................ 124 1.4.4 Other man-machine commands .......................................................................... 132 1.5 Configuration management ................................................................................. 135 1.5.1 Man-machine commands of radio resources management ................................... 135 1.5.2 Man-machine commands of software loading....................................................... 259 1.5.3 Man-machine commands of integrated configuration management........................ 287 2 Operation.....................................................................................................471 2.1 Overview........................................................................................................... 471 2.2 Security management ........................................................................................ 472 2.2.1 User management ............................................................................................. 472 2.2.2 Operation log ..................................................................................................... 475 2.3 Configuration management ................................................................................. 478 2.3.1 Radio resource management .............................................................................. 478 2.3.2 Software loading ................................................................................................ 483 2.3.3 Dynamic data management ................................................................................ 488 2.3.4 Integrated configuration management ................................................................. 494 2.4 Fault management ............................................................................................. 499 2.4.1 Alarm management ............................................................................................ 499 2.4.2 Test management .............................................................................................. 504 2.5 Performance management ................................................................................. 507 2.5.1 Performance management ................................................................................. 507 2.5.2 Performance analyzer ........................................................................................ 511 2.5.3 Invoke tracing .................................................................................................... 513 2.5.4 Signaling tracing ................................................................................................ 516 Appendix A Performance measurement counter .....................................................520 A.1 BTS performance measurement counter ............................................................. 520 A.1.1 Power control counter ........................................................................................ 520 A.1.2 Paging counter .................................................................................................. 521 A.2 RMM performance measurement counter............................................................ 522 A.2.1 Radio access counter ......................................................................................... 522 A.2.2 SDCCH counter................................................................................................. 524 A.2.3 SAPI3 counter ................................................................................................... 525 A.2.4 TCH/F counter ................................................................................................... 527 A.2.5 TCH/H counter................................................................................................... 532 A.2.6 RMM assignment counter ................................................................................... 536 A.2.7 RMM call drop counter ....................................................................................... 538 A.2.8 Radio measurement counter ............................................................................... 541 A.2.9 Handover reason counter ................................................................................... 543 A.2.10 General counter of handover .............................................................................. 546 A.2.11 RMM queue counter........................................................................................... 553 A.2.12 Handover synchronization mode counter............................................................. 555 A.2.13 Paging counter .................................................................................................. 555
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page II of II
A.2.14 Abis interface message counter .......................................................................... 555 A.2.15 Radio resources availability counter .................................................................... 557 A.2.16 Counters for generating the report forms required by the National Telecommunications
Bureau .............................................................................................................. 558 A.3 SMM performance measurement counter definition .............................................. 565 A.3.1 BSSMAP message counter................................................................................. 565 A.3.2 A interface message counter............................................................................... 568 A.3.3 SCCP connection counter................................................................................... 568 A.3.4 SMM assignment counter ................................................................................... 569 A.3.5 SMM handover counter ...................................................................................... 569 A.3.6 SMM call drop counter........................................................................................ 570 A.3.7 Land resource availability counter ....................................................................... 571 A.4 LAPD counter .................................................................................................... 571 A.5 Signaling No.7 counter ....................................................................................... 572 A.5.1 SCCP unit counter ............................................................................................. 572 A.5.2 SCCP composite counter ................................................................................... 574 A.6 Gb interface counter........................................................................................... 574 A.6.1 NS sub-layer counter.......................................................................................... 574 A.6.2 BSSGP counter ................................................................................................. 576 A.6.3 Paging performance measurement counter ......................................................... 579 A.7 BSS counter ...................................................................................................... 583 A.7.1 Traffic statistic counter........................................................................................ 583 A.7.2 Resource management counter .......................................................................... 584 A.8 Other counters ................................................................................................... 587 A.8.1 RMM load counter.............................................................................................. 587 A.8.2 Service load counter .......................................................................................... 588 A.8.3 SMM Load counter............................................................................................. 588 Appendix B Acronyms....................................................................................................589
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 1 of 591
1 Man-machine Commands
1.1 Overview of man-machine commands
The man-machine commands of this system begin with a command code and end with a semicolon. The contents between the command code and the semicolon are the parameters representing specific information.
A command code consists of 4 letters. Among them, the first letter defines the subfunction area of the command, and is called level 1 code. The second and the third letters represent the action or effect object type of the command, and are called level 2 codes. The last letter defines the action to be executed by the command, and is called level 3 code.
The parameter part consists of one or more parameter blocks. All parameter blocks use separator “:” as the start symbol, and the position of a parameter block cannot be changed.
The parameters include the following types:
1. Type Boolean
The value of the type Boolean data can be “T” (TRUE) or “F” (FALSE).
2. Numerical value type
Numerical values are classified into Integer type and Floating type.
The integer type is classified into integers in a general sense (without containing any separators) and integer-type PARAMETER ARGUMENTs (such separators as “&”, “&&”, “-”, “&-” and “&&-” can appear in the parameter, and on both sides of these symbols are integers).
The floating type is classified into floating numbers in a general sense (without containing any separators) and floating-type PARAMETER ARGUMENTs (separator “&” can appear in the parameter, and on both sides of this symbol are floating numbers).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 2 of 591
3. Identifier type
Including basic identifier type (identifiers in a general sense, a combination of letters and numbers that begins with a letter) and identifier-type PARAMETER ARGUMENT (separator “&” can appear in the parameter, and on both sides of the separator are identifiers).
4. Enumerated type
Including the enumerated type in a general sense (various enumerated items are separated with separator “,”) and enumerated-type PARAMETER ARGUMENT ( “&” can appear in the parameter, and on both sides of the separator are enumerated-type data).
5. Date type
The format of the date-type parameter: YYYY-MM-DD.
6. Time type
Including second-order time type (the format of the second-order time type parameter: HH-MM-SS) and minute-order time type (the format of the minute-order time type parameter: HH-MM), etc.
7. Temperature type
Decimal floating number +suffix “C”.
8. Percent type
Decimal floating number + suffix “% ”.
9. Character string type
Including the character strings in a general sense (a combination of characters between a pair of double quotation marks) and character-string-type PARAMETER ARGUMENT (“&” can appear in the parameter, and on both sides of the symbol are general character strings).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 3 of 591
1.2 Security management
1.2.1 Man-machine commands for user management
1.2.1.1 SGAQ
1. Command function
To query the authority of a user group for a specific operation.
2. Syntax structure
SGAQ: GRPNAME, OPCODE;
3. Parameter description
1) GRPNAME: user group name. Identifier type.
2) OPCODE: operation code. Identifier type.
1.2.1.2 SGDA
1. Command function
To add an operation object to a user group.
2. Syntax structure
SGDA: GRPNAME, OPCODE, AddOBJ;
3. Parameter description
1) GRPNAME: user group name. Identifier type, no default value.
2) OPCODE: operation code. Identifier type, no default value.
3) AddOBJ: operation object. Character string, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 4 of 591
1.2.1.3 SGDD
1. Command function
To delete an operation object from a user group.
2. Syntax structure
SGDD: GRPNAME, OPCODE, RMOBJ;
3. Parameter description
1) GRPNAME: user group name. Identifier type, no default value.
2) OPCODE: operation code. Identifier type, no default value.
3) RMOBJ: operation object. Character string, no default value.
1.2.1.4 SGDQ
1. Command function
To query the direct authority of a user group.
2. Syntax structure
SGDQ: GRPNAME;
3. Parameter description
GRPNAME: user group name. Identifier type.
1.2.1.5 SGOQ
1. Command function
To query the authority of a user group for a specific operation. .
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 5 of 591
2. Syntax structure
SGOQ: GRPNAME, OPCODE;
3. Parameter description
1) GRPNAME: user group name. Identifier type.
2) OPCODE: operation code. Identifier type.
1.2.1.6 SGPQ
1. Command function
To query the authority of a user.
2. Syntax structure
SGPQ: GRPNAME;
3. Parameter description
GRPNAME: user group name. Identifier type.
1.2.1.7 SGRA
1. Command function
To modify the role of a user group .
2. Syntax structure
SGRA: GRPNAME, ADDROLE, RMROLE;
3. Parameter description
1) GRPNAME: user group name. Identifier type, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 6 of 591
2) ADDROLE: the role to be added. Identifier type, no default value.
3) RMROLE: the role to be deleted. Identifier type, no default value.
1.2.1.8 SGRC
1. Command function
To create a user group.
2. Syntax structure
SGRC: GRPNAME, NOTE, WINRIGHT;
3. Parameter description
1) GRPNAME: user group name. Identifier type, no default value.
2) NOTE: brief description of the user group. Character string type.
3) WINRIGHT: activating right of client window. Numerical value type. An integer between 0 and 255. Each bit represents a window activation right.
1.2.1.9 SGRD
1. Command function
To delete one or more user groups.
2. Syntax structure
SGRD: GRPNAME;
3. Parameter description
GRPNAME: user group name. Composite identifier type, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 7 of 591
1.2.1.10 SGRM
1. Command function
To modify the attribute of a user group .
2. Syntax structure
SGRM: GRPNAME, NOTE, WINRIGHT;
3. Parameter description
1) GRPNAME: user group name. Identifier type, no default value.
2) NOTE : brief description of the user group. Character string type.
3) WINRIGHT: activating right of client window. Numerical value type. An integer between 0 and 255. Each bit represents a window activation right.
1.2.1.11 SGRQ
1. Command function
To query the attribute of a user group .
2. Syntax structure
SGRQ: GRPNAME;
3. Parameter description
GRPNAME: user group name. Identifier type, the default value is ALL.
1.2.1.12 SLUC
1. Command function
To create a user.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 8 of 591
2. Syntax structure
SLUC: USERNAME, PASSWD1, PASSWD2 [, NOTE ];
3. Parameter description
1) USERNAME: user name. Identifier type, no default value.
2) PASSWD1: user password. Character string type, more than 6 characters with letters and numbers, no default value.
3) PASSWD2: confirming user password. Character string type, no default value.
4) NOTE: a brief description of the user. Character string type.
1.2.1.13 SOBQ
1. Command function
To query all operation objects of a specific operation.
2. Syntax structure
SOBQ: OPCODE, tLEVEL;
3. Parameter description
1) OPCODE: operation code. Identifier type.
2) TLEVEL: level of the management object. Integer type.
1.2.1.14 SOPQ
1. Command function
To query all operation lists.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 9 of 591
2. Syntax structure
SOPQ: ;
3. Parameter description
None.
1.2.1.15 SRAQ
1. Command function
To query the direct right of a role for a specific operation.
2. Syntax structure
SRAQ: ROLENAME, OPCODE;
3. Parameter description
1) ROLENAME: role name. Identifier type.
2) OPCODE: operation code. Identifier type.
1.2.1.16 SRDA
1. Command function
To add an operation object to a role.
2. Syntax structure
SRDA: ROLENAME, OPCODE, ADDOBJ;
3. Parameter description
1) ROLENAME: role name. Identifier type, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 10 of 591
2) OPCODE: operation code. Identifier type, no default value.
3) ADDOBJ: operation object. Character string, no default value.
1.2.1.17 SRDD
1. Command function
To delete an operation object from a role .
2. Syntax structure
SRDD: ROLENAME, OPCODE, RMOBJ;
3. Parameter description
1) ROLENAME: role name. Identifier type, no default value.
2) OPCODE: operation code. Identifier type, no default value.
3) RMOBJ: operation object. Character string, no default value.
1.2.1.18 SRDQ
1. Command function
To query all rights of a role.
2. Syntax structure
SRDQ: ROLENAME;
3. Parameter description
ROLENAME: role name. Identifier type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 11 of 591
1.2.1.19 SRGQ
1. Command function
To query the role of a user group .
2. Syntax structure
SRGQ: GRPNAME;
3. Parameter description
GRPNAME: user group name. Identifier type, no default value.
1.2.1.20 SRLC
1. Command function
To create a role.
2. Syntax structure
SRLC: ROLENAME, NOTE;
3. Parameter description
1) ROLENAME: role name. Identifier type, no default value.
2) NOTE: a brief description of the role. Character string type.
1.2.1.21 SRLD
1. Command function
To delete one or more role.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 12 of 591
SRLD: ROLENAME;
3. Parameter description
ROLENAME: role name. Composite identifier type, no default value.
1.2.1.22 SRLM
1. Command function
To modify the attribute of a role.
2. Syntax structure
SRLM: ROLENAME, NOTE;
3. Parameter description
1) ROLENAME: role name. Identifier type, no default value.
2) NOTE: a brief description of the role. Character string type.
1.2.1.23 SRLQ
1. Command function
To query the attribute of a role.
2. Syntax structure
SRLQ: ROLENAME;
3. Parameter description
ROLENAME (Role Name): role name. Identifier type, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 13 of 591
1.2.1.24 SROQ
1. Command function
To query the right of a role for a specific operation.
2. Syntax structure
SROQ: ROLENAME, OPCODE;
3. Parameter description
1) ROLENAME: role name. Identifier type.
2) OPCODE: operation code. Identifier type.
1.2.1.25 SRPQ
1. Command function
To query all rights of a role.
2. Syntax structure
SRPQ: ROLENAME;
3. Parameter description
ROLENAME: role name. Identifier type.
1.2.1.26 SRRA
1. Command function
To modify a role.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 14 of 591
SRRA: ROLENAME, ADDROLE, RMROLE;
3. Parameter description
1) ROLENAME: role name. Identifier type, no default value.
2) ADDROLE: the role to be added. Identifier type, no default value.
3) RMROLE: the role to be deleted. Identifier type, no default value.
1.2.1.27 SRRQ
1. Command function
To query the attribute of a role.
2. Syntax structure
SRRQ: ROLENAME;
3. Parameter description
ROLENAME: role name. Composite identifier type, the default value is ALL.
1.2.1.28 SUGA
1. Command function
To add a user to a user group.
2. Syntax structure
SUGA: USERNAME, GRPNAME, BTIME, ETIME;
3. Parameter description
1) USERNAME: user name. Identifier type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 15 of 591
2) GRPNAME: user group name. Identifier type.
3) BTIME: beginning time. Time type hh-mm-ss.
4) ETIME: ending time. Time type hh-mm-ss.
1.2.1.29 SUGD
1. Command function
To add a user to a user group.
2. Syntax structure
SUGD: USERNAME, GRPNAME;
3. Parameter description
1) USERNAME: user name. Identifier type.
2) GRPNAME: user group name. Identifier type.
1.2.1.30 SUGQ
1. Command function
To query the group of a user.
2. Syntax structure
SUGQ: USERNAME;
3. Parameter description
USERNAME: user name. Identifier type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 16 of 591
1.2.1.31 SUPQ
1. Command function
To query the authority of a user.
2. Syntax structure
SUPQ: USERNAME;
3. Parameter description
USERNAME: user name. Identifier type.
1.2.1.32 SUSD
1. Command function
To delete one or multiple users.
2. Syntax structure
SUSD: USERNAME;
3. Parameter description
USERNAME: user name. Identifier type, no default value.
1.2.1.33 SUSM
1. Command function
To modify the attribute of a user.
2. Syntax structure
SUSM: USERNAME, OLDPASS, PASSWD1, PASSWD2;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 17 of 591
3. Parameter description
1) USERNAME: user name. Identifier type, no default value.
2) OLDPASS: old password. Identifier type.
3) PASSWD1: user password. Character string type, more than 6 characters, with letters and numbers.
4) PASSWD2: confirming user password. Character string type.
1.2.1.34 SUSQ
1. Command function
To query one or more OMCR users.
2. Syntax structure
SUSQ: USERNAME;
3. Parameter description
USERNAME: user name. Identifier type, the default value is ALL.
1.2.2 Man-machine commands of operation logs
1.2.2.1 LCTQ
1. Command function
To query the total number of operation logs that match the condition.
2. Syntax structure
LCTQ: USERNAME, tERMID, OPCLASS, STATUS, ONDATE, ONTIME, ENDDATE, ENDTIME;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 18 of 591
3. Parameter description
1) USERNAME: user name. Character string type, the maximum length of the character string is 20. The default value is “ALL”, representing all users.
2) TERMID : terminal identifier. Signless integer, value range: 0~255, the default value is 0, representing all terminals.
3) OPCLASS: operating class. Character string type, the maximum length of the character string is 20. The default value is “ALL”, representing all operating classes. The existing supported operation classes include: alarm management, test management, equipment management, radio resources, signaling No.7, software loading, configuration management, performance management, performance analysis and security management.
4) STATUS: operation status. Enumerated type, value range: FAIL, SUCCEED, UNEND, ALL; the default value is ALL.
5) ONDATE: beginning date . Date type. The default value is 1990-01-01. The beginning data must be later than 1990-01-01.
6) ONTIME: beginning time. Second-order time type. The default value is 00-00-00.
7) ENDDATE: ending date. Date type. The default value is 2038-01-01. The ending data must be earlier than 2038-01-01.
8) ENDTIME: ending time. Second-order time type. The default value is 00-00-00.
1.2.2.2 LOGD
1. Command function
To delete all operation logs.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 19 of 591
LOGD;
3. Parameter description
None.
1.2.2.3 LRDQ
1. Command function
To query all operation logs that match the condition.
2. Syntax structure
LRDQ: USERNAME, tERMID, OPCLASS, STATUS, ONDATE, ONTIME, ENDDATE, ENDTIME;
3. Parameter description
Refer to the Parameter Description of command LCTQ.
1.2.2.4 LRDS
1. Command function
To save the currently queried logs as another file (this command is not supported at present).
2. Syntax structure
LRDS: FILENAME;
3. Parameter description
FILENAME: file name. Character string type, the default value is “oplog”, representing to save the currently queried logs into file “oplog”.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 20 of 591
1.3 Alarm management
1.3.1 Man-machine commands of alarm management
1.3.1.1 AAAA
1. Command function
This command is used to synchronize current alarms between the background and the foreground.
2. Syntax structure
AAAA: BSCID, ModuleNo, MaxMpAid;
3. Parameter description
1) BSCID: the foreground BSC ID number. Signless integer, value range: 1~255.
2) ModuleNo: the module number of the foreground BSC. Signless integer, value range: 1~64.
3) MaxMpAid: the maximum identification number of the foreground alarm. Signless integer, value range: the minimum value is 0.
1.3.1.2 AAIV
1. Command function
This command is used to immediately dump one or more specified alarms.
2. Syntax structure
AAIV: ALMIDS;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 21 of 591
ALMIDS: the identification numbers of the alarms to be dumped. Composite signless integer, value range: 1~4.3E+09.
1.3.1.3 AARQ
1. Command function
This command is used to query alarms.
2. Syntax structure
AARQ: QryType, AlmObj, {AlmCode, AlmCls}[, BgnDay][, BgnTime][, EndDay][, EndTime][, Flag];
3. Parameter description
1) QryType: for selecting the current alarm and historical alarm. Signless integer, value range: 0~2.
2) AlmObj: for specifying the alarm source. Character string type.
3) AlmCode: for specifying the alarm code. Composite signless integer, value range: 0~65535.
4) AlmCls: for specifying the alarm class. Composite signless integer, value range: 1~4.
5) BgnDay: starting date for querying. Date type.
6) BgnTime: starting time for querying. Time type.
7) EndDay: ending date for querying. Date type.
8) EndTime: ending time for querying. Time type.
1.3.1.4 AASV
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 22 of 591
This command is used to manually dump historical alarms.
2. Syntax structure
AASV{: SaveDay};
3. Parameter description
SaveDay: for selecting the starting point of the historical alarms to be dumped. Signless integer, value range: 30~180.
1.3.1.5 ABCQ
1. Command function
This command is used to query the status of a board.
2. Syntax structure
ABCQ: {EBSCID, EBSCName, }RackNo, ShelfNo, SlotNo;
3. Parameter description
1) EbscID: for specifying the BSCID of the query task. Signless integer, value range: 1~255.
2) EbscName: for specifying the BSC Name of the query task. Character type.
3) RackNo: for specifying the rack No. of the board to be queried. Signless integer, value range: 1~15.
4) ShelfNo: for specifying the shelf No. of the board to be queried. Signless integer, value range: 1~6.
5) SlotNo: to specify the slot No. of the board to be queried. Signless integer, value range: 1~27.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 23 of 591
1.3.1.6 ACAQ
1. Command function
This command is used to query the source alarm of a specified correlation alarm and the correlation rule for generating this correlation alarm..
2. Syntax structure
ACAQ: ALARMID;
3. Parameter description
ALARMID: the identification number of the correlation alarm to be queried. Signless integer, value range: 1~4.3E+09.
1.3.1.7 ACBM
1. Command function
This command is used to set the clock reference of CKI by specifying the SYCK board.
2. Syntax structure
ACBM: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): CLKBASE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): the BSC ID number of the board for setting the clock reference. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the board for setting the clock reference. Character string type.
3) RACKNO (Rack No): the rack number of the board for setting the clock reference. Signless integer, value range: 1~15.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 24 of 591
4) SHELFNO (Shelf No): the shelf number of the board for setting the clock reference. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the board for setting the clock reference. Signless integer, value range: 1~27.
6) CLKBASE: the clock reference of CKI. Signless integer, value range: 0~15.
1.3.1.8 ACMM
1. Command function
This command is used to set the clock mode of a specified SYCK board.
2. Syntax structure
ACMM: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): CLKMODE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): the BSC ID number of the board for setting the clock reference. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the board for setting the clock reference. Character string type.
3) RACKNO (Rack No): the rack number of the board for setting the clock reference. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the board for setting the clock reference. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the board for setting the clock reference. Signless integer, value range: 1~27.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 25 of 591
6) CLKMODE: clock mode. Signless integer, value range: 1~5. Among them, : 1: automatic running state of SYCK board; 2: memory holding state ; 3: tracing state; 4: fast capture state; 5: free running state.
1.3.1.9 ACNA
1. Command function
This command is used to confirm a specified current notification message.
2. Syntax structure
ACNA: NOTIIDS;
3. Parameter description
NOTIIDS: the identification number of the notification message to be confirmed. Composite signless integer, value range: 1~4.3E+09.
1.3.1.10 ACUA
1. Command function
This command is used to confirm a specified current alarm.
2. Syntax structure
ACUA: ALMIDS;
3. Parameter description
ALMIDS (Alarm Identifications): the identification number of the alarm to be confirmed. Composite signless integer, value range: 1~4.3E+09.
1.3.1.11 ACUR
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 26 of 591
This command is used to manually clear (restore) a specified current alarm.
2. Syntax structure
ACUR: ALMIDS;
3. Parameter description
ALMIDS (Alarm ID): the identification number of the alarm to be cleared. Composite signless integer, value range: 1~4.3E+09.
1.3.1.12 AEAQ
1. Command function
This command is used to query all environmental alarm parameters.
2. Syntax structure
AEAQ;
3. Parameter description
None.
1.3.1.13 AIAM
1. Command function
This command is used to set infrared alarm for a specified BSC, including the type (periodic, aperiodic), status (activated, shutdown) and disabling period of the infrared alarm.
2. Syntax structure
AIAM: {EBSCID, EBSCNAME}, MODULENO: PERIOD, RLSTATUS, BGNDAY, BGNTIME, ENDDAY, ENDTIME;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 27 of 591
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number for setting infrared alarm. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias for setting infrared alarm. Character string type.
3) MODULENO (Module No): the module number for setting infrared alarm. Signless integer, value range: 1~64.
4) PERIOD (Period): type of the infrared alarm. Signless integer, value range: 0, 1. Among them, : 0: periodical infrared alarm; 1: infrared alarm in a specified period
5) RLSTATUS (Infrared Status): status of the infrared alarm. Signless integer, value range: 0, 1. Among them, : 0: activated; 1: shutdown.
6) BGNDAY (Begin Day): the beginning date for the effective period of the infrared alarm. Date type, the default value is NULL.
7) BGNTIME (Begin Time): the beginning time for the effective period of the infrared alarm. Second-order time type, the default value is NULL.
8) ENDDAY (End Day): the ending date for the effective period of the infrared alarm. Date type, the default value is NULL.
9) ENDTIME (End Time): the ending time for the effective period of the infrared alarm. Second-order time type, the default value is NULL.
1.3.1.14 AMTM
1. Command function
This command is used to set periodic changeover for a specified MP board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 28 of 591
AMTM: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): CHOVTIME;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the MP board to be set. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the MP board to be set. Character string type.
3) RACKNO (Rack No): rack No. of the board to be set. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): shelf No. of the board to be set. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): slot No. of the board to be set. Signless integer, value range: 1~27.
6) CHOVTIME (Change Over Time): changeover time. Second-order time type.
1.3.1.15 AMTS
1. Command function
This command is used to cancel periodic changeover for a specified MP board.
2. Syntax structure
AMTS: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the MP board for canceling periodic changeover. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 29 of 591
2) EBSCNAME (BSC Equipment Name): the BSC alias of the MP board for canceling periodic changeover. Character string type.
3) RACKNO (Rack No): rack No. of the MP board for canceling periodic changeover. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): shelf No. of the MP board for canceling periodic changeover. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): slot No. of the MP board for canceling periodic changeover. Signless integer, value range: 1~27.
1.3.1.16 ANAC
1. Command function
This command is used to set the main node alarm of a specified site under a specified BSS.
2. Syntax structure
ANAC: EBSSID{, ESITEID, ESITENM}, RACKID: TMPNO;
3. Parameter description
1) EBSSID (BSS Equipment ID): the BSS ID number of the site to be set. Signless integer, value range: 1~255.
2) ESITEID (Site Equipment ID): the ID number of the site to be set. Signless integer, value range: 1~1024.
3) ESITENM (Site Equipment Name): the alias of the site to be set. Character string type.
4) RACKID (Rack ID): the ID number of the rack to be set. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 30 of 591
5) TMPNO (Template NO): the template number of the main node alarm to be set. Signless integer, value range: 1~16.
1.3.1.17 ANAM
1. Command function
This command is used to modify the main node alarm setting of a specified site under a specified BSS.
2. Syntax structure
ANAM: EBSSID, {ESITEID, ESITENM}, RACKID: TMPNO;
3. Parameter description
1) EBSSID (BSS Equipment ID): the BSS ID number of the site for modification. Signless integer, value range: 1~255.
2) ESITEID (Site Equipment ID): the ID number of the site for modification. Signless integer, value range: 1~1024.
3) ESITENM (Site Equipment Name): the alias of the site for modification. Character string type.
4) RACKID (Rack ID): the ID number of the rack for modification. Signless integer, value range: 1~4.
5) TMPNO (Template NO): the template number of the main node alarm for modification. Signless integer, value range: 1~16.
1.3.1.18 ANAQ
1. Command function
This command is used to query all the main node alarm settings in the system.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 31 of 591
2. Syntax structure
ANAQ;
3. Parameter description
None.
1.3.1.19 ANMC
1. Command function
This command is used to create a new main node alarm template.
2. Syntax structure
ANMC: TMPNO: ND1ACLS, ND1ACNT, ND2ACLS, ND2ACNT, ND3ACLS, ND3ACNT, ND4ACLS, ND4ACNT, ND5ACLS, ND5ACNT, ND6ACLS, ND6ACNT, ND7ACLS, ND7ACNT, ND8ACLS, ND8ACNT, ND9ACLS, ND9ACNT, ND10ACLS, ND10ACNT, ND11ACLS, ND11ACNT, ND12ACLS, ND12ACNT;
3. Parameter description
1) TMPNO (Template No): the number of the main node alarm template to be created. Signless integer, value range: 1~16.
2) NDiACLS (Node i's Alarm Class): the alarm class of node i (i is from 1 to 12). Signless integer, value range: 1~4, the default value is NULL.
3) NDiACNT (Node i's Alarm Content): the alarm content if node i (i is from 1 to 12).Character string type, the default value is NULL.
1.3.1.20 ANMD
1. Command function
This command is used to delete a main node alarm template.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 32 of 591
2. Syntax structure
ANMD: TEMPNOS;
3. Parameter description
TEMPNOS (Template No): the template number of the main node. Signless integer, value range: 1~16.
1.3.1.21 ANMM
1. Command function
This command is used to modify a main node alarm template.
2. Syntax structure
ANMM: TMPNO: ND1ACLS, ND1ACNT, ND2ACLS, ND2ACNT, ND3ACLS, ND3ACNT, ND4ACLS, ND4ACNT, ND5ACLS, ND5ACNT, ND6ACLS, ND6ACNT, ND7ACLS, ND7ACNT, ND8ACLS, ND8ACNT, ND9ACLS, ND9ACNT, ND10ACLS, ND10ACNT, ND11ACLS, ND11ACNT, ND12ACLS, ND12ACNT;
3. Parameter description
1) TMPNO (Template NO): the number of the main node alarm template to be modified. Signless integer, value range: 1~16.
2) NDiACLS (Node i's Alarm Class): the alarm class of node i (i is from 1 to 12). Signless integer, value range: 0~4, the default value is NULL. Among them, 0 represents deleting the main node alarm, NULL represents no modification to the main node alarm.
3) NDiACNT (Node i's Alarm Content): the alarm content if node i (i is from 1 to 12).Character string type, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 33 of 591
1.3.1.22 ANRQ
1. Command function
This command is used to query the notification for a specified object and notification code..
2. Syntax structure
ANRQ: NotiObj, NotiCode, BgnDay, BgnTime, EndDay, EndTime;
3. Parameter description
1) NotiObj: for specifying the notification object that reports notification when any notification occurs. Composite signless integer.
2) NotiCode: for specifying notification code. Composite signless integer, value range: 0~65535.
3) BgnDay: starting date for querying. Date type.
4) BgnTime: starting time for querying. Time type.
5) EndDay: ending date for querying. Date type.
6) EndTime: ending time for querying. Time type.
1.3.1.23 ASAD
1. Command function
This command is used to update the knowledge database for a specified alarm code.
2. Syntax structure
ASAD: AlmCode, UserDes;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 34 of 591
3. Parameter description
1) AlmCode: the alarm code updated by the user. Signless integer, value range: 0~65535.
2) UserDes: the solution of the user to this alarm code. Character string type.
1.3.1.24 ASBM
1. Command function
This command is used to set the clock reference for a specified SYCK board.
2. Syntax structure
ASBM: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): CLKBASE;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the board for setting the clock reference. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the board for setting the clock reference. Character string type.
3) RACKNO (Rack No): the rack number of the board for setting the clock reference. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the board for setting the clock reference. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the board for setting the clock reference. Signless integer, value range: 1~27.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 35 of 591
6) CLKBASE (Clock Base): the clock reference of SYCK. Signless integer, value range: 0~3.
1.3.1.25 ASDL
1. Command function
This command is used to perform off-line operation for a specified MP board.
2. Syntax structure
ASDL: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the MP board for off-line operation. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the board for off-line operation. Character string type.
3) RACKNO (Rack No): the rack number of the MP board for off-line operation Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the MP board for off-line operation. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the MP board for off-line operation. Signless integer, value range: 1~27.
1.3.1.26 ASDN
1. Command function
This command is used to disable changeover for a specified SYCK board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 36 of 591
ASDN: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the SYCK board for disabling changeover. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the SYCK board for disabling changeover. Character string type.
3) RACKNO (Rack No): the rack number of the SYCK board for disabling changeover. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the SYCK board for disabling changeover. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the SYCK board for disabling changeover. Signless integer, value range: 1~27.
1.3.1.27 ASDR
1. Command function
This command is used to reset a specified board in MP and PP.
2. Syntax structure
ASDR: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the board for resetting. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the board for resetting. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 37 of 591
3) RACKNO (Rack No): the rack number of the board for resetting. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the board for resetting. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the board for resetting. Signless integer, value range: 1~27.
1.3.1.28 ASDT
1. Command function
This command is used to perform de-offline operation for a specified MP board..
2. Syntax structure
ASDT: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the MP board for de-offline operation. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the MP board for de-offline operation. Character string type.
3) RACKNO (Rack No): the rack number of the MP board for de-offline operation. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the MP board for de-offline operation. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the MP board for de-offline operation. Signless integer, value range: 1~27.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 38 of 591
1.3.1.29 ASDW
1. Command function
This command is used to perform active/standby changeover for a specified board among MP, PP, SYCK and DSNI.
2. Syntax structure
ASDW: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the board for active/standby changeover. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the board for active/standby changeover. Character string type.
3) RACKNO (Rack No): the rack number of the board for active/standby changeover. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the board for active/standby changeover. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the board for active/standby changeover. Signless integer, value range: 1~27.
1.3.1.30 ASDY
1. Command function
This command is used to allow changeover for a specified SYCK board.
2. Syntax structure
ASDY: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 39 of 591
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the SYCK board for allowing changeover. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the SYCK board for allowing changeover. Character string type.
3) RACKNO (Rack No): the rack number of the SYCK board for allowing changeover. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the SYCK board for allowing changeover. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the SYCK board for allowing changeover. Signless integer, value range: 1~27.
1.3.1.31 ASRD
1. Command function
This command is used to update the knowledge database of a specified alarm reason code.
2. Syntax structure
ASRD: RsnCode, UserDes;
3. Parameter description
1) RsnCode: the alarm reason code updated by the user. Signless integer, value range: 0~65535.
2) UserDes: the description of the alarm reason code given by the user. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 40 of 591
1.3.1.32 ASSP
1. Command function
This command is used to modify the dump parameter.
2. Syntax structure
ASSP: SaveDay, SavePrd, SaveTime, Flag;
3. Parameter description
1) SaveDay: for specifying how long the data will be saved in the local database.. Signless integer, value range: 30~180, the default is 90 days.
2) SavePrd: the automatic dumping period of the database (day). Signless integer, value range: 1~60, the default is 20 days.
3) SaveTime: the time for dumping each time. Time type, the default value is 1-00.
4) Flag: automatic dumping flag. Signless integer, value range: 1~2, the default is 1.
1.3.1.33 ASTA
1. Command function
This command is used to query alarm statistic information.
2. Syntax structure
ASTA: STATYPE, STACOUNT, ISCLEAR, ISFILTER, ALMOBJ, ALMCLS, BGNDAY, BGNTIME, ENDDAY, ENDTIME, FLAG;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 41 of 591
1) STATYPE: for specifying alarm statistic type. Signless integer, value range: 0~2, it must be 0 at present (frequency statistics).
2) STACOUNT: for specifying to take statistics only for the number of alarms that occur most frequently, 0 means to take statistics for all. Signless integer, value range: 0~65535.
3) ISCLEAR: for specifying whether to clear. Signless integer, value range: 0~2, in which 0: not to clear, 1: to clear, 2: to clear and not to clear.
4) ISFILTER: for specifying whether to filter. Signless integer, value range: 0~2, in which, 0: not to filter, 1: to filter, 2: to filter and not to filter.
5) ALMOBJ: for specifying the alarm object. Character string type.
6) ALMCLS: for specifying alarm class. Composite signless integer, value range: 1~4, separated with &, e.g., 1&2&3.
7) BGNDAY: starting date for querying. Date type.
8) BGNTIME: starting time for querying. Time type.
9) ENDDAY: ending date for querying. Date type.
10) ENDTIME: ending time for querying. Time type.
1.3.1.34 ATDR
1. Command function
To perform remote resetting for a specified BTS Site or board.
2. Syntax structure
ATDR: EBSSID, {ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 42 of 591
1) EBSSID (BSS Equipment ID): the BSS ID number of the BTS Site or board for remote resetting . Signless integer, value range: 1~255.
2) ESITEID (Site Equipment ID): the site ID number of the BTS Site or board for remote resetting . Signless integer, value range: 1~1024.
3) ESITENM (Site Equipment Name): the site alias of the BTS Site or board for remote resetting . Character string type.
4) RACKNO (Rack No): the rack number of the BTS board for remote resetting. Signless integer, value range: 1~15, the default value is NULL.
5) SHELFNO (Shelf No): the shelf number of the BTS board for remote resetting. Signless integer, value range: 1~6, the default value is NULL.
6) PANELNO (Panel No): the slot number of the BTS board for remote resetting. Signless integer, value range: 1~27, the default value is NULL.
1.3.1.35 ATHM
1. Command function
This command is used to set the temperature and humidity alarms of a specified BSC module, including the upper and lower limits of normal temperature and humidity.
2. Syntax structure
ATHM: {EBSCID, EBSCNAME}, MODULENO: TEMPLOW, tEMPUP, HUMIDLOW, HUMIDUP;
3. Parameter description
1) EBSCID (BSC Equipment ID): the ID number of the BSC for setting temperature and humidity alarms. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the alias of the BSC for setting temperature and humidity alarms. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 43 of 591
3) MODULENO (Module No): the module number for setting temperature and humidity alarms. Signless integer, value range: 1~64.
4) TEMPLOW (Low Temperature): lower limit of normal temperature. temperature type, value range: 0.0~45.0.
5) TEMPUP (High Temperature): upper limit of normal temperature. temperature type, value range: 0.0~45.0.
6) HUMIDLOW (Low Humidity): lower limit of normal humidity. Percent type, value range: 20.0% to 80.0%.
7) HUMIDUP (High Humidity): upper limit of normal humidity. Percent type, value range: 20.0% to 80.0%.
1.3.1.36 FBCC
1. Command function
This command specifies an alarm filter rule for a specified BSC board MO to filter the alarms of the specified code in the specified BSC board MO.
2. Syntax structure
FBCC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): ALMCODE, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the filter object MO. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the filter object MO. Character string type.
3) RACKNO (Rack No): the rack number of the filter object MO. Signless integer, value range: 1~15.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 44 of 591
4) SHELFNO (Shelf No): the shelf number of the filter object MO. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the filter object MO. Signless integer, value range: 1~27.
6) ALMCLASS (Alarm Class): the alarm code of the filter action. Signless integer, value range: 0~65535.
7) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
8) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
9) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.37 FBLC
1. Command function
This command sets up an alarm filter rule for a specified BSC board MO to filter the alarms of the specified class in the specified BSC board MO.
2. Syntax structure
FBLC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): ALMCLASS, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the filter object MO. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 45 of 591
2) EBSCNAME (BSC Equipment Name): the BSC alias of the filter object MO. Character string type.
3) RACKNO (Rack No): the rack number of the filter object MO. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the filter object MO. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the filter object MO. Signless integer, value range: 1~27.
6) ALMCODE (Alarm Code): the alarm code of the filter action. Signless integer, value range: 0~65535.
7) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
8) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
9) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.38 FBNC
1. Command function
This command sets up an alarm filter rule for a specified BSC board MO to filter the alarms of the specified BSC board MO.
2. Syntax structure
FBNC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): FILMODE, ACKMODE, RLSTATUS;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 46 of 591
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the filter object MO. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the filter object MO. Character string type.
3) RACKNO (Rack No): the rack number of the filter object MO. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the filter object MO. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the filter object MO. Signless integer, value range: 1~27.
6) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
7) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
8) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.39 FCBC
1. Command function
This command sets up a merging correlation rule for the alarms of a specified code in a specified BSC board MO.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 47 of 591
FCBC: {EBSCID, EBSCNAME} [, RACKNO, SHELFNO, SLOTNO]: ALMCODE [, RLMEMO], RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the filter object MO. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the filter object MO. Character string type.
3) RACKNO (Rack No): the rack number of the filter object MO. Signless integer, value range: 1~15.
4) SHELFNO (Shelf No): the shelf number of the filter object MO. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): the slot number of the filter object MO. Signless integer, value range: 1~27.
6) ALMCODE (Alarm Code): the alarm code of the filter action. Signless integer, value range: 0~65535.
7) RLMEMO: rule memo. Character string type, the default value is NULL.
8) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.40 FCMC
1. Command function
This command sets up a merging correlation rule for the alarms of a specified code in OMCR.
2. Syntax structure
FCMC: OMCRID: ALMCODE [, RLMEMO], RLSTATUS;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 48 of 591
3. Parameter description
1) OMCRID (OMCR ID): OMCR ID number of the merging object. Signless integer, value range: 1, the default value is 1.
2) ALMCODE (Alarm Code): alarm code of the merging action. Signless integer, value range: 32768 to 65535.
3) RLMEMO: rule memo. Character string type, the default value is NULL.
4) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.41 FCOC
1. Command function
This command sets up a merging correlation rule for the alarms of a specified code in a specified other type of MO of BSC (including BSC, module and PCM line).
2. Syntax structure
FCOC: {EBSCID, EBSCNAME}, MODULENO [, MUNITNO, UNITNO, PCMNO]: ALMCODE, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): BSC ID number of the merging object MO. Signless integer, value range: 1~255, the default value is NULL.
2) EBSCNAME (BSC Equipment Name): BSC alias of the merging object MO. Character string type, the default value is NULL.
3) MODULENO (Module No): module number of the merging object MO. Signless integer, value range: 1~64, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 49 of 591
4) MUNITNO (Multi-Unit No): multi-unit number of the merging object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNO (Unit No): unit number of the merging object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNO (PCM No): PCM number of the merging object MO. Signless integer, value range: 1~4, the default value is NULL.
7) ALMCODE (Alarm Code): alarm code of the merging action. Signless integer, value range: 0~65535.
8) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.42 FCRM
1. Command function
This command is used to modify a specified alarm merging correlation rule.
2. Syntax structure
FCRM: RULEID: RLMEMO, RLSTATUS;
3. Parameter description
1) RULEID (Rule ID): the ID number of the alarm merging correlation rule to be modified. Signless integer, value range: 1~65535.
2) RLMEMO: rule memo. Character string type, the default value is NULL.
3) RLSTATUS (Rule Status): new rule status. Signless integer, value range: 0, 1. The default value is NULL.
1.3.1.43 FCTC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 50 of 591
This command sets up a merging correlation rule for the alarms of a specified code in a specified MO of BTS.
2. Syntax structure
FCTC: BSSID {, SITEID, SITENAME}{, BTSID, BTSNAME} {, tRXID, RCID} [, CHID]: ALMCODE [, RLMEMO], RLSTATUS;
3. Parameter description
1) BSSID (BSS ID): BSS ID number of the merging object MO. Signless integer, value range: 1~255, the default value is NULL.
2) SITEID (Site ID): site ID number of the merging object MO. Signless integer, value range: 1~1024, the default value is NULL.
3) SITENAME (Site Name): site alias of the merging object MO. Character string type, the default value is NULL.
4) BTSID (BTS ID): BTS ID number of the merging object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAME (BTS Name): BTS alias of the merging object MO. Character string type, the default value is NULL.
6) TRXID (Transceiver ID): FU ID number of the merging object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCID (Radio Carrier ID): CU ID number of the merging object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHID (Channel ID): channel ID number of the merging object MO. Signless integer, value range: 0~7, the default value is NULL.
9) ALMCODE (Alarm Code): alarm code of the merging action. Signless integer, value range: 0~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 51 of 591
10) RLMEMO: rule memo. Character string type, the default value is NULL.
11) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.44 FFCC
1. Command function
This command sets up a alarm filter rule to filter the alarms of a specified code for a specified MOC.
2. Syntax structure
FFCC: MOCNAME: ALMCODE, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) MOCNAME (MOC Name): MOC name of the filter object. Character string type.
2) ALMCODE (Alarm Code): the alarm code of the filter action. Signless integer, value range: 0~65535.
3) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
4) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
5) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 52 of 591
1.3.1.45 FFLC
1. Command function
This command sets up a alarm filter rule to filter the alarms of a specified class for a specified MOC.
2. Syntax structure
FFLC: MOCNAME: ALMCLASS, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) MOCNAME (MOC Name): MOC name of the filter object. Character string type.
2) ALMCLASS (Alarm Class): alarm class of the filter action. Signless integer, value range: 1~4.
3) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
4) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
5) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.46 FFNC
1. Command function
This command sets up a alarm filter rule to filter a specified MOC.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 53 of 591
FFNC: MOCNAME: FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) MOCNAME (MOC Name): MOC name of the filter object. Character string type.
2) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
3) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
4) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.47 FFRM
1. Command function
This command is used to modify a specified alarm filter rule.
2. Syntax structure
FFRM: RULEID: NFILMODE, NACKMODE, RLSTATUS;
3. Parameter description
1) RULEID (Rule ID): the ID number of the alarm filter rule to be modified. Signless integer, value range: 1~65535.
2) NFILMODE (New Filter Mode): new filter mode. Signless integer, value range: 0, 1. The default value is NULL. Among them, : 0: displaying filter; 1: database filter.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 54 of 591
3) NACKMODE (Acknowledge Mode): new acknowledgement mode. Signless integer, value range: 0~2, the default value is NULL. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
4) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is NULL. Among them, : 0: activated state; 1: inactivated state.
1.3.1.48 FMCC
1. Command function
This command sets up a alarm filter rule to filter the alarms of a specified code for a specified OMCR..
2. Syntax structure7
FMCC: OMCRID: ALMCODE, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) OMCRID (OMCR ID): the OMCR ID number of the filter object. Signless integer, value range: 1, the default value is 1.
2) ALMCODE (Alarm Code): the alarm code of the filter action. Signless integer, value range: 32768 to 65535.
3) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
4) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
5) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 55 of 591
1.3.1.49 FMLC
1. Command function
This command sets up a alarm filter rule to filter the alarms of a specified class for a specified OMCR.
2. Syntax structure
FMLC: OMCRID: ALMCLASS, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) OMCRID (OMCR ID): the OMCR ID number of the filter object. Signless integer, value range: 1, the default value is 1.
2) ALMCODE (Alarm Code): the alarm code of the filter action. Signless integer, value range: 32768 to 65535.
3) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
4) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
5) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.50 FMNC
1. Command function
This command sets up a alarm filter rule to filter a specified OMCR.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 56 of 591
FMNC: OMCRID: FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) OMCRID (OMCR ID): the OMCR ID number of the filter object. Signless integer, value range: 1, the default value is 1.
2) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
3) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
4) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.51 FNBC
1. Command function
This command sets up a counting correlation rule for the alarms of a specified code in a specified board MO of BSC.
2. Syntax structure
FNBC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): ALMCODE, CNTNUM, CNTTMLEN: NALMCODE, NALMCLS, NALMTEXT, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): BSC ID number of the counting object MO. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC alias of the counting object MO. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 57 of 591
3) RACKNO (Rack No): rack number of the counting object MO. Signless integer, value range: 1~15.
4) SHELFNO: shelf number of the counting object MO. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): slot number of the counting object MO. Signless integer, value range: 1~27.
6) ALMCODE (Alarm Code): alarm code of the counting action. Signless integer, value range: 0~65535.
7) CNTNUM (Count Number): the original alarm count number for generating new alarms. Signless integer, value range: 1~65535.
8) CNTTMLEN (Count Time Length): time length for alarm count to happen (unit: second). Signless integer, value range: 1~65535.
9) NALMCODE (New Alarm Code): the code of the newly generated alarm. Signless integer, value range: 65280~65344.
10) NALMCLS (New Alarm Class): the class of the newly generated alarm. Signless integer, value range: 1~4.
11) NALMTXT (New Alarm Text): the content of the newly generated alarm. Character string type.
12) RLMEMO: rule memo. Character string type, the default value is NULL.
13) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.52 FNMC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 58 of 591
This command sets up a counting correlation rule for the alarms of a specified code in OMCR.
2. Syntax structure
FNMC: OMCRID: ALMCODE, CNTNUM, CNTTMLEN: ALMCODE, NALMCLS, NALMTXT, RLMEMO, RLSTATUS;
3. Parameter description
1) OMCRID (OMCR ID): OMCR ID number of the counting object. Signless integer, value range: 1, the default value is 1.
2) ALMCODE (Alarm Code): alarm code of the counting action. Signless integer, value range: 0~65535.
3) CNTNUM (Count Number): the original alarm count number for generating new alarms. Signless integer, value range: 1~65535.
4) CNTTMLEN (Count Time Length): time length for alarm count to happen (unit: second). Signless integer, value range: 1~65535.
5) NALMCODE (New Alarm Code): the code of the newly generated alarm. Signless integer, value range: 65280~65344.
6) NALMCLS (New Alarm Class): the class of the newly generated alarm. Signless integer, value range: 1~4.
7) NALMTXT (New Alarm Text): the content of the newly generated alarm. Character string type.
8) RLMEMO: rule memo. Character string type, the default value is NULL.
9) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 59 of 591
1.3.1.53 FNOC
1. Command function
This command sets up a counting correlation rule for the alarms of a specified code in a specified other type of BSC MO (including BSC, module and PCM line).
2. Syntax structure
FNOC: {EBSCID, EBSCNAME}, MODULENO [, MUNITNO, UNITNO, PCMNO]: ALMCODE, CNTNUM, CNTTMLEN: NALMCODE, NALMCLS, NALMTEXT, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): BSC ID number of the merging object MO. Signless integer, value range: 1~255, the default value is NULL.
2) EBSCNAME (BSC Equipment Name): BSC alias of the merging object MO. Character string type, the default value is NULL.
3) MODULENO (Module No): module number of the merging object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNO (Multi-Unit No): multi-unit number of the merging object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNO (Unit No): unit number of the merging object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNO (PCM No): PCM number of the merging object MO. Signless integer, value range: 1~4, the default value is NULL.
7) ALMCODE (Alarm Code): alarm code of the merging action. Signless integer, value range: 0~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 60 of 591
8) CNTNUM (Count Number): the original alarm count number for generating new alarms. Signless integer, value range: 1~65535.
9) CNTTMLEN (Count Time Length): time length for alarm count to happen (unit: second). Signless integer, value range: 1~65535.
10) NALMCODE (New Alarm Code): the code of the newly generated alarm. Signless integer, value range: 65280~65344.
11) NALMCLS (New Alarm Class): the class of the newly generated alarm. Signless integer, value range: 1~4.
12) NALMTXT (New Alarm Text): the content of the newly generated alarm. Character string type.
13) RLMEMO: rule memo. Character string type, the default value is NULL.
14) RLSTATUS: rule status.
1.3.1.54 FNRM
1. Command function
This command is used to modify a specified alarm counting correlation rule.
2. Syntax structure
FNRM: RULEID: CNTNUM, CNTTMLEN, NALMCODE, NALMCLS, NALMTEXT, RLMEMO, RLSTATUS;
3. Parameter description
1) RULEID (Rule ID): ID number of the counting correlation rule. Signless integer, value range: 0~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 61 of 591
2) CNTNUM (Count Number): the original alarm count number for generating new alarms. Signless integer, value range: 1~65535.
3) CNTTMLEN (Count Time Length): time length for alarm count to happen (unit: second). Signless integer, value range: 1~65535.
4) NALMCODE (New Alarm Code): the code of the newly generated alarm. Signless integer, value range: 65280~65344.
5) NALMCLS (New Alarm Class): the class of the newly generated alarm. Signless integer, value range: 1~4.
6) NALMTXT (New Alarm Text): the content of the newly generated alarm. Character string type.
7) RLMEMO: rule memo. Character string type, the default value is NULL.
8) RLSTATUS: rule status.
1.3.1.55 FNTC
1. Command function
This command sets up a counting correlation rule for the alarms of a specified code in a specified MO of BTS.
2. Syntax structure
FNTC: BSSID {, SITEID, SITENAME}{, BTSID, BTSNAME} {, tRXID, RCID} [, CHID]: ALMCODE, CNTNUM, CNTTMLEN: NALMCODE, NALMCLS, NALMTEXT, RLMEMO, RLSTATUS;
3. Parameter description
1) BSSID (BSS ID): BSS ID number of the counting object MO. Signless integer, value range: 1 to 255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 62 of 591
2) SITEID (Site ID): Site ID number of the counting object MO. Signless integer, value range: 1 to 1024.
3) SITENAME (Site Name): Site alias of the counting object MO. Character string type.
4) BTSID (BTS ID): BTS ID number of the counting object MO. Signless integer, value range: 1 to 3, the default value is NULL.
5) BTSNAME (BTS Name): BTS alias of the counting object MO. Character string type, the default value is NULL.
6) TRXID (Transceiver ID): FU ID number of the counting object MO. Signless integer, value range: 1 to 32, the default value is NULL.
7) RCID (Radio Carrier ID): CU ID number of the counting object MO. Signless integer, value range: 1 to 32, the default value is NULL.
8) CHID (Channel ID): Channel ID number of the counting object MO. Signless integer, value range: 0 to 7, the default value is NULL.
9) ALMCODE (Alarm Code): alarm code of the merging action. Signless integer, value range: 0~65535.
10) CNTNUM (Count Number): the original alarm count number for generating new alarms. Signless integer, value range: 1~65535.
11) CNTTMLEN (Count Time Length): time length for alarm count to happen (unit: second). Signless integer, value range: 1~65535.
12) NALMCODE (New Alarm Code): the code of the newly generated alarm. Signless integer, value range: 65280~65344.
13) NALMCLS (New Alarm Class): the class of the newly generated alarm. Signless integer, value range: 1~4.
14) NALMTEXT (New Alarm Text): the content of the newly generated alarm. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 63 of 591
15) RLMEMO: rule memo. Character string type, the default value is NULL.
16) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.56 FOCC
1. Command function
This command sets up an alarm filter rule for a specified other type of BSC MO (including BSC, module and PCM line) to filter the alarm of a specified code in a specified other type of BSC MO.
2. Syntax structure
FOCC: {EBSCID, EBSCNAME}, MODULENO [, MUNITNO, UNITNO, PCMNO]: ALMCODE, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): BSC ID number of the merging object MO. Signless integer, value range: 1~255, the default value is NULL.
2) EBSCNAME (BSC Equipment Name): BSC alias of the merging object MO. Character string type, the default value is NULL.
3) MODULENO (Module No): module number of the merging object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNO (Multi-Unit No): multi-unit number of the merging object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNO (Unit No): unit number of the merging object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNO (PCM No): PCM number of the merging object MO. Signless integer, value range: 1~4, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 64 of 591
7) ALMCODE (Alarm Code): alarm code of the merging action. Signless integer, value range: 0~65535.
8) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
9) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
10) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.57 FOLC
1. Command function
This command sets up an alarm filter rule for a specified other type of BSC MO (including BSC, module and PCM line) to filter the alarm of a specified class in a specified other type of BSC MO.
2. Syntax structure
FOLC: {EBSCID, EBSCNAME}, MODULENO [, MUNITNO, UNITNO, PCMNO]: ALMCLASS, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the filter object MO. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the filter object MO. Character string type.
3) MODULENO (Module No): module number of the filter object MO. Signless integer, value range: 1~64, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 65 of 591
4) MUNITNO (Multi-Unit No): multi-unit number of the filter object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNO (Unit No): unit number of the filter object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNO (PCM No): PCM number of the filter object MO. Signless integer, value range: 1~4, the default value is NULL.
7) ALMCLASS (Alarm Class): alarm class of the filter action. Signless integer, value range: 1~4.
8) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
9) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
10) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.58 FONC
1. Command function
This command sets up an alarm filter rule for a specified other type of BSC MO (including BSC, module and PCM line) to filter the alarm of a specified other type of BSC MO.
2. Syntax structure
FONC: {EBSCID, EBSCNAME}, MODULENO [, MUNITNO, UNITNO, PCMNO]: FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 66 of 591
1) EBSCID (BSC Equipment ID): the BSC ID number of the filter object MO. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): the BSC alias of the filter object MO. Character string type.
3) MODULENO (Module No): module number of the filter object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNO (Multi-Unit No): multi-unit number of the filter object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNO (Unit No): unit number of the filter object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNO (PCM No): PCM number of the filter object MO. Signless integer, value range: 1~4, the default value is NULL.
7) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
8) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
9) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.59 FRBC
1. Command function
This command sets up a reclassification rule for the alarm of a BSC board to redefine the class of a specified alarm code for a board MO of BSC..
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 67 of 591
FRBC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): ALMCODE, NALMCLS, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): BSC ID number of the reclassification object MO. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC alias of the reclassification object MO. Character string type.
3) RACKNO (Rack No): rack number of the reclassification object MO. Signless integer, value range: 1~15.
4) SHELFNO: shelf number of the reclassification object MO. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): slot number of the reclassification object MO. Signless integer, value range: 1~27.
6) ALMCODE (Alarm Code): code of the alarm for redefining the alarm class. Signless integer, value range: 32768 to 65535.
7) NALMCLS (New Alarm Class): the redefined new alarm class. Signless integer, value range: 1~4.
8) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.60 FRCC
1. Command function
This command sets up an alarm reclassification rule to redefine the class of a specified alarm for a specified MOC or redefine the class of a specified alarm code.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 68 of 591
FRCC: MOCNAME: ALMCODE, NALMCLS, RLSTATUS;
3. Parameter description
1) MOCNAME (MOC Name): MOC name of the reclassification object. Character string type, the default value is NULL.
2) ALMCODE (Alarm Code): code of the alarm for redefining the alarm class. Signless integer, value range: 32768 to 65535.
3) NALMCLS (New Alarm Class): the redefined new alarm class. Signless integer, value range: 1~4.
4) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.61 FRCD
1. Command function
This command deletes a specified alarm reclassification rule.
2. Syntax structure
FRCD: RULEIDS;
3. Parameter description
RULEIDS (Rule ID): the ID number of the alarm reclassification rule to be deleted. Signless integer, value range: 1~65535.
1.3.1.62 FRCQ
1. Command function
This command is used to query all alarm reclassification rules.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 69 of 591
FRCQ;
3. Parameter description
None.
1.3.1.63 FRFD
1. Command function
This command is used to delete a specified alarm filter rule .
2. Syntax structure
FRFD: RULEIDS;
3. Parameter description
RULEIDS (Rule IDs): the ID number of the alarm filter rule to be deleted. Signless integer, value range: 1~65535.
1.3.1.64 FRFQ
1. Command function
This command is used to query all alarm filter rules.
2. Syntax structure
FRFQ;
3. Parameter description
None.
1.3.1.65 FRMC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 70 of 591
This command sets up an alarm reclassification rule to redefine the class of a specified alarm for a specified OMCR MO (or for an alarm code).
2. Syntax structure
FRMC: OMCRID: ALMCODE, NALMCLS, RLSTATUS;
3. Parameter description
1) OMCRID (OMCR ID): OMCR ID number of the reclassification object. Signless integer, value range: 1, the default value is 1.
2) ALMCODE (Alarm Code): the code of the alarm for redefining alarm class. Signless integer, value range: 32768 to 65535.
3) NALMCLS (New Alarm Class): the redefined new alarm class. Signless integer, value range: 1~4.
4) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.66 FROC
1. Command function
This command sets up an alarm reclassification rule for BSC, to redefine the class of a specified alarm for a specified other type of BSC MO (including BSC, module and PCM line).
2. Syntax structure
FROC: {EBSCID, EBSCNAME}, MODULENO [, MUNITNO, UNITNO, PCMNO]: ALMCODE, NALMCLS, RLSTATUS;
3. Parameter description
1) EBSCID (BSC Equipment ID): the BSC ID number of the filter object MO. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 71 of 591
2) EBSCNAME (BSC Equipment Name): the BSC alias of the filter object MO. Character string type.
3) MODULENO (Module No): module number of the filter object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNO (Multi-Unit No): multi-unit number of the filter object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNO (Unit No): unit number of the filter object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNO (PCM No): PCM number of the filter object MO. Signless integer, value range: 1~4, the default value is NULL.
7) ALMCODE (Alarm Code): the code of the alarm for redefining alarm class. Signless integer, value range: 32768 to 65535.
8) NALMCLS (New Alarm Class): the redefined new alarm class. Signless integer, value range: 1~4.
9) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.67 FRRD
1. Command function
This command is used to delete a specified alarm correlation rule.
2. Syntax structure
FRRD: RULEIDS;
3. Parameter description
RULEIDS (Rule IDs): the ID number of the alarm correlation rule to be deleted. Signless integer, value range: 1~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 72 of 591
1.3.1.68 FRRM
1. Command function
This command is used to modify a specified alarm reclassification rule.
2. Syntax structure
FRRM: RULEID: NEWCLASS, RLSTATUS;
3. Parameter description
1) RULEID (Rule ID): the ID number of the alarm reclassification rule to be modified. Signless integer, value range: 1~65535.
2) NEWCLASS (New Class): the redefined new alarm class. Signless integer, value range: 1~4, the default value is NULL.
3) RLSTATUS (Rule Status): new rule status. Signless integer, value range: 0, 1. The default value is NULL. Among them, : 0: activated state; 1: inactivated state.
1.3.1.69 FRRQ
1. Command function
This command is used to query all alarm correlation rules.
2. Syntax structure
FRRQ;
3. Parameter description
None.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 73 of 591
1.3.1.70 FRTC
1. Command function
This command sets up an alarm reclassification rule for BTS, to redefine the class of a specified alarm for a specified BTS MO..
2. Syntax structure
FRTC: BSSID{, SITEID, SITENAME}{, BTSID, BTSNAME} {, tRXID, RCID} [, CHID]: ALMCODE, NALMCLS, RLSTATUS;
3. Parameter description
1) BSSID (BSS ID): BSS ID number of the reclassification object MO. Signless integer, value range: 1~255.
2) SITEID (Site ID): Site ID number of the reclassification object MO. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): Site alias of the reclassification object MO. Character string type.
4) BTSID (BTS ID): BTS ID number of the reclassification object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAME (BTS Name): BTS alias of the reclassification object MO. Character string type, the default value is NULL.
6) TRXID (Transceiver ID): FU ID number of the reclassification object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCID (Radio Carrier ID): CU ID number of the reclassification object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHID (Channel ID): Channel ID number of the reclassification object MO. Signless integer, value range: 0~7, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 74 of 591
9) ALMCODE (Alarm Code): the code of the alarm for redefining alarm class. Signless integer, value range: 32768 to 65535.
10) NALMCLS (New Alarm Class): the redefined new alarm class. Signless integer, value range: 1~4.
11) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.71 FSAC
1. Command function
This command sets up an correlation rule of alarm suppression, with BSC board MO as the object for main alarm A and BTS logic MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSAC: {EBSCIDA, EBSCNMA}, RACKNOA, SHELFNOA, SLOTNOA: ALMCODEA: BSSIDB {, SITEIDB, SITENMB}{, BTSIDB, BTSNAMEB}{, tRXIDB, RCIDB}[, CHIDB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) EBSCNMA (BSC Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) RACKNOA (Rack No of Alarm A): rack number of the main alarm object MO. Signless integer, value range: 1~15.
4) SHELFNOA (Shelf No of Alarm A): shelf number of the main alarm object MO. Signless integer, value range: 1~6.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 75 of 591
5) SLOTNOA (Slot No of Alarm A): slot number of the main alarm object MO. Signless integer, value range: 1~27.
6) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
7) BSSIDB (BSS ID of Alarm B): BSS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
8) SITEIDB (Site ID of Alarm B): site ID number of the auxiliary alarm object MO. Signless integer, value range: 1~1024.
9) SITENMB (Site Name of Alarm B): site alias of the auxiliary alarm object MO. Character string type.
10) BTSIDB ( BTS ID of Alarm B): BTS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
11) BTSNAMEB ( BTS Name of Alarm B): BTS alias of the auxiliary alarm object MO. Character string type, the default value is NULL.
12) TRXIDB (Transceiver ID of Alarm B): FU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
13) RCIDB (Radio Carrier ID of Alarm B): CU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
14) CHIDB (Channel ID of Alarm B): channel ID number of the auxiliary alarm object MO. Signless integer, value range: 0~7, the default value is NULL.
15) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 76 of 591
16) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
17) RLMEMO: rule memo. Character string type, the default value is NULL.
18) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.72 FSBC
1. Command function
This command sets up an correlation rule of alarm suppression, with BSC board MO as the object for both main alarm A and auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSBC: {EBSCIDA, EBSCNMA}, RACKNOA, SHELFNOA, SLOTNOA: ALMCODEA: {EBSCIDB, EBSCNMB}, RACKNOB, SHELFNOB, SLOTNOB: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) EBSCNMA (BSC Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) RACKNOA (Rack No of Alarm A): rack number of the main alarm object MO. Signless integer, value range: 1~15.
4) SHELFNOA (Shelf No of Alarm A): shelf number of the main alarm object MO. Signless integer, value range: 1~6.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 77 of 591
5) SLOTNOA (Slot No of Alarm A): slot number of the main alarm object MO. Signless integer, value range: 1~27.
6) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
7) EBSCIDB (BSC Equipment ID of Alarm A): BSC ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
8) EBSCNMB (BSC Name of Alarm A): BSC alias of the auxiliary alarm object MO. Character string type.
9) RACKNOB (Rack No of Alarm A): rack number of the auxiliary alarm object MO. Signless integer, value range: 1~15.
10) SHELFNOB (Shelf No of Alarm A): shelf number of the auxiliary alarm object MO. Signless integer, value range: 1~6.
11) SLOTNOB ( Slot No of Alarm A): slot number of the auxiliary alarm object MO. Signless integer, value range: 1~27.
12) ALMCODEB (Alarm Code of Alarm A): code of the auxiliary alarm. Signless integer, value range: 0~65535.
13) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
14) RLMEMO: rule memo. Character string type, the default value is NULL.
15) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.73 FSCC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 78 of 591
This command sets up an correlation rule of alarm suppression, with BSC logic MO as the object for main alarm A and BTS logic MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSCC: {EBSCIDA, EBSCNMA}, MODLNOA [, MUNITNOA, UNITNOA, PCMNOA]: ALMCODEA: BSSIDB {, SITEIDB, SITENMB}{, BTSIDB, BTSNAMEB} {, tRXIDB, RCIDB} [, CHIDB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) EBSCNMA (BSC Equipment Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) MODLNOA (Module No of Alarm A): module number of the main alarm object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNOA (Multi-Unit No of Alarm A): multi-unit number of the main alarm object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNOA (Unit No of Alarm A): unit number of the main alarm object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNOA (PCM No of Alarm A): PCM number of the main alarm object MO. Signless integer, value range: 1~4, the default value is NULL.
7) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
8) BSSIDB (BSS ID of Alarm B): BSS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 79 of 591
9) SITEIDB (Site ID of Alarm B): site ID number of the auxiliary alarm object MO. Signless integer, value range: 1~1024.
10) SITENMB (Site Name of Alarm B): site alias of the auxiliary alarm object MO. Character string type, the default value is NULL.
11) BTSIDB ( BTS ID of Alarm B): BTS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
12) BTSNAMEB ( BTS Name of Alarm B): BTS alias of the auxiliary alarm object MO. Character string type, the default value is NULL.
13) TRXIDB (Transceiver ID of Alarm B): FU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
14) RCIDB (Radio Carrier ID of Alarm B): CU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
15) CHIDB (Channel ID of Alarm B): channel ID number of the auxiliary alarm object MO. Signless integer, value range: 0~7.
16) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
17) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
18) RLMEMO: rule memo. Character string type, the default value is NULL.
19) RLSTATUS: rule status . Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 80 of 591
1.3.1.74 FSDC
1. Command function
This command sets up an correlation rule of alarm suppression, with BSC’s board MO as the object for main alarm A and BSC’s other MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSDC: {EBSCIDA, EBSCNMA}, RACKNOA, SHELFNOA, SLOTNOA: ALMCODEA: {EBSCIDB, EBSCNMB}, MODLNOB [, MUNITNOB, UNITNOB, PCMNOB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) EBSCNMA (BSC Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) RACKNOA (Rack No of Alarm A): rack number of the main alarm object MO. Signless integer, value range: 1~15.
4) SHELFNOA (Shelf No of Alarm A): shelf number of the main alarm object MO. Signless integer, value range: 1~6.
5) SLOTNOA (Slot No of Alarm A): slot number of the main alarm object MO. Signless integer, value range: 1~27.
6) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
7) EBSCIDB (BSC Equipment ID of Alarm A): BSC ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 81 of 591
8) EBSCNMB (BSC Name of Alarm A): BSC alias of the auxiliary alarm object MO. Character string type.
9) MODLNOB (Module No of Alarm B): module number of the auxiliary alarm object MO. Value range: 1 to 64, the default value is NULL.
10) MUNITNOB (Multi-Unit No of Alarm A): multi-unit number of the auxiliary alarm object MO. Value range: 1 to 127, the default value is NULL.
11) UNITNOB (Unit No of Alarm B): unit number of the auxiliary alarm object MO. Value range: 1 to 16, the default value is NULL.
12) PCMNOB (PCM No of Alarm B): PCM number of the auxiliary alarm object MO. Value range: 1 to 4, the default value is NULL.
13) ALMCODEB (Alarm Code of Alarm A): code of the auxiliary alarm. Signless integer, value range: 0~65535.
14) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
15) RLMEMO: rule memo. Character string type, the default value is NULL.
16) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.75 FSEC
1. Command function
This command sets up an correlation rule of alarm suppression, with BTS MO as the object for main alarm A and BSC board MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 82 of 591
FSEC: BSSIDA {, SITEIDA, SITENMA}{, BTSIDA, BTSNAMEA} {, tRXIDA, RCIDA}, [CHIDA]: ALMCODEA: {EBSCIDB, EBSCNMB}, RACKNOB, SHELFNOB, SLOTNOB: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) BSSIDA (BSS ID of Alarm A): BSS ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) SITEIDA (Site ID of Alarm A): site ID number of the main alarm object MO. Signless integer, value range: 1~1024.
3) SITENMA (Site Name of Alarm A): site alias of the main alarm object MO. Character string type.
4) BTSIDA (BTS ID of Alarm A): BTS ID number of the main alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAMEA (BTS Name of Alarm A): BTS alias of the main alarm object MO. Character string type, the default value is NULL.
6) TRXIDA (Transceiver ID of Alarm A): FU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCIDA (Radio Carrier ID of Alarm A): CU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHIDA (Channel ID of Alarm A): channel ID number of the main alarm object MO. Signless integer, value range: 0~7, the default value is NULL.
9) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
10) EEBSCIDB (BSC Equipment ID of Alarm B): BSC ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
11) EBSCNMB (BSC Equipment Name of Alarm B): BSC alias of the auxiliary alarm object MO. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 83 of 591
12) RACKNOB (Rack No of Alarm B): rack number of the auxiliary alarm object MO. Signless integer, value range: 1~15.
13) SHELFNOB (Shelf No of Alarm B): shelf number of the auxiliary alarm object MO. Signless integer, value range: 1~6.
14) SLOTNOB (Slot No of Alarm B): slot number of the auxiliary alarm object MO. Signless integer, value range: 1~27.
15) ALMCODEB (Alarm Code of alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
16) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
17) RLMEMO: rule memo. Character string type, the default value is NULL.
18) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.76 FSFC
1. Command function
This command sets up an correlation rule of alarm suppression, with BTS MO as the object for main alarm A and BSC logic MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSFC: BSSIDA {, SITEIDA, SITENMA}{, BTSIDA, BTSNAMEA} {, tRXIDA, RCIDA} [, CHIDA]: ALMCODEA: {EBSCIDB, EBSCNMB}, MODLNOB [, MUNITNOB, UNITNOB, PCMNOB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 84 of 591
1) BSSIDA (BSS ID of Alarm A): BSS ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) SITEIDA (Site ID of Alarm A): site ID number of the main alarm object MO. Signless integer, value range: 1~1024.
3) SITENMA (Site Name of Alarm A): site alias of the main alarm object MO. Character string type.
4) BTSIDA (BTS ID of Alarm A): BTS ID number of the main alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAMEA (BTS Name of Alarm A): BTS alias of the main alarm object MO. Character string type, the default value is NULL.
6) TRXIDA (Transceiver ID of Alarm A): FU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCIDA (Radio Carrier ID of Alarm A): CU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHIDA (Channel ID of Alarm A): channel ID number of the main alarm object MO. Signless integer, value range: 0~7, the default value is NULL.
9) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
10) EBSCIDB (BSC Equipment ID of Alarm B): BSC ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
11) EBSCNMB (BSC Equipment Name of Alarm B): BSC alias of the auxiliary alarm object MO. Character string type.
12) MODLNOB (Module No of Alarm B): module number of the auxiliary alarm object MO. Value range: 1 to 64, the default value is NULL.
13) MUNITNOB (Multi-Unit No of Alarm A): multi-unit number of the auxiliary alarm object MO. Value range: 1 to 127, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 85 of 591
14) UNITNOB (Unit No of Alarm B): unit number of the auxiliary alarm object MO. Value range: 1 to 16, the default value is NULL.
15) PCMNOB (PCM No of Alarm B): PCM number of the auxiliary alarm object MO. Value range: 1 to 4, the default value is NULL.
16) ALMCODEB (Alarm Code of alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
17) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
18) RLMEMO: rule memo. Character string type, the default value is NULL.
19) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.77 FSGC
1. Command function
This command sets up an correlation rule of alarm suppression, with BSC logic MO as the object for main alarm A and OMCR as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSGC: {EBSCIDA, EBSCNMA}, MODLNOA [, MUNITNOA, UNITNOA, PCMNOA]: ALMCODEA: OMCRIDB: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 86 of 591
2) EBSCNMA (BSC Equipment Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) MODLNOA (Module No of Alarm A): module number of the main alarm object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNOA (Multi-Unit No of Alarm A): multi-unit number of the main alarm object MO. Signless integer, value range: 1~127, the default va lue is NULL.
5) UNITNOA (Unit No of Alarm A): unit number of the main alarm object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNOA (PCM No of Alarm A): PCM number of the main alarm object MO. Signless integer, value range: 1~4, the default value is NULL.
7) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
8) OMCRIDB (OMCR ID of Alarm B): OMCR ID number of the auxiliary alarm object MO. Signless integer, value range: 1, the default value is 1.
10) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 32768 to 65535.
11) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
12) RLMEMO: rule memo. Character string type, the default value is NULL.
13) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.78 FSHC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 87 of 591
This command sets up an correlation rule of alarm suppression, with BTS MO as the object for main alarm A and OMCR as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSHC: BSSIDA {, SITEIDA, SITENMA}{, BTSIDA, BTSNAMEA} {, tRXIDA, RCIDA}, [CHIDA]: ALMCODEA: OMCRIDB: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) BSSIDA (BSS ID of Alarm A): BSS ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) SITEIDA (Site ID of Alarm A): site ID number of the main alarm object MO. Signless integer, value range: 1~1024.
3) SITENMA (Site Name of Alarm A): site alias of the main alarm object MO. Character string type.
4) BTSIDA (BTS ID of Alarm A): BTS ID number of the main alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAMEA (BTS Name of Alarm A): BTS alias of the main alarm object MO. Character string type, the default value is NULL.
6) TRXIDA (Transceiver ID of Alarm A): FU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCIDA (Radio Carrier ID of Alarm A): CU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHIDA (Channel ID of Alarm A): channel ID number of the main alarm object MO. Signless integer, value range: 0~7, the default value is NULL.
9) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 88 of 591
10) OMCRIDB (OMCR ID of Alarm B): OMCR ID number of the auxiliary alarm object MO. Signless integer, value range: 1, the default value is 1.
11) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 32768 to 65535.
12) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
13) RLMEMO: rule memo. Character string type, the default value is NULL.
14) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.79 FSIC
1. Command function
This command sets up an correlation rule of alarm suppression, with OMCR as the object for main alarm A and BSC board MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSIC: OMCRIDA: ALMCODEA: {EBSCIDB, EBSCNMB}, RACKNOB, SHELFNOB, SLOTNOB: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) OMCRIDA (OMCR ID of Alarm A): OMCR ID number of the main alarm object MO. Signless integer, value range: 1, the default va lue is 1.
2) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 32768 to 65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 89 of 591
3) EBSCIDB (BSC Equipment ID of Alarm B): BSC ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
4) EBSCNMB (BSC Equipment Name of Alarm B): BSC alias of the auxiliary alarm object MO. Character string type.
5) RACKNOB (Rack No of Alarm B): rack number of the auxiliary alarm object MO. Signless integer, value range: 1~15.
6) SHELFNOB (Shelf No of Alarm B): shelf number of the auxiliary alarm object MO. Signless integer, value range: 1~6.
7) SLOTNOB (Slot No of Alarm B): slot number of the auxiliary alarm object MO. Signless integer, value range: 1~27.
8) ALMCODEB (Alarm Code of alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
9) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
10) RLMEMO: rule memo. Character string type, the default value is NULL.
11) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.80 FSJC
1. Command function
This command sets up an correlation rule of alarm suppression, with OMCR as the object for main alarm A and BSC logic MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 90 of 591
FSJC: OMCRIDA: ALMCODEA: {EBSCIDB, EBSCNMB}, MODLNOB [, MUNITNOB, UNITNOB, PCMNOB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) OMCRIDA (OMCR ID of Alarm A): OMCR ID number of the main alarm object MO. Signless integer, value range: 1, the default value is 1.
2) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 32768 to 65535.
3) EEBSCIDB (BSC Equipment ID of Alarm B): BSC ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
4) EBSCNMB (BSC Equipment Name of Alarm B): BSC alias of the auxiliary alarm object MO. Character string type.
5) MODLNOB (Module No of Alarm B): module number of the auxiliary alarm object MO. Value range: 1 to 64, the default value is NULL.
6) MUNITNOB (Multi-Unit No of Alarm A): multi-unit number of the auxiliary alarm object MO. Value range: 1 to 127, the default value is NULL.
7) UNITNOB (Unit No of Alarm B): unit number of the auxiliary alarm object MO. Value range: 1 to 16, the default value is NULL.
8) PCMNOB (PCM No of Alarm B): PCM number of the auxiliary alarm object MO. Value range: 1 to 4, the default value is NULL.
9) ALMCODEB (Alarm Code of alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
10) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 91 of 591
11) RLMEMO: rule memo. Character string type, the default value is NULL.
12) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.81 FSKC
1. Command function
This command sets up an correlation rule of alarm suppression, with OMCR as the object for main alarm A and BTS MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSKC: OMCRIDA: ALMCODEA: BSSIDB {, SITEIDB, SITENAMEB}{, BTSIDB, BTSNAMEB} {, tRXIDB, RCIDB} [, CHIDB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) OMCRIDA (OMCR ID of Alarm A): OMCR ID number of the main alarm object MO. Signless integer, value range: 1, the default value is 1.
2) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 32768 to 65535.
3) BSSIDB (BSS ID of Alarm B): BSS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
4) SITEIDB (Site ID of Alarm B): site ID number of the auxiliary alarm object MO. Signless integer, value range: 1~1024.
5) SITENMB (Site Name of Alarm B): site alias of the auxiliary alarm object MO. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 92 of 591
6) BTSIDB ( BTS ID of Alarm B): BTS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
7) BTSNAMEB ( BTS Name of Alarm B): BTS alias of the auxiliary alarm object MO. Character string type, the default value is NULL.
8) TRXIDB (Transceiver ID of Alarm B): FU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
9) RCIDB (Radio Carrier ID of Alarm B): CU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
10) CHIDB (Channel ID of Alarm B): channel ID number of the auxiliary alarm object MO. Signless integer, value range: 0~7.
11) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
12) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
13) RLMEMO: rule memo. Character string type, the default value is NULL.
14) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.82 FSMC
1. Command function
This command sets up an correlation rule of alarm suppression, with BSC board MO as the object for main alarm A and OMCR as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 93 of 591
2. Syntax structure
FSMC: {EBSCIDA, EBSCNMA}, RACKNOA, SHELFNOA, SLOTNOA: ALMCODEA: OMCRIDB: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) EBSCNMA (BSC Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) RACKNOA (Rack No of Alarm A): rack number of the main alarm object MO. Signless integer, value range: 1~15.
4) SHELFNOA (Shelf No of Alarm A): shelf number of the main alarm object MO. Signless integer, value range: 1~6.
5) SLOTNOA (Slot No of Alarm A): slot number of the main alarm object MO. Signless integer, value range: 1~27.
6) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
7) OMCRIDB (OMCR ID of Alarm B): OMCR ID number of the auxiliary alarm object MO. Signless integer, value range: 1, the default value is 1.
8) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 32768 to 65535.
9) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
10) RLMEMO: rule memo. Character string type, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 94 of 591
11) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activa ted state; 1: inactivated state.
1.3.1.83 FSOC
1. Command function
This command sets up an correlation rule of alarm suppression, with BSC’s other MO as the object for both main alarm A and auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSOC: {EBSCIDA, EBSCNMA}, MODLNOA [, MUNITNOA, UNITNOA, PCMNOA]: ALMCODEA: {EBSCIDB, EBSCNMB}, MODLNOB [, MUNITNOB, UNITNOB, PCMNOB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) EBSCNMA (BSC Equipment Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) MODLNOA (Module No of Alarm A): module number of the main alarm object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNOA (Multi-Unit No of Alarm A): multi-unit number of the main alarm object MO. Signless integer, value range: 1~127, the default value is NULL.
5) UNITNOA (Unit No of Alarm A): unit number of the main alarm object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNOA (PCM No of Alarm A): PCM number of the main alarm object MO. Signless integer, value range: 1~4, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 95 of 591
7) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
8) EBSCIDB (BSC Equipment ID of Alarm B): BSC ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
9) EBSCNMB (BSC Equipment Name of Alarm B): BSC alias of the auxiliary alarm object MO. Character string type.
10) MODLNOB (Module No of Alarm B): module number of the auxiliary alarm object MO. Signless integer, value range: 1~64, the default value is NULL.
11) MUNITNOB (Multi-Unit No of Alarm B): multi-unit number of the auxiliary alarm object MO. Signless integer, value range: 1~127, the default value is NULL.
12) UNITNOB (Unit No of Alarm B): unit number of the auxiliary alarm object MO. Signless integer, value range: 1~16, the default value is NULL.
13) PCMNOB (PCM No of Alarm B): PCM number of the auxiliary alarm object MO. Signless integer, value range: 1~4, the default value is NULL.
14) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
15) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
16) RLMEMO: rule memo. Character string type, the default value is NULL.
17) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 96 of 591
1.3.1.84 FSTC
1. Command function
This command sets up an correlation rule of alarm suppression, with BTS MO as the object for both main alarm A and auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSTC: BSSIDA {, SITEIDA, SITENMA}{, BTSIDA, BTSNAMEA} {, tRXIDA, RCIDA} [, CHIDA]: ALMCODEA: BSSIDB {, SITEIDB, SITENMB}{, BTSIDB, BTSNAMEB} {, tRXIDB, RCIDB} [, CHIDB]: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) BSSIDA (BSS ID of Alarm A): BSS ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) SITEIDA (Site ID of Alarm A): site ID number of the main alarm object MO. Signless integer, value range: 1~1024.
3) SITENMA (Site Name of Alarm A): site alias of the main alarm object MO. Character string type.
4) BTSIDA (BTS ID of Alarm A): BTS ID number of the main alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAMEA (BTS Name of Alarm A): BTS alias of the main alarm object MO. Character string type, the default value is NULL.
6) TRXIDA (Transceiver ID of Alarm A): FU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCIDA (Radio Carrier ID of Alarm A): CU ID number of the main alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 97 of 591
8) CHIDA (Channel ID of Alarm A): channel ID number of the main alarm object MO. Signless integer, value range: 0~7, the default value is NULL.
9) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
10) BSSIDB (BSS ID of Alarm B): BSS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~255.
11) SITEIDB (Site ID of Alarm B): site ID number of the auxiliary alarm object MO. Signless integer, value range: 1~1024.
12) SITENMB (Site Name of Alarm B): site alias of the auxiliary alarm object MO. Character string type.
13) BTSIDB ( BTS ID of Alarm B): BTS ID number of the auxiliary alarm object MO. Signless integer, value range: 1~3, the default value is NULL.
14) BTSNAMEB ( BTS Name of Alarm B): BTS alias of the auxiliary alarm object MO. Character string type, the default value is NULL.
15) TRXIDB (Transceiver ID of Alarm B): FU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
16) RCIDB (Radio Carrier ID of Alarm B): CU ID number of the auxiliary alarm object MO. Signless integer, value range: 1~32, the default value is NULL.
17) CHIDB (Channel ID of Alarm B): channel ID number of the auxiliary alarm object MO. Signless integer, value range: 0~7, the default value is NULL.
18) ALMCODEB (Alarm Code of Alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 98 of 591
19) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
20) RLMEMO: rule memo. Character string type, the default value is NULL.
21) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.85 FSUC
1. Command function
This command sets up an correlation rule of alarm suppression, with BSC’s other type of MO as the object for main alarm A and BSC’s board MO as the object for auxiliary alarm B, so as to establish the correlation between alarm A and alarm B.
2. Syntax structure
FSUC: {EBSCIDA, EBSCNMA}, MODLNOA [, MUNITNOA, UNITNOA, PCMNOA]: ALMCODEA: {EBSCIDB, EBSCNMB}, RACKNOB, SHELFNOB, SLOTNOB: ALMCODEB: ISSHOWB, RLMEMO, RLSTATUS;
3. Parameter description
1) EBSCIDA (BSC Equipment ID of Alarm A): BSC ID number of the main alarm object MO. Signless integer, value range: 1~255.
2) EBSCNMA (BSC Equipment Name of Alarm A): BSC alias of the main alarm object MO. Character string type.
3) MODLNOA (Module No of Alarm A): module number of the main alarm object MO. Signless integer, value range: 1~64, the default value is NULL.
4) MUNITNOA (Multi-Unit No of Alarm A): multi-unit number of the main alarm object MO. Signless integer, value range: 1~127, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 99 of 591
5) UNITNOA (Unit No of Alarm A): unit number of the main alarm object MO. Signless integer, value range: 1~16, the default value is NULL.
6) PCMNOA (PCM No of Alarm A): PCM number of the main a larm object MO. Signless integer, value range: 1~4, the default value is NULL.
7) ALMCODEA (Alarm Code of Alarm A): code of the main alarm. Signless integer, value range: 0~65535.
8) EBSCIDB (BSC Equipment ID of Alarm B): BSC ID number of the auxiliary a larm object MO. Signless integer, value range: 1~255.
9) EBSCNMB (BSC Equipment Name of Alarm B): BSC alias of the auxiliary alarm object MO. Character string type.
10) RACKNOB (Rack No of Alarm B): rack number of the auxiliary alarm object MO. Signless integer, value range: 1~15.
11) SHELFNOB (Shelf No of Alarm B): shelf number of the auxiliary alarm object MO. Signless integer, value range: 1~6.
12) SLOTNOB (Slot No of Alarm B): slot number of the auxiliary alarm object MO. Signless integer, value range: 1~27.
13) ALMCODEB (Alarm Code of alarm B): code of the auxiliary alarm. Signless integer, value range: 0~65535.
14) ISSHOWB (Is Show Alarm B): whether to show the auxiliary alarm after the main alarm is restored. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: to show; 0: not to show.
15) RLMEMO: rule memo. Character string type, the default value is NULL.
16) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 100 of 591
1.3.1.86 FTCC
1. Command function
This command sets up an alarm filter rule for a specified MO of BTS to filter the alarms of a specified code in a specified MO of BTS.
2. Syntax structure
FTCC: BSSID {, SITEID, SITENAME}{, BTSID, BTSNAME} {, tRXID, RCID} [, CHID]: ALMCODE, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) BSSID (BSS ID): BSS ID number of the filter object MO. Signless integer, value range: 1~255.
2) SITEID (Site ID): site ID number of the filter object MO. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site alias of the filter object MO. Character string type.
4) BTSID (BTS ID): BTS ID number of the filter object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAME (BTS Name): BTS alias of the filter object MO. Character string type, the default value is NULL.
6) TRXID (Transceiver ID): FU ID number of the filter object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCID (Radio Carrier ID): CU ID number of the filter object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHID (Channel ID): channel ID number of the filter object MO. Signless integer, value range: 0~7, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 101 of 591
9) ALMCODE (Alarm Code): the alarm code of the filter action. Signless integer, value range: 0~65535.
10) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
11) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
12) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.87 FTLC
1. Command function
This command sets up an alarm filter rule for a specified MO of BTS to filter the alarms of a specified class in a specified MO of BTS.
2. Syntax structure
FTLC: BSSID {, SITEID, SITENAME}{, BTSID, BTSNAME} {, tRXID, RCID} [, CHID]: ALMCLASS, FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) BSSID (BSS ID): BSS ID number of the filter object MO. Signless integer, value range: 1~255.
2) SITEID (Site ID): site ID number of the filter object MO. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site alias of the filter object MO. Character string type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 102 of 591
4) BTSID (BTS ID): BTS ID number of the filter object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAME (BTS Name): BTS alias of the filter object MO. Character string type, the default value is NULL.
6) TRXID (Transceiver ID): FU ID number of the filter object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCID (Radio Carrier ID): CU ID number of the filter object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHID (Channel ID): channel ID number of the filter object MO. Signless integer, value range: 0~7, the default value is NULL.
9) ALMCLASS (Alarm Class): the alarm code of the filter action. Signless integer, value range: 0~65535.
10) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
11) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
12) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
1.3.1.88 FTNC
1. Command function
This command sets up an alarm filter rule for a specified MO of BTS to filter the alarms for a specified MO of BTS.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 103 of 591
FTNC: BSSID {, SITEID, SITENAME}{, BTSID, BTSNAME} {, tRXID, RCID} [, CHID]: FILMODE, ACKMODE, RLSTATUS;
3. Parameter description
1) BSSID (BSS ID): BSS ID number of the filter object MO. Signless integer, value range: 1~255.
2) SITEID (Site ID): site ID number of the filter object MO. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site alias of the filter object MO. Character string type.
4) BTSID (BTS ID): BTS ID number of the filter object MO. Signless integer, value range: 1~3, the default value is NULL.
5) BTSNAME (BTS Name): BTS alias of the filter object MO. Character string type, the default value is NULL.
6) TRXID (Transceiver ID): FU ID number of the filter object MO. Signless integer, value range: 1~32, the default value is NULL.
7) RCID (Radio Carrier ID): CU ID number of the filter object MO. Signless integer, value range: 1~32, the default value is NULL.
8) CHID (Channel ID): channel ID number of the filter object MO. Signless integer, value range: 0~7, the default value is NULL.
9) FILMODE (Filter Mode): filter mode. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: displaying filter; 1: database filter.
10) ACKMODE (Acknowledge Mode): acknowledgement mode. Signless integer, value range: 0~2, the default value is 1. Among them, : 0: no acknowledgement; 1: acknowledgement upon receiving; 2: clearing acknowledgement.
11) RLSTATUS: rule status. Signless integer, value range: 0, 1. The default value is 0. Among them, : 0: activated state; 1: inactivated state.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 104 of 591
1.3.2 Man-machine commands for test management
1.3.2.1 TBEI
1. Command function
To perform instant test for an E1 line on a rack of a site under a BSC.
2. Syntax structure
TBEI: {EBSCID, EBSCNAME} {, ESITEID, ESITENM}, RACKNO, PCMNO: SFLPMODE;
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
3) ESITEID: site identification. Signless integer, value range: 1~1024.
4) ESITENM : site name. Character string. Integer type, the maximum length of the character string is 20.
5) RACKNO: rack number Signless integer, value range: 1~8.
6) PCMNO (PCM No): E1 line number. Signless integer, value range: 1~6.
7) SFLPMODE: selfloop mode. Signless integer, value range: 0, 1, among them, 0 is manual selfloop, 1 is automatic selfloop, the default value is 1.
1.3.2.2 TBLI
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 105 of 591
To perform instant test for the link from a multi-unit (unit) to the MP under a BSC.
2. Syntax structure
TBLI: {EBSCID, EBSCNAME}, MUNITNO, UNITNO;
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
3) MUNITNO (MUnit No): multi-unit name. Signless integer, value range: 1~127.
4) UNITNO (Unit No): unit name. Signless integer, value range: 0~20, the default value is 0.
1.3.2.3 TBSA
1. Command function
To activate the routine test of a BSC.
2. Syntax structure
TBSA: {EBSCID, EBSCNAME};
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 106 of 591
1.3.2.4 TBSC
1. Command function
To create a routine test for a BSC.
2. Syntax structure
TBSC: {EBSCID, EBSCNAME}: TESTTIME, tESTSTEP, SETDATE, SETTIME: TESTUNIT, tMPULK, tMPMPLK;
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
3) TESTTIME (Test Time): starting time of the routine test. Second-order time type.
4) TESTSTEP (Test Step): time interval of the routine test (unit: day). Signless integer value, value range: 1~65535.
5) SETDATE (Set Date): set date of the routine test. Date type.
6) SETTIME (Set Time): set time of the routine test. Second-order time type.
7) TESTUNIT (Unit Test Item): multi-unit/unit test item (multiunit - unit name). Composite signless integer, value range: 0~127, the default value is NULL.
8) TMPULK (MP-Unit Link Test Item): test item of the link from the MP to the multi-unit/unit (multiunit - unit name). Composite signless integer, value range: 0~127, the default value is NULL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 107 of 591
9) TMPMPLK (MP-MP Link Test Item): test item of the link from the central module MP to the peripheral module MP (peripheral module number) Composite signless integer, value range: 2 to 64, the default value is NULL.
1.3.2.5 TBSD
1. Command function
To delete the routine test of a BSC.
2. Syntax structure
TBSD: {EBSCID, EBSCNAME};
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
1.3.2.6 TBSQ
1. Command function
To query the routine test of a BSC.
2. Syntax structure
TBSQ: {EBSCID, EBSCNAME};
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 108 of 591
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
1.3.2.7 TBSS
1. Command function
To suspend the routine test of a BSC.
2. Syntax structure
TBSS: {EBSCID, EBSCNAME};
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
1.3.2.8 TBUI
1. Command function
To perform instant test for a multi-unit (unit) under a BSC.
2. Syntax structure
TBUI: {EBSCID, EBSCNAME}, MUNITNO, UNITNO;
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 109 of 591
3) MUNITNO (MUnit No): multi-unit name. Signless integer, value range: 1~127.
4) UNITNO (Unit No): unit name. Signless integer, value range: 0~20, the default value is 0.
1.3.2.9 TTRD
1. Command function
To delete the test result.
2. Syntax structure
TTRD: {EBSCID, EBSCNAME}: TESTTYPE, tESTMODE, tRESULT, tOBJECT, SFLPMODE, [TBGNDATE, tBGNTIME], [TENDDATE, tENDTIME];
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255, the default value is ALL.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40, the default value is ALL.
3) TESTTYPE: test type. Enumerated type, value range: UNIT (multi-unit test) , LINK (link test) , UNIT_LINK (multi-unit test and link test), the default value is ALL.
4) TESTMODE: test mode. Enumerated type, value range: INSTANT ( instant test) , SCHEDULE ( routine test), the default value is ALL.
5) TRESULT: test result. Enumerated type, value range: NORMAL (normal result) , ABNORMAL (abnormal result), the default value is ALL.
6) TOBJECT: test object. Composite enumerated type, value range: DRT (DRT unit) , DTI (DTI unit) , SMT1 (SMT1 unit) , SMT2 (SMT2 unit) ,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 110 of 591
BOSN (BOSN unit) , AIPP (AIPP multi-unit) , BIPP (BIPP multi-unit) , FSPP (FSPP multi-unit) , NSPP (NSPP multi-unit) , TCPP (TCPP multi-unit), the default value is ALL.
7) TBGNDATE (Test Begin Date): starting date. Date type, the default value is ALL.
8) TBGNTIME (Test Begin Time): starting time. Second-order time type, the default value is ALL.
9) TENDDATE (Test End Date): ending date. Date type, the default value is ALL.
10) TENDTIME (Test End Time): ending time. Second-order time type, the default value is ALL.
1.3.2.10 TTRQ
1. Command function
To query the test result.
2. Syntax structure
TTRQ: {EBSCID, EBSCNAME}: TESTTYPE, tESTMODE, tRESULT, tOBJECT, SFLPMODE, [TBGNDATE, tBGNTIME], [TENDDATE, tENDTIME];
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255, the default value is ALL.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 111 of 591
3) TESTTYPE: test type. Enumerated type, value range: UNIT (multi-unit test) , LINK (link test) , UNIT_LINK (multi-unit test and link test), the default value is ALL.
4) TESTMODE: test mode. Enumerated type, value range: INSTANT ( instant test) , SCHEDULE ( routine test), the default value is ALL.
5) TRESULT: test result. Enumerated type, value range: NORMAL (normal result) , ABNORMAL (abnormal result), the default value is ALL.
6) TOBJECT: test object. Composite enumerated type, value range: DRT (DRT unit) , DTI (DTI unit) , SMT1 (SMT1 unit) , SMT2 (SMT2 unit) , BOSN (BOSN unit) , AIPP (AIPP multi-unit) , BIPP (BIPP multi-unit) , FSPP (FSPP multi-unit) , NSPP (NSPP multi-unit) , TCPP (TCPP multi-unit), the default value is ALL.
7) TBGNDATE (Test Begin Date): starting date. Date type, the default value is ALL.
8) TBGNTIME (Test Begin Time): starting time. Second-order time type, the default value is ALL.
9) TENDDATE (Test End Date): ending date. Date type, the default value is ALL.
10) TENDTIME (Test End Time): ending time. Second-order time type, the default value is ALL.
1.3.2.11 TTXI
1. Command function
To perform RF loop instant test for a TRX of a site under a BSC.
2. Syntax structure
TTXI: {EBSCID, EBSCNAME} {, ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO: TESTTIME, tESTCODE;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 112 of 591
3. Parameter description
1) EBSCID: BSC equipment identification. Signless integer, value range: 1~255, the default value is ALL.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40, the default value is ALL.
3) ESITEID: site identification. Signless integer, value range: 1~1024.
4) ESITENM : site name. Character string. Integer type, the maximum length of the character string is 20.
5) RACKNO: rack number Signless integer, value range: 1~8.
6) SHELFNO: shelf number. Signless integer, value range: 1~3.
7) PANELNO: panel number. Signless integer, value range: 1~6.
8) TESTTIME (Test Time): : test duration. Signless integer, value range: 1~1200. Unit: second.
9) TESTCODE: test code type. Signless integer, value range: 0, 1. 2, among them, 0: all are 0, 1: all are 1, 2: random.
1.3.2.12 TTXS
1. Command function
To cancel RF loop instant test for a TRX of a site under a BSC.
2. Syntax structure
TTXS: {EBSCID, EBSCNAME} {, ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 113 of 591
1) EBSCIDNAME: BSC equipment identification. Signless integer, value range: 1~255, the default value is ALL.
2) EBSCNAME: BSC equipment name. Character string type, the maximum length of the character string is 40, the default value is ALL.
3) ESITEID: site identification. Signless integer, value range: 1~1024.
4) ESITENM : site name. Character string. Integer type, the maximum length of the character string is 20.
5) RACKNO: rack number Signless integer, value range: 1~8.
6) SHELFNO: shelf number. Signless integer, value range: 1~3.
7) PANELNO: panel number. Signless integer, value range: 1~6.
1.4 Performance management
1.4.1 Man-machine commands of measurement jobs
1.4.1.1 PMCQ
1. Command function
To query the current value of a specified counter of a specified object for a measurement job.
2. Syntax structure
PMCQ: BSSID, NAME: OBJECT, COUNTNO;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 114 of 591
2) NAME (Measurement Job Name): name of the measurement job to be queried. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, no default value .
3) OBJECT (Measured Object): object of the counter. Signless integer, a single integer number, value range: 0~1024. The meaning of the parameter depends on the type of the measured object. If the measured object is a SITE, module or signaling No .7 link, the format of the value is “X” (X is the SITE, module or signaling No.7 link number); if the measured object is a CELL, the value format is “X-X” (X represents respectively the SITE number and CELL number); if the measured object is a TRX, the value format is “X-X-X” (X represents respectively the SITE number, CELL number and TRX number); if the measured object is a BSC, the value can only be the default BSC.
4) COUNTNO: counter number. Signless integer, value range: 0~99999, no default value.
1.4.1.2 PMIQ
1. Command function
To query the parameter information of multiple measurement jobs under a BSS.
2. Syntax structure
PMIQ: BSSID, NAME;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
2) NAME (Measurement Job Name): name of the measurement job to be queried. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, and the default value is ALL, in this case, the brief information of all jobs will be returned (without including the reported information, measured object and measurement time period).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 115 of 591
1.4.1.3 PMJC
1. Command function
To create a measurement job.
2. Syntax structure
PMJC: BSSID: NAME, tYPE: OBJECT: BGNDATE, ENDDATE, DAY, INTERVAL, GP: FRDATE, FRTIME, RP;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
2) NAME (Measurement Job Name): the name of the measurement job to be created. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, no default value.
3) TYPE (Measurement Job Type): the type of the measurement job to be created.. Signless integer, the default value is 0.
4) OBJECT: measured object. Composite signless integer, a single integer number, value range: 0~1024, the default value is ALL, representing all the corresponding measured object under the BSC. The meaning of the parameter depends on the type of the measured object. If the measured object is a SITE, module or signaling No .7 link, the format of the value is “X” (X is the SITE, module or signaling No.7 link number); if the measured object is a CELL, the value format is “X-X” (X represents respectively the SITE number and CELL number); if the measured object is a TRX, the value format is “X-X-X” (X represents respectively the SITE number, CELL number and TRX number); if the measured object is a BSC, the value can only be the default BSC.
5) BGNDATE (Begin Date): starting date for measurement. Date type, the default value is CURDATE, representing the current date .
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 116 of 591
6) ENDDATE (End Date): ending date for measurement. Date type, it must be later than the starting date for measurement, the default value is ENDLESS, representing not to end automatically.
7) DAY (Measurement Day): measurement day of each week. Composite enumerated type, value range: SUN, MON, TUE, WED, THU, FRI, SAT, the default value is ALL.
8) INTERVAL (Measurement Interval): measurement interval for each day. Composite minute-order time interval type, the default value is 00-00, representing a time interval from 0 o’clock to 24 o’clock.
9) GP (Granularity Period): granularity period for measurement. Time duration type, value range: 5N, 15N, 30N, 60N, the default value is 5N (5 minute).
10) FRDATE : first report date. Date type, the default value is NONE, representing the earliest possible report time.
11) FRTIME: first report time. Minute-order time type. It sets up the first report time together with the first report date, and must be later than the earliest possible report time. The default value is NONE, representing the earliest possible report time.
12) RP: report period. Time duration type. It must be an integral multiple of the granularity period for measurement. Value range: 0N, 15N, 30N, 60N, 6H, 12H, 24H, the default value is 0, representing to report immediately.
1.4.1.4 PMJD
1. Command function
To delete multiple measurement jobs under a BSS.
2. Syntax structure
PMJD: BSSID, NAME;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 117 of 591
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
2) NAME (Measurement Job Name): the names of the measurement jobs to be deleted. Composite character string type, the maximum length of each character string is 50 bytes, the minimum length is 1 byte, the default value is ALL.
1.4.1.5 PMJM
1. Command function
To modify a measurement job.
2. Syntax structure
PMJM: BSSID, NAME: NEWNAME: BGNDATE, ENDDATE, DAY, INTERVAL: FRDATE, FRTIME, RP;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
2) NAME (Measurement Job Name): the name of the measurement job to be modified. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, no default value.
3) NEWNAME: new measurement job name. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, the default value is UNCHANGE, representing not to change.
4) BGNDATE (Begin Date): new starting date for measurement. Date type. If the job has been started, it is forbidden to modify this item. The default value is UNCHANGE, representing not to change.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 118 of 591
5) ENDDATE (End Date): new ending date for measurement. Date type. It must be later than the starting date for measurement. The default value is UNCHANGE, representing not to change. To change it as not to end automatically, set the parameter to 2038-1-1.
6) DAY (Measurement Day): new measurement day of each week. Composite enumerated type, value range: SUN, MON, TUE, WED, THU, FRI, SAT, the default value is UNCHANGE, representing not to change.
7) INTERVAL (Measurement Interval): new measurement interval of each day. Composite minute-order time interval type, the default value is UNCHANGE, representing not to change.
8) FRDATE (First Report Date): new first report date. Date type. It is forbidden to be modified if it has been reported. The default value is UNCHANGE, representing not to change.
9) FRTIME (First Report Time): new first report time. Minute-order time type. It sets up the first report time together with the first report date, and must be later than the earliest possible report time. It is forbidden to be modified if it has been reported. The default value is UNCHANGE, representing not to change.
10) RP (Report Period): new report period. Time duration type. It must be an integral multiple of the granularity period for measurement. Value range: 0N, 15N, 30N, 60N, 6H, 12H, 24H, the default value is UNCHANGE, representing not to change.
1.4.1.6 PMJQ
1. Command function
To query the names of all current measurement jobs under a BSS.
2. Syntax structure
PMJQ: BSSID;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 119 of 591
BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
1.4.1.7 PMJR
1. Command function
To restore multiple measurement jobs under a BSS.
2. Syntax structure
PMJR: BSSID, NAME;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
2) NAME (Measurement Job Name): the names of the measurement jobs to be restored. Composite character string type, the maximum length of each character string is 50 bytes, the minimum length is 1 byte, the default value is ALL.
1.4.1.8 PMJS
1. Command function
To suspend multiple measurement jobs under a BSS.
2. Syntax structure
PMJS: BSSID, NAME;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 120 of 591
2) NAME (Measurement Job Name): the names of the measurement jobs to be suspended. Composite character string type, the maximum length of each character string is 50 bytes, the minimum length is 1 byte, the default value is ALL.
1.4.2 Man-machine commands of observation jobs
1.4.2.1 POIQ
1. Command function
To query the parameter information of multiple observation jobs under a BSS.
2. Syntax structure
POIQ: BSSID, NAME;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the observation job. Signless integer, value range: 1~255, no default value.
2) NAME (Observation Job Name): name of the observation job to be queried. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, and the default value is ALL, representing that the brief information of all jobs will be returned (without including the observed object).
1.4.2.2 POJC
1. Command function
To create an observation job.
2. Syntax structure
POJC: BSSID: NAME, tYPE: OBJECT: ENDDATE, ENDTIME;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 121 of 591
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the observation job. Signless integer, value range: 1~255, no default value.
2) NAME (Observation Job Name): the name of the observation job to be created. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, no default value .
3) TYPE (Observation Job Type): the type of the observation job to be created. Signless integer, the default value is 0.
4) OBJECT: observed object. Composite signless integer, a single integer number, value range: 0~1024, no default value . The meaning of the parameter depends on the type of the observed object, and the type of all observed objects at present is CELL, whose value format is “X-X” (X represents respectively the SITE ID number and CELL ID number). A job can have only one observed object.
5) ENDDATE (End Date): ending date for observation. Date type, the default value is ENDLESS, representing not to end automatically.
6) ENDTIME (End Time): ending time for observation. Minute-order time type. It forms the ending time together with the ending date, and must be later than the current time for creation, the default value is NONE, representing 00: 00.
1.4.2.3 POJD
1. Command function
To delete multiple observation jobs under a BSS.
2. Syntax structure
POJD: BSSID, NAME;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 122 of 591
1) BSSID (Bss ID): BSS ID number of the observation job. Signless integer, value range: 1~255, no default value.
2) NAME (Observation Job Name): the name of the observation job to be deleted. Composite character string type, the maximum length of each character string is 50 bytes, the minimum length is 1 byte, the default value is ALL.
1.4.2.4 POJM
1. Command function
To modify a observation job.
2. Syntax structure
POJM: BSSID, NAME: NEWNAME: ENDDATE, ENDTIME;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the observation job. Signless integer, value range: 1~255, no default value.
2) NAME (Observation Job Name): the name of the observation job to be created. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, no default value .
3) NEWNAME: new observation job name. Character string type, the maximum length of the character string is 50 bytes, the minimum length is 1 byte, the default value is UNCHANGE, representing not to change.
4) ENDDATE (End Date): ending date for observation. Date type, the default value is ENDLESS, representing not to end automatically.
5) ENDTIME (End Time): ending time for observation. Minute-order time type. It forms the ending time together with the ending date, and must be later than the current time for creation, the default value is NONE, representing 00: 00.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 123 of 591
1.4.2.5 POJQ
1. Command function
To query the names of all current observation jobs under a BSS.
2. Syntax structure
POJQ: BSSID;
3. Parameter description
BSSID (Bss ID): BSS ID number of the observation job. Signless integer, value range: 1~255, no default value.
1.4.2.6 POJR
1. Command function
To restore multiple observation jobs under a BSS.
2. Syntax structure
POJR: BSSID, NAME;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the observation job. Signless integer, value range: 1~255, no default value.
2) NAME (Observation Job Name): the name of the observation job to be restored. Composite character string type, the maximum length of each character string is 50 bytes, the minimum length is 1 byte, the default value is ALL.
1.4.2.7 POJS
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 124 of 591
To suspend multiple observation jobs under a BSS.
2. Syntax structure
POJS: BSSID, NAME;
3. Parameter description
1) BSSID (Bss ID): BSS ID number of the observation job. Signless integer, value range: 1~255, no default value.
2) NAME (Observation Job Name): the name of the observation job to be suspended. Composite character string type, the maximum length of each character string is 50 bytes, the minimum length is 1 byte, the default value is ALL.
1.4.3 Man-machine commands of alarm threshold
1.4.3.1 PTIQ
1. Command function
To query the threshold parameters of QoS alarm monitoring.
2. Syntax structure
PTIQ: BSSID;
3. Parameter description
BSSID (BSS ID): BSS ID number of the QoS alarm monitoring. Signless integer, value range: 1~255, no default value.
1.4.3.2 PTRM
1. Command function
To modify the threshold parameters of QoS alarm monitoring.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 125 of 591
2. Syntax structure
PTRM: BSSID: [RMLLT] [, RMLGP] [, RMLEN] [, RPLLT] [, RPLGP] [, RPLEN] [, SMLLT] [, SMLGP] [, SMLEN] [, SPLLT] [, SPLGP] [, SPLEN] [, CSRLT] [, CSRGP] [, CSREN] [, N7ASRLT] [, N7ASRGP] [, N7ASREN] [, tFARLT] [, tFARGP] [, tFAREN] [, tHARLT] [, tHARGP] [, tHAREN] [, SDARLT] [, SDARGP] [, SDAREN] [, N7ARLT] [, N7ARGP] [, N7AREN] [, tFMTLLT] [, tFMTLGP] [, tFMTLEN] [, tHMTLLT] [, tHMTLGP] [, tHMTLEN] [, N7MTLLT] [, N7MTLGP] [, N7MTLEN] [, SDDRLT] [, SDDRGP] [, SDDREN] [, FAFDRLT] [, FAFDRGP] [, FAFDREN] [, FAHDRLT] [, FAHDRGP] [, FAHDREN] [, tFVDRLT] [, tFVDRGP] [, tFVDREN] [, tFDDRLT] [, tFDDRGP] [, tFDDREN] [, tHVDRLT] [, tHVDRGP] [, tHVDREN] [, tHDDRLT] [, tHDDRGP] [, tHDDREN] [, IHOSRLT] [, IHOSRGP] [, IHOSREN] [, OHOSRLT] [, OHOSRGP] [, OHOSREN] [, IBHOSRLT] [, IBHOSRGP] [, IBHOSREN] [, ICHOSRLT] [, ICHOSRGP] [, ICHOSREN];
3. Parameter description
1) BSSID (BSS ID): BSS ID number of the QoS alarm monitoring. Signless integer, value range: 1~255, no default value.
2) RMLLT: RMM CP Mean Load Limit. Percent integer type, value range: 0% to 100%, no default value.
3) RMLGP: RMM CP Mean Load Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
4) RMLEN: RMM CP Mean Load Enabled. Type Boolean, no default value.
5) RPLLT: RMM CP Peak Load Limit. Percent integer type, value range: 0% to 100%, no default value.
6) RPLGP: RMM CP Peak Load Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
7) RPLEN: RMM CP Peak Load Enabled. Type Boolean, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 126 of 591
8) SMLLT: SMM CP Mean Load Limit. Percent integer type, value range: 0% to 100%, no default value.
9) SMLGP: SMM CP Mean Load Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
10) SMLEN: SMM CP Mean Load Enabled. Type Boolean, no default value.
11) SPLLT: SMM CP Peak Load Limit. Percent integer type, value range: 0% to 100%, no default value.
12) SPLGP: SMM CP Peak Load Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
13) SPLEN: SMM CP Peak Load Enabled. Type Boolean, no default value.
14) CSRLT: Call Establishment Success Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
15) CSRGP: Call Establishment Success Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
16) CSREN: Call Establishment Success Rate Enabled. Type Boolean, no default value.
17) N7ASRLT: No. 7 Trunk Assignment Success Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
18) N7ASRGP: No. 7 Trunk Assignment Success Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
19) N7ASREN: No. 7 Trunk Assignment Success Rate Enabled. Type Boolean, no default value.
20) TFARLT: TCH/F Available Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 127 of 591
21) TFARGP: TCH/F Available Rate Granularity Period. Time type, value range: 5N, 15N, 30N, 60N, no default value.
22) TFAREN: TCH/F Available Rate Enabled. Type Boolean, no default value.
23) THARLT: TCH/H Available Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
24) THARGP: TCH/H Available Rate Granularity Period. Time type, value range: 5N, 15N, 30N, 60N, no default value.
25) THAREN: TCH/H Available Rate Enabled. Type Boolean, no default value.
26) SDARLT: SDCCH Available Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
27) SDARGP: SDCCH Available Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
28) SDAREN: SDCCH Available Rate Enabled. Type Boolean, no default value.
29) N7ARLT: No. 7 Trunk Available Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
30) N7ARGP: No. 7 Trunk Available Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
31) N7AREN: No. 7 Trunk Available Rate Enabled. Type Boolean, no default value.
32) TFMTLLT: TCH/F Mean Traffic Load Limit. Floating-point type, value range: 0, 1. no default value.
33) TFMTLGP: TCH/F Mean Traffic Load Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 128 of 591
34) TFMTLEN: TCH/F Mean Traffic Load Enabled. Type Boolean, no default value.
35) THMTLLT: TCH/H Mean Traffic Load Limit. Floating-point type, value range: 0, 1. no default value.
36) THMTLGP: TCH/H Mean Traffic Load Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
37) THMTLEN: TCH/H Mean Traffic Load Enabled. Type Boolean, no default value.
38) N7MTLLT: No. 7 Trunk Mean Traffic Load Limit. Floating-point type, value range: 0, 1. no default value.
39) N7MTLGP: No. 7 Trunk Mean Traffic Load Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
40) N7MTLEN: No. 7 Trunk Mean Traffic Load Enabled. Type Boolean, no default value.
41) SDDRLT: SDCCH Drop Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
42) SDDRGP: SDCCH Drop Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
43) SDDREN: SDCCH Drop Rate Enabled. Type Boolean, no default value.
44) FAFDRLT: FACCH/F Drop Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
45) FAFDRGP: FACCH/F Drop Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
46) FAFDREN: FACCH/F Drop Rate Enabled. Type Boolean, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 129 of 591
47) FAHDRLT: FACCH/H Drop Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
48) FAHDRGP: FACCH/H Drop Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
49) FAHDREN: FACCH/H Drop Rate Enabled. Type Boolean, no default value.
50) TFVDRLT: TCH/F Voice Drop Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
51) TFVDRGP: TCH/F Voice Drop Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
52) TFVDREN: TCH/F Voice Drop Rate Enabled. Type Boolean, no default value.
53) TFDDRLT: TCH/F Data Drop Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
54) TFDDRGP: TCH/F Data Drop Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
55) TFDDREN: TCH/F Data Drop Rate Enabled. Type Boolean, no default value.
56) THVDRLT: TCH/H Voice Drop Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
57) THVDRGP: TCH/H Voice Drop Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
58) THVDREN: TCH/H Voice Drop Rate Enabled. Type Boolean, no default value.
59) THDDRLT: TCH/H Data Drop Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 130 of 591
60) THDDRGP: TCH/H Data Drop Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
61) THDDREN: TCH/H Data Drop Rate Enabled. Type Boolean, no default value.
62) IHOSRLT: Incoming Handover Success Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
63) IHOSRGP: Incoming Handover Success Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
64) IHOSREN: Incoming Handover Success Rate Enabled. Type Boolean, no default value.
65) OHOSRLT: Outgoing Handover Success Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
66) OHOSRGP: Outgoing Handover Success Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
67) OHOSREN: Outgoing Handover Success Rate Enabled. Type Boolean, no default value.
68) IBHOSRLT: Intra-BSS Handover Success Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
69) IBHOSRGP: IntraBSS Handover Success Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
70) IBHOSREN: IntraBSS Handover Success Rate Enabled. Type Boolean, no default value.
71) ICHOSRLT: IntraCell Handover Success Rate Limit. Percent integer type, value range: 0% to 100%, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 131 of 591
72) ICHOSRGP: IntraCell Handover Success Rate Granularity Period. Time duration type, value range: 5N, 15N, 30N, 60N, no default value.
73) ICHOSREN: IntraCell Handover Success Rate Enabled. Type Boolean, no default value.
1.4.3.3 PTRR
1. Command function
To restore the QoS alarm monitoring under a BSS.
2. Syntax structure
PTRR: BSSID;
3. Parameter description
BSSID (BSS ID): BSS ID number of the QoS alarm monitoring. Signless integer, value range: 1~255, no default value.
1.4.3.4 PTRS
1. Command function
To suspend the QoS alarm monitoring under a BSS.
2. Syntax structure
PTRS: BSSID;
3. Parameter description
BSSID (BSS ID): BSS ID number of the QoS alarm monitoring. Signless integer, value range: 1~255, no default value.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 132 of 591
1.4.4 Other man-machine commands
1.4.4.1 PBMQ
1. Command function
To query the ID numbers of all BTSs (CELLs) and their modules under a BSS.
2. Syntax structure
PBMQ: BSSID;
3. Parameter description
BSSID (Bss ID): specified BSS ID number. Signless integer, value range: 1~255, no default value.
1.4.4.2 PBSQ
1. Command function
To query all BSSs.
2. Syntax structure
PBSQ;
3. Parameter description
None.
1.4.4.3 PBTQ
1. Command function
To query the ID numbers of all BTSs (CELLs) under a BSS.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 133 of 591
2. Syntax structure
PBTQ: BSSID;
3. Parameter description
BSSID (Bss ID): specified BSS ID number. Signless integer, value range: 1~255, no default value.
1.4.4.4 PLKQ
1. Command function
To query all SS7 link numbers under a BSS.
2. Syntax structure
PLKQ: EBSSID;
3. Parameter description
EBSSID (EBss ID): specified EBSS ID number. Signless integer, value range: 1~255, no default value.
1.4.4.5 PMOS
1. Command function
To synchronize the background performance data to a specified module under a specified BSS of the foreground..
2. Syntax structure
PMOS: BSSID: MODULENO;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 134 of 591
1) BSSID (Bss ID): BSS ID number of the measurement job. Signless integer, value range: 1~255, no default value.
2) MODULENO: module number. Signless integer, value range: 1~9, the default value is 1.
1.4.4.6 PPIQ
1. Command function
To query performance indexes.
2. Syntax structure
PPIQ;
3. Parameter description
None.
1.4.4.7 PSIQ
1. Command function
To query all SITE numbers under a BSS.
2. Syntax struc ture
PSIQ: BSSID;
3. Parameter description
BSSID (Bss ID): specified BSS ID number. Signless integer, value range: 1~255, no default value.
1.4.4.8 PSMQ
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 135 of 591
To query the ID numbers of all SITEs and their modules under a BSS.
2. Syntax structure
PSMQ: BSSID;
3. Parameter description
BSSID (Bss ID): specified BSS ID number. Signless integer, value range: 1~255, no default value.
1.4.4.9 PTXQ
1. Command function
To query all TRX numbers under a BSS.
2. Syntax structure
PTXQ: BSSID;
3. Parameter description
BSSID (Bss ID): specified BSS ID number. Signless integer, value range: 1~255, no default value.
1.5 Configuration management
1.5.1 Man-machine commands of radio resources management
1.5.1.1 RAHC
1. Command function
To add an adjacent cell handover object.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 136 of 591
RAHC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: AHID: SYNC, PRI, MTPMAX, RLMIN: ISRCELL, NCLAYER: RHOECMO;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (BTS Name): cell identification name. Character string type, the maximum length is 40.
6) AHID (Adjacent Cell HandOver Identification): identification number of adjacent cell handover object. Signless integer, value range: 33 to 64.
7) SYNC (Synchronize): indicating whether to synchronize the current cell with adjacent cells. Type Boolean, with a value of T or F. The default value is T.
8) PRI (Priority): priority level for cell handover. Signless integer, value range: 0~7, the default value is 3.
9) MTPMAX (Ms Transit Power Max): maximum transmitting power of MS in the adjacent cell. Signless integer, value range: 1~31, the default value is 5.
10) RLMIN (Receive Level Min): minimum signal level for MS to receive in the handover target cell. Signless integer, value range: 0~63, the default value is 15.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 137 of 591
11) ISRCELL (Is Relative Cell): indicating whether the current cell and adjacent cell are related cells. Type Boolean, with a value of T or F, the default value is F.
12) NCLAYER (NC Layer): neighboring cell layer. Signless integer, value range: 0~3, the default is 0.
13) RHOECMO (RHOECMO): DN of the handover cell (HOC): BssId-SiteId -BtsId-HoId or DN of external cells : EcId. Composite signless integer.
1.5.1.2 RAHD
1. Command function
To delete the adjacent cell handover object of a cell.
2. Syntax structure
RAHD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, AHID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (BTS Name): cell identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 138 of 591
6) AHID (Adjacent Cell HandOver Identification): identification number of adjacent cell handover object. Signless integer, value range: 33 to 64.
1.5.1.3 RAHM
1. Command function
To modify the radio parameters of an adjacent cell handover object.
2. Syntax structure
RAHM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, AHID: [SYNC] [, PRI] [, MTPMAX] [, RLMIN] [, ISRCELL] [, NCLAYER];
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (BTS Name): cell identification name. Character string type, the maximum length is 40.
6) AHID (Adjacent Cell HandOver Identification): identification number of adjacent cell handover object. Signless integer, value range: 33 to 64.
7) SYNC (Synchronize): indicating whether to synchronize the current cell with adjacent cells. Type Boolean, with a value of T or F, the default value is T.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 139 of 591
8) PRI (Priority): priority level for cell handover. Signless integer, value range: 0~7, the default value is 3.
9) MTPMAX (Ms Transit Power Max): maximum transmitting power of MS in the adjacent cell. Signless integer, value range: 1~31, the default value is 5.
10) RLMIN (Receive Level Min): minimum signal level for MS to receive in the handover target cell. Signless integer, value range: 0~63, the default value is 15.
11) ISRCELL (Is Relative Cell): indicating whether the current cell and adjacent cell are related cells. Type Boolean, with a value of T or F, the default value is F.
12) NCLAYER (NC Layer): neighboring cell layer. Signless integer, value range: 0~3, the default is 0.
1.5.1.4 RAHQ
1. Command function
To view the parameters of an adjacent cell handover object.
2. Syntax structure
RAHQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, AHID: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 140 of 591
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (BTS Name): cell identification name. Character string type, the maximum length is 40.
6) AHID (Adjacent Cell HandOver Identification): identification number of adjacent cell handover object. Signless integer, value range: 33 to 64.
7) PARAGRP (Parameter Group): radio parameter attribute package type. Enumerated type. Value range: ALL, the default value is ALL.
1.5.1.5 RARC
1. Command function
To add a new adjacent cell reselection object.
2. Syntax structure
RARC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: ARID: RBTSECMO;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 141 of 591
4) BTSID (BTS Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (BTS Name): cell identification name. Character string type, the maximum length is 40.
6) ARID (AdjacentCellReselection Identification): identification number of adjacent cell reselection object. Signless integer, value range: 1 to 32.
7) RBTSECMO (Related BTS or ExternalCell Managed Object): DN of the related BTS: BssId -SiteId-BtsId or DN of an external cell under this BSS: EcId. Composite signless integer.
1.5.1.6 RARD
1. Command function
To delete the adjacent cell reselection object of a cell.
2. Syntax structure
RARD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: ARID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): cell number. Signless integer, value range: 1~3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 142 of 591
5) BTSNAME (BTS Name): cell identification name. Character string type, the maximum length is 40.
6) ARID (AdjacentCellReselection Identification): identification number of adjacent cell reselection object. Signless integer, value range: 1 to 32.
1.5.1.7 RARQ
1. Command function
To view the parameters of an adjacent cell reselection object.
2. Syntax structure
RARQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, ARID: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (BTS Name): cell identification name. Character string type, the maximum length is 40.
6) ARID (AdjacentCellReselection Identification): identification number of adjacent cell reselection object. Signless integer, value range: 1 to 32.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 143 of 591
7) PARAGRP (Parameter Group): radio parameter attribute package type. Enumerated type. Value range: ALL, the default value is ALL.
1.5.1.8 RBCA
1. Command function
To modify the radio status attribute of a radio BSC.
2. Syntax structure
RBCA: {BSCID, BSCNAME}: AD;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) BSCNAME (BSC Name): BSC identification name. Character string type, the maximum length is 40.
3) AD (Administer State): administration state attribute.. Enumerated type, enumerated items: L, U, S.
1.5.1.9 RBCC
1. Command function
To add a functional BSC.
2. Syntax structure
RBCC: BSCID: ALIAS: BARANG: MCC, MNC: INTERHO, INTRAHO, OVERLEV, FUNCEXT: T1, t3, t4, t7, t8, t10, t13, t17, t18, t19, t20: T9101, t9103, t9104, t9105, t9108, t9113, ZXGT1, ZXGT2, ZXGT3, ZXGT4, ZXGT5, ZXGT6, ZXGT7, ZXGT8, ZXGT9, ZXGT10, ZXGT11, RMSTQHO, ZXGT12, ZXGT13, ZXGT14, ZXGT15, ZXGT16, ZXGMT7, ZXGMT11, ZXGMT12, tMICRO, tBSIC, AIST1, AIST4, AIST8, AIST12, BCRT, BCPT:
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 144 of 591
T3101, t3103, t3107, t3109, t3111, t3113, t3105: BMRN, CMRN, CONFUMSG: RINDTHS, LOADIND, LVT, LIP, EDRAF, ACE: LOCNAME: CELFCTHS, MSFCTHS, CELFCPER, MSFCPER, DELAY, NSBLKMX, NSUNBLKM, NSALIVEM, BVCBLKM, BVCUBLKM, BVCRESTM, SUSPENDM, RESUMEM, UPDATEM, FLRPTPRD, CN, XN, NN, OVERLDTH, DEFRATE, N3101, N3103, N3105: T3169, t3191, t3193, t3195, BSSGPT1, BSSGPT2, BSSGPT3, BSSGPT4, BSSGPT5, NS_T1, NS_T2, NS_T3, NS_T4, NS_T5 ccmT1, ccmT2, ccmT3, csMode;
3. Parameter description
1) BSCID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) ALIAS (Alias): alias. Character string type, the maximum length is 40.
3) BARANG (Band Range): broadcast range. Composite integer type, value range: 1~124, 0, 512 to 885, 975 to 1023.
4) MCC (Mobile Country Code): Mobile country code. Signless integer, value range: 0~999, the default value is 460 (China).
5) MNC (Mobile NetWork Code): mobile network code. Signless integer, value range: 0~99, the default value is 0.
6) INTERHO (Inter-cell HandOver): whether to allow inter-cell handover. Type Boolean, the default value is T.
7) INTRAHO (Intra-HandOver): whether to allow intra-cell handover. Type Boolean, the default value is T.
8) OVERLEV (OverFlow Level): flow control. Signless integer, value range: 0, the default value is 0.
9) FUNCEXT: whether the system supports PCS1900. Signless integer, 0: support DCS1800, 1: support PCS1900.
10) T1 (Time1): blocking/unblocking period. Signless integer, value range: 30~150, the default value is 80.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 145 of 591
11) T3 (Time3): protection time of instantaneous disconnection. Signless integer, value range: 10~200, the default value is 100.
12) T4 (Time4): global reset period. Signless integer, value range: 60~150, the default value is 100.
13) T7 (Time7): protection period of handover request. Signless integer, value range: 100~200, the default value is 100.
14) T8 (Time8): execution period of source BSC handover. Signless integer, value range: 50~700, the default value is 120.
15) T10 (Time10): assignment period. Signless integer, value range: 40~150, the default value is 80.
16) T13 (Time13): protection period of global reset. Signless integer, value range: 30~60, the default value is 40.
17) T17 (Time17): the first overload period of flow control. Signless integer, value range: 30~150, the default value is 80.
18) T18 (Time18): the second overload period of flow control. Signless integer, value range: 100~300, the default value is 150.
19) T19 (Time19): reset period of the circuit at the BSS side. Signless integer, value range: 30~150, the default value is 80.
20) T20 (Time20): blocking/unblocking period of circuit group. Signless integer, value range: 30~150, the default value is 80.
21) T9101 (Time9101): monitoring the receiving of RLSD messages. Signless integer, value range: 20~50, the default value is 20.
22) T9103 (Time9103): monitoring the channel activation process. Signless integer, value range: 20, the default value is 20.
23) T9104 (Time9104): monitoring the CLEAR command sent from MSC. Signless integer, value range: 20~50, the default value is 30.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 146 of 591
24) T9105 (Time9105): monitoring the SCCP connection process. Signless integer, value range: 20~60, the default value is 30.
25) T9108 (Time9108): monitoring the physical context request process. Signless integer, value range: 20, the default value is 20.
26) T9113 (Time9113): monitoring the external handover process in the target cell. Signless integer, value range: 50~180, the default value is 110.
27) ZXGT1 (ZX Gsm Timer1): the protection time for waiting for the access of MS after the channel is activated during assignment or handover. Signless integer, value range: 50~120, the default value is 70.
28) ZXGT2 (ZX Gsm Timer2): protection time of channel application. Signless integer, value range: 20~50, the default value is 40.
29) ZXGT3 (ZX Gsm Timer3): the protection time for waiting for the link establishment response of the central module during immediate assignment. Signless integer, value range: 30~100, the default value is 60.
30) ZXGT4 (ZX Gsm Timer4): monitoring the modification process of MS channel mode. Signless integer, value range: 10~80, the default value is 30.
31) ZXGT5 (ZX Gsm Timer5): monitoring the modification process of encryption mode. Signless integer, value range: 30~120, the default value is 100.
32) ZXGT6 (ZX Gsm Timer6): monitoring the link establishment of SAPI3. Signless integer, value range: 10~300, the default value is 100.
33) ZXGT7 (ZX Gsm Timer7): the protection time for waiting for the response of P0 to assignment or the handover completion message. Signless integer, value range: 50~200, the default value is 150.
34) ZXGT8 (ZX Gsm Timer8): the time from the handover command to the clear command during outgoing handover. Signless integer, value range: 50~650, the default value is 100.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 147 of 591
35) ZXGT9 (ZX Gsm Timer9): the protection time from the handover command to the clear command during outgoing handover. Signless integer, value range: 10~50, the default value is 20.
36) ZXGT10 (ZX Gsm Timer10): the queuing protection time for channel application.. Signless integer, value range: 50~200, the default value is 130.
37) ZXGT11 (ZX Gsm Timer11): the maximum allowed queuing time for assignment attempt. Signless integer, value range: 10~150, the default value is 60.
38) RMSTQHO (Retry Ms Timer Queue HandOver): the maximum allowed queuing time for handover attempt. Signless integer, value range: 10~150, the default value is 50.
39) ZXGT12 (ZX Gsm Timer12): periodic status acknowledgement interval. Signless integer, value range: 100~18000, the default value is 3000.
40) ZXGT13 (ZX Gsm Timer13): monitoring the modification process of BTS and MS modes. Signless integer, value range: 35 to 100, the default value is 60.
41) ZXGT14 (ZX Gsm Timer14): the period of time from the moment when the target instance sends an assignment/handover command to the moment when the acknowledgement is received. Signless integer, value range: 10~50, the default value is 20.
42) ZXGT15 (ZX Gsm Timer15): the time taken for the target instance to wait for the availability of resources during forced release.. Signless integer, value range: 10~50, the default value is 30.
43) ZXGT16 (ZX Gsm Timer16): interval time of directional retry. Signless integer, value range: 20~60, the default value is 20.
44) ZXGMT7 (ZX Gsm MTimer7): protection time of external handover. Signless integer, value range: 1~65535, the default value is 100.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 148 of 591
45) ZXGMT11 (ZX Gsm MTimer11): a clock in the overload control. Signless integer, value range: 30~150, the default value is 80.
46) ZXGMT12 (ZX Gsm MTimer12): a clock in the overload control. Signless integer, value range: 50~200, the default value is 150.
47) TMICRO (Timer Micro): time delay timer for micro-micro handover. Signless integer, value range: 50~200, the default value is 80.
48) TBSIC (Timer Bsic): BSIC decoding period. Signless integer, value range: 20~640, the default value is 50.
49) AIST1 (AIS Timer1): Assigning status protection timer. Signless integer, value range: 40~150, the default value is 80.
50) AIST4 (AIS Timer4): RapidApplying status protection timer. Signless integer, value range: 30~150, the default value is 40.
51) AIST8 (AIS Timer8): OutGoHoing status protection timer. Signless integer, value range: 50~700, the default value is 120.
52) AIST12 (AIS Timer12): Serving status protection timer. Signless integer, value range: 100~18000, the default value is 3000.
53) BCRT (BCRT): routine timer for system message broadcast. Signless integer, value range: 6000~864000, the default value is 18000.
54) BCPT (BCPT): protection timer for system message broadcast to wait for the response of FUC. Signless integer, value range: 30~100, the default value is 50.
55) T3101 (T3101): the maximum period of time from the moment when the BSC network side sends an immediate assignment to the moment when the MS acquires a channel successfully. Signless integer, value range: 10~50, the default value is 30.
56) T3103 (T3103): the maximum period of time from the moment when the BSC network side sends an handover to the moment when the
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 149 of 591
MS acquires a channel successfully. Signless integer, value range: 35 to 100, the default value is 60.
57) T3107 (T3107): the timer for managing assignment and intra-cell handover. Signless integer, value range: 35 to 100, the default value is 60.
58) T3109 (T3109): the maximum time taken for completely releasing the channel when a low-layer error occurs or the channel release process begins. Signless integer, value range: 10~150, the default value is 0.
59) T3111 (T3111): the time taken from releasing the traffic channel to deactivating the RF channel. Signless integer, value range: 1~5, the default value is 1.
60) T3113 (T3113): time delay timer for micro-micro handover. Signless integer, value range: 0~65535, the default value is 1.
61) T3105 (T3105): T3105 timer. Signless integer, value range: 0, the default value is 0.
62) BMRN (BSC Max Reset No): the maximum number of repetition times for BSC reset process . Signless integer, value range: 1~255, the default value is 3.
63) CMRN (Circuit Max Reset No): the maximum number of repetition times for circuit reset process . Signless integer, value range: 1~255, the default value is 3.
64) CONFUMSG (Confusion Message): whether to allow BSC to send BSSAP Confusion. Type Boolean, the default value is F.
65) RINDTHS (Resource Indication threshold): the threshold for BSC to spontaneously indicate resources (available channels) to MSC (%). Signless integer, value range: 0~100, the default value is 30.
66) LOADIND: Load Indication. Type Boolean, the default value is T.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 150 of 591
67) LVT: Load Valid Time. Signless integer, value range: 1~255, the default value is 18.
68) LIP: Load Indication Period. Signless integer, value range: 10~65530, the default value is 1500.
69) EDRAF: EDR Assignment Failure. Type Boolean, the default value is F.
70) ACE (ACE): ACE. Type Boolean, the default value is F.
71) LOCNAME (Location Name): resource location information. Character string type, the maximum length is 40.
72) CELFCTHS: BSSGP flow control threshold of the cell. Signless integer, value range: (0~100).
73) MSFCTHS: BSSGP flow control threshold of the MS. Signless integer, value range: (0~100).
74) CELFCPER: BSSGP flow control trigger period of the cell (unit: 10ms). Signless integer.
75) MSFCPER: BSSGP flow control trigger period of the MS (unit: 10ms). Signless integer.
76) DELAY: NS-VC end-to-end time delay (unit: 10ms). Signless integer.
77) NSBLKMX: the maximum number of retry times for Block of NS, NS link-layer parameter. Signless integer, the maximum length is 3.
78) NSUNBLKM: the maximum number of retry times for Unblock of NS, NS link-layer parameter. Signless integer, the maximum length is 3.
79) NSALIVEM: the maximum number of retry times for Alive of NS, NS link-layer parameter. Signless integer, the maximum length is 10.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 151 of 591
80) BVCBLKM: the maximum number of retry times for Block of BVC, BSSGP-layer parameter. Signless integer, the maximum length is 3.
81) BVCUBLKM: the maximum number of retry times for Unblock of BVC, BSSGP-layer parameter. Signless integer, the maximum length is 3.
82) BVCRESTM: the maximum number of retry times for Reset of BVC, BSSGP-layer parameter. Signless integer, the maximum length is 3.
83) SUSPENDM: the maximum number of retry times for Suspend, BSSGP-layer parameter. Signless integer, the maximum length is 3.
84) RESUMEM: the maximum number of retry times for Resume, BSSGP-layer parameter. Signless integer, the maximum length is 3.
85) UPDATEM: the maximum number of retry times for RA_CAPABILITY_UPDATE_RETRIES, BSSGP-layer parameter. Signless integer, the maximum length is 3.
86) FLRPTPRD : reporting period of channel failure rate (unit: 52 multi-frames). Signless integer.
87) CN: when the accumulated number of continuously and correctly received data blocks exceeds the preset parameter CN, the transmitting coding mode of MS will be improved by one level. Signless integer array, the number is 3.
88) XN: when Xn% data blocks have been lost in Nn continuous data blocks, the transmitting coding mode of MS will be reduced by one level.. Signless integer array, the number is 3.
89) NN: when Xn% data blocks have been lost in Nn continuous data blocks, the transmitting coding mode of MS will be reduced by one level.. Signless integer array, the number is 3.
90) OVERLDTH: maximum bearing ideal rate for PS channel (unit: 100b/s). Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 152 of 591
91) DEFRATE: default rate for initial access (unit: 100b/s). Signless integer.
92) N3101: when USF has been set on the network, if no effective data has been received for N3101 continuous blocks, the network will regard the TBF quality as being too poor, and the TBF will be released.. Signless integer.
93) N3103: if the network has not received the Packet Control Ack message for N3103 times in specified blocks, T3169 will be started. When T3169 overflows, the network will release the TBF. and the TBF will be released.. Signless integer.
94) N3105: when the network sends a RRBP domain in the downlink RLC data block, if effective RLC/MAC control messages from MS have not been received for N3105 times, the downlink TBF will be released internally and T3195 will be started. Signless integer.
95) T3169: the timer for the network to reuse the TFI and USF resources. Signless integer.
96) T3191: the timer for the network to release TBF. Signless integer.
97) T3193: the protection timer for releasing TBF in the packet downlink transmission process. Signless integer.
98) T3195: the protection time of TBF when there is no response from MS due to radio link failure or cell change. Signless integer.
99) BSSGPT1: 1s~30s, BSSGP-layer parameter, controlling the Block/Unblock process. Signless integer.
100) BSSGPT2: 1s~120s, BSSGP-layer parameter, controlling the Reset process. Signless integer.
101) BSSGPT3: 0.1s~10s, BSSGP-layer parameter, controlling the Suspend process. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 153 of 591
102) BSSGPT4: 0.1s~10s, BSSGP-layer parameter, controlling the Resume process. Signless integer.
103) BSSGPT5: 0.1s~10s, BSSGP-layer parameter, controlling the RA_CAPABILITY_UPDAT. Signless integer.
104) NS_T1: 1s~120s, NS link-layer parameter, controlling the blocking/unblocking process. Signless integer.
105) NS_T2: 1s~120s, NS link-layer parameter, controlling the reset process. Signless integer.
106) NS_T3: 1s~60s, NS link-layer parameter, controlling the periodic test process of NSVC. Signless integer.
107) NS_T4: 3s, NS link-layer parameter, controlling the alive process. Signless integer.
108) NS_T5: the maximum attempt period of Reset. Signless integer.
109) ccmT1: the protection timer for changing the type of FUC channel. Value range: 2~10s, the default is 10s.
110) ccmT2: the protection timer for T net connection. Value range: 2~10s, the default is 10s.
111) ccmT3: the protection timer for LSP moving . Value range: 2~10s, the default is 10s.
112) csMode: channel coding mode. Value range: 0 (the default coding mode is CS-2, but it can change between CS-2 and CS-1 dynamically), 1 (CS-1), 2 (CS-2), 3 (CS-3), 4 (CS-4). The default is 1.
1.5.1.10 RBCD
1. Command function
To delete a radio BSC.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 154 of 591
2. Syntax structure
RBCD: {BSCID, BSCNAME};
3. Parameter description
1) BSCID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) BSCNAME (BSC Name): BSC identification name. Character string type, the maximum length is 40.
1.5.1.11 RBCM
1. Command function
To modify a functional BSC.
2. Syntax structure
RBCM: {BSCID, BSCNAME}: BARANG, MODIMODE [, ALIAS] [, MCC] [, MNC] [, NTERHO] [, t1] [, t3] [, t4] [, t7] [, t8] [, t10] [, t13] [, t17] [, t18] [, t19] [, t20] [, t9104] [, t9105] [, t9108] [, t9113] [, ZXGT1] [, ZXGT2] [, ZXGT3] [, ZXGT4] [, ZXGT5] [, ZXGT6] [, ZXGT7] [, ZXGT8] [, ZXGT9] [, ZXGT10] [, ZXGT11] [, RMSTQHO] [, ZXGT12] [, ZXGT13] [, ZXGT14] [, ZXGT15] [, ZXGT16] [, ZXGMT7] [, ZXGMT11] [, ZXGMT12] [, tMICRO] [, tBSIC] [, AIST1] [, AIST4] [, AIST8] [, AIST12] [, BCRT] [, BCPT, ] [ T3101] [, t3103] [, t3107] [, t3109] [, t3111] [, t3113] [, BMRN] [, CMRN] [, CONFUMSG] [, RINDTHS] [, LOADIND] [, LVT] [, LIP] [, EDRAF] [, ACE] [, LOCNAME]: [CELFCTHS] [, MSFCTHS] [, CELFCPER] [, MSFCPER] [, DELAY] [, NSBLKMX] [, NSUNBLKM] [, NSALIVEM] [, BVCBLKM] [, BVCUBLKM] [, BVCRESTM] [, SUSPENDM] [, RESUMEM] [, UPDATEM] [, FLRPTPRD] [, CN] [, XN] [, NN] [, OVERLDTH] [, DEFRATE] [, N3101] [, N3103] [, N3105: T3169] [, t3191] [, t3193] [, t3195] [, BSSGPT1] [, BSSGPT2] [, BSSGPT3] [, BSSGPT4] [, BSSGPT5] [, NS_T1] [, NS_T2] [, NS_T3] [, NS_T4] [, NS_T5];
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 155 of 591
1) BSCID (Bss Function Identification): BSS identification number. Signless integer, value range1~255.
2) BSCNAME (BSC Name): BSC identification name. Character string type, the maximum length is 40.
3) BARANG (BA Range): broadcast range. Signless integer, value range: 1~124, 0, 512 to 885, 975 to 1023.
4) MODIMODE (Modify Mode): modification mode of broadcast range. Signless integer, value range: 0~2. (0: reset; 1: add; 2: delete)
5) ALIAS: alias. Character string type, the maximum length is 40.
6) MCC (Mobile Country Code): Mobile country code. Signless integer, value range: 0~999.
7) MNC (Mobile NetWork Code): mobile network code. Signless integer, value range: 0~99.
8) INTERHO (Internal HandOver): whether to allow inter-cell handover. Type Boolean.
9) T1 (Timer1): blocking/unblocking period. Signless integer, value range: 30~150.
10) T3 (Timer3): protection time of instantaneous disconnection. Signless integer, value range: 10~200.
11) T4 (Timer4): global reset period. Signless integer, value range: 60~150.
12) T7 (Timer7): protection period of handover request. Signless integer, value range: 100~200.
13) T8 (Timer8): execution period of source BSC handover. Signless integer, value range: 80~150.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 156 of 591
14) T10 (Timer10): assignment period. Signless integer, value range: 40~140.
15) T13 (Timer13): protection period of global reset. Signless integer, value range: 30~60.
16) T17 (Timer17): the first overload period of flow control. Signless integer, value range: 10~100.
17) T18 (Timer18): the second overload period of flow control. Signless integer, value range: 30~200.
18) T19 (Timer19): reset period of the circuit at the BSS side. Signless integer, value range: 30~150.
19) T20 (Timer20): blocking /unblocking period of circuit group. Signless integer, value range: 30~150.
20) T9104 (Timer9104): monitoring the CLEAR command sent from MSC. Signless integer, value range: 20~50.
21) T9105 (Time9105): monitoring the SCCP connection process. Signless integer, value range: 20~60, the default value is 30.
22) T9108 (Time9108): monitoring the physical context request process. Signless integer, value range: 20, the default value is 20.
23) T9113 (Time9113): monitoring the external handover process in the target cell. Signless integer, value range: 50~180, the default value is 110.
24) ZXGT1 (ZX Gsm Timer1): the protection time for waiting for the access of MS after the channel is activated during assignment or handover. Signless integer, value range: 50~120, the default value is 70.
25) ZXGT2 (ZX Gsm Timer2): protection time of channel application. Signless integer, value range: 20~50, the default value is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 157 of 591
26) ZXGT3 (ZX Gsm Timer3): the protection time for waiting for the link establishment response of the central module during immediate assignment. Signless integer, value range: 30~100, the default value is 60.
27) ZXGT4 (ZX Gsm Timer4): monitoring the modification process of MS channel mode. Signless integer, value range: 10~80, the default value is 30.
28) ZXGT5 (ZX Gsm Timer5): monitoring the modification process of encryption mode. Signless integer, value range: 30~120, the default value is 100.
29) ZXGT6 (ZX Gsm Timer6): monitoring the link establishment of SAPI3. Signless integer, value range: 10~300, the default value is 100.
30) ZXGT7 (ZX Gsm Timer7): the protection time for waiting for the response of P0 to assignment or the handover completion message. Signless integer, value range: 50~200, the default value is 150.
31) ZXGT8 (ZX Gsm Timer8): the time from the handover command to the clear command during outgoing handover. Signless integer, value range: 50~650, the default value is 100.
32) ZXGT9 (ZX Gsm Timer9): the protection time from the handover command to the clear command during outgoing handover. Signless integer, value range: 10~50, the default value is 20.
33) ZXGT10 (ZX Gsm Timer10): the queuing protection time for channel application.. Signless integer, value range: 50~200, the default value is 130.
34) ZXGT11 (ZX Gsm Timer11): the maximum allowed queuing time for assignment attempt. Signless integer, value range: 10~150, the default value is 60.
35) RMSTQHO (Retry Ms Timer Queue HandOver): the maximum allowed queuing time for handover attempt. Signless integer, value range: 10~150, the default value is 50.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 158 of 591
36) ZXGT12 (ZX Gsm Timer12): periodic status acknowledgement interval. Signless integer, value range: 100~18000, the default value is 3000.
37) ZXGT13 (ZX Gsm Timer13): monitoring the modification process of BTS and MS modes. Signless integer, value range: 35 to 100, the default value is 60.
38) ZXGT14 (ZX Gsm Timer14): the period of time from the moment when the target instance sends an assignment/handover command to the moment when the acknowledgement is received. Signless integer, value range: 10~50, the default value is 20.
39) ZXGT15 (ZX Gsm Timer15): the time taken for the target instance to wait for the availability of resources during forced release.. Signless integer, value range: 10~50, the default value is 30.
40) ZXGT16 (ZX Gsm Timer16): interval time of directional retry. Signless integer, value range: 20~60, the default value is 20.
41) ZXGMT7 (ZX Gsm MTimer7): protection time of external handover. Signless integer, value range: 1~65535, the default value is 100.
42) ZXGMT11 (ZX Gsm MTimer11): a clock in the overload control. Signless integer, value range: 50~200.
43) ZXGMT12 (ZX Gsm MTimer12): a clock in the overload control. Signless integer, value range: 100~300.
44) TMICRO (Timer Micro): time delay timer for micro-micro handover. Signless integer, value range: 50~200.
45) TBSIC (BISC Timer): BSIC decoding period. Signless integer, value range: 20~640.
46) AIST1 (AIS Timer1): Assigning status protection timer. Signless integer, value range: 40~150.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 159 of 591
47) AIST4 (AIS Timer4): RapidApplying status protection timer. Signless integer, value range: 30~150.
48) AIST8 (AIS Timer8): OutGoHoing status protection timer. Signless integer, value range: 50~700.
49) AIST12 (AIS Timer12): Serving status protection timer. Signless integer, value range: 100~18000.
50) BCRT (BCRT): routine timer for system message broadcast. Signless integer, value range: 6000~864000.
51) BCPT (BCPT): protection timer of system message broadcast for waiting for the response of FUC. Signless integer, value range: 30~100.
52) T3101 (Timer3101): the maximum period of time from the moment when the BSC network side sends an immediate assignment to the moment when the MS acquires a channel successfully. Signless integer, value range: 10~50.
53) T3103 (Timer3103): the maximum period of time from the moment when the BSC network side sends an handover to the moment when the MS acquires a channel successfully. Signless integer, value range: 35 to 100.
54) T3107 (Timer3107): the timer for managing assignment and intra-cell handover. Signless integer, value range: 35 to 100.
55) T3109 (Timer3109): the maximum time taken for completely releasing the channel when a low-layer error occurs or the channel release process begins. Signless integer, value range: 10~150.
56) T3111 (Timer3111): the time taken from releasing the traffic channel to deactivating the RF channel. Signless integer, value range: 1~5.
57) T3113 (Timer3113): time delay timer for micro-micro handover. Signless integer, value range: 0~65535.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 160 of 591
58) BMRN (BSC Max Retry Number): the maximum number of repetition times for BSC reset process . Signless integer, value range: 1~255.
59) CMRN (Circuit Max Retry Number): the maximum number of repetition times for circuit reset process . Signless integer, value range: 1~255.
60) CONFUMSG (Confusion Message): whether to allow BSC to send BSSAP Confusion message. Type Boolean.
61) RINDTHS (Resource Indication threshold): the threshold for BSC to spontaneously indicate resources (available channels) to MSC (%). Signless integer, value range: 0~100.
62) LOADIND: Load Indication. Type Boolean.
63) LVT: Load Valid Time. Signless integer, value range: 1~255.
64) LIP: Load Indication Period. Signless integer, value range: 10~65530.
65) EDRAF (EDRAF): whether to allow assignment failure for directional retry. Type Boolean.
66) ACE (ACE): whether to allow BSC to allocate the land circuit by itself. Type Boolean.
67) LOCNAME (Location Name): resource location information. Character string type, the maximum length is 40.
68) CELFCTHS: BSSGP flow control thresho ld of the cell. Signless integer, value range: (0~100).
69) MSFCTHS: BSSGP flow control threshold of the MS. Signless integer, value range: (0~100).
70) CELFCPER: BSSGP flow control trigger period of the cell (unit: 10ms). Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 161 of 591
71) MSFCPER: BSSGP flow control trigger period of the MS (unit: 10ms). Signless integer.
72) DELAY: NS-VC end-to-end time delay (unit: 10ms). Signless integer.
73) NSBLKMX: the maximum number of retry times for Block of NS, NS link-layer parameter. Signless integer, the maximum length is 3.
74) NSUNBLKM: the maximum number of retry times for Unblock of NS, NS link-layer parameter. Signless integer, the maximum length is 3.
75) NSALIVEM: the maximum number of retry times for Alive of NS, NS link-layer parameter. Signless integer, the maximum length is 10.
76) BVCBLKM: the maximum number of retry times for Block of BVC, BSSGP-layer parameter. Signless integer, the maximum length is 3.
77) BVCUBLKM: the maximum number of retry times for Unblock of BVC, BSSGP-layer parameter. Signless integer, the maximum length is 3.
78) BVCRESTM: the maximum number of retry times for Reset of BVC, BSSGP-layer parameter. Signless integer, the maximum length is 3.
79) SUSPENDM: the maximum number of retry times for Suspend, BSSGP-layer parameter. Signless integer, the maximum length is 3.
80) RESUMEM: the maximum number of retry times for Resume, BSSGP-layer parameter. Signless integer, the maximum length is 3.
81) UPDATEM: the maximum number of retry times for RA_CAPABILITY_UPDATE_RETRIES, BSSGP-layer parameter. Signless integer, the maximum length is 3.
82) FLRPTPRD : reporting period of channel failure rate (unit: 52 multi-frames). Signless integer.
83) CN: When the accumulated number of continuously and correctly received data blocks exceeds the preset parameter CN, then the
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 162 of 591
transmitting coding mode of MS will be improved by one level. Signless integer array, the number is 3.
84) XN: when Xn% data blocks have been lost in Nn continuous data blocks, the transmitting coding mode of MS will be reduced by one level.. Signless integer array, the number is 3.
85) NN: when Xn% data blocks have been lost in Nn continuous data blocks, the transmitting coding mode of MS will be reduced by one level.. Signless integer array, the number is 3.
86) OVERLDTH: maximum bearing ideal rate for PS channel (unit: 100b/s). Signless integer.
87) DEFRATE: default rate for initial access (unit: 100b/s). Signless integer.
88) N3101: when USF has been set on the network, if no effective data has been received for N3101 continuous blocks, the network will regard the TBF quality as being too poor, and the TBF will be released.. Signless integer.
89) N3103: if the network has not received the Packet Control Ack message for N3103 times in specified blocks, T3169 will be started. When T3169 overflows, the network will release the TBF. and the TBF will be released.. Signless integer.
90) N3105: when the network sends a RRBP domain in the downlink RLC data block, if effective RLC/MAC control messages from MS have not been received for N3105 times, the downlink TBF will be released and T3195 will be started. Signless integer.
91) T3169: the timer for the network to reuse the TFI and USF resources. Signless integer.
92) T3191: the timer for the network to release TBF. Signless integer.
93) T3193: the protection timer for releasing TBF in the packet downlink transmission process. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 163 of 591
94) T3195: the protection time of TBF when there is no response from MS due to radio link failure or cell change. Signless integer.
95) BSSGPT1: 1s~30s, BSSGP-layer parameter, controlling the Block/Unblock process. Signless integer.
96) BSSGPT2: 1s~120s, BSSGP-layer parameter, controlling the Reset process. Signless integer.
97) BSSGPT3: 0.1s~10s, BSSGP-layer parameter, controlling the Suspend process. Signless integer.
98) BSSGPT4: 0.1s~10s, BSSGP-layer parameter, controlling the Resume process. Signless integer.
99) BSSGPT5: 0.1s~10s, BSSGP-layer parameter, controlling the RA_CAPABILITY_UPDATE process. Signless integer.
100) NS_T1: 1s~120s, NS link-layer parameter, controlling the blocking/unblocking process. Signless integer.
101) NS_T2: 1s~120s, NS link-layer parameter, controlling the reset process. Signless integer.
102) NS_T3: 1s~60s, NS link-layer parameter, controlling the periodic test process of NSVC. Signless integer.
103) NS_T4: 3s, NS link-layer parameter, controlling the alive process. Signless integer.
104) NS_T5: the maximum attempt period of Reset. Signless integer.
1.5.1.12 RBCQ
1. Command function
To view the radio parameters of a BSC object.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 164 of 591
2. Syntax structure
RBCQ: BSCID: PARAGRP;
3. Parameter description
1) BSCID (BSC Identification): BSC identification number. Signless integer, value range: 1~255.
2) PARAGRP (Parameter Group): parameter group to be queried. Enumerated type, value range: STATES, ALL, the default value is ALL. Among them, All refers to querying static attribute information, and STATES refers to querying dynamic attribute information.
1.5.1.13 RBTA
1. Command function
To modify the status attribute of a cell
2. Syntax structure
RBTA: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: AD;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer type, value range1~255.
2) SITEID (Site Identification): site identification number. Signless integer type, value range1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): cell identification number. Signless integer type, value range1~3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 165 of 591
5) BTSNAME (BTS Name): cell identification name. Character string type, the length is 40.
6) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include L, U, S. L: locking state ; U: unlocking state; S: time delay blocking.
1.5.1.14 RBTC
1. Command function
To add a new cell.
2. Syntax structure
RBTC: BSSID {, SITEID, SITENAME}: BTSID, ALIAS, CELLTYPE: LAC, CI, NCC, BCC, GSMIND, BCCH, CA, CRH, NY1, PRDCLI, PLMNPMT, RBUSYTHS, RLAS, BRLTO, MRLTO, RXLAMIN: RETRANS, MSTXPMC, BAG, MULFRMPG, NSST: IMSIAD, BARRED, CBQ, CRA, DTXDL, ECR, NAAC, PRDUMS: T2SAPI0, t2TCHF, t2TCHH, t2TCHSA0, t2SDCCH, t2SAPI3, t2TCHSA3: HOMSMTMD: CCCHCFG: T3122, MBANDRPT, SCB, DTXULB, DTXULS: ACS, NECI, RSPI, CRO, tMPOFF, PENALTM, EPO, PWROFF, ECSC: DRIND, QUEIND0, QUEIND1, PREEMPI0, PREEMPI1, CANDINUM, CIPHER, FAIND1, FAIND2, FAIND3, FCIND1, FCIND2, FCIND3, FCIND4, OTPIND1, OTPIND2, OTPIND3, OTPIND5, OTPIND6, OTPIND7, ORLUL, ORLDL, CNTHSIND, RXLB, CIAIND, CIATHS, RESTHS: IFA, IFB0, IFB1, IFB2, IFB3, IFB4, IFB5: RLIT, PLIT, CFC, RXLTHS, RXQTHS, RXLQPRD, OLPRD, t3SDCCH, t3TCH, BAIND, CANBEXCH, CANSDDYN: LOCNAME: PSSUPPRT, ADDRSPI2, EXC_ACC, LSAOFFST, PRIO_THR, LSA_ID: NSEI, BVCI, RAC, SPCUMUNT, MNO, t3168, t3192, DRXTIMEM, BSCVMAX, CTRACKTP, ACCESSTP, PANDEC, PANINC, PANMAX, PCCREL, PBCHBLKS, PAGBLKRS, PRCHBLKS, tXINT, INSLTNUM, MRETRANS, PERSTLEV, ACCTRCLS, ALPHA, t_AVG_W, t_AVG_T, PB, PCMEASCH, PSI4SEND, N_AVG_I, RXLEVASN, MSTXMCCH, HCS_EXST, PRIOCLS, HCS_THR, RESELOFF, RESELHYS, C31_HYST, C32_QUAL, RADACRTY, t_RESEL, RARSLHYS, tMPOFFST, PNLTIME, SI3LOC, RACOLOR, MEAORDER, CTRORDER, NCNODRXP, NCREPPRI, NCREPPRT, EXMEAODR, EXTREPTP, EXTREPPR, SPGCSPRT, PRIACTHR,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 166 of 591
PSI1RPPR, PSISTIND, CSCHSTHS, SENDSPD, EPAGEMOD, OVLOADPR, PCCHIDTH, RLTIMOUT, PRCHBSYT, MEAAGSLT, BRPGROUP, BVCAD;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITEAME (Site Name): site identification number. Character string type, value range: 1~40.
4) BTSID (BTS Identification): cell identification number. Signless integer, value range: 1~3.
5) ALIAS (alias): cell alias. Character string type, value range: 1~40.
6) CELTYPE (Cell Type): cell type. Signless integer, value range: 0~3, the default value is 1.
7) LAC (Location Code): location area code. Signless integer, value range: 1~65535, without including 65534.
8) CI (Cell Identification): cell identification code. Signless integer, value range: 0~65535.
9) NCC (Network Color Code): network color code. Signless integer, value range: 0~7.
10) BCC (Base station Color Code): base station color code. Signless integer, value range: 0~7.
11) GSMIND (Gsm Indication): frequency band indication. Signless integer, value range: 0~2, the default value is 0. Among them, : 0: GSM900; 1: EGSM900; 2: GSM1800.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 167 of 591
12) BCCH (Broadcast Channel): frequency of BCCH. Signless integer, (as the first element of CA), value range: 1~124, 0, 512 to 885, 975 to 1023.
13) CA: a collection of radio frequencies that can be used in the cell (without including the BCCH frequency). Signless integer, value range: 1~124, 0, 512 to 885, 975 to 1023, NULL.
14) CRH (Cell Reselection Hold): cell reselection lagging level. Signless integer, value range: 0~7, the default value is 4.
15) NY1: the maximum number of repetition times for sending Physical Information messages in a handover. Signless integer, value range: 5 to 35, the default value is 8.
16) PRDCLI: the period for notifying BSC of the CCCH indication message. Signless integer, value range: 1~255, the default value is 2.
17) PLMNPMT: allowing MS to report the PLMN table of the measured result. Signless integer, value range: 0~7.
18) RBUSYTHS (RACH Burst Threshold): the threshold of the received signal level in a RACH burst pulse period. Signless integer, value range: 0~63, the default value is 63.
19) RLAS: the average number of burst pulses measured at RACH. Signless integer, value range: 0~100, the default value is 60.
20) BRLTO: the maximum value of counter S for inspecting radio link faults at the BSS side. Signless integer, value range: 0~15, the default value is 15.
21) MRLTO: the maximum value of counter S for inspecting radio link faults at the MS side. Signless integer, value range: 0~15, the default value is 15.
22) RXLAMIN: the minimum received intensity level of MS when it visits this cell. Signless integer, value range: 0~63, the default value is 10.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 168 of 591
23) RETRANS: the maximum number of retransmission times of MS on RACH for an access. Signless integer, value range: 1, 2, 4, 7, the default value is 4.
24) MSTXPMC: the (maximum) power that can be used by MS when it accesses the system initially. Signless integer, value range: 0~31, the default value is 5.
25) BAG: the number of blocks used in AGCH in 51 multi-frames. Signless integer, value range: 0~7, the default value is 2.
26) MULFRMPG: the number of multi-frames of 51 TDM frames for transmitting paging messages to the MSs of the same paging group. Signless integer, value range: 2 to 9, the default value is 5.
27) NSST: the maximum time interval for retransmission of MS on RACH. Signless integer, value range: 0~15, the default value is 14.
28) IMSIAD: whether IMSI attach/detach is allowed for the cell. Type Boolean, the default value is T.
29) BARRED: whether the cell is barred. Type Boolean, the default value is F.
30) CBQ: cell barring restriction. Type Boolean, the default value is F.
31) CRA: whether MS call re-establishment is allowed in the cell. Type Boolean, the default value is T.
32) DTXDL: whether DTX mode is used in the downlink direction. Type Boolean, the default value is F.
33) ECR: whether all MS emergency calls are allowed or only type-11-to-15 MS emergency calls are allowed. Type Boolean, the default value is F.
34) NAAC: MS category that is barred for accessing the cell. Signless integer, value range: 0~9, 11~15.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 169 of 591
35) PRDUMS: interval period for MS location updating (T3212). Signless integer, value range: 0~255, the default value is 10.
36) T2SAPI0: LAPDM timer used for controlling the SDCCH channel. Signless integer, value range: 1, the default value is 1.
37) T2TCHF: LAPDM timer used for controlling FACCH/full rate. Signless integer, value range: 1, the default value is 1.
38) T2TCHH: LAPDM timer used for controlling FACCH/half rate. Signless integer, value range: 1, the default value is 1.
39) T2TCHSA0: LAPDM timer used for controlling SACCH with TCH sapi0. Signless integer, value range: 2, the default value is 2.
40) T2SDCCH: LAPDM timer used for controlling SACCH with SDCCH. Signless integer, value range: 2, the default value is 2.
41) T2SAPI3: LAPDM timer used for controlling SDCCH sapi3. Signless integer, value range: 1, the default value is 1.
42) T2TCHSA3: LAPDM timer used for controlling SACCH with TCH sapi3. Signless integer, value range: 2, the default value is 2.
43) HOMSMTMD: whether to perform handover preprocessing and report period. Signless integer, value range: 0, 2, 3, 4, the default value is 4. Among them, : 0: disallow; 1: allow.
44) CCCHCFG: structural parameter of common control channel (CCCH). Signless integer, value range: 0, 1. 2, 4, 6, the default value is 0.
45) T3122: interval time for MS to make the next access attempt after an access request fails (in IMME ASSIGN REJ). Signless integer, value range: 0~255, the default value is 10.
46) MBANDRPT: the number of adjacent cells in adjacent frequency bands reported and measured by MS in multi-frequency band operation. Signless integer, value range: 0~3, the default value is 3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 170 of 591
47) SCB: the mode for allowing the cell-broadcast short-message service in the cell. Signless integer, value range: 0~2, the default value is 0.
48) DTXULB: the mode for MS to use DTX (broadcast over BCCH). Signless integer, value range: 0~2, the default value is 2.
49) DTXULS: the mode for MS to use DTX (broadcast over SACCH). Signless integer, value range: 0~7, the default value is 5.
50) ACS: attached reselection parameter indication. Type Boolean, the default value is F.
51) NECI: whether the hardware capability supports half rate. Type Boolean, the default value is F.
52) RSPI: whether to use C2 reselection parameter indication of the cell. Type Boolean, the default value is F.
53) CRO: a correction value of the C2 reselection standard. Signless integer, value range: 0~63, the default value is 5.
54) TMPOFF: a negative correction value of the C2 reselection standard in the Penalty_Time period. Signless integer, value range: 0~7, the default value is 1.
55) PENALTM: action time of the Penalty_Time parameter (20s). Signless integer, value range: 0~31, the default value is 0.
56) EPO: indication of the POWER-OFFSET parameter. Type Boolean, the default value is F.
57) PWROFF: initial access power correction for the MS of type 3 DCS1800. Signless integer, value range: 0~3, the default value is 0.
58) ECSC: early category sending control. Type Boolean, the default value is T. Among them, : True: enable; False: disable.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 171 of 591
59) DRIND: whether to use Directed Retry. Type Boolean, the default value is F.
60) QUEIND0: whether queuing is allowed during assignment. Type Boolean, the default value is F.
61) QUEIND1: whether queuing is allowed during handover. Type Boolean, the default value is F.
62) PREEMPI0: forced release flag for assignment (occupancy, vulnerability).Type Boolean, the default value is F.
63) PREEMPI1: forced release flag for handover (occupancy, vulnerability).Type Boolean, the default value is F.
64) CANDINUM: the maximum number of candidate cells that may exist in the HANDORVD message. Signless integer, value range: 1~16, the default value is 6.
65) CIPHER: cipher mode supported by the cell. Signless integer, value range: 0~7, the default value is 1 (0 represents no cipher mode, and can not be input together with other values).
66) FAIND1: whether fast average is allowed after call establishment. Type Boolean, the default value is T.
67) FAIND2: whether fast average is allowed after handover. Type Boolean, the default value is T.
68) FAIND3: whether fast average is allowed after power control. Type Boolean, the default value is T.
69) FCIND1: whether FACCH call establishment is allowed for emergency call. Type Boolean, the default value is T.
70) FCIND2: whether FACCH call establishment is allowed for answering paging call. Type Boolean, the default value is T.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 172 of 591
71) FCIND3: whether FACCH call establishment is allowed for originating call. Type Boolean, the default value is T.
72) FCIND4: whether FACCH call establishment is allowed for call re-establishment. Type Boolean, the default value is T.
73) OTPIND1: whether the transmitting power is optimized during assignment in the uplink direction. Type Boolean, the default value is F.
74) OTPIND2: whether the transmitting power is optimized during intra-cell handover in the uplink direction. Type Boolean, the default value is F.
75) OTPIND3: whether the transmitting power is optimized during inter-cell handover in the uplink direction. Type Boolean, the default value is F.
76) OTPIND5: whether the transmitting power is optimized during assignment in the downlink direction. Type Boolean, the default value is F.
77) OTPIND6: whether the transmitting power is optimized during intra-cell handover in the downlink direction. Type Boolean, the default value is F.
78) OTPIND7: whether the transmitting power is optimized during inter-cell handover in the downlink direction. Type Boolean, the default value is F.
79) ORLUL: uplink optimal signal leve l. Signless integer, value range: 0~63, the default value is 22.
80) ORLDL: downlink optimal signal level. Signless integer, value range: 0~63, the default value is 22.
81) CNTHSIND: the minimum acceptable carrier-to-noise ratio during channel allocation. Signless integer, value range: 0~63, the default value is 15.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 173 of 591
82) RXLB: balancing degree of uplink and downlink signals . Signless integer, value range: 0~20, the default value is 0.
83) CIAIND: whether the assignment process of TCH from SDCCH to a special TRX can be executed. Type Boolean, the default value is F.
84) CIATHS: the minimum signal level allowed in the uplink direction during the execution of the TCH assignment process from SDCCH to a special TRX. Signless integer, value range: 0~63, the default value is 25.
85) RESTHS: the minimum resources threshold allowed for the cell (%). Signless integer, value range: 0~100, the default value is 100.
86) IFA: the number of interference-level SACCH multi-frames in the idle time slots for measurement, i.e., the measurement period (unit: 102 TDMA frames). Signless integer, value range: 1~31, the default value is 31.
87) IFB0: interference band boundary [0]. Signless integer, value range: 0, the default value is 0.
88) IFB1: interference band boundary [1]. Signless integer, value range: 0~63, the default value is 10.
89) IFB2: interference band boundary [2]. Signless integer, value range: 0~63, the default value is 15.
90) IFB3: interference band boundary [3]. Signless integer, value range: 0~63, the default value is 20.
91) IFB4: interference band boundary [4]. Signless integer, value range: 0~63, the default value is 25.
92) IFB5: interference band boundary [5]. Signless integer, value range: 63, the default value is 63.
93) RLIT: RACH load indication threshold . Signless integer, value range: 0~100, the default value is 60.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 174 of 591
94) PLIT: PCH load indication threshold. Signless integer, value range: 0~100, the default value is 60.
95) CFC: the criterion for judging the failure of a radio link at the network side (BTS). Signless integer, value range: 1~2, the default value is 1. 1: based on the correct decoding rate of the uplink SACCH; 2: based on the measured value of rxLev/rxqual.
96) RXLTHS: the received level threshold for checking radio link failure at the network side (BTS). Signless integer, value range: 0~63, the default value is 10.
97) RXQTHS: the receiving quality threshold for checking radio link failure at the network side (BTS). Signless integer, value range: 0~7, the default value is 6.
98) RXLQPRD: the period (unit: SACCH multiframe) for checking radio link failure at the network side (BTS). Signless integer, value range: 1~63, the default value is 63.
99) OLPRD: the minimum period for BTS to send the Overload message (unit: 102 TDMA frames). Signless integer, value range: 1~255, the default value is 2.
100) T3SDCCH: the interval time for the repetition of PHY INFO messages in the course of SDCCH channel handover. Signless integer, value range: 1~67, the default value is 28.
101) T3TCH: the interval time for the repetition of PHY INFO messages in the course of TCH channel handover. Signless integer, value range: 1~32, the default value is 10.
102) BAIND: BA indication. Signless integer, value range: 0, 1. the default value is 1.
103) CANBEXCH: allowing BCCH changeover. Type Boolean, the default value is F.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 175 of 591
104) CANSDDYN: allowing SDCCH changeover. Type Boolean, the default value is F.
105) LOCNAME: resource location information. Character string type, the maximum length is 40.
106) NSEI: NSE identification of the cell. Signless integer.
107) BVCI: BVC identification number of the cell in NSE. Signless integer.
108) RAC: route area code. Signless integer.
109) SPCUMUNT: SPCU multi-unit name. Signless integer.
110) MNO: network operation mode in the cell. Signless integer.
111) T3168 : the maximum time for MS to wait for the Packet Uplink Assignment message after sending the Packet Resource request message. Signless integer.
112) T3192: the time length for MS to wait for the releasing of TBF and start to intercept the paging channel after receiving the last data block. Signless integer.
113) DRXTIMEM: the time length (DRX_TIMER_MAX) after the MS switches over to the packet idle mode from the packet transmission mode and gets into the non-DRX mode. Signless integer.
114) BSCVMAX: the maximum number of blocks (BS_CV_MAX) allowed for sending over various time slots. Signless integer.
115) CTRACKTP: packet control acknowledgement type (CONTROL_ACK_TYPE). Signless integer.
116) ACCESSTP: the bit type that should be used in access burst ACCESS_BURST_TYP. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 176 of 591
117) PANDEC: decreasing step length of counter N3102. Signless integer.
118) PANINC: increasing step length of counter N3102. Signless integer.
119) PANMAX: maximum value of counter N3102. Signless integer.
120) PCCREL: whether PDCH channel is released immediately (BS_PCC_REL). Type Boolean.
121) PBCHBLKS: the number of blocks allocated to PBCCH in multiframes (BS_PBCCH_BLK). Signless integer.
122) PAGBLKRS: the number of reserved blocks for access permission in packet services (BS_PAG_BLKS_RES). Signless integer.
123) PRCHBLKS: the number of fixed blocks allocated to PRACH on PCCCH (BS_PRACH_BLK). Signless integer.
124) TXINT: the number of time slots for random access transmission (TX_INT). Signless integer.
125) INSLTNUM: the minimum time slot for calculating the interval of two continuous channel requests. Signless integer.
126) MRETRANS: the maximum number of retransmission times for various radio priority levels (MAX_RETRANS). Signless integer array, with 4 elements.
127) PERSTLEV: access persistence level of various radio priority levels (PERSISTENCE_LEVE). Signless integer array, with 4 elements.
128) ACCTRCLS: access permission for the MS of the corresponding access control level (ACC_CONTR_CLAS). Signless integer array, with 6 elements.
129) ALPHA: parameter for MS transmitting power control. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 177 of 591
130) T_AVG_W: signal intensity filter period for power control in the packet idle mode. Signless integer.
131) T_AVG_T: signal intensity filter period for power control in the packet transmission mode. Signless integer.
132) PB: power decrement of PBCCH relative to BCCH. Signless integer.
133) PCMEASCH: measurement location for power control (indicating the position for measuring the downlink power intensity for the purpose of uplink power control by MS). Signless integer.
134) PSI4SEND: whether PSI4 is transmitted (i.e., whether the interference measurement channel list is included) (INT_MEAS_CHANNEL_LIST_AVAIL). Type Boolean.
135) N_AVG_I: constant for filtering the interference signal intensity. Signless integer.
136) RXLEVASN: the minimum received level for allowing MS to access the GPRS system (GPRS_RXLEV_ACCESS_MIN). Signless integer.
137) MSTXMCCH: the maximum power used by MS before receiving the network power control information (GPRS_TXPWR_MAX_CCH). Signless integer.
138) HCS_EXIST: whether the HSC (hierarchical cell) parameter exists in the cell. Type Boolean.
139) PRIOCLS: the HCS priority level of the cell (PRIORITY_CLAS). Signless integer.
140) HCS_THR: the HCS signal intensity threshold of the cell. Signless integer.
141) RESELOFF: cell reselection offset (GPRS_RESELECT_OFFSET). Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 178 of 591
142) RESELHYS: cell reselection hysteresis (GPRS_CELL_RESELECT _HYSTERESI). Signless integer.
143) C31_HYST: whether the cell reselection hysteresis parameter acts on the C31 standard. Type Boolean.
144) C32_QUAL: whether exception is employed when using GPRS_RESELECT_OFFSET. Type Boolean.
145) RADACRTY: whether MS is allowed to attempt to access another cell (RANDOM_ACCESS_RETRY). Type Boolean.
146) T_RESEL: the minimum interval reselected to this cell. Signless integer.
147) RARSLHYS: route area reselection hysteresis (RA_RESELECT_HYSTERESIS). Signless integer.
148) TMPOFFST: temporary offset for GPRS cell reselection (GPRS_TEMPORY_OFFSET). Signless integer.
149) PNLTIME: penalty time for GPRS cell reselection (GPRS_PENALTY_TIME). Signless integer.
150) SI3LOC : sending position of SI3 on BCCH (0: BCCH Norm; 1: BCCH Ext). Signless integer.
151) RACOLOR: if a MS finds that the RACOLOR of the cell is different, then the reselection information of the cell is regarded as different route areas.. Signless integer.
152) MEAORDER: the measurement report command of the MS in the cell (MEASUREMENT_ORDER). Type Boolean. (0: MS controls cell reselection and no measurement report will be sent to the network; 1: MS must send the measurement report to the network for cell reselection).
153) CTRORDER: network control command used in the cell (NETWORK_CONTROL_ORDER). Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 179 of 591
154) NCNODRXP: the minimum period when the MS should stay in the non-DRX mode after sending a NC measurement report (NC_NON_DRX_PERIOD). Signless integer.
155) NCREPPRI: measurement report period of cell reselection in the packet idle mode of the MS (NC_REPORTING_PERIOD_I). Signless integer.
156) NCREPPRT: measurement report period of cell reselection in the packet transmission mode of the MS (NC_REPORTING_PERIOD_T). Signless integer.
157) EXMEAODR: extended measurement order (EXT_MEASUREMENT_ORDE). Signless integer.
158) EXTREPTP: extended measurement reporting type of the MS (EXT_REPORTING_TYPE). Signless integer.
159) EXTREPPR: time interval of the extended measurement report (EXT_REPORTING_PERIOD). Signless integer.
160) SPGCSPRT: whether SPLIT_PG_CYCLE is supported on CCCH of the cell (SPGC_CCCH_SUP).Type Boolean.
161) PRIACTHR: priority level for allowing packet access (PRIORITY_ACCESS_THR). Signless integer.
162) PSI1RPPR: repetition period of PSI1 messages (PSI1_REPEAT_PERIO). Signless integer.
163) PSISTIND: indicating whether the network supports PACKET PSI STATUS messages. Signless integer.
164) CSCHSTHS : the threshold for the number of idle channels in the CS state when the PS+CS channel converts to the PS channel. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 180 of 591
165) SENDSPD: whether various types of system messages need to be sent at high rates (0: PSI2; 1: PSI3; 2: PSI3BIS; 3: PSI4; 4: PSI5; 5: PSI13).Type Boolean array, with 6 elements.
166) EPAGEMOD: whether the cell supports extended paging mode. Type Boolean.
167) LoadPer: load calculation period of PPCH channel (S). Signless integer.
168) OVLOADPR: PRACH overload report period (S). Signless integer.
169) PCCHIDTH: overload threshold. Signless integer array type, with 3 elements. (0: PRACH overload threshold proportion; 1: average queue length threshold in 64 multi-frame paging period; 2: threshold for the number of buffered paging channel messages) (%)
170) RLTIMOUT: initial value of the GPRS link failure counter. Signless integer.
171) PRCHBSYT: PRACH overload level threshold. Signless integer.
172) MEAAGSLT: average number of bursts for PRACH load measurement. Signless integer.
173) PSSUPPRT: whether GPRS is supported. Type Boolean.
174) ADDRSPI2: whether SYS16 and SYS17 are allowed to be sent over BCCH. Type Boolean.
175) EXC_ACC: whether the MS with SoLSA dedicated access right is allowed for access. Type Boolean.
176) LSA_OFFSET: the offset between the cells with the same LSA priority during LSA cell reselection. Signless integer.
177) PRIO_THR: the signal intensity threshold of MS when priority reason is used for cell reselection. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 181 of 591
178) LSA_ID: LSA identification (the lowest 24 bits are effective ). Signless integer.
1.5.1.15 RBTD
1. Command function
To delete a cell.
2. Syntax structure
RBTD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME};
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer type, value range1~255.
2) SITEID (Site Identification): site identification number. Signless integer type, value range1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the length is 40.
4) BTSID (BTS Identification): cell identification number. Signless integer type, value range1~3.
5) BTSNAME (BTS Name): cell identification name. Character string type, the length is 40.
1.5.1.16 RBTI
1. Command function
To view the status attribute of BVC.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 182 of 591
RBTI: {BSSID, BSSNAME}, SITEID, BTSID: NSEI, BVCI;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) BSSNAME (BSS Name): BSS name. Character string type, the maximum length of the character string is 40.
3) SITEID (SITE Identification): SITE identification number. Signless integer, value range: 1~1024.
4) BTSID (BTS Identification): BTS identification number. Signless integer, value range: 1~3.
5) NSEI ( NSE Identification): NSE identification number. Signless integer, value range: 0~65535.
6) BVCI (BVC Identification): BVC identification number. Signless integer, value range: 0~65535.
1.5.1.17 RBTM
1. Command function
To modify the status attribute of BVC.
2. Syntax structure
RBTM: {BSSID, BSSNAME}, SITEID, BTSID: BVCAD;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 183 of 591
2) BSSNAME (BSS Name): BSS name. Character string type, The maximum length of the character stri ng is 40.
3) SITEID ( SITE Identification): SITE identification number. Signless integer, the default value is 1.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BVCAD ( BVCAD): Signless integer, value range: 0~1.
1.5.1.18 RBTQ
1. Command function
To view the parameters of a cell.
2. Syntax structure
RBTQ: BSSID {, SITEID, SITENAME}{, BTSID, BTSNAME}: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 184 of 591
6) PARAGRP (Parameter Group): radio parameter attribute package type. Enumerated type, value range: STATES, ALL, the default value is ALL. Among them, All refers to querying static attribute information, and STATES refers to querying dynamic attribute information.
1.5.1.19 RBTR
1. Command function
To reset BVC. (including signaling reset)
2. Syntax structure
RBTR: {BSSID, BSSNAME}, SITEID, BTSID : NSEI, BVCI;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) BSSNAME (BSS Name): BSS name. Character string type, the maximum length of the character string is 40.
3) SITEID (SITE Identification): SITE identification number. Signless integer, the default value is 1.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) NSEI ( NSEI): NSE number. Signless integer, value range: 0~20.
6) BVCI (BVCI): BVC number. Signless integer, value range: 1~4.
1.5.1.20 RCHA
1. Command function
To modify the administration state attribute of a radio channel object.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 185 of 591
2. Syntax structure
RCHA: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID, CHID: AD;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
7) CHID (Channel Identification): channel identification number. Signless integer, value range: 0~7.
8) AD (Administer State): administration state attribute .. Enumerated type, the enumerated items include: L, U, S. L: locking state; U: unlocking state; S: time delay blocking.
1.5.1.21 RCHC
1. Command function
To add a new radio channel object.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 186 of 591
2. Syntax structure
Format 1: control channel (without frequency hopping)
RCHC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID: CHID: CHCOMB, ARFCN: TSC;
Format 2: non-BCCH control channel (with frequency hopping)
RCHC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID: CHID: CHCOMB, FHSID, MAIO, tSC;
Format 3: traffic channel (without frequency hopping)
RCHC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID: CHID: CHCOMB, ARFCN: PCMNO, PCMTS, PCMSUBTS: TSC: CHNGABLE;
Format 4: traffic channel (with frequency hopping)
RCHC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID: CHID: CHCOMB, FHSID, MAIO, tSC: CHNGABLE;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 187 of 591
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
7) CHID (Channel Identification): channel identification number. Signless integer, value range: 0~7.
8) CHCOMB (Channel Combination): channel combination mode. Signless integer, value range: 3 to 8.
9) ARFCN: Absolute RF Channel No. Signless integer, value range: 0~124, 512 to 885, 975 to 1023.
10) TSC: Training Sequence Code. Signless integer, value range: 0~7.
11) MAIO: Mobile Allocation Index Offset. Signless integer, value range: 0~63.
12) FHSID: Frequency Hopping System Identification. Signless integer, value range: 1~255.
13) PCMNO: PCM Circuit No. Signless integer, value range: 1~360.
14) PCMTS (Pcm Circuit Time Slot): time slot number of PCM circuit. Signless integer, value range: 0~31.
15) PCMSUBTS (Pcm Circuit Sub Time Slot): sub-time-slot number of PCM circuit. Signless integer, value range: 0~3.
16) CHNGABLE: whether the time slot is adjustable between PS and CS. Type Boolean.
1.5.1.22 RCHD
1. Command function
To delete a radio channel object.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 188 of 591
2. Syntax structure
RCHD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID, CHID;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
7) CHID (Channel Identification): channel identification number. Signless integer, value range: 0~7.
1.5.1.23 RCHM
1. Command function
To modify a radio channel object.
2. Syntax structure
Format 1: control channel (without frequency hopping)
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 189 of 591
RCHM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID, CHID: CHCOMB, ARFCN, tSC;
Format 2: non-BCCH control channel (with frequency hopping)
RCHM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID, CHID: CHCOMB, FHSID, MAIO, tSC;
Format 3: traffic channel (without frequency hopping)
RCHM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID, CHID: CHCOMB, ARFCN: PCMNO, PCMTS, PCMSUBS, tSC: CHNGABLE;
Format 4: traffic channel (with frequency hopping)
RCHM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID, CHID: CHCOMB, MAIO, FHSID, PCMNO, PCMTS, PCMSUBS, tSC: CHNGABLE;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 190 of 591
7) CHID (Channel Identification): channel identification number. Signless integer, value range: 0~7.
8) CHCOMB (Channel Combination): channel combination mode. Signless integer, value range: 3 to 8.
9) ARFCN: Absolute RF Channel No. Signless integer, value range: 0~124, 512 to 885, 975 to 1023.
10) TSC: Training Sequence Code. Signless integer, value range: 0~7.
11) MAIO: Mobile Allocation Index Offset. Signless integer, value range: 0~63.
12) FHSID: Frequency Hopping System Identification. Signless integer, value range: 1~255.
13) PCMNO: PCM Circuit No. Signless integer, value range: 1~360.
14) PCMTS (Pcm Circuit Time Slot): time slot number of PCM circuit. Signless integer, value range: 0~31.
15) PCMSUBTS (Pcm Circuit Sub Time Slot): sub-time-slot number of PCM circuit. Signless integer, value range: 0~3.
16) CHNGABLE: whether the time slot is adjustable between PS and CS. Type Boolean.
1.5.1.24 RCHQ
1. Command function
To query a radio channel object.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 191 of 591
RCHQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID, CHID: PARAGRP;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
7) CHID (Channel Identification): channel identification number. Signless integer, value range: 0~7.
8) PARAGRP (Parameter Group): radio parameter attribute package type. Enumerated type, value range: STATES, ALL, the default value is ALL. Among them, ALL is for querying static attribute information; STATES is for querying dynamic attribute information.
1.5.1.25 RECC
1. Command function
To add a new external cell.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 192 of 591
RECC: BSSID: ECID: BARFCN, MCC, MNC, LAC, CI, NCC, BCC: HOMARGIN, HMRL, HMRQ, ALIS: PSSUPPORT, EXC_ACC, LSA_ID, RAC, CELBRAC2, RXLEVASN, MSTXMCCH, RESELOFF, tMPOFFS, PNLTIME, HCS_EXST, HCS_THR, PRIOCLS;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) ECID (External Cell Identification): external cell identification number. Signless integer, value range: 1~65535.
3) BARFCN (Broadcast Absolute Radio Frequency Channel Number): absolute radio frequency channel number of BCCH. Signless integer, value range: 0~124, 512 to 885, 975 to 1023.
4) MCC (Mobile Country Code): Mobile country code. Signless integer, value range: 0~999, the default value is 460.
5) MNC (Mobile Network Code): mobile network code. Signless integer, value range: 0~99, the default value is 0.
6) LAC (Location): location area code. Signless integer, value range: 1~65535, excluding 65534.
7) CI (Cell Identification): cell identification code. Signless integer, value range: 0~65535.
8) NCC (Network Color Code): network color code. Signless integer, value range: 0~7.
9) BCC (Base station Color Code): base station color code. Signless integer, value range: 0~7.
10) HOMARGIN (Handover MARGIN): the minimum PBGT threshold required for MS to handover to this cell. Signless integer, value range: 0~48, the default is 30.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 193 of 591
11) HMRL (Handover Min Require Level): the minimum threshold required for MS to handover to this cell due to intensity. Signless integer, value range: 0~48, the default is 24.
12) HMRQ (Handover Min Require Quality): the minimum threshold required for MS to handover to this cell due to quality. Signless integer, value range: 0~48, the default is 22.
13) ALIAS (Alias): alias. Character string type, the maximum length is 40.
14) PSSUPPORT: whether GPRS is supported. Type Boolean.
15) EXC_ACC: whether the MS with SoLSA dedicated access right is allowed for access. Type Boolean.
16) LSA_ID: LSA identification (the lowest 24 bits are effective ). Signless integer.
17) RAC: RA_CODE. Signless integer.
18) CELBRAC2: cell reselection status CELL_BAR_ACCESS_2. Type Boolean.
19) RXLEVASN: the minimum receiving level for allowing MS to access the GPRS system. Signless integer.
20) MSTXMCCH: the maximum power used by MS before receiving the network power control information. Signless integer.
21) RESELOFF: cell reselection offset. Signless integer.
22) TMPOFFS: temporary offset for cell reselection . Signless integer.
23) PNLTIME: penalty time for cell reselection . Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 194 of 591
24) HCS_EXIST: whether the HSC parameter exists in the cell. Type Boolean.
25) HCS_THR: HCS signal intensity threshold of the cell. Type Boolean.
26) PRIOCLS: HCS priority of the cell. Signless integer.
1.5.1.26 RECD
1. Command function
To delete an external cell.
2. Syntax structure
RECD: BSSID, ECID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) ECID (External Cell Identification): external cell identification number. Signless integer.
1.5.1.27 RECM
1. Command function
To modify the radio parameters of an external cell.
2. Syntax structure
RECM: BSSID, ECID: [BARFCN] [, MCC] [, MNC] [, LAC] [, CI] [, NCC] [, BCC] [, HOMARGIN] [, HMRL] [, HMRQ] [, ALIAS], [PSSUPPORT ] [, EXC_ACC ] [, LSA_ID ] [, RAC ] [, CELBRAC2 ] [, RXLEVASN ] [,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 195 of 591
MSTXMCCH ] [, RESELOFF] [, tMPOFFS ] [, PNLTIME ] [, HCS_EXST ] [, HCS_THR ] [, PRIOCLS];
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) ECID (External Cell Identification): external cell identification number. Signless integer, value range: 1~65535.
3) BARFCN (Broadcast Absolute Radio Frequency Channel Number): absolute radio frequency channel number of BCCH. Signless integer, value range: 0~124, 512 to 885, 975 to 1023.
4) MCC (Mobile Country Code): Mobile country code. Signless integer, value range: 0~999, the default value is 460.
5) MNC (Mobile Network Code): mobile network code. Signless integer, value range: 0~99, the default value is 0.
6) LAC (Location): location area code. Signless integer, value range: 1~65535, excluding 65534.
7) CI (Cell Identification): cell identification code. Signless integer, value range: 0~65535.
8) NCC (Network Color Code): network color code. Signless integer, value range: 0~7.
9) BCC (Base station Color Code): base station color code. Signless integer, value range: 0~7.
10) HOMARGIN (Handover MARGIN): the minimum PBGT threshold required for MS to handover to this cell. Signless integer, value range: 0~48, the default is 30.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 196 of 591
11) HMRL (Handover Min Require Level): the minimum threshold required for MS to handover to this cell due to intensity. Signless integer, value range: 0~48, the default is 24.
12) HMRQ (Handover Min Require Quality): the minimum threshold required for MS to handover to this cell due to quality. Signless integer, value range: 0~48, the default is 22.
13) ALIAS (Alias): alias. Character string type, the maximum length is 40.
14) PSSUPPORT: whether GPRS is supported. Type Boolean.
15) EXC_ACC: whether the MS with SoLSA dedicated access right is allowed for access. Type Boolean.
16) LSA_ID: LSA identification (the lowest 24 bits are effective ). Signless integer.
17) RAC: RA_CODE. Signless integer.
18) CELBRAC2: cell reselection status CELL_BAR_ACCESS_2. Type Boolean.
19) RXLEVASN: the minimum receiving level for allowing MS to access the GPRS system. Signless integer.
20) MSTXMCCH: the maximum power used by MS before receiving the network power control information. Signless integer.
21) RESELOFF: cell reselection offset. Signless integer.
22) TMPOFFS: temporary offset for cell reselection . Signless integer.
23) PNLTIME: penalty time for cell reselection . Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 197 of 591
24) HCS_EXIST: whether the HSC parameter exists in the cell. Type Boolean.
25) HCS_THR: HCS signal intensity threshold of the cell. Type Boolean.
26) PRIOCLS: HCS priority of the cell. Signless integer.
1.5.1.28 RECQ
1. Command function
To view the radio parameters of an external cell.
2. Syntax structure
RECQ: BSSID, ECID: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) ECID (External Cell Identification): external cell identification number. Signless integer.
3) PARAGRP (PARAGE Radio Parameter): radio parameter attribute package type. Enumerated type, value range: ALL, the default value is ALL.
1.5.1.29 RFHC
1. Command function
To add a new frequency hopping system object.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 198 of 591
RFHC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: FHSID: HSN, MA, FHMODE;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) FHSID (Frequency Hopping System Identification): frequency hopping system identification number. Signless integer, value range: 1~255.
7) HSN (Hopping Sequence Number): frequency hopping sequence number. Signless integer, value range: 0~63.
8) MA (Mobile Allocation): frequency set used by the hopping system. Composite signless integer, value range: [1..124] [, 0] [, 512..885] [, 975..1023].
9) FHMODE (Frequency Hopping Mode): frequency hopping mode. Signless integer, value range: 1~2. Among them, 1 is for baseband frequency hopping, 1 is for radio frequency hopping.
1.5.1.30 RFHD
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 199 of 591
To delete a frequency hopping system object.
2. Syntax structure
RFHD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, FHSID;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) FHSID (Frequency Hopping System Identification): frequency hopping system identification number. Signless integer, value range: 1~255.
1.5.1.31 RFHM
1. Command function
To modify a frequency hopping system object.
2. Syntax structure
RFHM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, FHSID: HSN, MA, FHMODE;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 200 of 591
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) FHSID (Frequency Hopping System Identification): frequency hopping system identification number. Signless integer, value range: 1~255.
7) HSN (Hopping Sequence Number): frequency hopping sequence number. Signless integer, value range: 0~63.
8) MA (Mobile Allocation): frequency set used by the hopping system. Composite signless integer, value range: [1..124] [, 0] [, 512..885] [, 975..1023].
9) FHMODE (Frequency Hopping Mode): frequency hopping mode. Signless integer, value range: 1~2. Among them, 1 is for baseband frequency hopping, 1 is for radio frequency hopping.
1.5.1.32 RFHQ
1. Command function
To query a frequency hopping system object
2. Syntax structure
RFHQ: BSSID {, SITEID, S ITENAME} {, BTSID, BTSNAME}, FHSID;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 201 of 591
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) FHSID (Frequency Hopping System Identification): frequency hopping system identification number. Signless integer, value range: 1~255.
1.5.1.33 RHOC
1. Command function
To add a new handover control functive .
2. Syntax structure
RHOC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: HOID: CELLWND, CELLW, CHREQT: DISTWND, DHREQT: PBGTDEF, tPMDEF, RLMDEF: HULWND, HULW, HULHREQT: HDLWND, HDLW, HDLHREQT: HUQWND, HUQW, HUQHREQT: HDQWND, HDQW, HDQHREQT: HMRXL, HMRXQ, ZAHO, HOMARGIN, HOPRI, MSPWRMAX, RXLEVMIN, HINMIN: HULTHS, HULN, HULP: HDLTHS, HDLN, HDLP: HUQTHS, HUQN, HUQP: HDQTHS, HDQN, HDQP: INHULTHS, INHULN, INHULP: INHDLTHS, INHDLN, INHDLP: HOCTRL1, HOCTRL2, HOCTRL3, HOCTRL4, HOCTRL5, HOCTRL6, HOCTRL7, HOCTRL9, HOCTRL10, HOCTRL11, HOCTRL13, HOCTRL14, HOCTRL15, HOPIND1, HOPIND2, HOPIND3, HOPIND4, LYRPRI,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 202 of 591
LYRPBGT: RPDHOTHS, RPDHON: MAMITHS, MAMIN: GCITHS, GCIN, GCIP: BADCITHS, BADCIN, BADCIP: TIMEADV, DISTN, DISTP: PBGTHON, PBGTHOP: HFPT, DPRIOFF, PBGTOFF, tHLC, tHFC, tTHS;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell identification number. Signless integer type, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) HOID (Handover Identification): handover control identification. Signless integer, value range: 1, the default value is 1.
7) CELLWND (Cell Window): the parameter for calculating the measured mean by the adjacent cell in handover control. Signless integer, value range: 1~31, the default value is 2.
8) CELLW (Cell Weight): the weight for calculating the weighted mean by the adjacent cell in handover control. Signless integer, value range: 1~3, the default value is 1.
9) CHREQT (Cell HREQT): the reserved number for calculating the measured mean by the adjacent cell in handover control. Signless integer, value range: 1, the default value is 1.
10) DISTWND (Distance Window): the parameter for calculating the measured mean of distance in handover control. Signless integer, value range: 1~31, the default value is 2.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 203 of 591
11) DHREQT (Distance HREQT): the reserved number for calculating the measured mean of distance in handover control. Signless integer, value range: 1, the default value is 1.
12) PBGTDEF (PBGT Default): the minimum default PBGT threshold required for handing over to a undefined adjacent cell. Signless integer, value range: 0~24, the default value is 15.
13) TPMDEF (Transmit Power Ms Default): the maximum default transmitting power that can be used by MS in a undefined adjacent cell. Signless integer, value range: 0~24, the default value is 15.
14) RLMDEF (Receive Level Ms Default): the minimum default receiving intensity threshold required for handing over to a undefined adjacent cell. Signless integer, value range: 0~63, the default value is 15.
15) HULWND (Handover UpLink Window): the parameter for calculating the measured mean of uplink intensity in handover control. Signless integer, value range: 1~31, the default value is 2.
16) HULW (Handover Uplink Weight): the weight for calculating the weighted mean of uplink intensity in handover control. Signless integer, value range: 1~3, the default value is 2.
17) HULHREQT (Handover UpLink HREQT): the reserved number for calculating the weighted mean of uplink intensity in handover control. Signless integer, value range: 1, the default value is 1.
18) HDLWND (Handover DownLink Window): the parameter for calculating the measured mean of downlink intensity in handover control. Signless integer, value range: 1~31, the default value is 2.
19) HDLW (Handover DownLink Weight): the weight for calculating the weighted mean of downlink intensity in handover control. Signless integer, value range: 1~3, the default value is 2.
20) HDLHREQT (Handover DownLink HREQT): the reserved number for calculating the weighted mean of downlink intensity in handover control. Signless integer, value range: 1, the default value is 1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 204 of 591
21) HUQWND (Handover UpLink Quality Window): the parameter for calculating the measured mean of uplink quality in handover control. Signless integer, value range: 1~31, the default value is 2.
22) HUQW (Handover Uplink Quality Window): the weight for calculating the weighted mean of uplink quality in handover control. Signless integer, value range: 1~3, the default value is 2.
23) HUQHREQT (Handover Uplink Quality HREQT): the reserved number for calculating the weighted mean of uplink quality in handover control. Signless integer, value range: 1, the default value is 1.
24) HDQWND (Handover Downlink Window): the parameter for calculating the measured mean of downlink quality in handover control. Signless integer, value range: 1~31, the default value is 2.
25) HDQW (Handover Downlink Quality Weight): the weight for calculating the weighted mean of downlink quality in handover control. Signless integer, value range: 1~3, the default value is 2.
26) HDQHREQT (Handover Downlink Quality HREQT): the reserved number for calculating the weighted mean of downlink quality in handover control. Signless integer, value range: 1, the default value is 1.
27) HMRXL (Handover Min Receive Level): the minimum threshold required for MS to handover to this cell due to intensity. Signless integer, value range: 0~48, the default value is 30.
28) HMRXQ (Handover Min Receive Quality): the minimum threshold required for MS to handover to this cell due to quality. Signless integer, value range: 0~48, the default value is 30.
29) ZAHO (Zero Accept Handover): the number of 0s that are allowed in the measured value in handover control. Signless integer, value range: 0~31, the default value is 1.
30) HOMARGIN (Handover MARGIN): the minimum PBGT threshold required for MS to hand over to this cell. Signless integer, value range: 0~48, the default value is 30.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 205 of 591
31) HOPRI (Handover Priority): static priority for cell handover (8 levels). Signless integer, value range: 0~7, the default value is 3.
32) MSPWRMAX (Ms Power Max): the maximum transmitting power that can be used by MS in adjacent cells. Signless integer, value range: 0~31, the default value is 5.
33) RXLEMIN (Receive Level Min): the minimum receiving intensity level for allowing MS to hand over to the cell. Signless integer, value range: 0~63, the default value is 15
34) HINMIN (Handover Interval Min): the minimum interval for continuous handover of cells. Signless integer, value range: 0~31, the default value is 5.
35) HULTHS (Handover Uplink threshold): uplink receiving intensity threshold. Signless integer, value range: 0~63, the default value is 15.
36) HULN (Handover Uplink N): value N of uplink receiving intensity. Signless integer, value range: 1~31, the default value is 4.
37) HULP (Handover UpLink P): value P of uplink receiving intensity. Signless integer, value range: 1~31, the default value is 3.
38) HDLTHS (Handover DownLink threshold): downlink receiving intensity threshold. Signless integer, value range: 0~63, the default value is 15.
39) HDLN (Handover DownLink N): value N of downlink receiving intensity. Signless integer, value range: 1~31, the default value is 4.
40) HDLP (Handover DownLink P): value P of downlink receiving intensity. Signless integer, value range: 1~31, the default value is 3.
41) HUQTHS (Handover Uplink Quality threshold): uplink receiving quality threshold. Signless integer, value range: 0~7, the default value is 4.
42) HUQN (Handover Uplink Quality N): value N of uplink receiving quality. Signless integer, value range: 1~31, the default value is 4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 206 of 591
43) HUQP (Handover Uplink Quality P): value P of uplink receiving quality. Signless integer, value range: 1~31, the default value is 3.
44) HDQTHS (Handover Download Quality threshold): downlink receiving quality threshold . Signless integer, value range: 0~7, the default value is 4.
45) HDQN (Handover Downlink Quality N): value N of downlink receiving quality. Signless integer, value range: 1~31, the default value is 4.
46) HDQP (Handover Downlink Quality P): value P of downlink receiving quality. Signless integer, value range: 1~31, the default value is 3.
47) INHULTHS (Internal Handover UpLink Threshold): uplink receiving intensity threshold for intra-cell handover. Signless integer, value range: 0~63, the default value is 35.
48) INHULN (Internal Handover UpLink N): value N of uplink receiving intensity for intra-cell handover. Signless integer, value range: 1~31, the default value is 4.
49) INHULP (Internal Handover UpLink P): value P of uplink receiving intensity for intra-cell handover. Signless integer, value range: 1~31, the default value is 3.
50) INHDLTHS (Internal Handover DownLink threshold): downlink receiving intensity threshold for intra-cell handover. Signless integer, value range: 0~63, the default value is 40.
51) INHDLN (Internal Handover DownLink N): value N of downlink receiving intensity for intra-cell handover. Signless integer, value range: 1~31, the default value is 4.
52) INHDLP (Internal Handover DownLink P): value P of downlink receiving intensity for intra-cell handover. Signless integer, value range: 1~31, the default value is 3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 207 of 591
53) HOCTRL1 (Handover Control 1): whether SDCCH handover is allowed. Type Boolean, the default value is F.
54) HOCTRL2 (Handover Control 2): whether intra-cell handover due to uplink interference is allowed. Type Boolean, the default value is T.
55) HOCTRL3 (Handover Control 3): whether intra-cell handover due to downlink interference is allowed. Type Boolean, the default value is T.
56) HOCTRL4 (Handover Control 4): whether handover due to distance is allowed. Type Boolean, the default value is F.
57) HOCTRL5 (Handover Control 5): whether standard PBGT handover is allowed. Type Boolean, the default value is T.
58) HOCTRL6 (Handover Control 6): whether automatic handover based on traffic is allowed. Type Boolean, the default value is F.
59) HOCTRL7 (Handover Control 7): whether handover based on direction is allowed. Type Boolean, the default value is F.
60) HOCTRL9 (Handover Control 9): whether intra-cell handover due to downlink interference is allowed between channels of super TRX. Type Boolean, the default value is F.
61) HOCTRL10 (Handover Control 10): whether intra-cell handover due to uplink interference is allowed between channels of super TRX. Type Boolean, the default value is F.
62) HOCTRL11 (Handover Control 11): whether handover between adjacent sectors due to PBGT is allowed between channels of super TRX. Type Boolean, the default value is T.
63) HOCTRL13 (Handover Control 13): whether fast handover is allowed. Type Boolean, the default value is F.
64) HOCTRL14 (Handover Control 14): whether macro-micro delayed handover is allowed. Type Boolean, the default value is F.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 208 of 591
65) HOCTRL15 (Handover Control 15): whether micro-micro delayed handover is allowed. Type Boolean, the default value is F.
66) HOPIND1 (Handover Permission Indication 1): whether synchronous handover is allowed. Type Boolean, the default value is T.
67) HOPIND2 (Handover Permission Indication 2): whether asynchronous handover is allowed. Type Boolean, the default value is T.
68) HOPIND3 (Handover Permission Indication 3): whether quasi-synchronous handover is allowed. Type Boolean, the default value is F.
69) HOPIND4 (Handover Permission Indication 4): whether asynchronous handover is allowed. Type Boolean, the default value is F.
70) LYRPRI: layer priority selection parameter of level/quality handover. Signless integer, value range: 1~3, the default value is 2.
71) LYRPBGT: layer applicable to standard PBGT handover. Signless integer, value range: 0~15, the default value is 3.
72) RPDHOTHS: fast handover threshold. Signless integer, value range: 0~63, the default value is 10.
73) RPDHON: the minimum number of times that the measured values of the uplink signal intensity are lower than the threshold continuously. Signless integer, value range: 1~31, the default value is 4.
74) MAMITHS: macro-micro handover threshold. Signless integer, value range: 0~63, the default value is 20.
75) MAMIN: macro-micro handover threshold counter. Signless integer, value range: 1~255, the default value is 2.
76) GCITHS: threshold of the carrier/interference (C/I) ratio for allowing to access a special TRX. Signless integer, value range: 0~255, the default value is 133.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 209 of 591
77) GCIN: value N of the carrier/interference (C/I) ratio for allowing to access a special TRX. Signless integer, value range: 1~31, the default value is 4.
78) GCIP: value P of the carrier/interference (C/I) ratio for allowing to access a special TRX. Signless integer, value range: 1~31, the default value is 3.
79) BADCITHS: threshold of the carrier/interference (C/I) ratio for outgoing handover from a special TRX. Signless integer, value range: 0~255, the default value is 130.
80) BADCIN: value N of the carrier/interference (C/I) ratio for outgoing handover from a special TRX. Signless integer, value range: 1~31, the default value is 4.
81) BADCIP: value P of the carrier/interference (C/I) ratio for outgoing handover from a special TRX. Signless integer, value range: 1~31, the default value is 3.
82) TIMEADV: time advance. Signless integer, value range: 0~63, the default value is 63.
83) DISTN: value N of handover due to distance. Signless integer, value range: 1~31, the default value is 4.
84) DISTP: value P of handover due to distance. Signless integer, value range: 1~31, the default value is 3.
85) PBGTHON: value N of PGBT handover. Signless integer, value range: 1~31, the default value is 3.
86) PBGTHOP: value P of PGBT handover. Signless integer, value range: 1~31, the default value is 3.
87) HFPT: handover failure penalty period. Signless integer, value range: 1~255, the default value is 7.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 210 of 591
88) DPRIOFF: the difference value of the dynamic handover priority that can be tolerated when using the handover algorithm based on direction. Signless integer, value range: 1~7, the default value is 1.
89) PBGTOFF: the difference value of PBGT that can be tolerated when using the handover algorithm based on direction (dB). Signless integer, value range: 0~20, the default value is 3.
90) THLC: control value of traffic handover (layer). Signless integer, value range: 0~3, the default value is 1.
91) THFC: control value of traffic handover (frequency band). Signless integer, value range: 0~3, the default value is 0.
92) TTHS: traffic handover threshold (%). Signless integer, value range: 0~100, the default value is 70.
1.5.1.34 RHOD
1. Command function
To delete a handover control functive .
2. Syntax structure
RHOD: BSSID {, SITEID, SITENAME } {, BTSID, BTSNAME}, HOID;
3. Parameter description
1) BSSID (BSS Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 211 of 591
4) BTSID ( BTS Identification): BTS identification number. Signless integer, value range: 2 to 127.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) HOID (Handover Identification): handover control identification. Signless integer, value: 1.
1.5.1.35 RHOM
1. Command function
To modify a handover control functive.
2. Syntax structure
RHOM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, HOID: [CELLWND] [, CELLW] [, CHREQT] [, DISTWND] [, DHREQT] [, PBGTDEF] [, tPMDEF] [, RLMDEF] [, HULWND] [, HULW] [, HULHREQT] [, HDLWND] [, HDLW] [, HDLHREQT] [, HUQWND] [, HUQW] [, HUQHREQT] [, HDQWND] [, HDQW] [, HDQHREQT] [, HMRXL] [, HMRXQ] [, ZAHO] [, HOMARGIN] [, HOPRI] [, MSPWRMAX] [, RXLEVMIN] [, HINMIN] [, HULTHS] [, HULN] [, HULP] [, HDLTHS] [, HDLN] [, HDLP] [, HUQTHS] [, HUQN] [, HUQP] [, HDQTHS] [, HDQN] [, HDQP] [, INHULTHS] [, INHULN] [, INHULP] [, INHDLTHS] [, INHDLN] [, INHDLP] [, HOCTRL1] [, HOCTRL2] [, HOCTRL3] [, HOCTRL4] [, HOCTRL5] [, HOCTRL6] [, HOCTRL7] [, HOCTRL9] [, HOCTRL10] [, HOCTRL11] [, HOCTRL13] [, HOCTRL14] [, HOCTRL15] [, HOPIND1] [, HOPIND2] [, HOPIND3] [, HOPIND4] [, LYRPRI] [, LYRPBGT] [, RPDHOTHS] [, RPDHON] [, MAMITHS] [, MAMIN] [, GCITHS] [, GCIN] [, GCIP] [, BADCITHS] [, BADCIN] [, BADCIP] [, tIMEADV] [, DISTN] [, DISTP] [, PBGTHON] [, PBGTHOP] [, HFPT] [, DPRIOFF] [, PBGTOFF] [, tHLC] [, tHFC] [, tTHS];
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 212 of 591
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell identification number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) HOID (Handover Identification): handover control identification. Signless integer, value range: 1.
7) CELLWND (CELL Window): the parameter for calculating the measured mean by the adjacent cell in handover control. Signless integer, value range: 1~31.
8) CELLW (CELL Weight): the weight for calculating the measured weighted mean by the adjacent cell in handover control. Signless integer, value range: 1~3.
9) CHREQT (Cell HREQT): the reserved number for calculating the measured mean by the adjacent cell in handover control. Signless integer, value range: 1.
10) DISTWND (Distance Window): the parameter for calculating the measured mean of distance in handover control. Signless integer, value range: 1~31.
11) DHREQT (Distance HREQT): the reserved number for calculating the measured mean of distance in handover control. Signless integer, value range: 1.
12) PBGTDEF (PBGT Default): the minimum default PBGT threshold required for handing over to a undefined adjacent cell. Signless integer, value range: 0~24.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 213 of 591
13) TPMDEF (Transmit Power Ms Default): the maximum default transmitting power that can be used by MS in a undefined adjacent cell. Signless integer, value range: 0~24.
14) RLMDEF: (Receive Level Ms Default): the minimum default receiving intensity threshold required for handing over to a undefined adjacent cell. Signless integer, value range: 0~63.
15) HULWND (Handover UpLink Window): the parameter for calculating the measured mean of uplink intensity in handover control. Signless integer, value range: 1~31.
16) HULW (Handover UpLink Window): the weight for calculating the weighted mean of uplink intensity in handover control. Signless integer, value range: 1~3.
17) HULHREQT (Handover UpLink HREQT): the reserved number for calculating the weighted mean of uplink intensity in handover control. Signless integer, value range: 1.
18) HDLWND (Handover DownLink Window): the parameter for calculating the measured mean of downlink intensity in handover control. Signless integer, value range: 1~31.
19) HDLW (Handover DownLink Weight): the weight for calculating the weighted mean of downlink intensity in handover control. Signless integer, value range: 1~3.
20) HDLHREQT (Handover DownLink HREQT): the reserved number for calculating the weighted mean of downlink intensity in handover control. Signless integer, value range: 1.
21) HUQWND (Handover Uplink Quality Window): the parameter for calculating the measured mean of uplink quality in handover control. Signless integer, value range: 1~31.
22) HUQW (Handover Uplink Quality Weight): the weight for calculating the weighted mean of uplink quality in handover control. Signless integer, value range: 1~3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 214 of 591
23) HUQHREQT (Handover Uplink Quality HREQT): the reserved number for calculating the weighted mean of uplink quality in handover control. Signless integer, value range: 1.
24) HDQWND (Handover Downlink Quality Window): the parameter for calculating the measured mean of downlink quality in handover control. Signless integer, value range: 1~31.
25) HDQW (Handover Downlink Quality Weight): the weight for calculating the weighted mean of downlink quality in handover control. Signless integer, value range: 1~3.
26) HDQHREQT (Handover Downlink HREQT): the reserved number for calculating the weighted mean of downlink quality in handover control. Signless integer, value range: 1.
27) HMRXL (Handover Min Receive Level): the minimum threshold required for MS to handover to this cell due to intensity. Signless integer, value range: 0~48.
28) HMRXQ (Handover Min Receive Quality): the minimum threshold required for MS to handover to this cell due to quality. Signless integer, value range: 0~48.
29) ZAHO (Zero Accept Handover): the number of 0s that are allowed in the measured value in handover control. Signless integer, value range: 0~31.
30) HOMARGIN (Handover MARGIN): the minimum PBGT threshold required for MS to hand over to this cell. Signless integer, value range: 0~48.
31) HOPRI (Handover Priority): static priority for cell handover (8 levels). Signless integer, value range: 0~3.
32) MSPWRMAX (Ms Power MAX): the maximum transmitting power that can be used by MS in adjacent cells. Signless integer, value range: 0~31.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 215 of 591
33) RXLEVMIN (Receive Level MIN): the minimum receiving intensity level for allowing MS to hand over to the cell. Signless integer, value range: 0~63.
34) HINMIN (Handover Internal MIN): the minimum interval for continuous handover of cells. Signless integer, value range: 0~31.
35) HULTHS (Handover UpLink Threshold): uplink receiving intensity threshold. Signless integer, value range: 0~63.
36) HULN (Handover UpLink N): value N of uplink receiving intensity. Signless integer, value range: 1~31.
37) HULP (Handover UpLink P): value P of uplink receiving intensity. Signless integer, value range: 1~31.
38) HDLTHS (Handover DownLink Threshold): downlink receiving intensity threshold. Signless integer, value range: 0~63.
39) HDLN (Handover DownLink N): value N of downlink receiving intensity. Signless integer, value range: 1~31.
40) HDLP (Handover DownLink P): value P of downlink receiving intensity. Signless integer, value range: 1~31.
41) HUQTHS (Handover Uplink Quality Threshold): uplink receiving quality threshold. Signless integer, value range: 0~7.
42) HUQN (Handover Uplink Quality N): value N of uplink receiving quality. Signless integer, value range: 1~31.
43) HUQP (Handover Uplink Quality P): value P of uplink receiving quality. Signless integer, value range: 1~31.
44) HDQTHS (Handover Downlink Threshold): downlink receiving quality threshold. Signless integer, value range: 0~7.
45) HDQN (Handover Downlink Quality N): value N of downlink receiving quality. Signless integer, value range: 1~31.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 216 of 591
46) HDQP (Handover Downlink Quality P): value P of downlink receiving quality. Signless integer, value range: 1~31.
47) INHULTHS (Internal Handover UpLink Threshold): uplink receiving intensity threshold for intra-cell handover. Signless integer, value range: 0~63.
48) INHULN (Internal Handover UpLink N): value N of uplink receiving intensity for intra-cell handover. Signless integer, value range: 1~31.
49) INHULP (Internal Handover UpLink P): value P of uplink receiving intensity for intra-cell handover. Signless integer, value range: 1~31.
50) NHDLTHS (Internal Handover DownLink Threshold): downlink receiving intensity threshold for intra-cell handover. Signless integer, value range: 0~63.
51) INHDLN (Internal Handover DownLink N): value N of downlink receiving intensity for intra-cell handover. Signless integer, value range: 1~31.
52) INHDLP (Internal Handover DownLink P): value P of downlink receiving intensity for intra-cell handover. Signless integer, value range: 1~31.
53) HOCTRL1 (Handover Control 1): whether SDCCH handover is allowed. Type Boolean.
54) HOCTRL2 (Handover Control 2): whether intra-cell handover due to uplink interference is allowed. Type Boolean.
55) HOCTRL3 (Handover Control 3): whether intra-cell handover due to downlink interference is allowed. Type Boolean.
56) HOCTRL4 (Handover Control 4): whether handover due to distance is allowed. Type Boolean.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 217 of 591
57) HOCTRL5 (Handover Control 5): whether standard PBGT handover is allowed. Type Boolean.
58) HOCTRL6 (Handover Control 6): whether automatic handover based on traffic is allowed. Type Boolean.
59) HOCTRL7 (Handover Control 7): whether handover based on direction is allowed. Type Boolean.
60) HOCTRL9 (Handover Control 9): whether intra-cell handover due to downlink interference is allowed between channels of super TRX. Type Boolean.
61) HOCTRL10 (Handover Control 10): whether intra-cell handover due to uplink interference is allowed between channels of super TRX. Type Boolean.
62) HOCTRL11 (Handover Control 11): whether handover between adjacent sectors due to PBGT is allowed between channels of super TRX. Type Boolean.
63) HOCTRL12 (Handover Control 12): whether it is allowed to use the dynamic adjustment process of the handover priority. Type Boolean.
64) HOCTRL13 (Handover Control 13): whether fast handover is allowed. Type Boolean.
65) HOCTRL14 (Handover Control 14): whether macro-micro delayed handover is allowed. Type Boolean.
66) HOCTRL15 (Handover Control 15): whether micro-micro delayed handover is allowed. Type Boolean
67) HOPIND1 (Handover Permission Indication 1): whether synchronous handover is allowed. Type Boolean.
68) HOPIND2 (Handover Permission Indication2): whether asynchronous handover is allowed. Type Boolean.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 218 of 591
69) HOPIND3 (Handover Permission Indication 3): whether quasi-synchronous handover is allowed. Type Boolean.
70) HOPIND4 (Handover Permission Indication 4): whether asynchronous handover is allowed. Type Boolean.
71) LYRPRI (Layer Priority): layer priority selection parameter of level/quality handover. Signless integer, value range: 1~3.
72) LYRPBGT (Layer PBGT): layer applicable to standard PBGT handover. Signless integer, value range: 0~15.
73) RPDHOTHS (Rapid Handover Threshold): fast handover threshold. Signless integer, value range: 0~63.
74) RPDHON (Rapid Handover Number): the minimum number of times that the measured values of the uplink signal intensity are lower than the threshold continuously. Signless integer, value range: 1~31.
75) MAMITHS (Macro Micro Threshold): macro-micro handover threshold. Signless integer, value range: 0~63.
76) MAMIN (Macro Micro Number): macro-micro handover threshold counter. Signless integer, value range: 1~255.
77) GCITHS (GCI Threshold): threshold of the carrier/interference (C/I) ratio for allowing to access a special TRX. Signless integer, value range: 0~255.
78) GCIN (GCI N): value N of the carrier/interference (C/I) ratio for allowing to access a special TRX. Signless integer, value range: 1~31.
79) GCIP (GCI P): value P of the carrier/interference (C/I) ratio for allowing to access a special TRX. Signless integer, value range: 1~31.
80) BADCITHS (BAD CI Threshold): threshold of the carrier/interference (C/I) ratio for outgoing handover from a special TRX. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 219 of 591
81) BADCIN (BAD CI N): value N of the carrier/interference (C/I) ratio for outgoing handover from a special TRX. Signless integer, value range: 1~31.
82) BADCIP (BAD CI P): value P of the carrier/interference (C/I) ratio for outgoing handover from a special TRX. Signless integer, value range: 1~31.
83) TIMEADV (Time Advance): time advance. Signless integer, value range: 0~63.
84) DISTN (Distance N): value N of handover due to distance. Signless integer, value range: 1~31.
85) DISTP (Distance P): value P of handover due to distance. Signless integer, value range: 1~31.
86) PBGTHON (PBGT Handover N): value N of PGBT handover. Signless integer, value range: 1~31.
87) PBGTHOP (PBGT Handover P): value P of PGBT handover. Signless integer, value range: 1~31.
88) HFPT (Handover Failure Penalty): handover failure penalty period. Signless integer, value range: 1~255.
89) DPRIOFF (DPRIOFF): the difference value of the dynamic handover priority that can be tolerated when using the handover algorithm based on direction. Signless integer, value range: 1~7.
90) PBGTOFF (PBGTOFF): the difference value of PBGT that can be tolerated when using the handover algorithm based on direction (dB). Signless integer, value range: 0~20.
91) THLC (Traffic Handover Level Control): control value of traffic handover (layer). Signless integer, value range: 0~3.
92) THFC (Traffic Handover Frequency Control): control value of traffic handover (frequency band). Signless integer, value range: 0~3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 220 of 591
93) TTHS (Traffic Threshold): traffic handover threshold (%). Signless integer, value range: 0~100.
1.5.1.36 RHOQ
1. Command function
To query a handover control object.
2. Syntax structure
RHOQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, HOID: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) HOID (HandoverControl Identification): handover control identification number. Signless integer, value range: 1~1.
1.5.1.37 RHRC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 221 of 591
To add a functional adjacent cell handover and reselection object.
2. Syntax structure
RHRC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: HRID: SYNC, PRI, MTPMAX, RLMIN: ISRCELL, NCLAYER: RHOECMO: PSSUPPORT, EXC_ACC, LSA_ID, RAC, CELBRAC2, RXLEVASN, MSTXMCCH, RESELOFF, tMPOFFST, PNLTIME, HCS_EXST, HCS_THR, PRIOCLS;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts identification): cell number. Signless integer, value range: 13.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) HRID (Handover Reselection Identification): identification number of adjacent cell handover object. Signless integer, value range: 65 to 96.
7) SYNC (Sync): indicating whether to synchronize the current cell with adjacent cells. Type Boolean, with a value of T or F, the default value is T.
8) PRI (Priority): priority level for cell handover. Signless integer, value range: 0~7, the default is 3.
9) MTPMAX (Ms Transmit Power Max): maximum transmitting power of MS in the adjacent cell. Signless integer, value range: 1~31, the default is 5.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 222 of 591
10) RLMIN (Receive Level Min): minimum signal level for MS to receive in the handover target cell. Signless integer, value range: 0~63, the default is 15.
11) SRCELL (Is Related Cell): indicating whether the current cell and adjacent cell are related cells. Type Boolean, with a value of T or F, the default value is F.
12) NCLAYER (Near Cell Layer): neighboring cell layer. Signless integer, value range: 0~3, the default is 0.
13) RHOECMO (Related Handover External Cell MO): DN of the handover cell (HOC): BssId -SiteId-BtsId-HoId or DN of an external cell: EcId. Composite signless integer.
14) PSSUPPORT : whether GPRS is supported. Type Boolean.
15) EXC_ACC: whether the MS with SoLSA dedicated access right is allowed for access. Type Boolean.
16) LSA_ID: LSA identification (the lowest 24 bits are effective). Signless integer.
17) RAC: RA_CODE. Signless integer.
18) CELBRAC2: cell reselection status CELL_BAR_ACCESS_2. Type Boolean.
19) RXLEVASN: the minimum receiving level for allowing MS to access the GPRS system GPRS_RXLEV_ACCESS_MIN. Signless integer.
20) MSTXMCCH: the maximum power used by the MS before the network power control information is received (GPRS_TXPWR_MAX_CCH). Signless integer.
21) RESELOFF: cell reselection offset. Signless integer.
22) TMPOFFST: temporary offset for cell reselection . Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 223 of 591
23) PNLTIME: penalty time for cell reselection . Signless integer.
24) HCS_EXIST: whether the HCS parameter exists in the cell. Type Boolean.
25) HCS_THR: HCS signal intensity threshold of the cell. Type Boolean.
26) PRIOCLS: HCS priority of the cell. Signless integer.
1.5.1.38 RHRD
1. Command function
To delete the adjacent cell handover and reselection object of a cell.
2. Syntax structure
RHRD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, HRID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 224 of 591
6) HRID (Handover Reselection Identification): identification number of adjacent cell handover object. Signless integer, value range: 65 to 96.
1.5.1.39 RHRM
1. Command function
To modify the radio parameters of an adjacent cell handover and reselection object.
2. Syntax structure
RHRM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, HRID: [SYNC] [, PRI] [, MTPMAX] [, RLMIN] [, ISRCELL] [, NCLAYER] [PSSUPPORT ] [, EXC_ACC ] [, LSA_ID ] [, RAC ] [, CELBRAC2 ] [, RXLEVASN ] [, MSTXMCCH ] [, RESELOFF] [, tMPOFFST] [, PNLTIME ] [, HCS_EXST ] [, HCS_THR ] [, PRIOCLS];
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) HRID (Handover Reselection Identification): identification number of the adjacent cell handover and reselection object. Signless integer, value range: 65 to 96.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 225 of 591
7) SYNC (Sync): indicating whether to synchronize the current cell with adjacent cells. Type Boolean, with a value of T or F, the default value is T.
8) PRI (Priority): priority level for cell handover. Signless integer, value range: 0~7, the default is 3.
9) MTPMAX (Ms Transmit Power Max): maximum transmitting power of MS in the adjacent cell. Signless integer, value range: 1~31, the default is 5.
10) RLMIN (Receive Level Min): minimum signal level for MS to receive in the handover target cell. Signless integer, value range: 0~63, the default is 15.
11) ISRCEL (Is Related Cell): indicating whether the current cell and adjacent cell are related cells. Type Boolean, with a value of T or F, the default value is F.
12) NCLAYER (Near Cell Layer): neighboring cell layer. Signless integer, value range: 0~3, the default is 0.
13) PSSUPPORT : whether GPRS is supported. Type Boolean.
14) EXC_ACC: whether the MS with SoLSA dedicated access right is allowed for access. Type Boolean.
15) LSA_ID: LSA identification (the lowest 24 bits are effective ). Signless integer.
16) RAC: RA_CODE. Signless integer.
17) CELBRAC2: cell reselection status CELL_BAR_ACCESS_2. Type Boolean.
18) RXLEVASN: the minimum receiving level for allowing MS to access the GPRS system GPRS_RXLEV_ACCESS_MIN. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 226 of 591
19) MSTXMCCH: the maximum power used by MS before receiving the network power control information GPRS_TXPWR_MAX_CCH. Signless integer.
20) RESELOFF: cell reselection offset. Signless integer.
21) TMPOFFST: temporary offset for cell reselection . Signless integer.
22) PNLTIME: penalty time for cell reselection . Signless integer.
23) HCS_EXIST: whether the HCS parameter exists in the cell. Type Boolean.
24) HCS_THR: HCS signal intensity threshold of the cell. Type Boolean.
25) PRIOCLS: HCS priority of the cell. Signless integer.
1.5.1.40 RHRQ
1. Command function
To view the parameters of an adjacent cell handover and reselection object.
2. Syntax structure
RHRQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, HRID: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 227 of 591
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) HRID (Handover Reselection Identification): identification number of adjacent cell handover object. Signless integer, value range: 65 to 96.
7) PARAGRP (Parameter Group): radio parameter attribute package type. Enumerated type, value range: ALL, the default value is ALL.
1.5.1.41 RICC
1. Command function
To add an interference cell object of a cell.
2. Syntax structure
RICC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: ICID: RBTSECMO;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 228 of 591
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) ICID (Interfere Cell Identification): identification number of the interference cell object. Signless integer, value range: 1~6.
7) RBTSECMO (Related BTS External Cell MO): DN of the related BTS: BssId-SiteId -BtsId or DN of an external cell under this BSS: EcId. Composite signless integer.
1.5.1.42 RICD
1. Command function
To delete the interference cell of a cell.
2. Syntax structure
RICD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, ICID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 229 of 591
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) ICID (Interfere Cell Identification): identification number of the interference cell object. Signless integer, value range: 1~6.
1.5.1.43 RICQ
1. Command function
To view the radio parameters of the interference cell of a cell.
2. Syntax structure
RICQ: BSSID {, SITEID, SITENAME}{, BTSID, BTSNAME}, ICID: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) ICID (Interfere Cell Identification): identification number of the interference cell object. Signless integer, value range: 1~6.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 230 of 591
7) PARAGRP (Parameter Group): radio parameter package attribute type. Enumerated type, value range: ALL, the default value is ALL.
1.5.1.44 RLLC
1. Command function
To add a new LAPD link object.
2. Syntax structure
RLLC: BSSID, LAPDID: PCMNO, PCMTS: LOCTEI;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) LAPDID (LapdLink Identification): LAPD LINK IDENTIFICATION NUMBER. Signless integer, value range: 1~2304.
3) PCMNO (Pcm No): PcmCircuit number, the PCM line of the Abis interface. Signless integer, value range: 1~384.
4) PCMTS (Pcm Time Slot): PCM time slot. Signless integer, value range: 0~31.
5) LOCTEI (Local Terminal Endpoint Identifier): refers to the terminal identifier in a time slot. Signless integer, value range: 0~4.
1.5.1.45 RLLD
1. Command function
To delete a LAPD link object.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 231 of 591
RLLD: BSSID, LAPDID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) LAPDID (LapdLink Identification): LAPD LINK IDENTIFICATION NUMBER. Signless integer, value range: 1~2304.
1.5.1.46 RLLQ
1. Command function
To query a LAPD link object.
2. Syntax structure
RLLQ: BSSID, LAPDID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) LAPDID (LapdLink Identification): LAPD LINK IDENTIFICATION NUMBER. Signless integer, value range: 1~2304.
1.5.1.47 RPCC
1. Command function
To add a new power control functive.
2. Syntax structure
RPCC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: PCID: PINCSTEP, PREDSTEP, PCINTERV: PULWND, PULW, PULHREQT:
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 232 of 591
PDLWND, PDLW, PDLHREQT: PUQWND, PUQW, PUQHREQT: PDQWND, PDQW, PDQHREQT: PCUL, PCDL: PLULTHS, PLULN, PLULP: PLDLTHS, PLDLN, PLDLP: PLUQTHS, PLUQN, PLUQP: PLDQTHS, PLDQN, PLDQP: PUULTHS, PUULN, PUULP: PUDLTHS, PUDLN, PUDLP: PUUQTHS, PUUQN, PUUQP: PUDQTHS, PUDQN, PUDQP: MTPMAX, MTPMIN, BTPMIN, RAPIDPI, PCRPTPRD: PRL0, PRL1, PRL2, PRL3, PRL4, PRL5, PRL6, PRL7: ULPWCTRL, DLPWCTRL, SS_BTS, PWCTRMOD, PWCTRLEV, P0;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell identification number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) PCID (Power Control Identification): power control identification. Signless integer, value range: 1, the default value is 1.
7) PINCSTEP (Power Increase Step): increasing step length of MS transmitting power. Signless integer, value range: 0~2, the default value is 0.
8) PREDSTEP (Power Reduce Step): reducing step length of MS transmitting power. Signless integer, value range: 0, 1. the default value is 0.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 233 of 591
9) PCINTERV (Power Change Interval): the minimum time interval for changing RF power level. Signless integer, value range: 0~32, the default value is 2.
10) PULWND (Power Uplink Window): the number of examples used for calculating the measured mean of uplink intensity in power control. Signless integer, value range: 1~31, the default value is 6.
11) PULW (Power Uplink Weight): the weight used for calculating the weighted mean of uplink intensity in power control. Signless integer, value range: 1~3, the default value is 2.
12) PULHREQT (Power Uplink HREQT): the reserved number used for calculating the weighted mean of uplink intensity in power control. Signless integer, value range: 1, the default value is 1.
13) PDLWND (Power Downlink Window): the number of examples used in calculating the measured mean of downlink intensity in power control. Signless integer, value range: 1~31, the default value is 6.
14) PDLW (Power Downlink Weight): the weight used for calculating the weighted mean of downlink intensity in power control. Signless integer, value range: 1~3, the default value is 2.
15) PDLHREQT (Power Downlink HREQT): the reserved number used for calculating the weighted mean of downlink intensity in power control. Signless integer, value range: 1, the default value is 1.
16) PUQWND (Power Uplink Quality Window): the number of examples used for calculating the measured mean of uplink quality in power control. Signless integer, value range: 1~31, the default value is 6.
17) PUQW (Power Uplink Quality Weight): the weight used for calculating the measured mean of uplink quality in power control. Signless integer, value range: 1~3, the default value is 2.
18) PUQHREQT (Power Uplink HREQT): the reserved number used for calculating the measured mean of uplink quality in power control. Signless integer, value range: 1, the default value is 1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 234 of 591
19) PDQWND (Power Downlink Quality Window): the number of examples used for calculating the measured mean of downlink quality in power control. Signless integer, value range: 1~31, the default value is 6.
20) PDQW (Power Downlink Quality Weight): the weight used for calculating the measured mean of downlink quality in power control. Signless integer, value range: 1~3, the default value is 2.
21) PDQHREQT (Power Downlink Quality HREQT): the reserved number used for calculating the measured mean of downlink quality in power control. Signless integer, value range: 1, the default value is 1.
22) PCUL (Power Control Uplink): whether power control is allowed in the uplink direction. Type Boolean, the default value is True.
23) PCDL (Power Control Downlink): whether power control is allowed in the downlink direction. Type Boolean, the default value is False.
24) PLULTHS (Power Low Uplink Threshold): the lower threshold of uplink signal power. Signless integer, value range: 0~63, the default value is 22.
25) PLULN (Power Low Uplink N): value N in the lower limit parameter of uplink signal power. Signless integer, value range: 1~31, the default value is 4.
26) PLULP (Power Low Uplink P): value P in the lower limit parameter of uplink signal power. Signless integer, value range: 1~31, the default value is 3.
27) PLDLTHS (Power Low Downlink Threshold): the lower threshold of downlink signal power. Signless integer, value range: 0~63, the default value is 26.
28) PLDLN (Power Low Downlink N): value N in the lower limit parameter of downlink signal power. Signless integer, value range: 1~31, the default value is 4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 235 of 591
29) PLDLP (Power Low Downlink P): value P in the lower limit parameter of downlink signal power. Signless integer, value range: 1~31, the default value is 3.
30) PLUQTHS (Power Low Uplink Quality Threshold): the lower threshold of uplink signal quality. Signless integer, value range: 0~7, the default value is 2.
31) PLUQN (Power Low Uplink Quality N): value N in the lower limit parameter of uplink signal quality. Signless integer, value range: 1~31, the default value is 4.
32) PLUQP (Power Low Uplink Quality P): value P in the lower limit parameter of uplink signal quality. Signless integer, value range: 1~31, the default value is 3.
33) PLDQTHS (Power Low Downlink Quality Threshold): the lower threshold of downlink signal quality. Signless integer, value range: 0~7, the default value is 2.
34) PLDQN (Power Low Downlink Quality N): value N in the lower limit parameter of downlink signal quality. Signless integer, value range: 1~31, the default value is 4.
35) PLDQP (Power Low Downlink Quality P): value P in the lower limit parameter of downlink signal quality. Signless integer, value range: 1~31, the default value is 3.
36) PUULTHS (Power Up Uplink Threshold): the upper threshold of uplink signal power. Signless integer, value range: 0~63, the default value is 30.
37) PUULN (Power Up Uplink N): value N in the upper limit parameter of uplink signal power. Signless integer, value range: 1~31, the default value is 4.
38) PUULP (Power Up Uplink P): value P in the upper limit parameter of uplink signal power. Signless integer, value range: 1~31, the default value is 3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 236 of 591
39) PUDLTHS (Power Up Downlink Threshold): the upper threshold of downlink signal power. Signless integer, value range: 0~63, the default value is 34.
40) PUDLN (Power Up Downlink N): value N in the upper limit parameter of downlink signal power. Signless integer, value range: 1~31, the default value is 4.
41) PUDLP (Power Up Downlink P): value P in the upper limit parameter of downlink signal power. Signless integer, value range: 1~31, the default value is 3.
42) PUUQTHS (Power Up Uplink Quality Threshold): the upper threshold of uplink signal quality. Signless integer, value range: 0~7, the default value is 0.
43) PUUQN (Power Up Uplink Quality N): value N in the upper limit parameter of uplink signal quality. Signless integer, value range: 1~31, the default value is 4.
44) PUUQP (Power Up Uplink Quality P): value P in the upper limit parameter of uplink signal quality. Signless integer, value range: 1~31, the default value is 3.
45) PUDQTHS (Power Up Downlink Quality Threshold): the upper threshold of downlink signal quality. Signless integer, value range: 0~7, the default value is 0.
46) PUDQN (Power Up Downlink Quality N): value N in the upper limit parameter of downlink signal quality. Signless integer, value range: 1~31, the default value is 4.
47) PUDQP (Power Up Downlink Quality P): value P in the upper limit parameter of downlink signal quality. Signless integer, value range: 1~31, the default value is 3.
48) MTPMAX (Ms Transit Power Max): maximum power level of MS. Signless integer, value range: 0~31, the default value is 5.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 237 of 591
49) MTPMIN (Ms Transit Power Min): minimum power level of MS. Signless integer, value range: 0~31, the default value is 16.
50) BTPMIN (Bs Transmit Power Min): minimum power level of BS. Signless integer, value range: 0~15, the default value is 10.
51) RAPIDPI (Rapid Power Identification): whether the fast power control process can be used. Type Boolean, the default value is False.
52) PCRPTPRD (Power Control Report Period): power control performance measurement report period (51 multi-frames). Signless integer, value range: 1~255, the default value is 240.
53) PRL0 (Power Reduce Level 0): the maximum power decreasing value of the 0th quality level. Signless integer, value range: 0~38, the default value is 24.
54) PRL1 (Power Reduce Level 1): the maximum power decreasing value of the 1st quality level. Signless integer, value range: 0~38, the default value is 22.
55) PRL2 (Power Reduce Level 2): the maximum power decreasing value of the 2nd quality level. Signless integer, value range: 0~38, the default value is 20.
56) PRL3 (Power Reduce Level 3): the maximum power decreasing value of the 3rd quality level. Signless integer, value range: 0~38, the default value is 18.
57) PRL4 (Power Reduce Level 4): the maximum power decreasing value of the 4th quality level. Signless integer, value range: 0~38, the default value is 16.
58) PRL5 (Power Reduce Level 5): the maximum power decreasing value of the 5th quality level. Signless integer, value range: 0~38, the default value is 14.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 238 of 591
59) PRL6 (Power Reduce Level 6): the maximum power decreasing value of the 6th quality level. Signless integer, value range: 0~38, the default value is 12.
60) PRL7 (Power Reduce Level 7): the maximum power decreasing value of the 7th quality level. Signless integer, value range: 0~38, the default value is 10.
61) ULPWCTRL: uplink power control strategy. Signless integer.
62) DLPWCTRL: downlink power control strategy. Signless integer.
63) SS_BTS: signal intensity of the MS expected to be received. Signless integer.
64) PWCTRMOD: power control mode. Signless integer.
65) PWCTRLEV: power control level. Signless integer.
66) P0: P0. Signless integer.
1.5.1.48 RPCD
1. Command function
To delete a power control functive.
2. Syntax structure
RPCD: BSSID {, SITEID, SITENAME } {, BTSID, BTSNAME}, PCID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 239 of 591
3) SITENAME (Site Name): site identification name. Character string type, the length is 40.
4) BTSID (Bts Identification): cell identification number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the length is 40.
6) PCID (Power Control Identification): power control identification. Signless integer, value range: 1.
1.5.1.49 RPCM
1. Command function
To modify a power control functive.
2. Syntax structure
RPCM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, PCID: [PINCSTEP] [, PREDSTEP] [, PCINTERV] [, PULWND] [, PULW] [, PULHREQT] [, PDLWND] [, PDLW] [, PDLHREQT] [, PUQWND] [, PUQW] [, PUQHREQT] [, PDQWND] [, PDQW] [, PDQHREQT] [, PCUL] [, PCDL] [, PLULTHS] [, PLULN] [, PLULP] [, PLDLTHS] [, PLDLN] [, PLDLP] [, PLUQTHS] [, PLUQN] [, PLUQP] [, PLDQTHS] [, PLDQN] [, PLDQP] [, PUULTHS] [, PUULN] [, PUULP] [, PUDLTHS] [, PUDLN] [, PUDLP] [, PUUQTHS] [, PUUQN] [, PUUQP] [, PUDQTHS] [, PUDQN] [, PUDQP] [, MTPMAX] [, MTPMIN] [, BTPMIN] [, RAPIDPI] [, PCRPTPRD] [, PRL0] [, PRL1] [, PRL2] [, PRL3] [, PRL4] [, PRL5] [, PRL6] [, PRL7] [ULPWCTRL ] [, DLPWCTRL ] [, SS_BTS ] [, PWCTRMOD ] [, PWCTRLEV ] [, P0];
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 240 of 591
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell identification number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) PCID (Power Control Identification): power control identification. Signless integer, value range: 1, the default value is 1.
7) PINCSTEP (Power Increase Step): increasing step length of MS transmitting power. Signless integer, value range: 0~2.
8) PREDSTEP (Power Reduce Step): reducing step length of MS transmitting power. Signless integer, value range: 0~1.
9) PCINTERV (Power Change Interval): the minimum time interval for RF power adjustment. Signless integer, value range: 0~32.
10) PULWND (Power Uplink Window): the number of examples used for calculating the measured mean of uplink intensity in power control. Signless integer, value range: 1~31.
11) PULW (Power Uplink Weight): the weight used for calculating the weighted mean of uplink intensity in power control. Signless integer, value range: 1~3.
12) PULHREQT (Power Uplink HREQT): the reserved number used for calculating the weighted mean of uplink intensity in power control. Signless integer, value range: 1, the default value is 1.
13) PDLWND (Power Downlink Window): the number of examples used in calculating the measured mean of downlink intensity in power control. Signless integer, value range: 1~31.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 241 of 591
14) PDLW (Power Downlink Weight): the weight used for calculating the weighted mean of downlink intensity in power control. Signless integer, value range: 1~3.
15) PDLHRQT (Power Downlink HREQT): the reserved number used for calculating the weighted mean of downlink intensity in power control. Signless integer, value range: 1, the default value is 1.
16) PUQWND (Power Uplink Quality Window): the number of examples used for calculating the measured mean of uplink quality in power control. Signless integer, value range: 1~31.
17) PUQW (Power Uplink Quality Weight): the weight used for calculating the measured mean of uplink quality in power control. Signless integer, value range: 1~3.
18) PUQHREQT (Power Uplink Quality HREQT): the reserved number used for calculating the measured mean of uplink quality in power control. Signless integer, value range: 1, the default value is 1.
19) PDQWND (Power Downlink Quality Window): the number of examples used for calculating the measured mean of downlink quality in power control. Signless integer, value range: 1~31.
20) PDQW (Power Downlink Quality Weight): the weight used for calculating the measured mean of downlink quality in power control. Signless integer, value range: 1~3.
21) PDQHREQT (Power Downlink Quality HREQT): the reserved number used for calculating the measured mean of downlink quality in power control. Signless integer, value range: 1.
22) PCUL (Power Control Uplink): whether power control is allowed in the uplink direction. Type Boolean.
23) PCDL (Power Control Downlink): whether power control is allowed in the downlink direction. Type Boolean.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 242 of 591
24) PLULTHS (Power Low Uplink Threshold): the lower threshold of uplink signal power. Signless integer, value range: 0~63.
25) PLULN (Power Low Uplink N): value N in the lower limit parameter of uplink signal power. Signless integer, value range: 1~31.
26) PLULP (Power Low Uplink P): value P in the lower limit parameter of uplink signal power. Signless integer, value range: 1~31.
27) PLDLTHS (Power Low Downlink Threshold): the lower threshold of downlink signal power. Signless integer, value range: 0~63.
28) PLDLN (Power Low Downlink N): value N in the lower limit parameter of downlink signal power. Signless integer, value range: 1~31.
29) PLDLP (Power Low Downlink P): value P in the lower limit parameter of downlink signal power. Signless integer, value range: 1~31.
30) PLUQTHS (Power Low Uplink Quality Threshold): the lower threshold of uplink signal quality. Signless integer, value range: 0~7.
31) PLUQN (Power Low Uplink Quality N): value N in the lower limit parameter of uplink signal quality. Signless integer, value range: 1~31.
32) PLUQP (Power Low Uplink Quality P): value P in the lower limit parameter of uplink signal quality. Signless integer, value range: 1~31.
33) PLDQTHS (Power Low Downlink Quality Threshold): the lower threshold of downlink signal quality. Signless integer, value range: 0~7.
34) PLDQN (Power Low Downlink Quality N): value N in the lower limit parameter of downlink signal quality. Signless integer, value range: 1~31.
35) PLDQP (Power Low Downlink Quality P): value P in the lower limit parameter of downlink signal quality. Signless integer, value range: 1~31.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 243 of 591
36) PUULTHS (Power Up Uplink Threshold): the upper threshold of uplink signal power. Signless integer, value range: 0~63.
37) PUULN (Power Up Uplink N): value N in the upper limit parameter of uplink signal power. Signless integer, value range: 1~31.
38) PUULP (Power Up Uplink P): value P in the upper limit parameter of uplink signal power. Signless integer, value range: 1~31.
39) PUDLTHS (Power Up Downlink Threshold): the upper threshold of downlink signal power. Signless integer, value range: 0~63.
40) PUDLN (Power Up Downlink N): value N in the upper limit parameter of downlink signal power. Signless integer, value range: 1~31.
41) PUDLP (Power Up Downlink P): value P in the upper limit parameter of downlink signal power. Signless integer, value range: 1~31.
42) PUUQTHS (Power Up Uplink Quality Threshold): the upper threshold of uplink signal quality. Signless integer, value range: 0~7.
43) PUUQN (Power Uplink Quality N): value N in the upper limit parameter of uplink signal quality. Signless integer, value range: 1~31.
44) PUUQP (Power Up Uplink Quality P): value P in the upper limit parameter of uplink signal quality. Signless integer, value range: 1~31.
45) PUDQTHS (Power Up Downlink Quality Threshold): the upper threshold of downlink signal quality. Signless integer, value range: 0~7.
46) PUDQN (Power Up Downlink Quality N): value N in the upper limit parameter of downlink signal quality. Signless integer, value range: 1~31.
47) PUDQP (Power Up Downlink Quality P): value P in the upper limit parameter of downlink signal quality. Signless integer, value range: 1~31.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 244 of 591
48) MTPMAX (Ms Transmit Power Max): maximum power level of MS. Signless integer, value range: 0~31.
49) MTPMIN (Ms Transmit Power Min): : minimum power level of MS. Signless integer, value range: 0~31.
50) BTPMIN (Bs Transmit Power Min): minimum power level of BS. Signless integer, value range: 0~15.
51) RAPIDPI (Rapid Power Identification): whether the fast power control process can be used. Type Boolean, the default value is False.
52) PCRPTPRD (Power Control Report Period): power control performance measurement report period (51 multi-frames). Signless integer, value range: 1~255.
53) PRL0 (Power Reduce Level 0): the maximum power decreasing value of the 0th quality level. Signless integer, value range: 0~38.
54) PRL1 (Power Reduce Level 1): the maximum power decreasing value of the 1st quality level. Signless integer, value range: 0~38.
55) PRL2 (Power Reduce Level 2): the maximum power decreasing value of the 2nd quality level. Signless integer, value range: 0~38.
56) PRL3 (Power Reduce Level 3): the maximum power decreasing value of the 3rd quality level. Signless integer, value range: 0~38.
57) PRL4 (Power Reduce Level 4): the maximum power decreasing value of the 4th quality level. Signless integer, value range: 0~38.
58) PRL5 (Power Reduce Level 5): the maximum power decreasing value of the 5th quality level. Signless integer, value range: 0~38.
59) PRL6 (Power Reduce Level 6): the maximum power decreasing value of the 6th quality level. Signless integer, value range: 0~38.
60) PRL7 (Power Reduce Level 7): the maximum power decreasing value of the 7th quality level. Signless integer, value range: 0~38.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 245 of 591
61) ULPWCTRL: uplink power control strategy. Signless integer.
62) DLPWCTRL: downlink power control strategy. Signless integer.
63) SS_BTS: signal intensity of the MS expected to be received. Signless integer.
64) PWCTRMOD: power control mode. Signless integer.
65) PWCTRLEV: power control level. Signless integer.
66) P0: P0. Signless integer.
1.5.1.50 RPCQ
1. Command function
To query a power control object.
2. Syntax structure
RPCQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, PCID: PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the length is 40.
4) BTSID (Bts Identification): cell identification number. Signless integer, value range: 1~3.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 246 of 591
5) BTSNAME (Bts Name): cell identification name. Character string type, the length is 40.
6) PCID (Power Control Identification): power control identification. Signless integer, value range: 1.
1.5.1.51 RPMC
1. Command function
To add a new PCM line object.
2. Syntax structure
RPMC: BSSID, PCMID: RPCMMO;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) PCMID (PcmCircuit Identification): PcmCircuit identification number. Signless integer, value range: 1~384.
3) RPCMNO (Related Pcm No): DN of the related PCM device MO (Munit-Unit-PcmNo).Composite signless integer.
1.5.1.52 RPMD
1. Command function
To delete a PCM line object.
2. Syntax structure
RPMD: BSSID, PCMID;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 247 of 591
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) PCMID (PcmCircuit Identification): PcmCircuit identification number. Signless integer, value range: 1~384.
1.5.1.53 RPMQ
1. Command function
To view a PCM line object.
2. Syntax structure
RPMQ: BSSID, PCMID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) PCMID (Pcm Circuit Identification): PCM circuit identification number. Signless integer, value range: 1~384.
1.5.1.54 RRCC
1. Command function
To add a new radio carrier object.
2. Syntax structure
RRCC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}: RCID: RCLIST, PWRCLASS, tXPWRRED;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 248 of 591
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the default length is 40.
6) RCID (Radio Carrier Identification): radio carrier identification. Signless integer, value range: 1~36.
7) RCLIST (RadioCarrier Frequency List): radio carrier frequency list. Composite signless integer, value range: a subset of the BTS frequency set.
8) PWRCLASS (Power Class): maximum transmitting power of carrier frequency. Signless integer, value range: 1~8.
9) TXPWRRED (TX Power Max Reduction): transmitting power adjustment. Signless integer, value range: 0~6. The default value is 0.
1.5.1.55 RRCD
1. Command function
To delete a radio carrier object.
2. Syntax structure
RRCD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, RCID;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 249 of 591
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the default length is 40.
6) RCID (Radio Carrier Identification): radio carrier identification. Signless integer, value range: 1~36.
1.5.1.56 RRCM
1. Command function
To modify a radio carrier object.
2. Syntax structure
RRCM: BSSID {, SITEID, SITENAME}, { BTSID, BTSNAME}, RCID: RCLIST, MODIMODE, tXPWRRED;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 250 of 591
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the default length is 40.
6) RCID (Radio Carrier Identification): radio carrier identification. Signless integer, value range: 1~36.
7) RCLIST (RadioCarrier Frequency List): radio carrier frequency list. Composite signless integer, value range: a subset of the BTS frequency set.
8) MODIMODE (Modification Mode): modification mode. Signless integer, value range: 0 to 2. Among them, : 0: re-set; 1: add frequency point; 2: delete frequency point.
9) TXPWRRED (TX Power Max Reduction): transmitting power adjustment. Signless integer, value range: 0~6. The default value is 0.
1.5.1.57 RRCQ
1. Command function
To query a radio carrier object.
2. Syntax structure
RRCQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, RCID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 251 of 591
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the default length is 40.
6) RCID (Radio Carrier Identification): radio carrier identification. Signless integer, value range: 1~36.
1.5.1.58 RSIC
1. Command function
To add a functional base station management entity.
2. Syntax structure
RSIC: BSSID: SITEID, ALIAS: LOCNAME: MODULENO: RESITEMO: ROAMLAPD;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) ALIAS (Alias): alias. Character string type, the maximum length is 40.
4) LOCNAME (Location Name): resource location information. Character string type, the maximum length is 40. default value: China.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 252 of 591
5) MODULENO (Module No.): peripheral module number. Signless integer, value range: 2 to 64.
6) RESITEMO (Related Equipment Site MO): DN of the physical SITE related to the BSS (ESiteId).Composite signless integer, value range: 1~1024.
7) ROAMLAPD (Radio Operation And Maintenance LAPD): operation and maintenance channel LapdLink. Composite signless integer, set the parameter as LapdLinkId for BTSV1A, and set the parameter RackNo1-LapdLinkId1&RackNo2-LapdLinkId2&RackNo3-LapdLinkId3 for BTSV2.
1.5.1.59 RSID
1. Command function
To delete a radio base station management object.
2. Syntax structure
RSID: BSSID {, SITEID, SITENAME};
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
1.5.1.60 RSIM
1. Command function
To modify the radio parameters of a ZTEBTSSITEMANAGER object.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 253 of 591
2. Syntax structure
RSIM: BSSID {, SITEID, SITENAME}: [ALIAS ] [, LOCNAME] [, ROAMLAPD];
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) ALIAS (Alias): alias. Character string type, the maximum length is 40.
5) LOCNAME (LocName): resource location information. Character string type, the maximum length is 40.
6) ROAMLAPD (ROamLapd): LAPD link. Signless integer, the default value is 0.
1.5.1.61 RSIQ
1. Command function
The view the radio parameters of a ZTEBTSSITEMANAGER object.
2. Syntax structure
RSIQ: BSSID {, SITEID, SITENAME} : PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 254 of 591
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) PARAGRP (Parameter Group): parameter group to be queried. Enumerated type, value range: ALL, the default value is ALL.
1.5.1.62 RTXA
1. Command function
To modify the administration state attribute of a baseband transceiver object..
2. Syntax structure
RTXA: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID : AD;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 255 of 591
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
7) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. L: locking state; U: unlocking state; S: time delay blocking.
1.5.1.63 RTXC
1. Command function
To add a new baseband transceiver object.
2. Syntax structure
RTXC: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME} : TRXID, tRXTYPE : RPANELMO : RTLAPD;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 256 of 591
7) TRXTYPE (Transceiver Type): transceiver type. Signless integer, value range: 0, 1. Among them, : 0: normal; 1: special. The default value is 0.
8) RPANELMO (Related Panel MO): related BTS physical panel, ESiteId-Rack-Shelf-Panel. Composite signless integer.
9) RTLAPD (Related Telecom Lapd): related LAPD link under this BSS. Signless integer, value range: 1~3840.
1.5.1.64 RTXD
1. Command function
To delete a baseband transceiver object.
2. Syntax structure
RTXD: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 257 of 591
1.5.1.65 RTXM
1. Command function
To modify a baseband transceiver object.
2. Syntax structure
RTXM: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME} : TRXID, RRCID, RTLAPD;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
7) RRCID (Related RadioCarrier Identification): whether it is related to RadioCarrier. Signless integer, relating stands for baseband frequency hopping. Value range: 0~36.
8) RTLAPD (Related Telecom Lapd): related LAPD link under this BSS. Signless integer, value range: 1~3840.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 258 of 591
1.5.1.66 RTXQ
1. Command function
To query a baseband transceiver object.
2. Syntax structure
RTXQ: BSSID {, SITEID, SITENAME} {, BTSID, BTSNAME}, tRXID : PARAGRP;
3. Parameter description
1) BSSID (Bss Function Identification): BSS identification number. Signless integer, value range: 1~255.
2) SITEID (Site Identification): site identification number. Signless integer, value range: 1~1024.
3) SITENAME (Site Name): site identification name. Character string type, the maximum length is 40.
4) BTSID (Bts Identification): cell number. Signless integer, value range: 1~3.
5) BTSNAME (Bts Name): cell identification name. Character string type, the maximum length is 40.
6) TRXID (Transceiver Identification): transceiver identification number. Signless integer, value range: 1~36.
7) PATAGRP (Parameter Group): radio parameter attribute package type.
Enumerated type, value range: STATES, ALL, the default value is ALL. ?
? ALL is for querying static attribute information, STATES is for querying dynamic attribute information.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 259 of 591
1.5.2 Man-machine commands of software loading
1.5.2.1 ZBOC
1. Command function
To create a BtsGeOsu (GeOsu of BTS) software version.
2. Syntax structure
ZBOC: {EBSCID, EBSCNAME}, SITETYPE, BTYPE, MODULENO: FILEVER;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) SITETYPE (Site Type): BTS SITE type. Signless integer, value range: 1~7.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
5) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
6) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.2 ZBOD
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 260 of 591
To delete BtsGeOsu (GeOsu of BTS) software version.
2. Syntax structure
ZBOD: {EBSCID, EBSCNAME}, SITETYPE, BTYPE, MODULENO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) SITETYPE (Site Type): BTS SITE type. Signless integer, value range: 1~7.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
5) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
1.5.2.3 ZBOM
1. Command function
To modify a BtsGeOsu (GeOsu of BTS) software version.
2. Syntax structure
ZBOM: {EBSCID, EBSCNAME}, SITETYPE, BTYPE, MODULENO: FILEVER;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 261 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) SITETYPE (Site Type): BTS SITE type. Signless integer, value range: 1~7.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
5) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
6) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.4 ZBOQ
1. Command function
To query a BtsGeOsu (GeOsu of BTS) software version.
2. Syntax structure
ZBOQ: {EBSCID, EBSCNAME}, SITETYPE, BTYPE, MODULENO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 262 of 591
3) SITETYPE (Site Type): BTS SITE type. Signless integer, value range: 1~7.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
5) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
1.5.2.5 ZBOR
1. Command function
To load a BtsGeOsu (GeOsu of BTS) software version.
2. Syntax structure
ZBOR: {EBSCID, EBSCNAME}, SITETYPE, BTYPE, MODULENO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) SITETYPE (Site Type): BTS SITE type. Signless integer, value range: 1~7.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 263 of 591
5) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
1.5.2.6 ZDPC
1. Command function
To create the BSCSpecOsu software version of a DSP chip.
2. Syntax structure
ZDPC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO: SOSUID: FILEID, FILEVER;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No): DSP number. Signless integer, value range: from 1 to 8.
7) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range0.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 264 of 591
8) FILEID (File Identification): software file identification. enumerated type, the enumerated values are as follows: BSC_FR, BSC_EFRBSC_EFRENBSC_HRBSC_BRPDSP.
9) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.7 ZDPD
1. Command function
To delete the BSCSpecOsu software version of a DSP chip.
2. Syntax structure
ZDPD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO, SOSUID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No): DSP number. Signless integer, value range: from 1 to 8.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 265 of 591
7) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range0.
1.5.2.8 ZDPM
1. Command function
To modify the BSCSpecOsu software version of a DSP chip.
2. Syntax structure
ZDPM: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO, SOSUID: FILEVER;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No): DSP number. Signless integer, value range: from 1 to 8.
7) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range0.
8) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 266 of 591
1.5.2.9 ZDPQ
1. Command function
To query the BSCSpecOsu software version of a DSP chip.
2. Syntax structure
ZDPQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO, SOSUID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No): DSP number. Signless integer, value range: from 1 to 8.
7) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range0.
1.5.2.10 ZDPR
1. Command function
To load a DSP software version.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 267 of 591
2. Syntax structure
ZDPR: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO, SOSUID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No): DSP number. Signless integer, value range: from 1 to 8.
7) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range0.
1.5.2.11 ZDSV
1. Command function
To query the software version running on the foreground of a DSP chip.
2. Syntax structure
ZDSV: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO, OSUID: OPTIONS;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 268 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No): DSP number. Signless integer, value range: from 1 to 8.
7) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range0.
8) OPTIONS ( Options): options. Signless integer, value range is 2.
1.5.2.12 ZGOC
1. Command function
To create a GeOsu software version.
2. Syntax structure
ZGOC: {EBSCID, EBSCNAME}, BIGTYPE, BTYPE: FILEVER: OPTIONS, SENDMDLE;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 269 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) BIGTYPE (Site Type): big type. Signless integer, value range: 1~5.
4) BTYPE (Board Type): BSC board type. enumerated type, the enumerated values are as follows: MP, DSN2B, SMB, SMT1, SMT2, DRT20, EDRT20, DTI, FR, EFR, EFREN, HR, NSPP, FSPP, tCPP, AIPP, BIPP, GIPP, BRP, FRP, MPPP, MPMP, MTP, 2MMTP, LAPD, PUC, BRP, FRP, GIPP, BRPDSP.
5) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
6) OPTIONS (Options): options. Signless integer, value range: 0, 1. 2, 3, 4. This attribute is effective only for MP loading, and it is specified as 1 in other conditions.
7) SENDMDLE (Send Module No): sending BSC module number. Signless integer, value range: 0, 1. 2, 3, 4, 5, 6, 7, 8, in which 0 stands for all peripheral modules.
1.5.2.13 ZGOD
1. Command function
To delete a GeOsu software version.
2. Syntax structure
ZGOD: {EBSCID, EBSCNAME}, BIGTYPE, BTYPE;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 270 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) BIGTYPE (Site Type): big type. Signless integer, value range: 1~5.
4) BTYPE (Board Type): BSC board type. enumerated type, the enumerated values are as follows: MP, DSN2B, SMB, SMT1, SMT2, DRT20, EDRT20, DTI, FR, EFR, EFREN, HR, NSPP, FSPP, tCPP, AIPP, BIPP, GIPP, BRP, FRP, MPPP, MPMP, MTP, 2MMTP, LAPD, PUC, BRP, FRP, GIPP, BRPDSP.
1.5.2.14 ZGOM
1. Command function
To modify a GeOsu software version.
2. Syntax structure
ZGOM: {EBSCID, EBSCNAME}, BIGTYPE, BTYPE: FILEVER: OPTIONS, SENDMDLE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) BIGTYPE (Site Type): big type. Signless integer, value range: 1~5.
4) BTYPE (Board Type): BSC board type. enumerated type, the enumerated values are as follows: MP, DSN2B, SMB, SMT1, SMT2, DRT20, EDRT20, DTI, FR, EFR, EFREN, HR, NSPP, FSPP, tCPP, AIPP,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 271 of 591
BIPP, GIPP, BRP, FRP, MPPP, MPMP, MTP, 2MMTP, LAPD, PUC, BRP, FRP, GIPP, BRPDSP.
5) FILEVER (File Version): version number of software file . Character string type, the maximum length of the character string is 12.
6) OPTIONS (Options): options. Signless integer, value range: 0, 1. 2, 3, 4. This attribute is effective only for MP loading, and it is specified as 1 in other conditions.
7) SENDMDLE (Send Module No): sending BSC module number. Signless integer, value range: 0, 1. 2, 3, 4, 5, 6, 7, 8, in which 0 stands for all peripheral modules.
1.5.2.15 ZGOQ
1. Command function
To query a GeOsu software version.
2. Syntax structure
ZGOQ: {EBSCID, EBSCNAME}, BIGTYPE, BTYPE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) BIGTYPE (Site Type): big type. Signless integer, value range: 1~5.
4) BTYPE (Board Type): BSC board type. enumerated type, the enumerated values are as follows: MP, DSN2B, SMB, SMT1, SMT2, DRT20, EDRT20, DTI, FR, EFR, EFREN, HR, NSPP, FSPP, tCPP, AIPP,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 272 of 591
BIPP, GIPP, BRP, FRP, MPPP, MPMP, MTP, 2MMTP, LAPD, PUC, BRP, FRP, GIPP, BRPDSP.
1.5.2.16 ZGOR
1. Command function
To load a GeOsu software version.
2. Syntax structure
ZGOR: {EBSCID, EBSCNAME}, BIGTYPE, BTYPE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) BIGTYPE (Site Type): big type. Signless integer, value range: 1~5.
4) BTYPE (Board Type): BSC board type. enumerated type, the enumerated values are as follows: MP, DSN2B, SMB, SMT1, SMT2, DRT20, EDRT20, DTI, FR, EFR, EFREN, HR, NSPP, FSPP, tCPP, AIPP, BIPP, GIPP, BRP, FRP, MPPP, MPMP, MTP, 2MMTP, LAPD, PUC, BRP, FRP, GIPP, BRPDSP.
1.5.2.17 ZSBC
1. Command function
To create a BSCSpecOsu software version.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 273 of 591
ZSBC: EBSCID {, EBSCNAME}, MODULENO, MUNIT, UNIT: SOSUID: FILEID, FILEVER;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range: 0~1. Generally, if two boards related to a unit are used as active/standby boards, then 0 stands for the left board, and 1 stands for the right board.
7) FILEID (File Identification): software file identification. Enumerated type, the enumerated values are as follows: BSC_BOSN, BSC_SMB, BSC_SMT1, BSC_SMT2, BSC_DRT, BSC_EDRT, BSC_DTI, BSC_MP, BSC_IPCBEN, BSC_MTPEN, BSC_LAPDEN, BSC_FR, BSC_EFR, BSC_EFRC6, BSC_HR, BSC_PUC, BSC_BRP, BSC_FRP, BSC_GIPP, BSC_BRPDSP.
8) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.18 ZSBD
1. Command function
To delete a BSCSpecOsu software version.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 274 of 591
2. Syntax structure
ZSBD: EBSCID {, EBSCNAME }, MODULENO, MUNIT, UNIT, SOSUID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range: 0~1. Generally, if two boards related to a unit are used as active/standby boards, then 0 stands for the left board, and 1 stands for the right board.
1.5.2.19 ZSBM
1. Command function
To modify a BSCSpecOsu software version.
2. Syntax structure
ZSBM: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, SOSUID: FILEVER;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 275 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range: 0~1. Generally, if two boards related to a unit are used as active/standby boards, then 0 stands for the left board, and 1 stands for the right board.
7) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.20 ZSBQ
1. Command function
To query a BSCSpecOsu software version.
2. Syntax structure
ZSBQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, SOSUID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 276 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range: 0~1. Generally, if two boards related to a unit are used as active/standby boards, then 0 stands for the left board, and 1 stands for the right board.
1.5.2.21 ZSBR
1. Command function
To load a BSCSpecOsu software version.
2. Syntax structure
ZSBR: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, SOSUID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 277 of 591
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) SOSUID (ZteOsu Identification): ID of OSU. Signless integer, value range: 0~1. Generally, if two boards related to a unit are used as active/standby boards, then 0 stands for the left board, and 1 stands for the right board.
1.5.2.22 ZSIC
1. Command function
To create the software version of a BTS board (BtsSiteSpecOsu).
2. Syntax structure
ZSIC: EBSSID {, EBSSNAME}, ESITEID, BTYPE: FILEVER;
3. Parameter description
1) EBSSID: BSS Equipment Identification. Signless integer, value range: 1~255.
2) EBSSNAME: BSS Equipment Name.. Character string type, the maximum length of the character string is 40.
3) ESITEID (Site Equipment Identification): site equipment identification of the BSS equipment. Signless integer, value range: 1~1024.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
5) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 278 of 591
1.5.2.23 ZSID
1. Command function
To delete the software version of a BTS board (BtsSiteSpecOsu)
2. Syntax structure
ZSID: EBSSID {, EBSSNAME}, ESITEID, BTYPE;
3. Parameter description
1) EBSSID: BSS Equipment Identification. Signless integer, value range: 1~255.
2) EBSSNAME: BSS Equipment Name.. Character string type, the maximum length of the character string is 40.
3) ESITEID (Site Equipment Identification): site equipment identification of the BSS equipment. Signless integer, value range: 1~1024.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
1.5.2.24 ZSIM
1. Command function
To modify the software version of a BTS board (BtsSiteSpecOsu)
2. Syntax structure
ZSIM: EBSSID {, EBSSNAME}, ESITEID, BTYPE: FILEVER;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 279 of 591
1) EBSSID: BSS Equipment Identification. Signless integer, value range: 1~255.
2) EBSSNAME: BSS Equipment Name.. Character string type, the maximum length of the character string is 40.
3) ESITEID (Site Equipment Identification): site equipment identification of the BSS equipment. Signless integer, value range: 1~1024.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
5) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.25 ZSIQ
1. Command function
To query the software version of a BTS board (BtsSiteSpecOsu).
2. Syntax structure
ZSIQ: EBSSID {, EBSSNAME}, ESITEID, BTYPE;
3. Parameter description
1) EBSSID: BSS Equipment Identification. Signless integer, value range: 1~255.
2) EBSSNAME: BSS Equipment Name.. Character string type, the maximum length of the character string is 40.
3) ESITEID (Site Equipment Identification): site equipment identification of the BSS equipment. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 280 of 591
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
1.5.2.26 ZSIR
1. Command function
To load the software version of a BTS board (BtsSiteSpecOsu) ;
2. Syntax structure
ZSIR: EBSSID {, EBSSNAME}, ESITEID, BTYPE;
3. Parameter description
1) EBSSID: BSS Equipment Identification. Signless integer, value range: 1~255.
2) EBSSNAME: BSS Equipment Name.. Character string type, the maximum length of the character string is 40.
3) ESITEID (Site Equipment Identification): site equipment identification of the BSS equipment. Signless integer, value range: 1~1024.
4) BTYPE (Board Type): BTS board type. enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
1.5.2.27 ZSWC
1. Command function
To create a storage software version.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 281 of 591
ZSWC: {EBSCID, EBSCNAME }, MODULENO, FILEID, FILEVER: SRCPATH;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
4) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
5) FILEID (File Identification): software file identification. Enumerated type, the enumerated values are as follows: BSC_MP, BSC_BOSN, BSC_SMB, BSC_SMT1, BSC_SMT2, BSC_DRT, BSC_EDRT, BSC_DTI, BSC_FR, BSC_EFR, BSC_EFREN, BSC_HR, BSC_GPP, BSC_GIPP, BSC_BRP, BSC_FRP, BSC_IPCBEN, BSC_IPCBEN, BSC_MTPEN, BSC_2MMTPEN, BSC_LAPDEN, BTS_OMU, BTS_FUC, BTS_CHP, BTSV2_CMM, BTSV2_CLG, BTSV2_FUC, BTSV2_FLG, BTSV2_CHP, BTSV2_CIP, BTS_SCU, BTS_DSP0, BTS_DSP1, BTS_RCU, BTS_ETDC, BSC_PUC, BSC_BRP, BSC_FRP, BSC_GIPP, BSC_BRPDSP.
6) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.28 ZSWD
1. Command function
To delete a storage software version.
2. Syntax structure
ZSWD: {EBSCID, EBSCNAME}, MODULENO, FILEID, FILEVER;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 282 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, in which 0 stands for all peripheral modules.
4) FILEID (File Identification): software file identification. Enumerated type, the enumerated values are as follows: BSC_MP, BSC_BOSN, BSC_SMB, BSC_SMT1, BSC_SMT2, BSC_DRT, BSC_EDRT, BSC_DTI, BSC_FR, BSC_EFR, BSC_EFREN, BSC_HR, BSC_GPP, BSC_GIPP, BSC_BRP, BSC_FRP, BSC_IPCBEN, BSC_IPCBEN, BSC_MTPEN, BSC_2MMTPEN, BSC_LAPDEN, BTS_OMU, BTS_FUC, BTS_CHP, BTSV2_CMM, BTSV2_CLG, BTSV2_FUC, BTSV2_FLG, BTSV2_CHP, BTSV2_CIP, BTS_SCU, BTS_DSP0, BTS_DSP1, BTS_RCU, BTS_ETDC, BSC_PUC, BSC_BRP, BSC_FRP, BSC_GIPP, BSC_BRPDSP.
5) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.29 ZSWM
1. Command function
To modify a storage software version.
2. Syntax structure
ZSWM: {EBSCID, EBSCNAME}, MODULENO, FILEID, FILEVER: SRCPATH;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 283 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
4) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
5) FILEID (File Identification): software file identification. Enumerated type, the enumerated values are as follows: BSC_MP, BSC_BOSN, BSC_SMB, BSC_SMT1, BSC_SMT2, BSC_DRT, BSC_EDRT, BSC_DTI, BSC_FR, BSC_EFR, BSC_EFREN, BSC_HR, BSC_GPP, BSC_GIPP, BSC_BRP, BSC_FRP, BSC_IPCBEN, BSC_IPCBEN, BSC_MTPEN, BSC_2MMTPEN, BSC_LAPDEN, BTS_OMU, BTS_FUC, BTS_CHP, BTSV2_CMM, BTSV2_CLG, BTSV2_FUC, BTSV2_FLG, BTSV2_CHP, BTSV2_CIP, BTS_SCU, BTS_DSP0, BTS_DSP1, BTS_RCU, BTS_ETDC, BSC_PUC, BSC_BRP, BSC_FRP, BSC_GIPP, BSC_BRPDSP.
6) SRCPATH (Source Path): file path. Character string type, the maximum length is 80.
1.5.2.30 ZSWN
1. Command function
To send a storage software version to MP.
2. Syntax structure
ZSWN: {EBSCID, EBSCNAME}, MODULENO, FILEID, FILEVER;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 284 of 591
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
4) FILEID (File Identification): software file identification. Enumerated type, the enumerated values are as follows: BSC_MP, BSC_BOSN, BSC_SMB, BSC_SMT1, BSC_SMT2, BSC_DRT, BSC_EDRT, BSC_DTI, BSC_FR, BSC_EFR, BSC_EFREN, BSC_HR, BSC_GPP, BSC_GIPP, BSC_BRP, BSC_FRP, BSC_IPCBEN, BSC_IPCBEN, BSC_MTPEN, BSC_2MMTPEN, BSC_LAPDEN, BTS_OMU, BTS_FUC, BTS_CHP, BTSV2_CMM, BTSV2_CLG, BTSV2_FUC, BTSV2_FLG, BTSV2_CHP, BTSV2_CIP, BTS_SCU, BTS_DSP0, BTS_DSP1, BTS_RCU, BTS_ETDC, BSC_PUC, BSC_BRP, BSC_FRP, BSC_GIPP, BSC_BRPDSP.
5) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.31 ZSWQ
1. Command function
To query a storage software version.
2. Syntax structure
ZSWQ: {EBSCID, EBSCNAME}, MODULENO, FILEID, FILEVER;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No): BSC module number. Signless integer, value range: 0~255, 0 stands for all peripheral modules.
4) FILEID (File Identification): software file identification. Enumerated type, the enumerated values are as follows: BSC_MP, BSC_BOSN, BSC_SMB,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 285 of 591
BSC_SMT1, BSC_SMT2, BSC_DRT, BSC_EDRT, BSC_DTI, BSC_FR, BSC_EFR, BSC_EFREN, BSC_HR, BSC_GPP, BSC_GIPP, BSC_BRP, BSC_FRP, BSC_IPCBEN, BSC_IPCBEN, BSC_MTPEN, BSC_2MMTPEN, BSC_LAPDEN, BTS_OMU, BTS_FUC, BTS_CHP, BTSV2_CMM, BTSV2_CLG, BTSV2_FUC, BTSV2_FLG, BTSV2_CHP, BTSV2_CIP, BTS_SCU, BTS_DSP0, BTS_DSP1, BTS_RCU, BTS_ETDC, BSC_PUC, BSC_BRP, BSC_FRP, BSC_GIPP, BSC_BRPDSP.
5) FILEVER (File Version): version number of software file. Character string type, the maximum length of the character string is 12.
1.5.2.32 ZSYV
1. Command function
To query the software version of a BSC board running on the foreground.
2. Syntax structure
ZSYV: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): BTYPE, OPTIONS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No): BSC rack number. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No): BSC shelf number. Signless integer, value range: 1~6.
5) SLOTNO (Slot No): BSC board slot number. Signless integer, value range: 1~27.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 286 of 591
6) BTYPE (Board Type): BSC board type. Enumerated type, the enumerated values are as follows: DTI, DSN, CKI, DSNI, SYCK, PWRB, SMB, SMT1, SMT2, DSN2B, AIPP, BIPP, tCPP, NSPP, FSPP, ATIC, BTIC, INTERNALTIC, COMI, DRT20, EDRT20, PWRP, GIPP, PUC, GTIC, BRP, FRP.
7) OPTIONS (Options): options. Signless integer, value range: 0~3. 0: querying BOOT version; 1: querying application program version; 2: querying DSP version; 3: querying MP version.
1.5.2.33 ZTPV
1. Command function
To query the software version of a board running on the foreground of BTS.
2. Syntax structure
ZTPV: EBSSID {, EBSSNAME}, ESITEID, RACKNO, SHELFNO, PANELNO: PTYPE, BTYPE;
3. Parameter description
1) EBSSID: BSS Equipment Identification. Signless integer, value range: 1~255.
2) EBSSNAME: BSS Equipment Name.. Character string type, the maximum length of the character string is 40.
3) ESITEID (Site Equipment Identification): site equipment identification of the BSS equipment. Signless integer, value range: 1~1024.
4) RACKNO (RACK NUMBER): BTS rack number. Signless integer, value range: 1~4.
5) SHELFNO (SHELF NUMBER): BTS shelf number. Signless integer, value range: 1~5.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 287 of 591
6) PANELNO (PANEL NUMBER): BTS panel number. Signless integer, value range: 1~16.
7) PTYPE (PANEL TYPE): BTS panel type. Enumerated type, the enumerated values are as follows: OMU, EOMU, tRU, CMM, tRM, MBSCU, MBTRX, ETDC, STRU.
8) BTYPE (Board Type): board type. Enumerated type, the enumerated values are as follows: OMU, EOMU, FU, CHP, B2CMM, B2CMMLOG, B2FUC, B2FUCLOG, B2CHP, B2CIP, MBSCU, MBDSP0, MBDSP1, MBRFIU, ETDC.
1.5.3 Man-machine commands of integrated configuration management
1.5.3.1 EACC
1. Command function
To create the COM of A interface time slots.
2. Syntax structure
EACC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: AIPPTS: TCPPMU, tCPPUNIT, tCPPHW, tCPPTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): AIPP multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 288 of 591
5) UNIT (Unit): AIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW number of AIPP. Signless integer, value range: 1~16.
7) AIPPTS (Aipp Ts): time slot number of AIPP. Signless integer, value range: 0~127.
8) TCPPMU (Tcpp Multiple Unit): multi-unit name of TCPP. Signless integer, value range: 2 to 127.
9) TCPPUNIT (Tcpp Unit): TCPP unit name. Signless integer, value range: 0~16.
10) TCPPHW (Tcpp Hw): TCPP HW number. Signless integer, value range: 1~16.
11) TCPPTS (Tcpp Ts): TCPP time slot number. Signless integer, value range: 0~127.
1.5.3.2 EACD
1. Command function
To delete the COM of A interface time slots.
2. Syntax structure
EACD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, AIPPTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 289 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): AIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): AIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW number of AIPP. Signless integer, value range: 1~16.
7) AIPPTS (Aipp Ts): time slot number of AIPP. Signless integer, value range: 0~127.
1.5.3.3 EACQ
1. Command function
To view the COM attribute of A interface time slots.
2. Syntax structure
EACQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, AIPPTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): AIPP multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 290 of 591
5) UNIT (Unit): AIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW number of AIPP. Signless integer, value range: 1~16.
7) AIPPTS (Aipp Ts): time slot number of AIPP. Signless integer, value range: 0~127.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.4 EATA
1. Command function
To modify the status attribute of A interface trunk circuits.
2. Syntax structure
EATA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS: AD, SPY;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 291 of 591
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
8) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L (locking state), U (unlocking state), S (time delay blocking).
9) SPY: Spy status attribute. Signless integer, value range: 0~1.
1.5.3.5 EATC
1. Command function
To create an A interface trunk circuit.
2. Syntax structure
EATC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: TS, tRKGRP, CICNO: AIPPHW, AIPPTS: TNETHW, tNETTS, tNETSTS: KIND;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 292 of 591
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
8) TRKGRP (Trunk Group): trunk circuit group . Signless integer, value range: 0~7.
9) CICNO (Circuit No.): circuit number. Signless integer, value range: 0~255.
10) AIPPHW (Aipp Hw): HW number of AIPP. Signless integer, value range: 1~16.
11) AIPPTS (Aipp Time Slot): time slot number of AIPP. Signless integer, value range: 0~127.
12) TNETHW (Tnet Hw): T net HW number. Signless integer, value range: 1~64.
13) TNETTS (Tnet Time Slot): T net time slot number. Signless integer, value range: 0~127.
14) TNETSTS (Tnet Time Slot): T net sub-time slot number. Signless integer, value range: 0~255.
15) KIND (Kind): trunk circuit type. Signless integer, value range: 0~5. 0: the trunk circuit is used for voice channel; 1: the trunk circuit is used for operation and maintenance; 2: the trunk circuit is used for CCS; 3: reserved; 4: the trunk circuit is used for EAM; 5: the trunk circuit is used for transparent channel.
1.5.3.6 EATD
1. Command function
To delete an A interface trunk relation.
2. Syntax structure
EATD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 293 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
1.5.3.7 EATQ
1. Command function
To view the attribute of an A interface trunk circuit.
2. Syntax structure
EATQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 294 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, the default value is ALL.
1.5.3.8 EAUA
1. Command function
To modify the AUCTS status attribute of a Gb interface.
2. Syntax structure
EAUA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, AUCCFG: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 295 of 591
4) MUNIT (Multiple Unit): SPCU multi-unit name, it is unnecessary to specify the unit name because the master control unit is always the No.0 unit. Signless integer, value range: 0~127, the default value is 0.
5) AUCCFG (AucCfg): AucCfg. Signless integer, value range: 1, the default value is 1.
6) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.9 EAUC
1. Command function
To create AUCTS of Gb interface.
2. Syntax structure
EAUC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, AUCCFG: GIUMUNIT, GIPPHW, tNETHW, BRPGPRS, FRPGPRS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name, it is unnecessary to specify the unit name because the master control unit is always the No.0 unit. Signless integer, value range: 0~127, the default value is 0.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 296 of 591
5) AUCCFG (AucCfg): AucCfg. Signless integer, value range: 1, the default value is 1.
6) GIUMUNIT (GiuMunit): GIU multi-unit name. Signless integer, value range: 0~127.
7) GIPPHW (GippHw): the 8M HW line for connecting GIPP with AUC. Signless integer, value range: 9 to 16.
8) TNETHW (Tnet HW): the No. of the 8M HW line from AUC to BOSN. Signless integer, value range: 1~64.
9) BRPGPRS (Brpgprs): number of active BRP boards. Signless integer.
10) FRPGPRS (Frpgprs): number of active FRP boards. Signless integer.
1.5.3.10 EAUD
1. Command function
To delete AUCTS of Gb interface.
2. Syntax structure
EAUD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, AUCCFG;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 297 of 591
4) MUNIT (Multiple Unit): SPCU multi-unit name, it is unnecessary to specify the unit name because the master control unit is always the No.0 unit. Signless integer, value range: 0~127, the default value is 0.
5) AUCCFG (AucCfg): AucCfg. Signless integer, value range: 1, the default value is 1.
1.5.3.11 EAUM
1. Command function
To modify AUCTS of Gb interface.
2. Syntax structure
EAUM: {EBSCID, EBSCNAME}, MODULENO, MUNIT, AUCCFG: GIUMUNIT, GIPPHW, tNETHW, BRPGPRS, FRPGPRS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name, it is unnecessary to specify the unit name because the master control unit is always the No.0 unit. Signless integer, value range: 0~127, the default value is 0.
5) AUCCFG (AucCfg): AucCfg. Signless integer, value range: 1, the default value is 1.
6) GIUMUNIT (GiuMunit): GIU multi-unit name. Signless integer, value range: 0~127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 298 of 591
7) GIPPHW (GippHw): the 8M HW line for connecting GIPP with AUC. Signless integer, value range: 9 to 16.
8) TNETHW (Tnet HW): the No. of the 8M HW line from AUC to BOSN. Signless integer, value range: 1~64.
9) BRPGPRS (Brpgprs): number of active BRP boards. Signless integer.
10) FRPGPRS (Frpgprs): number of active FRP boards. Signless integer.
1.5.3.12 EAUQ
1. Command function
To view the AUCTS attribute of Gb interface.
2. Syntax structure
EAUQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, AUCCFG: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name, it is unnecessary to specify the unit name because the master control unit is always the No.0 unit. Signless integer, value range: 0~127, the default value is 0.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 299 of 591
5) AUCCFG (AucCfg): AucCfg. Signless integer, value range: 1, the default value is 1.
6) PARAGRP (Parameter Group): attribute package type.
1.5.3.13 EBCC
1. Command function
This command is used to create a BSC.
2. Syntax structure
EBCC: EBSCID (BSC Equipment Identification): ALIAS, VERSION: L, B: {MSCID, MSCNAME}: OPC, SPTYPE, tESTCODE, tESTID, AM: LECM;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification. Signless integer, value range1~255.
2) ALIAS (Alias): BSC alias. Character string type, The maximum length of the character string is 40.
3) VERSION (Version): BSC version number. Enumerated type, enumerated items: 10, 20.
4) L (Latitude): latitude coordinates of BSC location. Floating-point type, value range: -180 to 180, the default value is 0.
5) B (Longitude): longitude coordinates of BSC location. Floating-point type, value range: -90 to 90, the default value is 0.
6) MSCID (MSC Identification): MSC identification number of the BSC. Signless integer, value range: 1~255.
7) MSCNAME (MSC Name): MSC identification name of the BSC. Character string type, The maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 300 of 591
8) OPC (Ordinant Point Code): BSC signaling point code. Signless integer, value range: 1~16383.
9) SPTYPE (Signaling Point Type): signaling point type. Signless integer, value range: 1~3. the default value is 3. Among them, 1: signaling end point (SEP); 2: signaling transfer point (STP); 3: signaling end/transfer point (STEP).
10) TESTCODE (Test Code): test code. Character string type, The maximum length of the character string is 16. the default value is “0000000000000000”.
11) TESTID (Test Identification): whether test flag is required. Type Boolean, the default value is T.
12) AM (Associated Mode): the connecting relationship between MSC signaling point and BSC signaling point. Signless integer, value range: 1~2. the default value is 1. Among them, 1 : Associated Mode; 2: Quasi-associated Mode.
13) LECM (Link Error Correct Method): link error correction method; Signless integer, value range: 1~2. the default value is 1. Among them, 1: basic error correction method, with a transmission time delay less than or equal to 15ms.
1.5.3.14 EBCD
1. Command function
To delete a BSC (the radio BSC must be deleted first).
2. Syntax structure
EBCD: {EBSCID, EBSCNAME};
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 301 of 591
2) EBSCNAME (BSC Equipment Name): BSC identification name.
1.5.3.15 EBCM
1. Command function
To modify the attribute value of an object BSC identification.
2. Syntax structure
EBCM: {EBSCID, EBSCNAME}: [ALIAS][, L][, B][, OPC][, tESTCODE][, tESTID][, AM][, LECM];
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC identification name. Character string type, The maximum length of the character string is 40.
3) ALIAS (Alias): new BSC alias. Character string type, The maximum length of the character string is 40.
4) L (Latitude): latitude coordinates of BSC location. Floating-point type, value range: -180~180.
5) B (Longitude): longitude coordinates of BSC location. Floating-point type, value range: -90~90.
6) OPC (Ordinant Point Code): BSC signaling point code. Signless integer, value range: 1~16383.
7) TESTCODE (Test Code): test code. Character string type, The maximum length of the character string is 16.
8) TESTID (Test Identification): whether test flag is required. Type Boolean.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 302 of 591
9) AM (Associated Mode): the connecting relationship between MSC signaling point and BSC signaling point. Signless integer, value range: 1~2. Among them, 1: Associated Mode; 2: Quasi-associated Mode.
10) LECM (Link Error Correct Method): link error correction method. Signless integer, value range: 1~2. Among them, 1: basic error correction method, with a transmission time delay less than or equal to 15ms; 2: preventive cyclic resending (PCR) correction method, with a transmission time delay greater than or equal to 15ms.
1.5.3.16 EBCQ
1. Command function
To view the attribute of an object BSC.
2. Syntax structure
EBCQ: {EBSCID, EBSCNAME}: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC identification name. Character string type, The maximum length of the character string is 40.
3) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, the enumerated items include ALL.
1.5.3.17 EBFA
1. Command function
To modify the configuration status attribute of a BRP board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 303 of 591
EBFA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, AUCHW: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC. Signless integer, value range: 8 to 16.
7) AD (Administer State): administration state. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.18 EBFC
1. Command function
To create BRPCFG.
2. Syntax structure
EBFC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: AUCHW;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 304 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC.
1.5.3.19 EBFD
1. Command function
To delete BRPCFG.
2. Syntax structure
EBFD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, AUCHW;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 305 of 591
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC. Signless integer, value range: 8 to 16.
1.5.3.20 EBFQ
1. Command function
To view BRPCFG attribute.
2. Syntax structure
EBFQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, AUCHW: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC. Signless integer, value range: 8 to 16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 306 of 591
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include: STATES, STATIC, the default value is ALL.
1.5.3.21 EBHA
1. Command function
To modify the status attribute of a physical bearer channel (BRCH) of Gb interface.
2. Syntax structure
EBHA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, SPCUMUNT: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): GIU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TIC unit. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): 2M PCM line of TIC . Signless integer, value range: 1~4.
7) SPCUMUNT (SPCU Munit): SPCU multi-unit name, 0 stands for Unconfigured. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 307 of 591
8) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.22 EBHC
1. Command function
To create a physical bearer channel (BRCH) of Gb interface.
2. Syntax structure
EBHC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: SPCUMUNT, AUCFRPNO, N391, N392, N393, t391, AR;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): GIU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TIC unit. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): 2M PCM line of TIC . Signless integer, value range: 1~4.
7) SPCUMUNT (SPCU Munit): SPCU multi-unit name, 0 stands for Unconfigured. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 308 of 591
8) AUCFRPNO (AUC Frp No): the sequence number allocated in the 8M HW between GIPP and AUC of the bearer channel (1~4), 0 stands for Unconfigured, Signless integer.
9) N391 (N391): the polling counter of all PVC statuses. Signless integer.
10) N392 (N392): failure threshold. Signless integer.
11) N393 (N393): detection event counter. Signless integer.
12) T391 (T391): polling timer for link integrity confirmation (unit: 10ms). Signless integer.
13) AR (AR): access rate (number of effective 64kb/s time slots).
1.5.3.23 EBHD
1. Command function
To delete a physical bearer channel (BRCH) of Gb interface..
2. Syntax structure
EBHD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, SPCUMUNT;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 309 of 591
4) MUNIT (Multiple Unit): GIU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TIC unit. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): 2M PCM line of TIC . Signless integer, value range: 1~4.
7) SPCUMUNT (SPCU Munit): SPCU multi-unit name, 0 stands for Unconfigured. Signless integer.
1.5.3.24 EBHM
1. Command function
To modify a physical bearer channel (BRCH) of Gb interface..
2. Syntax structure
EBHM: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, SPCUMUNT: AUCFRPNO, N391, N392, N393, t391, AR;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): GIU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TIC unit. Signless integer, value range: 0~20.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 310 of 591
6) PCMNO (Pcm No.): 2M PCM line of TIC . Signless integer, value range: 1~4.
7) SPCUMUNT (SPCU Munit): SPCU multi-unit name, 0 stands for Unconfigured. Signless integer.
8) AUCFRPNO (AUC Frp No): the sequence number allocated in the 8M HW between GIPP and AUC of the bearer channel (1~4), 0 stands for Unconfigured. Signless integer.
9) N391 (N391): the polling counter of all PVC statuses. Signless integer.
10) N392 (N392): failure threshold. Signless integer.
11) N393 (N393): detection event counter. Signless integer.
12) T391 (T391): polling timer for link integrity confirmation (unit: 10ms). Signless integer.
13) AR (AR): access rate (number of effective 64kb/s time slots).
1.5.3.25 EBHQ
1. Command function
To view the attribute of a physical bearer channel (BRCH) of Gb interface..
2. Syntax structure
EBHQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, SPCUMUNT: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 311 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): GIU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TIC unit. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): 2M PCM line of TIC . Signless integer, value range: 1~4.
7) SPCUMUNT (SPCU Munit): SPCU multi-unit name, 0 stands for Unconfigured. Signless integer.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.26 EBNA
1. Command function
To modify the status attribute of BUS484 under a monitor board.
2. Syntax structure
EBNA: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BUSNO, ADDR: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 312 of 591
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
7) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
8) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.27 EBNC
1. Command function
To create BUS485 under a monitor board.
2. Syntax structure
EBNC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BUSNO: ADDR, LINKPORT, MUNIT;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 313 of 591
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
7) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
8) LINKPORT (Link Port): port number. Signless integer, value range: 0~65535.
9) MUNIT (Multiple Unit): multi-unit name. Signless integer, the default value is 0, value range: 2 to 127.
1.5.3.28 EBND
1. Command function
To delete BUS485 under a monitor board.
2. Syntax structure
EBND: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BUSNO, ADDR;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 314 of 591
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
7) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
1.5.3.29 EBNQ
1. Command function
To view the BUS485 attribute under a monitor board.
2. Syntax structure
EBNQ: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BUSNO, ADDR: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 315 of 591
7) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include: ALL, the default value is ALL.
1.5.3.30 EBTA
1. Command function
To modify the status attribute of Abis interface trunk circuit.
2. Syntax structure
EBTA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS, SUBTS: SPY;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
8) SUBTS (Sub Time Slot): sub-time slot number. Signless integer, value range: 0~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 316 of 591
9) SPY: administration state attribute.. Signless integer, value range: 0~1.
1.5.3.31 EBTC
1. Command function
To create an Abis interface trunk circuit.
2. Syntax structure
EBTC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS: SUBTS: BIPPUNIT, BIPPHW, BIPPTS, BIPPTS: TNETHW, tNETTS, tNETSTS: KIND: SITEID, BTSID, tRXID, tN;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
8) SUBTS (Sub Time Slot): sub-time slot number. Signless integer, value range: 0~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 317 of 591
9) BIPPUNIT (Bipp Unit): BIPP unit name. Signless integer, value range: 0~20.
10) BIPPHW (Bipp Hw): BIPP HW number. Signless integer, value range: 1~16.
11) BIPPTS (Bipp Time Slot): BIPP time slot number. Signless integer, value range: 0~127.
12) BIPPSTS (Bipp Sub Time Slot): BIPP sub-time slot number. Signless integer, value range: 0~255.
13) TNETHW (Tnet Hw): T net HW number. Signless integer, value range: 1~64.
14) TNETTS (Tnet Time Slot): T net time slot number. Signless integer, value range: 0~127.
15) TNETSTS (Tnet Sub Time Slot): T net sub-time slot number. Signless integer, value range: 0~255.
16) KIND (Kind): trunk circuit type. Signless integer, value range: 1~5. Among them, 1: the trunk circuit is used for voice channel; 2: the trunk circuit is used for OMU operation and maintenance; 3: the trunk circuit is used for TRU operation and maintenance; 4: EAM transparent channel; 5: multi-TS transparent channel.
17) SITEID (Site Identification): logic site identification. Signless integer, value range: 0, this value needs to be filled automatically by the radio part.
18) BTSID (Bts Identification): logic cell identification. Signless integer, value range: 0, this value needs to be filled automatically by the radio part.
19) TRXID (Trx Identification): logic transceiver identification. Signless integer value, value range: 0, this value needs to be filled automatically by the radio part.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 318 of 591
20) TN (Trunk No.): connection time slot number. Signless integer, value range: 0, this value needs to be filled automatically by the radio part.
1.5.3.32 EBTD
1. Command function
To delete an Abis interface trunk circuit.
2. Syntax structure
EBTD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UUNIT, PCMNO, tS, SUBTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module number. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
8) SUBTS (Sub Time Slot): sub-time slot number. Signless integer, value range: 0~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 319 of 591
1.5.3.33 EBTQ
1. Command function
To view the attribute of an Abis interface trunk circuit.
2. Syntax structure
EBTQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS, SUBTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO: module number. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Time Slot): time slot number. Signless integer, value range: 0~31.
8) SUBTS (Sub Time Slot): sub-time slot number. Signless integer, value range: 0~255.
9) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 320 of 591
1.5.3.34 EBUA
1. Command function
To modify the status attribute of BUS485 under multi-unit.
2. Syntax structure
EBUA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, BUSNO, ADDR: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
6) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
7) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.35 EBUC
1. Command function
To create a BUS485 under multi-unit.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 321 of 591
2. Syntax structure
EBUC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, BUSNO: ADDR, LINKPORT, CSlOTNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
6) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
7) LINKPORT (Link Port): port number. Signless integer, value range: 0~65535.
8) CSLOTNO (Control Slot No.): control layer slot number. Signless integer, value range: 0, the default value is 0.
1.5.3.36 EBUD
1. Command function
To delete a BUS485 under multi-unit.
2. Syntax structure
EBUD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, BUSNO, ADDR;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 322 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, The maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
6) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
1.5.3.37 EBUQ
1. Command function
To view the attribute of a BUS485 (under multi-unit).
2. Syntax structure
EBUQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, BUSNO, ADDR: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 323 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) BUSNO (Bus No.): Bus number. Signless integer, value range: 1~8.
6) ADDR (Address): bus address. Signless integer, value range: 2 to 127.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include: ALL, the default value is ALL.
1.5.3.38 EDCC
1. Command function
To create DropCom.
2. Syntax structure
EDCC: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM, BIETS: BIESUBTS: PCMOUT, tSOUT, SUBTSOUT;
3. Parameter description
1) EBSSID (BSS Identification): connected BSS identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, Character
string ? the maximum length is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 324 of 591
5) BIEPCM (BIE Pcm): No. of the PCM to BIE. Signless integer, value range: 1~6.
6) BIETS (Base station Interface Equipment TS): time slot number of the PCM to BIE. Signless integer, value range: 0~31.
7) BIESUBTS (BIE Sub Ts): sub-time-slot number of the PCM to BIE. Enumerated type, value range: 0, 1, 2, 3, 251, 252, 253, 254, 255.
8) PCMOUT (PCM Out): No. of the PCM from BIE. Signless integer, value range: 1~6.
9) TSOUT (Ts Out): time slot number of the PCM from BIE. Signless integer, value range: 0~31.
10) SUBTSOUT (Sub Ts Out): sub-time-slot number of the PCM from BIE. Signless integer, value range: 0, 1, 2, 3, 251, 252, 253, 254, 255.
1.5.3.39 EDCD
1. Command function
To delete DropCom.
2. Syntax structure
EDCD: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM, BIETS, BIESUBTS;
3. Parameter description
1) EBSSID (BSS Identification): connected BSS identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 325 of 591
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): No. of the PCM to BIE. Signless integer, value range: 1~6.
6) BIETS (Base station Interface Equipment TS): time slot number of the PCM to BIE. Signless integer, value range: 0~31.
7) BIESUBTS (BIE Sub Ts): sub-time-slot number of the PCM to BIE. Enumerated type, value range: 0, 1. 2, 3, 251, 252, 253, 254, 255.
1.5.3.40 EDCQ
1. Command function
To view the related attribute of the adjacent site of DropCom.
2. Syntax structure
EDCQ: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM, BIETS, BIESUBTS: PARAGRP;
3. Parameter description
1) EBSSID (BSS Identification): connected BSS identification. Signless integer, value range: 1~255.
2) ESITEID (Site Equipment Identification): site equipment identification of the BSS equipment. Signless integer, value range: 1~1024.
3) ESITENM (Site Equipment Name): site equipment alias. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 326 of 591
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): No. of the PCM to BIE. Signless integer, value range: 1~6.
6) BIETS (Base station Interface Equipment TS): time slot number of the PCM to BIE. Signless integer, value range: 0~31.
7) BIESUBTS (BIE Sub Ts): sub-time-slot number of the PCM to BIE. Enumerated type, value range: 0, 1. 2, 3, 251, 252, 253, 254, 255.
8) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL.
1.5.3.41 EDPC
1. Command function
To create a DropBie PCM.
2. Syntax structure
EDPC: EBSSID, {ESITEID, ESITENM}, RACKNO (Rack No): BIEPCM: RELSITE, RELRACK, RELBPCM;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 327 of 591
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
6) RELSITE (Related Site Equipment): equipment identification of adjacent site. Signless integer, value range: 1~1024.
7) RELRACK (Related Rack): adjacent rack number. Signless integer, value range: 1~4.
8) RELBPCM (Related aBis PCM): PCM No. of the adjacent BS E1 interface. Signless integer, value range: 1~4.
1.5.3.42 EDPD
1. Command function
To delete a DropBie PCM.
2. Syntax structure
EDPD: EBSSID, {ESITEID, ESITENM}, RACKNO, BIEPCM;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 328 of 591
1.5.3.43 EDPQ
1. Command function
To view the attribute of a DropBie PCM.
2. Syntax structure
EDPQ: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM: PARAGRP;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
6) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL.
1.5.3.44 EDSA
1. Command function
To modify DSP status attribute.
2. Syntax structure
EDSA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO: AD;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 329 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range0~20.
6) DSPNO (Dsp No.): DSP number. Signless integer, value range: 1~8.
7) AD (Administer State): administration state. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.45 EDSC
1. Command function
To create a DSP under a DRT unit.
2. Syntax structure
EDSC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: DSPNO, DSPTYPE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 330 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No.): DSP number. Signless integer, value range: 1~8.
7) DSPTYPE (Dsp Type): DSP type. Signless integer, value range: 1~15.
1.5.3.46 EDSD
1. Command function
To delete a DSP under a DRT line.
2. Syntax structure
EDSD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 331 of 591
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No.): DSP number. Signless integer, value range: 1~8.
1.5.3.47 EDSQ
1. Command function
To view the attribute of a DSP.
2. Syntax structure
EDSQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, DSPNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) DSPNO (Dsp No.): DSP number. Signless integer, value range: 1~8.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include: STATES, STATIC, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 332 of 591
1.5.3.48 EFFA
1. Command function
To modify the configuration status attribute of a FRP board.
2. Syntax structure
EFFA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, AUCHW: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): FRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC. Signless integer, value range: 8 to 16.
7) AD (Administer State): administration state. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.49 EFFC
1. Command function
To create a FRPCFG.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 333 of 591
2. Syntax structure
EFFC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: AUCHW;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): FRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC. Signless integer, value range: 1~16.
1.5.3.50 EFFD
1. Command function
To delete a FRPCFG.
2. Syntax structure
EFFD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, AUCHW;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 334 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): FRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC. Signless integer, value range: 8 to 16.
1.5.3.51 EFFQ
1. Command function
To view the attribute of a FRPCFG.
2. Syntax structure
EFFQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, AUCHW: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 335 of 591
5) UNIT (Unit): FRP unit name. Signless integer, value range: 0~20.
6) AUCHW (Auc Hw.): HW number of the AUC. Signless integer, value range: 1~16.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include: STATES, STATIC, the default value is ALL.
1.5.3.52 EFSA
1. Command function
To modify the administration state attribute of a remote SMPP board COM.
2. Syntax structure
EFSA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, FSMPPTS, FSMPPSTS: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the remote SMPP board. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name of the remote SMPP board. Signless integer, value range: 0~20.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 336 of 591
6) PCMNO (Pcm No.): PCM No. of the remote SMPP board. Signless integer, value range: 1~4.
7) FSMPPTS (Far Smpp Time Slot): time slot number of the remote SMPP board. Signless integer, value range: 0~127.
8) FSMPPSTS (Far Smpp Sub Time Slot): sub-time slot number of the remote SMPP board. Signless integer, value range: 0~255.
9) AD (Administer State): administration state. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.53 EFSC
1. Command function
To create the COM of a remote SMPP board.
2. Syntax structure
EFSC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, FSMPPTS: FSMPPSTS: FSPPHW1, FSPPTS1: FSPPHW2, FSPPTS2: TNETHW, tNETTS, tNETSTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the remote SMPP board. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 337 of 591
5) UNIT (Unit): unit name of the remote SMPP board. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. of the remote SMPP board. Signless integer, value range: 1~4.
7) FSMPPTS (Far Smpp Time Slot): time slot number of the remote SMPP board. Signless integer, value range: 0~127.
8) FSMPPSTS (Far Smpp Sub Time Slot): sub-time slot number of the remote SMPP board. Signless integer, value range: 0~255.
9) FSPPHW1 (FSPP Hw No.1): FSPP HW number 1. Signless integer, value range: 0~16.
10) FSPPTS1 (FSPP Time Slot No.1): FSPP time slot number 1. Signless integer, value range: 0~127.
11) FSPPHW2 (FSPP Hw No.2): FSPP HW number 2. Signless integer, value range: 0~16.
12) TNETHW (Tnet Hw): T net HW number. Signless integer, value range: 1~64.
13) TNETTS (Tnet Time Slot): T net time slot number. Signless integer, value range: 0~127.
14) TNETSTS (Tnet Sub Time Slot): T net sub-time slot number. Signless integer, value range: 0~255.
1.5.3.54 EFSD
1. Command function
To delete the COM of a remote SMPP board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 338 of 591
EFSD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, FSMPPTS, FSMPPSTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the remote SMPP board. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name of the remote SMPP board. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM number of the remote SMPP. Signless integer, value range: 1~4.
7) FSMPPTS (Far Smpp Time Slot): time slot number of the remote SMPP Signless integer, value range: 0~127.
8) FSMPPSTS (Far Smpp Sub Time Slot): sub-time-slot number of the remote SMPP. Signless integer, value range: 0~255.
1.5.3.55 EFSQ
1. Command function
To view the COM status attribute of a remote SMPP board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 339 of 591
EFSQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, FSMPPTS, FSMPPSTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the remote SMPP board. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name of the remote SMPP board. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM number of the remote SMPP. Signless integer, value range: 1~4.
7) FSMPPTS (Far Smpp Time Slot): time slot number of the remote SMPP Signless integer, value range: 0~127.
8) FSMPPSTS (Far Smpp Sub Time Slot): sub-time-slot number of the remote SMPP. Signless integer, value range: 0~255.
9) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, enumerated items: ALL (including dynamic attribute and static attribute), the default value is ALL.
1.5.3.56 EGCA
1. Command function
To modify the status attribute of a Gb interface time slot.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 340 of 591
2. Syntax structure
EGCA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): AIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): AIPP unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Ts): time slot number. Signless integer, value range: 0~127.
8) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state.
1.5.3.57 EGCC
1. Command function
To create the COM of a Gb interface time slot.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 341 of 591
EGCC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: TS, GIPPHW1, GIPPTS1, GIPPHW2, GIPPTS2;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): GIU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TIC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM number of TIC. Signless integer, value range: 1~4.
7) TS (Ts): time slot number. Signless integer, value range: 0~127.
8) GIPPHW1 (Gipp Hw1): GIPP HW1 number. Signless integer, value range: 1~16.
9) GIPPTS1 (Gipp Ts): GIPP time slot number 1. Signless integer, value range: 0~127.
10) GIPPHW2 (Gipp Hw): GIPP HW2 number. Signless integer, value range: 1~16.
11) GIPPTS2 (Gipp Ts): GIPP time slot number 2.
1.5.3.58 EGCD
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 342 of 591
To delete the COM of a Gb interface time slot.
2. Syntax structure
EGCD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): AIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): AIPP unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Ts): time slot number. Signless integer, value range: 0~127.
1.5.3.59 EGCM
1. Command function
To modify the COM of a Gb interface time slot.
2. Syntax structure
EGCM: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS: GIPPHW1, GIPPTS1, GIPPHW2, GIPPTS2;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 343 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): GIU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TIC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM number of TIC. Signless integer, value range: 1~4.
7) TS (Ts): time slot number. Signless integer, value range: 0~127.
8) GIPPHW1 (Gipp Hw1): GIPP HW1 number. Signless integer, value range: 1~16.
9) GIPPTS1 (Gipp Ts): GIPP time slot number 1. Signless integer, value range: 0~127.
10) GIPPHW2 (Gipp Hw): GIPP HW2 number. Signless integer, value range: 1~16.
1.5.3.60 EGCQ
1. Command function
To view the COM attribute of a Gb interface time slot.
2. Syntax structure
EGCQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS: PARAGRP;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 344 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): AIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): AIPP unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Ts): time slot number. Signless integer, value range: 0~127.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.61 EGPC
1. Command function
To create a Gb interface PCM line of a BSC.
2. Syntax structure
EGPC : {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 345 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No.
1.5.3.62 EGPD
1. Command function
To delete a Gb interface PCM line of a BSC.
2. Syntax structure
EGPD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 346 of 591
6) PCMNO (Pcm No.): PCM No.
1.5.3.63 EGPQ
1. Command function
To view the attribute of a Gb interface PCM.
2. Syntax structure
EGPQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) PARAGRP (Parameter Group): attribute package type.
1.5.3.64 EGTA
1. Command function
To modify the GTRUNK status attribute of a Gb interface time slot.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 347 of 591
2. Syntax structure
EGTA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, tS: AD, SPY;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) TS (Ts): BRP unit ? time slot number. Signless integer, value range: 0~127.
7) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
8) SPY ( Administer State): Spy status attribute.
1.5.3.65 EGTC
1. Command function
To create a GTRUNK of a Gb interface time slot.
2. Syntax structure
EGTC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: TS, DSPNO;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 348 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) TS (Ts): BRP unit ? time slot number. Signless integer, value range: 0~127.
7) DSPNO (Dsp No): the DSP number corresponding to the time slot. Signless integer, value range: 1~8.
1.5.3.66 EGTD
1. Command function
To delete a GTRUNK of a Gb interface time slot.
2. Syntax structure
EGTD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, tS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 349 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): AIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): AIPP unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) TS (Ts): time slot number.
1.5.3.67 EGTM
1. Command function
To modify a GTRUNK of a Gb interface time slot.
2. Syntax structure
EGTM: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, tS: DSPNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 350 of 591
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) TS (Ts): BRP unit ? time slot number. Signless integer, value range: 0~127.
7) DSPNO (Dsp No): the DSP number corresponding to the time slot.
1.5.3.68 EGTQ
1. Command function
To view the GTRUNK attribute of a Gb interface time slot.
2. Syntax structure
EGTQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, tS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): SPCU multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BRP unit name. Signless integer, value range: 0~20.
6) TS (Ts): BRP unit ? time slot number. Signless integer, value range: 0~127.
7) PARAGRP (Parameter Group): attribute package type.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 351 of 591
1.5.3.69 EHCA
1. Command function
To modify the status attribute of the HDLC channel coding under a MPPP board.
2. Syntax structure
EHCA: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BCH: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel No. Signless integer, value range: 0~63.
7) AD (Administer State): administration state. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state.
1.5.3.70 EHCC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 352 of 591
To create the channel coding of HDLC under a MPPP board.
2. Syntax structure
EHCC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): BCH, LINKPORT, WIDTH, MUNIT;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel No. Signless integer, value range: 0~63.
7) LINKPORT (Link Port): port number. Signless integer, value range: 0~65535.
8) WIDTH (Width): width of control channel. Signless integer, value range: 1~16.
9) MUNIT (Multiple Unit): invalid multi-unit name.
1.5.3.71 EHCD
1. Command function
To delete the channel coding of HDLC under a control-layer board.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 353 of 591
2. Syntax structure
EHCD: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BCH;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel No.
1.5.3.72 EHCQ
1. Command function
To view the attribute of a HDLC channel under a control-layer board.
2. Syntax structure
EHCQ: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BCH: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 354 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel No. Signless integer, value range: 0~63.
7) PARAGRP (Parameter Group): attribute package type.
1.5.3.73 EHDA
1. Command function
To modify the channel coding of HDLC under a multi-unit.
2. Syntax structure
EHDA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, BCH: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 355 of 591
5) BCH (Base Channel): channel No. Signless integer, value range: 0~63.
6) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state.
1.5.3.74 EHDC
1. Command function
To create the channel coding of HDLC under a multi-unit.
2. Syntax structure
EHDC: {EBSCID, EBSCNAME}, MODULENO, MUNIT: BCH, LINKPORT, WIDTH, CSLOTNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) BCH (Base Channel): channel No. Signless integer, value range: 0~63.
6) LINKPORT (Link Port): port number. Signless integer, value range: 0~65535.
7) WIDTH (Width): width of control channel. Signless integer, value range: 1~16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 356 of 591
8) CSLOTNO (Control Slot No.): control layer slot number. Signless integer, the default value is 0. When Munit is the master control unit, CSlotNo=0.
1.5.3.75 EHDD
1. Command function
To delete the channel coding of HDLC under a multi-unit.
2. Syntax structure
EHDD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, BCH;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) BCH (Base Channel): channel No. Signless integer, value range: 0~63.
1.5.3.76 EHDQ
1. Command function
To view the channel coding attribute of HDLC under a multi-unit.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 357 of 591
EHDQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, BCH: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) BCH (Base Channel): channel No. Signless integer, value range: 0~63.
6) PARAGRP (Parameter Group): attribute package type.
1.5.3.77 EHWA
1. Command function
To modify the status attribute of a internal HW.
2. Syntax struc ture
EHWA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 358 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No. Signless integer, value range: 1~16.
7) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state.
1.5.3.78 EHWC
1. Command function
To create an internal HW under a BSC unit.
2. Syntax structure
EHWC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: HWNO, HWSET, DELAY;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 359 of 591
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No. Signless integer, value range: 1~16.
7) HWSET (Hw Set): HW setting. Signless integer, value range: 0~65535.
8) DELAY (Delay): HW time delay.
1.5.3.79 EHWD
1. Command function
To delete an internal HW under a BSC unit.
2. Syntax structure
EHWD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 360 of 591
1.5.3.80 EHWQ
1. Command function
To view the attribute of an internal HW.
2. Syntax structure
EHWQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No.
7) PARAGRP (Parameter Group): attribute package type.
1.5.3.81 ELBA
1. Command function
To modify the status attribute of LAPD channel coding.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 361 of 591
ELBA: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BCH, tEI: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel number of the LAPD board. Signless integer, value range: 0~63.
7) TEI (Terminal Equipment Identification): terminal equipment identification. Signless integer, value range: 0~16.
8) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state.
1.5.3.82 ELBC
1. Command function
To create LAPD channel coding under a LAPD board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 362 of 591
ELBC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BCH: TEI, SMODULE: SITEID, BTSID, tRXID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel number of the LAPD board. Signless integer, value range: 0~63.
7) TEI (Terminal Equipment Identification): terminal equipment identification. Signless integer, value range: 0~16.
8) SMODULE: Stored Module. Signless integer, value range: 1~64.
9) SITEID (Site Identification): logic site identification. Signless integer, value range: 0, this value needs to be filled automatically by the radio part.
10) BTSID (Bts Identification): logic cell identification. Signless integer, value range: 0, this value needs to be filled automatically by the radio part.
11) TRXID (Trx Identification): logic transceiver identification.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 363 of 591
1.5.3.83 ELBD
1. Command function
To delete the LADP channel coding under a LAPD board.
2. Syntax structure
ELBD: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BCH, tEI;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel number of the LAPD board. Signless integer, value range: 0~63.
7) TEI (Terminal Equipment Identification): terminal equipment identification.
1.5.3.84 ELBQ
1. Command function
To view the attribute of LAPD channel coding .
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 364 of 591
2. Syntax structure
ELBQ: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO, BCH, tEI: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer, value range: 0~27.
6) BCH (Base Channel): channel number of the LAPD board. Signless integer, value range: 0~63.
7) TEI (Terminal Equipment Identification): terminal equipment identification.
8) PARAGRP (Parameter Group): attribute package type.
1.5.3.85 ELTC
1. Command function
To create a time slot of a LAPD board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 365 of 591
ELTC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: NEARTS: FARHW, FARTS: TICUNIT, tICPCM, tICTS: RACKNO, SHELFNO, SLOTNO, BCH;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): near-end HW No. Signless integer, value range: 1~16.
7) NEARTS (Near Time Slot): near-end time slot No. Signless integer, value range: 0~127.
8) FARHW (Far Hw): far-end HW number. Signless integer, value range: 1~16.
9) FARTS (Far Time Slot): far-end time slot number. Signless integer, value range: 0~127.
10) TICUNIT (Tic Unit): TIC unit name. Signless integer, value range: 0~20.
11) TICPCM (Tic Pcm): PCM number of TIC. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 366 of 591
12) TICTS (Tic Time Slot): TIC time slot number. Signless integer, value range: 0~31.
13) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
14) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 1~6.
15) SLOTNO (Slot No.): slot number of the corresponding LAPD board. Signless integer, value range: 1~27.
16) BCH (Base Channel): channel number of the corresponding LAPD board.
1.5.3.86 ELTD
1. Command function
To delete a time slot of a LAPD.
2. Syntax structure
ELTD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, NEARTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 367 of 591
4) MUNIT (Multiple Unit): BIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): near-end HW No. Signless integer, value range: 1~16.
7) NEARTS (Near Time Slot): near-end time slot No.
1.5.3.87 ELTQ
1. Command function
To view the time slot attribute of a LAPD board.
2. Syntax structure
ELTQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, NEARTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): near-end HW No. Signless integer, value range: 1~16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 368 of 591
7) NEARTS (Near Time Slot): near-end time slot No.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.88 EMTC
1. Command function
To create a time slot of a MPMP board.
2. Syntax structure
EMTC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: NEARTS: TNETHW, tNETTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): near-end HW No. Signless integer, value range: 1~16.
7) NEARTS (Near Time Slot): near-end time slot No.
8) TNETHW (Tnet Hw): T net HW number. Signless integer, value range: 1~64.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 369 of 591
9) TNETTS (Tnet Time Slot): T net time slot number.
1.5.3.89 EMTD
1. Command function
To delete a time slot of a MPMP board.
2. Syntax structure
EMTD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, NEARTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): near-end HW No. Signless integer, value range: 1~16.
7) NEARTS (Near Time Slot): near-end time slot No.
1.5.3.90 EMTQ
1. Command function
To view the time slot attribute of a MPMP board.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 370 of 591
2. Syntax structure
EMTQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, NEARTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BIPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BIPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): near-end HW No. Signless integer, value range: 1~16.
7) NEARTS (Near Time Slot): near-end time slot No.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.91 ENSC
1. Command function
To create the COM of a NSPP board.
2. Syntax structure
ENSC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: NSMPPTS: NSPPHW, NSPPTS: TNETHW, tNETTS;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 371 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): near-end SMPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): near-end SMPP unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. of the near-end SMPP. Signless integer, value range: 1~4.
7) NSMPPTS (Near Smpp Time Slot): time slot No. of the near-end SMPP.. Signless integer, value range: 0~127.
8) NSPPHW (Nspp Hw): NSPP HW number. Signless integer, value range: 0~16.
9) NSPPTS (Nspp Time Slot): NSPP time slot number. Signless integer, value range: 0~127.
10) TNETHW (Tnet Hw): T net HW number. Signless integer, value range: 0~64.
11) TNETTS (Tnet Time Slot): T net time slot number. Signless integer, value range: 0~127.
1.5.3.92 ENSD
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 372 of 591
To delete the COM of a NSPP board.
2. Syntax structure
ENSD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, NSMPPTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): near-end SMPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): near-end SMPP unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. of the near-end SMPP. Signless integer, value range: 1~4.
7) NSMPPTS (Near Smpp Time Slot): time slot No. of the near-end SMPP.. Signless integer, value range: 0~127.
1.5.3.93 ENSQ
1. Command function
To view the COM attribute of a NSPP board.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 373 of 591
ENSQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, NSMPPTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): near-end SMPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): near-end SMPP unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. of the near-end SMPP. Signless integer, value range: 1~4.
7) NSMPPTS (Near Smpp Time Slot): time slot No. of the near-end SMPP.. Signless integer, value range: 0~127.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.94 ENVA
1. Command function
To modify the status attribute of a NSVC of a Gb interface.
2. Syntax structure
ENVA: {EBSCID, EBSCNAME}, NSVCI: AD;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 374 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) NSVCI (NSVC Id): identification number of NS-VC. Signless integer.
5) AD (Administer State): administration state attribute.. Enumerated type, the enumerated items include: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.95 ENVC
1. Command function
To create a NSVC of a Gb interface.
2. Syntax structure
ENVC: {EBSCID, EBSCNAME}: NSVCI, NSEI, DLCI, GIUMUNIT, tUNIT, tSUNIT, CIR, BC, BE, tC;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) NSVCI (NSVC Id): identification number of NS-VC. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 375 of 591
4) NSEI (NSE Id .): identification number of NSE (for check). Signless integer.
5) DLCI (DLC Id): the corresponding DLCI value (10bit). Signless integer.
6) GIUMUNIT (GIU MUNIT): GIU multi-unit name. Signless integer, value range: 1~127.
7) TUNIT (TIC UNIT): TIC unit. Signless integer.
8) TSUNIT (TS UNIT): 2M PCM line of TIC. Signless integer.
9) CIR (CIR): committed rate (k/s). Signless integer.
10) BC (BC): committed burst packet size (k). Signless integer.
11) BE (BE): burst packet beyond size. Signless integer.
12) TC (TC): agreed network detection time (Bc/ CIR). Signless integer.
1.5.3.96 ENVD
1. Command function
To delete a NSVC of a Gb interface.
2. Syntax structure
ENVD: {EBSCID, EBSCNAME}, NSVCI;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 376 of 591
3) NSVCI (NSVC Id): identification number of NS-VC. Signless integer.
1.5.3.97 ENVM
1. Command function
To modify a NSVC of a Gb interface.
2. Syntax structure
ENVM: {EBSCID, EBSCNAME}, NSEI, NSVCI: DLCI, GIUMUNIT, tUNIT, tSUNIT, CIR, BC, BE, tC;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) NSEI (NSE Id .): identification number of NSE (for check). Signless integer.
4) NSVCI (NSVC Id): identification number of NS-VC. Signless integer.
5) DLCI (DLC Id): the corresponding DLCI value (10bit). Signless integer.
6) GIUMUNIT (GIU MUNIT): GIU multi-unit name. Signless integer, value range: 1~127.
7) TUNIT (TIC UNIT): TIC unit. Signless integer.
8) TSUNIT (TS UNIT): 2M PCM line of TIC. Signless integer.
9) CIR (CIR): committed rate (k/s). Signless integer.
10) BC (BC): committed burst packet size (k). Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 377 of 591
11) BE (BE): burst packet beyond size. Signless integer.
12) TC (TC): agreed network detection time (Bc/ CIR).
1.5.3.98 ENVQ
1. Command function
To view the NSVC attribute of a Gb interface.
2. Syntax structure
ENVQ: {EBSCID, EBSCNAME}, NSVCI: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) NSVCI (NSVC Id): identification number of NS-VC. Signless integer.
4) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.99 ENWA
1. Command function
To modify the status attribute of an internal HW.
2. Syntax structure
ENWA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: AD;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 378 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No. Signless integer, value range1~64.
7) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.100 ENWC
1. Command function
To create a T net HW under a BSC unit.
2. Syntax structure
ENWC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: HWNO, HWSET, DELAY;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 379 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No. Signless integer, value range: 1~64.
7) HWSET (Hw Set): HW setting. Signless integer, value range: 0~65535.
8) DELAY (Delay): HW time delay. Signless integer, value range: 0~255.
1.5.3.101 ENWD
1. Command function
To delete a T net HW under a BSC unit.
2. Syntax structure
NWD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 380 of 591
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No. Signless integer, value range: 1~64.
1.5.3.102 ENWQ
1. Command function
To view the HW attribute of a T net.
2. Syntax structure
ENWQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): HW No. Signless integer, value range: 1~64.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, STATIC, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 381 of 591
1.5.3.103 EPAA
1. Command function
To modify the status attribute of an A interface PCM.
2. Syntax structure
EPAA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.104 EPAC
1. Command function
To create an A interface PCM line of a BSC.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 382 of 591
2. Syntax structure
EPAC: {EBSCID, EBSCNAME, MODULENO}, MUNIT, UNIT: PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
1.5.3.105 EPAD
1. Command function
To delete an A interface PCM line of a BSC.
2. Syntax structure
EPAD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 383 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No.
1.5.3.106 EPAQ
1. Command function
To view the attribute of an A interface PCM.
2. Syntax structure
EPAQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 384 of 591
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, STATIC, the default value is ALL.
1.5.3.107 EPBA
1. Command function
To modify the status attribute of an ABIS interface PCM.
2. Syntax structure
EPBA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No.
7) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 385 of 591
1.5.3.108 EPBC
1. Command function
To create a PCM connection relation between both ends of an ABIS interface of a BSC.
2. Syntax structure
EPBC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: PCMNO, ESITEID, RACKNO, BIEPCM: RMODULE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No.
7) ESITEID (Physical Site Identification): identification number of the connected physical site. Signless integer, value range: 1~1024.
8) RACKNO (Rack No.): rack number of the connected site. Signless integer, value range: 1~4.
9) BIEPCM (Base Station Interface Equipment Pcm): connected PCM number. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 386 of 591
10) RMODULE (Radio Module): connected radio module number. Signless integer, value range: 1~64.
1.5.3.109 EPBD
1. Command function
To delete the BPCM under an ABIS interface PCM.
2. Syntax structure
EPBD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No.
1.5.3.110 EPBQ
1. Command function
To view the attribute of an ABIS interface PCM.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 387 of 591
EPBQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name of the T net. Signless integer, the default value is 2.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include: ALL, STATES, STATIC, the default value is ALL.
1.5.3.111 EPCC
1. Command function
To create a PC2M link.
2. Syntax structure
EPCC: {EBSCID, EBSCNAME}: LINK: CSLOTNO, BCH: TRKMUNIT, tRKUNIT, tRKPCM, tRKTS;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 388 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) LINK (Link): link number. Signless integer, value range: 0~63.
4) CSLOTNO (Slot No.): slot number. Signless integer, value range: 1~27.
5) BCH (Base Channel): channel identification number. Signless integer, value range: 0~63.
6) TRKMUNIT (Trunk Multiple Unit): multi-unit name of the circuit. Signless integer, value range: 2 to 127.
7) TRKUNIT (Trunk Unit): unit name of the circuit. Signless integer, value range: 0~20.
8) TRKPCM (Trunk Pcm): PCM number of the circuit. Signless integer, value range: 1~4.
9) TRKTS (Trunk Time Slot): time slot number of the circuit. Signless integer, value range: 0~31.
1.5.3.112 EPCD
1. Command function
To delete a PC2M link.
2. Syntax structure
EPCD: {EBSCID, EBSCNAME}: LINK;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 389 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) LINK (Link): link number. Signless integer, value range: 0~63.
1.5.3.113 EPCQ
1. Command function
To view the attribute of a PC2M link.
2. Syntax structure
EPCQ: {EBSCID, EBSCNAME}: LINK: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) LINK (Link): link number. Signless integer, value range: 0~63.
4) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, the default value is ALL.
1.5.3.114 EPEC
1. Command function
To create a PECM environment monitoring time slot.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 390 of 591
EPEC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: PECMTS: TNETHW, tNETTS, tNETSTS: ESITEID;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): PECM multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): PECM unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PECM ? PCM No. Signless integer, value range: 1~4.
7) PECMTS (Pecm Time Slot): PECM time slot number. Signless integer, value range: 0~127.
8) TNETHW (Tnet Hw): T net HW number. Signless integer, value range: 1~64.
9) TNETTS (Tnet Time Slot): T net time slot number. Signless integer, value range: 0~127.
10) TNETSTS (Tnet Sub Time Slot): T net sub-time slot number. Signless integer, value range: 0~255.
11) ESITEID (Physical Site Identification): physical site identification. Signless integer, value range: 0~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 391 of 591
1.5.3.115 EPED
1. Command function
To delete a PECM environment monitoring time slot.
2. Syntax structure
EPED: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, PECMTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): PECM multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): PECM unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PECM ? PCM No. Signless integer, value range: 1~4.
7) PECMTS (Pecm Time Slot): PECM time slot number.
1.5.3.116 EPEQ
1. Command function
To view the attribute of a PECM environment monitoring time slot.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 392 of 591
2. Syntax structure
EPEQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO, PECMTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): PECM multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): PECM unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PECM ? PCM No. Signless integer, value range: 1~4.
7) PECMTS (Pecm Time Slot): PECM time slot number.
1.5.3.117 EPIA
1. Command function
To modify the status attribute of an ABIS interface PCM.
2. Syntax structure
EPIA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: AD;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 393 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.118 EPIC
1. Command function
To create an ABIS interface PCM line of a BSC.
2. Syntax structure
EPIC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 394 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
1.5.3.119 EPID
1. Command function
To delete an ABIS interface PCM line of a BSC.
2. Syntax structure
EPID: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 395 of 591
1.5.3.120 EPIQ
1. Command function
To view the attribute of an ABIS interface PCM.
2. Syntax structure
EPIQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, STATIC, the default value is ALL.
1.5.3.121 EPOC
1. Command function
To create a circuit pool.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 396 of 591
2. Syntax structure
EPOC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: TCPPTS: DRTUNIT, DSPNO: TNNETHW, tNETTS, tNETSTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): TCPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TCPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): TCPP HW No. Signless integer, value range: 1~9.
7) TCPPTS (Tcpp Time Slot): TCPP time slot number. Signless integer, value range: 0~127.
8) DRTUNIT (DRT Unit): DRT unit name. Signless integer, value range: 0~20.
9) DSPNO (Dsp No.): DSP number. Signless integer, value range: 0~8.
10) TNETHW (Tnet Hw): T net HW number. Signless integer, value range: 1~64.
11) TNETTS (Tnet Time Slot): T net time slot number. Signless integer, value range: 0~127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 397 of 591
12) TNETSTS (Tnet Sub Time Slot): T net sub-time slot number. Signless integer, value range: 0~255.
1.5.3.122 EPOD
1. Command function
To delete a circuit pool.
2. Syntax structure
EPOD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, tCPPTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): TCPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TCPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): TCPP HW No. Signless integer, value range: 1~9.
7) TCPPTS (Tcpp Time Slot): TCPP time slot number. Signless integer, value range: 0~127.
1.5.3.123 EPOQ
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 398 of 591
To view the attribute of a circuit pool.
2. Syntax structure
EPOQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, tCPPTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): TCPP multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): TCPP unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): TCPP HW No. Signless integer, value range: 1~9.
7) TCPPTS (Tcpp Time Slot): TCPP time slot number. Signless integer, value range: 0~127.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.124 EPRC
1. Command function
To create an inter-module communication.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 399 of 591
EPRC: {EBSCID, EBSCNAME}, MODULENO: CMODULE, CSLOTNO, BCH, WIDTH;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) CMODULE (Comm Module No.): communication module number. Signless integer, value range: 1~64.
5) CSLOTNO (Comm Slot No.): MP slot number. Signless integer, value range: 1~27.
6) BCH (Base Channel): communication channel number. Signless integer, value range: 0~63.
7) WIDTH (Width): width of the communication channel. Signless integer, value range: 0~31.
1.5.3.125 EPRD
1. Command function
To delete an inter-module communication.
2. Syntax structure
EPRD: {EBSCID, EBSCNAME}, MODULENO, CMODULE;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 400 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) CMODULE (Comm Module No.): communication module number. Signless integer, value range: 1~64.
1.5.3.126 EPRQ
1. Command function
To view the attribute of an inter-module communication.
2. Syntax structure
EPRQ: {EBSCID, EBSCNAME}, MODULENO, CMODULE: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) CMODULE (Comm Module No.): communication module number. Signless integer, value range: 1~64.
5) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 401 of 591
1.5.3.127 EPSA
1. Command function
To modify the PCM attribute of a SMPP board.
2. Syntax structure
EPSA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0 to 20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.128 EPSC
1. Command function
To create a PCM inside BSC (PCM of ABIS interface).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 402 of 591
2. Syntax structure
EPSC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0 to 20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
1.5.3.129 EPSD
1. Command function
To delete a PCM inside BSC.
2. Syntax structure
EPSD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 403 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0 to 20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
1.5.3.130 EPSQ
1. Command function
To view the PCM attribute of a SMPP board.
2. Syntax structure
EPSQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCMNO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 404 of 591
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0 to 20.
6) PCMNO (Pcm No.): PCM No. Signless integer, value range: 1~4.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, the default value is ALL.
1.5.3.131 ESBA
1. Command function
To modify the attribute of a BSC board.
2. Syntax structure
ESBA: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): BTYPE: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) SLOTNO (Slot No.): BSC board slot number. Signless integer, value range: 0~27.
6) BTYPE (Board Type): BSC board type. Enumerated type, enumerated items: DTI, DSN, CKI, DSNI, SYCK, PWRB, SMB, SMT1, SMT2, DSN2B,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 405 of 591
AIPP, BIPP, tCPP, NSPP, FSPP, ATIC, BTIC, INTERNALTIC, PWRP, COMI, DRT20, EDRT20, PUC, GTIC, GIPP, BRP, FRP, HMS.
7) AD (Administer State): administration state attribute.. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.132 ESBC
1. Command function
To create a board under an object (EBSCID, RACKNO, SHELFNO).
2. Syntax structure
Mode 1: general boards.
ESBC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO (Shelf No): SLOTNO, BTYPE: MUNIT, UNIT;
Mode 2: control layer boards.
ESBC: {EBSCID, EBSCNAME}, RACKNO, SHELFNO (Shelf No): SLOTNO, BTYPE: SMODULE, COMMTYPE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer value, value range: from 1 to 16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer value, value range: from 0 to 6.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 406 of 591
5) SLOTNO (Slot No.): BSC slot No. Signless integer value, when SHELFNO=0, value range is 0~27, when SHELFNO is greater than or equal to 1, value range is 1~27.
6) BTYPE (Board Type): BSC non-control layer and control layer board type. Mode 1, non-control layer boards, enumerated type, enumerated items: DTI, DSN, CKI, DSNI, SYCK, PWRB, SMB, SMT1, SMT2, DSN2B, AIPP, BIPP, tCPP, NSPP, FSPP, ATIC, BTIC, INTERNALTIC, COM1, DRT20, EDRT20, PWRP, PUC, GTIC, BRP, FRP, GIPP, HMS. Mode 2, control layer boards, enumerated type, enumerated items: MP, SMEM, MONI, PEPD, MPPP, MTP, LAPD, MPMP.
7) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer value, value range: from 2 to 127.
8) UNIT (Unit): BSC unit name. Signless integer value, value range: from 0 to 16.
9) SMODULE (Stored Module): module number. Signless integer value, value range: from 1 to 64.
10) COMMTYPE ( Communication Type): board type. Enumerated type, the enumerated items include: MONI, PEPD, MPPP_26, MPPP_58, MPPP_32, MPPP_64, MTP, MTP16, LAPD, LAPD64, MPMP, MPMP64, NONE.
1.5.3.133 ESBD
1. Command function
To delete a BSC board.
2. Syntax structure
ESBD: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): BTYPE;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 407 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer value, value range: from 1 to 16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer value, value range: from 0 to 6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer value, when SHELFNO=0, value range is 0~27; when SHELFNO is greater than or equal to 1, value range is 1~27.
6) BTYPE (Board Type): BSC board type. Enumerated type, enumerated items: DTI, DSN, CKI, DSNI, SYCK, PWRB, SMB, SMT1, SMT2, DSN2B, AIPP, BIPP, tCPP, NSPP, FSPP, ATIC, BTIC, INTERNALTIC, COM1, DRT20, EDRT20, MP, SMEM, LAPD, MPMP, PEPD, MTP, PWRP, PUC, GIPP, BRP, FRP, GTIC, HMS.
1.5.3.134 ESBQ
1. Command function
To view the attribute of a BSC board.
2. Syntax structure
ESBQ: {EBSCID, EBSCNAME}, RACKNO, SHELFNO, SLOTNO (Slot No): BTYPE: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 408 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer value, value range: from 1 to 16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer value, value range: from 0 to 6.
5) SLOTNO (Slot No.): BSC slot No. Signless integer value, when SHELFNO=0, value range is 0~27, when SHELFNO is greater than or equal to 1, value range is 1~27.
6) BTYPE (Board Type): BSC board type. Enumerated type, enumerated items: DTI, DSN, CKI, DSNI, SYCK, PWRB, SMB, SMT1, SMT2, DSN2B, AIPP, BIPP, tCPP, NSPP, FSPP, ATIC, BTIC, INTERNALTIC, COM1, DRT20, EDRT20, MP, SMEM, LAPD, MPMP, PEPD, MTP, PWRP, PUC, GIPP, BRP, FRP, GTIC, HMS.
1.5.3.135 ESEC
1. Command function
To create an NSE entity of Gb interface.
2. Syntax structure
ESEC: {EBSCID, EBSCNAME}, NSEI;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) NSEI (NSE Id.): NSE entity number. Signless integer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 409 of 591
1.5.3.136 ESED
1. Command function
To delete an NSE entity of Gb interface.
2. Syntax structure
ESED: {EBSCID, EBSCNAME}, NSEI;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) NSEI (NSE Id.): NSE entity number. Signless integer.
1.5.3.137 ESEQ
1. Command function
To view an NSE entity of Gb interface.
2. Syntax structure
ESEQ: {EBSCID, EBSCNAME}, NSEI: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 410 of 591
3) NSEI (NSE Id.): NSE entity number. Signless integer.
4) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.138 ESIC
1. Command function
To create a set of site equipment.
2. Syntax structure
ESIC: EBSSID: ESITEID, SITETYPE, ALIAS: L, B: OAMID, SYNSRC: MODULENO;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) SITETYPE (Site Equipment Type): site equipment type. Signless integer, value range: 1~7. Among them, 1: v1.0 indoor; 2: v1.2 indoor; 3: v1.0 micro-cell; 4: v1.2 outdoor; 5: v2.0 indoor; 6: v2.0 outdoor; 7: v2.1outdoor (B2 miniaturized base station).
4) ALIAS: Site Equipment Name. Character string type, the maximum length of the character string is 40.
5) L (Longitude): longitude coordinate of site equipment location. Floating-point type, value range: -180 to 180, to the accuracy of 2 digits after the decimal point, the default value is 0.
6) B (Latitude): latitude coordinate of site equipment location. Real number type, value range: -90 to 90, to the accuracy of 2 digits after the decimal point, the default value is 0.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 411 of 591
7) OAMID (OAM Identification): OAM identification (OMU identification). Signless integer, value range: 0~4, the default value is 1.
8) SYNSRC (SynSource): synchronization mode with BSC. Signless integer, value range: 0~2, the default value is 0. Among them, 0: internal clock; 1: PCM clock of the Abis interface (network clock); 2. other clock sources.
9) MODULENO (Module No.): peripheral module number of the site. Signless integer, value range: 2 to 8.
1.5.3.139 ESID
1. Command function
To delete a set of site equipment.
2. Syntax structure
ESID: EBSSID, { ESITEID, ESITENM };
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
1.5.3.140 ESIM
1. Command function
To modify the attribute of site equipment.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 412 of 591
ESIM: EBSSID {, ESITEID, ESITENM }: ALIAS, L, B, OAMID, SYNSRC;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) ALIAS: Site Equipment Name. Character string type, the maximum length of the character string is 40.
5) L (Longitude): longitude coordinate of site equipment location. Floating-point type, value range: -180 to 180, to the accuracy of 2 digits after the decimal point.
6) B (Latitude): latitude coordinate of site equipment location. Floating-point type, value range: -90 to 90, to the accuracy of 2 digits after the decimal point.
7) OAMID (OAM Identification): OAM identification (OMU identification). Signless integer value, value range: 0~4.
8) SYNSRC (SynSource): synchronization mode with BSC. Signless integer value, value range: 0~2. Among them, 0: internal clock; 1: PCM clock of the Abis interface (network clock); 2. other clock sources.
1.5.3.141 ESIQ
1. Command function
To view the attribute of site equipment.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 413 of 591
ESIQ: EBSSID, {ESITEID, ESITENM }: PARAGRP;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL, the default value is ALL.
1.5.3.142 ESMA
1. Command function
To modify the status attribute of a BSC multi-unit.
2. Syntax structure
ESMA: {EBSCID, EBSCNAME}, MODULENO, MUNIT: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 414 of 591
5) AD (Administer State): state administration. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.143 ESMC
1. Command function
To create a multi-unit under MODULE (MODULENO = 1).
2. Syntax structure
ESMC: {EBSCID, EBSCNAME}, MODULENO: MUNIT, MUTYPE, SMODULE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) MUTYPE (Multiple Unit Type): BSC multi-unit type. Enumerated type, enumerated items: TC1, tC2, AIE2, BIE1, BIE2, SM, NSB, NSM, FSB, FSM, DSN, DSNI, PWR, SYCK.
6) SMODULE (Stored Module): stored module. Signless integer, value range: 1~64.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 415 of 591
1.5.3.144 ESMD
1. Command function
To delete a multi-unit under MODULE (MODULENO = 1).
2. Syntax structure
ESMD: {EBSCID, EBSCNAME}, MODULENO, MUNIT;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
1.5.3.145 ESMQ
1. Command function
To view the attribute of a multi-unit under MODULE (MODULENO = 1).
2. Syntax structure
ESMQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 416 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, STATIC, the default value is ALL.
1.5.3.146 ESOC
1. Command function
To create a module.
2. Syntax structure
ESOC: {EBSCID, EBSCNAME}: MODULENO, MTYPE: FILEID, FILEVER;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MTYPE (Module Type): BSC module type. Signless integer, value range: 1 or 2, among them MType=1 represents central module; MType=2 represents peripheral module .
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 417 of 591
5) FILEID (File Identification): MP software identification. Enumerated type, enumerated items: BSC_MP.
6) FILEVER (File Version): MP software version. Character string type, the maximum length of the character string is 12.
1.5.3.147 ESOD
1. Command function
To delete a module.
2. Syntax structure
ESOD: {EBSCID, EBSCNAME}, MODULENO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
1.5.3.148 ESOF
1. Command function
To acquire the foreground MP clock.
2. Syntax structure
ESOF: {EBSCID, EBSCNAME}, ModuleNo;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 418 of 591
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
1.5.3.149 ESOQ
1. Command function
To view the attribute of a BSC module.
2. Syntax structure
ESOQ: {EBSCID, EBSCNAME}, MODULENO: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, STATIC, the default value is ALL.
1.5.3.150 ESOS
1. Command function
To set the foreground MP clock with the OMCR clock as the reference.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 419 of 591
2. Syntax structure
ESOS: {EBSCID, EBSCNAME}, ModuleNo: OmcrDate, OmcrTime;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) OmcrDate (Omcr Date.): OMCR date (YYYY-MM-DD). Date integer type.
5) OmcrTime (Omcr Time.): second-order time of OMCR (HH-MM-SS). Type integer type.
1.5.3.151 ESOY
1. Command function
To synchronize state after recovery from link disconnection of a BSC module.
2. Syntax structure
ESOY: {EBSCID, EBSCNAME}, ModuleNo;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 420 of 591
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
1.5.3.152 ESRC
1. Command function
This command is used to create a rack under object EBSCID.
2. Syntax structure
ESRC: {EBSCID, EBSCNAME}: RACKNO, RACKTYPE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) RACKTYPE (Rack Type): BSC rack type. Signless integer, the default value of the parameter is 1. The value range is only 1.
1.5.3.153 ESRD
1. Command function
To delete a rack of a BSC.
2. Syntax structure
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 421 of 591
ESRD: {EBSCID, EBSCNAME}, RACKNO;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
1.5.3.154 ESRQ
1. Command function
To view the configuration of shelves and boards in object (EBSCID, RACKNO).
2. Syntax structure
ESRQ: {EBSCID, EBSCNAME}, RACKNO (Rack No): PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 422 of 591
1.5.3.155 ESSC
1. Command function
To create a shelf under object (EBSCID, RACKNO).
2. Syntax structure
ESSC: {EBSCID, EBSCNAME}, RACKNO (Rack No): SHELFNO, STYPE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) STYPE (Shelf Type.): BSC shelf type. Signless integer, value range: enumerated type. Among them, : 0: NULL (used for the creation of PWRP) ; 1: BNET; 2: BCTL; 3: BIE; 4: SM; 5: TC; 6: BSM; 7: BATC; 8: BIF; 9: SPCU; 10: GIU.
1.5.3.156 ESSD
1. Command function
To delete a shelf under object (EBSCID, RACKNO).
2. Syntax structure
ESSD: {EBSCID, EBSCNAME}, RACKNO, SHELFNO;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 423 of 591
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
1.5.3.157 ESSQ
1. Command function
To view the shelf type and board configuration in object (EBSCID, RACKNO, SHELFNO).
2. Syntax structure
ESSQ: {EBSCID, EBSCNAME}, RACKNO, SHELFNO (Shelf No): PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) RACKNO (Rack No.): BSC rack No. Signless integer, value range: 1~16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 424 of 591
4) SHELFNO (Shelf No.): BSC shelf No. Signless integer, value range: 0~6.
5) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.158 ESUA
1. Command function
To modify BSC unit ? status attribute.
2. Syntax structure
ESUA: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: UTYPE: AD;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) UTYPE (Unit Type): BSC unit type. Enumerated type, enumerated items: DRT, DTI, SMT1, SMT2, BIE, DSN, DSNI, PWRB, CKI, SYCK, PECM, tCPP, AIPP, BIPP, NSPP, FS, PP, EDRT, BOSN, COMI, INTERNALTIC, EXTERNALTIC, PWRP, PUC, GTIC, GIPP, BRP, FRP, HMS, L239FRP.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 425 of 591
7) AD (Administer State): administration state. Enumerated type, enumerated items: L, U, S. Among them, L: locking state; U: unlocking state; S: time delay blocking.
1.5.3.159 ESUC
1. Command function
To create a unit under a multi-unit.
2. Syntax structure
Mode 1:
ESUC: {EBSCID, EBSCNAME}, MODULENO, MUNIT: UNIT, UTYPE: HWSET, CONTYPE, CONSYCK;
Mode 2:
ESUC: {EBSCID, EBSCNAME}, MODULENO, MUNIT: UNIT, UTYPE: HWSET, CONTYPE, CONSYCK: CONMUNIT, CONUNIT;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 426 of 591
6) UTYPE (Unit Type): BSC unit type. Mode 1, enumerated type, enumerated items: DRT, DTI, SMT1, EXTERNALTIC, BIE, DSN, DSNI, PWRB, CKI, SYCK, PECM, tCPP, AIPP, BIPP, NSPP, FSPP, EDRT, BOSN, COMI, PWRP, PUC, GTIC, GIPP, BRP, FRP, HMS, L200FRP. Mode 2, enumerated type, enumerated items: SMT2, INTERNALTIC.
7) HWSET (Hw Set): HW setting. Signless integer, value range: 0~65535.
8) CONTYPE (Connect Type): interconnection type (PCM, HW). Signless integer, the default value is 1. 0 represents HW, 1 represents PCM.
9) CONSYCK (Connect Syck): whether to connect the clock. Signless integer, the default value is 1. 0 represents not to connect the clock, 1 represents to connect the clock.
10) CONMUNIT (Connect Multiple Unit): name of the connected multi-unit. Signless integer, value range: 1~127.
11) CONUNIT (Connect Unit): name of the connected unit. Signless integer, value range: 0~16.
1.5.3.160 ESUD
1. Command function
To delete a unit under a BSC multi-unit.
2. Syntax struc ture
ESUD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: UTYPE;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 427 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) UTYPE (Unit Type): BSC unit type. Enumerated type, enumerated items: DRT, DTI, SMT1, SMT2, BIE, DSN, DSNI, PWRB, CKI, SYCK, PECM, tCPP, AIPP, BIPP, NSPP, FSPP, EDRT, BOSN, COMI, INTERNALTIC, EXTERNALTIC, PWRP, PUC, GTIC, GIPP, BRP, FRP, HMS, L239FRP.
1.5.3.161 ESUQ
1. Command function
To view the attribute of a BSC unit.
2. Syntax structure
ESUQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT: UTYPE: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): BSC multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 428 of 591
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) UTYPE (Unit Type): BSC unit type. Enumerated type, enumerated items: DRT, DTI, SMT1, SMT2, BIE, DSN, DSNI, PWRB, CKI, SYCK, PECM, tCPP, AIPP, BIPP, NSPP, FSPP, EDRT, BOSN, COMI, INTERNALTIC, EXTERNALTIC, PWRP, PUC, GTIC, GIPP, BRP, FRP, HMS, L239FRP.
7) PARAGRP (Parameter Group): attribute package type. Enumerated type, enumerated items: ALL, STATES, STATIC, the default value is ALL.
1.5.3.162 ETCC
1. Command function
To create a time slot COM.
2. Syntax structure
ETCC: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO: TNETTS: COMMHW, COMMTS: CSLOTNO, BCH;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 429 of 591
6) HWNO (Hw No.): T net HW number of the connected single network. Signless integer, value range: 1~64.
7) TNETTS (T net Time Slot): T net time slot number. Signless integer, value range: 0~127.
8) COMMHW (Comm Hw): HW of the connected communication board. Signless integer, value range: 1~64.
9) COMMTS (Comm Time Slot): time slot number of the connected communication board. Signless integer, value range: 0~127.
10) CSLOTNO (Comm Slot No.): slot number of the control layer board. Signless integer, value range: 0~27.
11) BCH (Base Channel): channel of the control board. Signless integer, value range: 0~63.
1.5.3.163 ETCD
1. Command function
To delete a time slot COM.
2. Syntax structure
ETCD: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, tNETTS;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 430 of 591
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): T net HW number of the connected single network Signless integer, value range: 1~64.
7) TNETTS (T net Time Slot): T net time slot number. Signless integer, value range: 0~127.
1.5.3.164 ETCQ
1. Command function
To view the attribute of a time slot COM.
2. Syntax structure
ETCQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, HWNO, tNETTS: PARAGRP;
3. Parameter description
1) EBSCID (BSC Equipment Identification): BSC identification No. Signless integer, value range: 1~255.
2) EBSCNAME (BSC Equipment Name): BSC name. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): BSC module No. Signless integer, the default value is 1.
4) MUNIT (Multiple Unit): multi-unit name. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 431 of 591
5) UNIT (Unit): BSC unit name. Signless integer, value range: 0~20.
6) HWNO (Hw No.): T net HW number of the connected single network. Signless integer, value range: 1~64.
7) TNETTS (Tnet Time Slot): T net time slot number. Signless integer, value range: 0~127.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, the enumerated items include ALL, the default value is ALL.
1.5.3.165 ETPC
1. Command function
To create a panel under site equipment.
2. Syntax structure
ETPC: EBSSID, {ESITEID, ESITENM}, RACKNO, SHELFNO (Shelf No): PANELNO, PTYPE;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 432 of 591
6) PANELNO (Panel No.): panel number. Signless integer, value range: 1~16.
7) PTYPE (Panel Type): panel type. Enumerated type, value range: OMU, BIE, CKU, CKD, PSA, PSB, PA, tRU, MUL, HYCOM, EBIE, EOMU, SDU, MBPWR, MBTRX, EAM, MBSCU, ETDC, PSU1, PSU2, ACCU, PILE, tM, PDM, CMM, tRM, CDU, CEU, RDU, STRU, SPAU.
1.5.3.166 ETPD
1. Command function
To delete a panel under site equipment.
2. Syntax structure
ETPD: EBSSID {, ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO: PTYPE;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
6) PANELNO (Panel No.): panel number. Signless integer, value range: 1~16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 433 of 591
7) PTYPE (Panel Type): panel type. Enumerated type, value range: OMU, BIE, CKU, CKD, PSA, PSB, PA, tRU, MUL, HYCOM, EBIE, EOMU, SDU, MBPWR, MBTRX, EAM, MBSCU, ETDC, PSU1, PSU2, ACCU, PILE, tM, PDM, CMM, tRM, CDU, CEU, RDU, STRU, SPAU.
1.5.3.167 ETPQ
1. Command function
To view the attribute of a panel under site equipment: static attribute or dynamic attribute.
2. Syntax structure
ETPQ: EBSSID, {ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO: PTYPE, PARAGRP;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
6) PANELNO (Panel No.): panel number. Signless integer, value range: 1~16.
7) PTYPE (Panel Type): panel type. Enumerated type, value range: OMU, BIE, CKU, CKD, PSA, PSB, PA, tRU, MUL, HYCOM, EBIE, EOMU, SDU,
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 434 of 591
MBPWR, MBTRX, EAM, MBSCU, ETDC, PSU1, PSU2, ACCU, PILE, tM, PDM, CMM, tRM, CDU, CEU, RDU.
8) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL, STATES. Among them, ALL: viewing static attribute; STATES: viewing dynamic attribute.
1.5.3.168 ETRC
1. Command function
To create a rack under site equipment.
2. Syntax structure
ETRC: EBSSID {, ESITEID, ESITENM}: RACKNO, RACKTYPE: CMMNO, CKUDELAY;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) RACKTYPE (Rack Type): rack type. Signless integer, value range: 1~7. Among them, 1: v1.0 indoor; 2: v1.2 indoor; 3: v1.0 micro-cell; 4: v1.2 outdoor; 5: v2.0 indoor; 6: v2.0 outdoor; 7: v2.1 indoor;
6) CMMNO (CMM No): public layer number (an attribute added for BTS 2.0). Signless integer, value range: 0~4, the default value is 0 (representing insignificance).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 435 of 591
7) CKUDELAY (CKU Delay): time delay parameter. Signless integer, value range: 0~7, the default value is 0.
1.5.3.169 ETRD
1. Command function
To delete a rack under site equipment.
2. Syntax structure
ETRD: EBSSID {, ESITEID, ESITENM}, RACKNO;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
1.5.3.170 ETRM
1. Command function
To modify the attribute of a rack under site equipment.
2. Syntax structure
ETRM: EBSSID {, ESITEID, ESITENM}, RACKNO (Rack No): CMMNO, CKUDELAY;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 436 of 591
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) CMMNO (CMM No): public layer number (an attribute added for BTS 2.0). Signless integer, value range: 0~4.
6) CKUDELAY (CKU Delay): time delay parameter. Signless integer, value range: 0~7.
1.5.3.171 ETRQ
1. Command function
To view the attribute of a rack under site equipment.
2. Syntax structure
ETRQ: EBSSID, { ESITEID, ESITENM}, RACKNO (Rack No): PARAGRP;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 437 of 591
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL.
1.5.3.172 ETSC
1. Command function
To create a shelf under site equipment.
2. Syntax structure
ETSC: EBSSID, {ESITEID, ESITENM}, RACKNO (Rack No): SHELFNO, STYPE;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
6) STYPE (Shelf Type): shelf type. Signless integer, value range: 1~7. Among them, 1: v1.X public shelf; 2: v1.X transceiver shelf; 3: v1.0 micro-cell shelf; 4: v2.0 public shelf; 5: v2.0 transceiver shelf; 6: v2.0 outdoor shelf; 7: v2.1 indoor shelf (B2 miniaturized base station).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 438 of 591
1.5.3.173 ETSD
1. Command function
To delete a shelf under site equipment.
2. Syntax structure
ETSD: EBSSID {, ESITEID, ESITENM}, RACKNO, SHELFNO;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
1.5.3.174 ETSQ
1. Command function
To view the type of a shelf under site equipment.
2. Syntax structure
ETSQ: EBSSID {, ESITEID, ESITENM}, RACKNO, SHELFNO;
3. Parameter description
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 439 of 591
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
1.5.3.175 ETXC
1. Command function
To create a connecting relation between TRU panel and HYCOM/MUL panel: TRUMulHyc MO.
2. Syntax structure
ETXC: EBSSID {, ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO: PORTTYPE, LEVELNUM: L1RACK, L1SHELF, L1PANEL: L2RACK, L2SHELF, L2PANEL;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 440 of 591
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
6) PANELNO (Panel No.): panel number of the TRU. Signless integer, value range: 1~16.
7) PORTTYPE (Port Type): type of the port for connecting the transceiver module and AEM (TX, RX, RXD), i.e., connecting mode. Enumerated type, value range: 1, 2, 4. Among them, 1: TX (HYCOM) ; 2: RX (MUL) ; 4: RXD.
8) LEVELNUM (Level Number): level number for connecting with AEM. Signless integer, value range: 1~2. the default value is 1. Note: for BTS1.X, LEVELNUM=1.
9) L1RACK (L1 Rack No.): rack number for the level 1 HYCOM/MUL corresponding to the TRU. Signless integer, value range: 1~4.
10) L1SHELF (L1 Shelf No.): shelf number for the level 1 HYCOM/MUL corresponding to the TRU. Signless integer, value range: 1~4.
11) L1PANEL (L1 Panel No.): panel number for the level 1 HYCOM/MUL corresponding to the TRU. Signless integer, value range: 1~16.
12) L2RACK (L2 Rack No.): rack number for the level 2 HYCOM/MUL corresponding to the TRU. Signless integer, value range: 0~4, the default value is 0.
13) L2SHELF (L2 Shelf No.): shelf number for the level 2 HYCOM/MUL corresponding to the TRU. Signless integer, value range: 0~4, the default value is 0.
14) L2PANEL (L2 Panel No.): panel number for the level 2 HYCOM/MUL corresponding to the TRU. Signless integer, value range: 0~16, the default value is 0.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 441 of 591
1.5.3.176 ETXD
1. Command function
To delete a connecting relation between TRU panel and HYCOM/MUL panel: TRUMulHyc MO.
2. Syntax structure
ETXD: EBSSID {, ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO, PORTTYPE;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
6) PANELNO (Panel No.): panel number of the TRU. Signless integer, value range: 1~16.
7) PORTTYPE (Port Type): type of the port for connecting the transceiver module and AEM (TX, RX, RXD), i.e., connecting mode. Enumerated type, value range: 1, 2, 4. Among them, 1: TX (HYCOM) ; 2: RX (MUL) ; 4: RXD.
1.5.3.177 ETXQ
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 442 of 591
To view the attribute of the connecting relation between TRU panel and HYCOM/MUL panel: TRUMulHyc MO.
2. Syntax structure
ETXQ: EBSSID {, ESITEID, ESITENM}, RACKNO, SHELFNO, PANELNO, PORTTYPE: PARAGRP;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) SHELFNO (Shelf No.): Shelf number. Signless integer, value range: 1~5.
6) PANELNO (Panel No.): panel number of the TRU. Signless integer, value range: 1~16.
7) PORTTYPE (Port Type): type of the port for connecting the transceiver module and AEM (TX, RX, RXD), i.e., connecting mode. Enumerated type, value range: 1, 2, 4. Among them, 1: TX (HYCOM) ; 2: RX (MUL) ; 4: RXD.
8) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL.
1.5.3.178 EUCC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 443 of 591
To create a BieCom.
2. Syntax structure
EUCC: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM, BIETS: BIESUBTS: KIND: DSTSITE, DSTRACK, DSTSHELF, DSTPANEL, CHANNEL;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
6) BIETS (BIE Time Slot): BIE time slot number. Signless integer, value range: 0~31.
7) BIESUBTS (BIE Sub Time Slot): BIE sub-time slot number. Enumerated type, value range: 0, 1. 2, 3, 251, 252, 253, 254, 255.
8) KIND (Kind): type. Enumerated type, value range: 1~4. Among them, 1: ABIS_TSTYPE_IN; 2: ABIS_TSTYPE_OMU_LAPD; 3: ABIS_TSTYPE_TRX_LAPD; 4: ABIS_TSTYPE_EAM.
9) DSTSITE (DST Site No.): adjacent site number. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 444 of 591
10) DSTRACK (DST Rack No.): adjacent BTS rack number. Signless integer, value range: 0~4.
11) DSTSHELF (DST Shelf No.): adjacent BTS shelf number. Signless integer, value range: 0~4.
12) DSTPANEL (DST Panel No.): adjacent BTS panel number. Signless integer, value range: 0~16.
13) CHANNEL (Channel No.): channel No. Signless integer, value range: when KIND = 1, i.e., ABIS_TSTYPE_IN, value range is 0~7; for other kinds, the value range is 1~255.
1.5.3.179 EUCD
1. Command function
To delete a BieCom.
2. Syntax structure
EUCD: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM, BIETS, BIESUBTS;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 445 of 591
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
6) BIETS (BIE Time Slot): BIE time slot number. Signless integer, value range: 0~31.
7) BIESUBTS (BIE Sub Time Slot): BIE sub-time slot number. Enumerated type, value range: 0, 1. 2, 3, 251, 252, 253, 254, 255.
1.5.3.180 EUCQ
1. Command function
To view the related attribute of a BieCom’s adjacent site.
2. Syntax structure
EUCQ: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM, BIETS, BIESUBTS: PARAGRP;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
6) BIETS (BIE Time Slot): BIE time slot number. Signless integer, value range: 0~31.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 446 of 591
7) BIESUBTS (BIE Sub Time Slot): BIE sub-time slot number. Enumerated type, value range: 0, 1. 2, 3, 251, 252, 253, 254, 255.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, value range: ALL.
1.5.3.181 EUPC
1. Command function
To create an BS E1 interface PCM (BiePcm).
2. Syntax structure
EUPC: EBSSID {, ESITEID, ESITENM}, RACKNO (Rack No): BIEPCM;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
1.5.3.182 EUPD
1. Command function
To delete an BS E1 interface PCM (BiePcm).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 447 of 591
2. Syntax structure
EUPD: EBSSID {, ESITEID, ESITENM}, RACKNO (Rack No): BIEPCM;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
1.5.3.183 EUPQ
1. Command function
To view the attribute of an BS E1 interface PCM (BiePcm).
2. Syntax structure
EUPQ: EBSSID {, ESITEID, ESITENM}, RACKNO, BIEPCM: PARAGRP;
3. Parameter description
1) EBSSID: BSS Identification. Signless integer, value range: 1~255.
2) ESITEID: Site Equipment Identification. Signless integer, value range: 1~1024.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 448 of 591
3) ESITENM: Site Equipment Name. Character string type, the maximum length of the character string is 40.
4) RACKNO (Rack No.): rack No. of the shelf. Signless integer, value range: 1~4.
5) BIEPCM (BIE Pcm): PCM No. of the BS E1 interface. Signless integer, value range: 1~6.
6) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL.
1.5.3.184 CMCC
1. Command function
To create a MSC.
2. Syntax structure
CMCC: {MSCID, MSCNAME}: ALIAS: [L, B]: DPC [, SPTYPE ];
3. Parameter description
1) MSCID: MSC identification. Signless integer, value range: 1~255.
2) MSCNAME: MSC name. Character string type, the maximum length of the character string is 40.
3) L (Longitude): longitude coordinate of MSC location. Floating-point type, value range: -180~180, to the accuracy of 2 digits after the decimal point, the default value is 0.
4) B (Latitude): latitude coordinate of MSC location. Floating-point type, value range: -90~90, to the accuracy of 2 digits after the decimal point, the default value is 0.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 449 of 591
5) DPC (Destination Point Code): MSC signaling point code. Signless integer, value range: 0~16383.
6) SPTYPE (Signaling Point Type): MSC signaling point type. Signless integer, value range: 1~3, the default value is 3. Among them, 1: SPT_SEP signaling end point (SEP); 2: SPT_STP signaling transfer point (STP); 3: SPT_STEP signaling transfer/end point STEP.
1.5.3.185 CMCD
1. Command function
To delete a MSC.
2. Syntax structure
CMCD: {MSCID, MSCNAME};
3. Parameter description
1) MSCID: MSC identification. Signless integer, value range: 1~255.
2) MSCNAME: MSC name. Character string type, Character string ? the maximum length is 40.
1.5.3.186 CMCM
1. Command function
To modify the attribute of a MSC.
2. Syntax structure
CMCM: {MSCID, MSCNAME}: [ALIAS] [, L] [, B] [, DPC, SPTYPE];
3. Parameter description
1) MSCID: MSC identification. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 450 of 591
2) MSCNAME: MSC name. Character string type, the maximum length of the character string is 40.
3) L (Longitude): Longitude coordinate of MSC location. Floating-point type, value range: -180~180, to the accuracy of 2 digits after the decimal point, the default value is 0.
4) B (Latitude): latitude coordinate of MSC location. Floating-point type, value range: -90~90, to the accuracy of 2 digits after the decimal point, the default value is 0.
5) DPC (Destination Point Code): MSC signaling point code. Signless integer, value range: 0~16383.
6) SPTYPE (Signaling Point Type): MSC signaling point type. Signless integer, value range: 1~3, the default value is 3. Among them, 1: SPT_SEP signaling end point (SEP); 2: SPT_STP signaling transfer point (STP); 3: SPT_STEP signaling transfer/end point STEP.
1.5.3.187 CMCQ
1. Command function
To query the attribute of a MSC.
2. Syntax structure
CMCQ: {MSCID, MSCNAME}: PARAGRP;
3. Parameter description
1) MSCID: MSC identification. Signless integer, value range: 1~255.
2) MSCNAME: MSC name. Character string type, Character string ? the maximum length is 40.
3) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 451 of 591
1.5.3.188 NLKC
1. Command function
To create a SS7 link.
2. Syntax structure
NLKC: { EBSCID, EBSCNAME}: LINKID: SLC: CSLOTNO, BCH, LINKSET: TMODULE, tMUNIT, tUNIT, tPCM, tINDEX;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) LINKID (Link Identification): SS7 link identification. Signless integer, value range: 1~16.
4) SLC (Signaling Link Code): SS7 link number. Signless integer, value range: 0~15.
5) CSLOTNO (Comm Slot No.): slot number of the MTP board. Signless integer, value range: 0~27.
6) BCH (Base Channel): sequence number of the SS7 link on the MTP board slot. Signless integer, value range: 0~7.
7) LINKSET (Link Set): signaling link set number of the signaling link. Signless integer, with a value of 1. The default value is 1.
8) TMODULE (Trunk Module): module number of the signaling link trunk. Signless integer, value range: 1~64.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 452 of 591
9) TMUNIT (Trunk Multiple Unit): multi-unit name of the signaling link trunk. Signless integer, value range: 2 to 127.
10) TUNIT (Trunk Unit): unit name of the signaling link trunk. Signless integer, value range: 0~16.
11) TPCM (Trunk PCM): sub-unit name of the signaling link trunk (PCM line number). Signless integer, value range: 1~4.
12) TINDEX (Trunk Index): sequence number of the time slot in the sub-unit of the signaling link trunk. Signless integer, value range: 0~31.
1.5.3.189 NLKD
1. Command function
To delete a SS7 link.
2. Syntax structure
NLKD: {EBSCID, EBSCNAME}, LINKID;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) LINKID (Link Identification): SS7 link identification. Signless integer, value range: 1~16.
1.5.3.190 NLKM
1. Command function
To modify a SS7 link parameter: signaling link code (SLC).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 453 of 591
2. Syntax structure
NLKM: {EBSCID, EBSCNAME}, LINKID: SLC;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) LINKID (Link Identification): SS7 link identification. Signless integer, value range: 1~16.
4) SLC (Signaling Link Code): SS7 link number. Signless integer, value range: 0~15.
1.5.3.191 NLKQ
1. Command function
To view the attribute of a SS7 link: static attribute or dynamic attribute ( SpyStatus, Ad).
2. Syntax structure
NLKQ: {EBSCID, EBSCNAME}, LINKID: PARAGRP;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 454 of 591
3) LINKID (Link Identification): SS7 link identification. Signless integer, value range: 1~16.
4) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL, STATES. Among them, ALL: viewing static attribute; STATES: viewing dynamic attribute.
1.5.3.192 NPMC
1. Command function
To create a N7PCM (A interface PCM code).
2. Syntax structure
NPMC: { EBSCID, EBSCNAME }: N7PCM: MODULENO, MUNIT, UNIT, PCMNO;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) N7PCM (N7 PCM): signaling No.7 PCM code. Signless integer, value range: 0~127.
4) MODULENO (Module No.): module number of the A interface PCM. Signless integer, value range: 1, the default value is 1.
5) MUNIT (Multiple Unit): multi-unit name of the A interface PCM. Signless integer, value range: 2 to 127.
6) UNIT (Unit): unit name of the A interface PCM. Signless integer, value range: 0~16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 455 of 591
7) PCMNO (PCM No.): PCM line number of the A interface PCM. Signless integer, value range: 1~4.
1.5.3.193 NPMD
1. Command function
To delete a N7PCM.
2. Syntax structure
NPMD: { EBSCID, EBSCNAME }, N7PCM;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) N7PCM (N7 PCM): signaling No.7 PCM code. Signless integer, value range: 0~127.
1.5.3.194 NPMM
1. Command function
To modify the attribute of a N7PCM.
2. Syntax structure
NPMM: { EBSCID, EBSCNAME }, N7PCM: MUNIT, UNIT, PCMNO;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 456 of 591
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) N7PCM (N7 PCM): signaling No.7 PCM code. Signless integer, value range: 0~127.
4) MUNIT (Multiple Unit): multi-unit name of the A interface PCM. Signless integer, value range: 2 to 127.
5) UNIT (Unit): unit name of the A interface PCM. Signless integer, value range: 0~16.
6) PCMNO (PCM No.): PCM line number of the A interface PCM. Signless integer, value range: 1~4.
1.5.3.195 NPMQ
1. Command function
To view the attribute of a N7PCM.
2. Syntax structure
NPMQ: { EBSCID, EBSCNAME }, N7PCM: PARAGRP;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) N7PCM (N7 PCM): signaling No.7 PCM code. Signless integer, value range: 0~127.
4) PARAGRP (Parameter Group): attribute package type. Enumerated type, value range: ALL, the default value is ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 457 of 591
1.5.3.196 NRTC
1. Command function
To create a No.7 route (N7Route).
2. Syntax structure
NRTC: {EBSCID, EBSCNAME}: ROUTEID: LINKSET1, LINKSET2, LPM;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the signaling No.7 route. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) ROUTEID (Route Identification): signaling No.7 route number. Signless integer, with a value of 1, the default value is 1.
4) LINKSET1 (Link Set 1): signaling link set number 1. Signless integer, with a value of 1, the default value is 1.
5) LINKSET2 (Link Set 2): signaling link set number 2. Signless integer, with a value of 0, the default value is 0.
6) LPM (Link Permutation Method): signaling link permutation mode. Signless integer, value range: 0~4, the default value is 4. Among them, 0: random permutation; 1: select link set by SLS_bit0, and linkset_1/linkset_2 is selected when SLS_bit0=0/1; 2: select link set by SLS_bit1, and linkset_1/linkset_2 is selected when SLS_bit1=0/1; 3: select link set by SLS_bit2, and linkset_1/linkset_2 is selected when SLS_bit2=0/1; 4: select link set by SLS_bit3, and linkset_1/linkset_2 is selected when SLS_bit3=0/1.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 458 of 591
1.5.3.197 NRTD
1. Command function
To delete a No.7 route (N7Route).
2. Syntax structure
NRTD: {EBSCID, EBSCNAME}, ROUTEID;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the signaling No.7 route. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) ROUTEID (Route Identification): signaling No.7 route number. Signless integer, with a value of 1, the default value is 1.
1.5.3.198 NRTM
1. Command function
To modify the LPM attribute of a No.7 route (N7Route).
2. Syntax structure
NRTM: {EBSCID, EBSCNAME}, ROUTEID: LPM;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the signaling No.7 route. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 459 of 591
3) ROUTEID (Route Identification): signaling No.7 route number. Signless integer, with a value of 1, the default value is 1.
4) LPM (Link Permutation Method): signaling link permutation mode. Signless integer, value range: 0~4. Among them, 0: random permutation; 1: select link set by SLS_bit0, and linkset_1/linkset_2 is selected when SLS_bit0=0/1; 2: select link set by SLS_bit1, and linkset_1/linkset_2 is selected when SLS_bit1=0/1; 3: select link set by SLS_bit2, and linkset_1/linkset_2 is selected when SLS_bit2=0/1; 4: select link set by SLS_bit3, and linkset_1/linkset_2 is selected when SLS_bit3=0/1.
1.5.3.199 NRTQ
1. Command function
To view the attribute of a No.7 route (N7Route).
2. Syntax structure
NRTQ: {EBSCID, EBSCNAME}, ROUTEID: PARAGRP;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the signaling No.7 route. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) ROUTEID (Route Identification): signaling No.7 route number. Signless integer, with a value of 1, the default value is 1.
4) PARAGRP (Parameter Group): attribute package type. Enumerated type, value range: ALL.
1.5.3.200 NSNC
1. Command function
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 460 of 591
To create CSS7 subsystem.
2. Syntax structure
NSNC: {EBSCID, EBSCNAME}, OFFICEID: SSN, OFFFICE1, SSN1;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) OFFICEID (Office Identification): office identification corresponding to the signaling point. Signless integer, with a value of 0~1. Among them, 0: BSC_OFFICE refers to BSC signaling point; 1: MSC_OFFICE refers to MSC signaling point
4) SSN (Sub System No.): sub-system number. Enumerated type, with a value of 1, 252, 253, 254. Among them, 1: SCCP management (SCMG); 0xFC (252): MSC simulation (self-defined subsystem); 0xFD (253): BSSOMAP; 0xFE (254): BSSAP
5) OFFFICE1 (Office 1): the office identification of the standby subsystem (OFFFICE1, SSN1) corresponding to the subsystem (OFFICEID, SSN). Signless integer, with a value of 0, the default value is 0.
6) SSN1 (Sub System No.1): the subsystem number of the standby subsystem (OFFFICE1, SSN1) corresponding to the subsystem (OFFICEID, SSN).. Signless integer, with a value of 0, the default value is 0.
1.5.3.201 NSND
1. Command function
To delete a CSS7 subsystem.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 461 of 591
2. Syntax structure
NSND: {EBSCID, EBSCNAME}, OFFICEID, SSN;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) OFFICEID (Office Identification): office identification corresponding to the signaling point. Signless integer, with a value of 0~1. Among them, 0: BSC_OFFICE refers to BSC signaling point; 1: MSC_OFFICE refers to MSC signaling point.
4) SSN (Sub System No.): sub-system number. Enumerated type, with a value of 1, 252, 253, 254. Among them, 1: SCCP management (SCMG) ; 0xFC (252): MSC simulation (self-defined subsystem); 0xFD (253): BSSOMAP; 0xFE (254): BSSAP.
1.5.3.202 NSNQ
1. Command function
To query the attribute of a CSS7 subsystem: static attribute or dynamic attribute ( SpyStatus, Op, Av).
2. Syntax structure
NSNQ: {EBSCID, EBSCNAME}, OFFICEID, SSN: PARAGRP;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification. Signless integer, value range: 1~255.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 462 of 591
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) OFFICEID (Office Identification): office identification corresponding to the signaling point. Signless integer, with a value of 0~1. Among them, 0: BSC_OFFICE refers to BSC signaling point; 1: MSC_OFFICE refers to MSC signaling point.
4) SSN (Sub System No.): sub-system number. Enumerated type, with a value of 1, 252, 253, 254. Among them, 1: SCCP management (SCMG) ; 0xFC (252): MSC simulation (self-defined subsystem); 0xFD (253): BSSOMAP; 0xFE (254): BSSAP.
5) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL, STATES. Among them, ALL: viewing static attribute; STATES: viewing dynamic attribute.
1.5.3.203 NSTC
1. Command function
To create a SCCP timer.
2. Syntax structure
NSTC: { EBSCID, EBSCNAME }: TMCONN, tMIAS, tMIAR, tMRELAY, tMGUARD, tMIGNORE, tMINTERV, tMFREEZE: LENT3, LENT4: L3TIMER1, L3TIMER2, L3TIMER3, L3TIMER4, L3TIMER5: TFPT, SRST: OWST18, OWST19, OWST20, ADRSTT21;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 463 of 591
3) TMCONN: the maximum time delay from sending CR to receiving CC (100ms). Signless integer, value range: 0~4294967295, the default value is 600.
4) TMIAS: timer for inactive sending (100ms). Signless integer, value range: 0~4294967295, the default value is 900.
5) TMIAR: timer for inactive receiving. Signless integer, value range: 0~4294967295, the default value is 2400.
6) TMRELAY: from sending RLSD to receiving RLC. Signless integer, value range: 0~4294967295, the default value is 150.
7) TMGUARD: time taken from restarting to sending the first connection-oriented message. Signless integer, value range: 0~4294967295, the default value is 4800.
8) TMIGNORE (Ignore Time): time for ignoring SST. Signless integer, value range: 0~4294967295, the default value is 1200.
9) TMINTERV (Interval Time): release protection time. Signless integer, value range: 0~4294967295, the default value is 600.
10) TMFREEZE (Freeze Time): section freezing time. Signless integer, value range: 0~4294967295, the default value is 300.
11) LENT3: time for waiting for SLTA after sending SLTM. Signless integer, value range: 0~4294967295, the default value is 80.
12) LENT4: period for sending SLTM. Signless integer, value range: 0~4294967295, the default value is 600.
13) L3TIMER1: time delay for avoiding wrong message sequence during changeover. Signless integer, value range: 0~4294967295, the default value is 8.
14) L3TIMER2: waiting for changeover acknowledgement. Signless integer, value range: 0~4294967295, the default value is 10.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 464 of 591
15) L3TIMER3: time delay for avoiding wrong message sequence during changeback. Signless integer, value range: 0~4294967295, the default value is 8.
16) L3TIMER4: waiting for changeback acknowledgement (the first attempt). Signless integer, value range: 0~4294967295, the default value is 10.
17) L3TIMER5: waiting for changeback acknowledgement (the second attempt). Signless integer, value range: 0~4294967295, the default value is 10.
18) TFPT: timer for forbidding transfer inhibition. Signless integer, value range: 0~4294967295, the default value is 10.
19) SRST: waiting for repeating signaling route set test messages. Signless integer, value range: 0~4294967295, the default value is 450.
20) OWST18: timer for restarting STP and waiting for the signaling link to be available. Signless integer, value range: 0~4294967295, the default value is 100.
21) OWST19: starting after T18, and waiting for receiving all TRA messages. Signless integer, value range: 0~4294967295, the default value is 680.
22) OWST20: starting after T19, and waiting for broadcasting TRA and restarting other services. Signless integer, value range: 0~4294967295, the default value is 600.
23) ADRSTT21: waiting for the restarting services of adjacent signaling point routes. Signless integer, value range: 0~4294967295, the default value is 640.
1.5.3.204 NSTD
1. Command function
To delete a SCCP timer.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 465 of 591
2. Syntax structure
NSTD: {EBSCID, EBSCNAME};
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
1.5.3.205 NSTM
1. Command function
To modify the parameter value of each timer among SCCP timers.
2. Syntax structure
NSTM: { EBSCID, EBSCNAME}: TMCONN, tMIAS, tMIAR, tMRELAY, tMGUARD, tMIGNORE, tMINTERV, tMFREEZE: LENT3, LENT4: L3TIMER1, L3TIMER2, L3TIMER3, L3TIMER4, L3TIMER5: TFPT, SRST: OWST18, OWST19, OWST20, ADRSTT21;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) TMCONN: the maximum time delay from sending CR to receiving CC (100ms). Signless integer, value range: 0~4294967295, the default value is 600.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 466 of 591
4) TMIAS: timer for inactive sending (100ms). Signless integer, value range: 0~4294967295, the default value is 900.
5) TMIAR: timer for inactive receiving. Signless integer, value range: 0~4294967295, the default value is 2400.
6) TMRELAY: from sending RLSD to receiving RLC. Signless integer, value range: 0~4294967295, the default value is 150.
7) TMGUARD: time taken from restarting to sending the first connection-oriented message. Signless integer, value range: 0~4294967295, the default value is 4800.
8) TMIGNORE (Ignore Time): time for ignoring SST. Signless integer, value range: 0~4294967295, the default value is 1200.
9) TMINTERV (Interval Time): release protection time. Signless integer, value range: 0~4294967295, the default value is 600.
10) TMFREEZE (Freeze Time): section freezing time. Signless integer, value range: 0~4294967295, the default value is 300.
11) LENT3: time for waiting for SLTA after sending SLTM. Signless integer, value range: 0~4294967295, the default value is 80.
12) LENT4: period for sending SLTM. Signless integer, value range: 0~4294967295, the default value is 600.
13) L3TIMER1: time delay for avoiding wrong message sequence during changeover. Signless integer, value range: 0~4294967295, the default value is 8.
14) L3TIMER2: waiting for changeover acknowledgement. Signless integer, value range: 0~4294967295, the default value is 10.
15) L3TIMER3: time delay for avoiding wrong message sequence during changeback. Signless integer, value range: 0~4294967295, the default value is 8.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 467 of 591
16) L3TIMER4: waiting for changeback acknowledgement (the first attempt). Signless integer, value range: 0~4294967295, the default value is 10.
17) L3TIMER5: waiting for changeback acknowledgement (the second attempt). Signless integer, value range: 0~4294967295, the default value is 10.
18) TFPT: timer for forbidding transfer inhibition. Signless integer, value range: 0~4294967295, the default value is 10.
19) SRST: waiting for repeating signaling route set test messages. Signless integer, value range: 0~4294967295, the default value is 450.
20) OWST18: timer for restarting STP and waiting for the signaling link to be available. Signless integer, value range: 0~4294967295, the default value is 100.
21) OWST19: starting after T18, and waiting for receiving all TRA messages. Signless integer, value range: 0~4294967295, the default value is 680.
22) OWST20: starting after T19, and waiting for broadcasting TRA and restarting other services. Signless integer, value range: 0~4294967295, the default value is 600.
23) ADRSTT21: waiting for the restarting services of adjacent signaling point routes. Signless integer, value range: 0~4294967295, the default value is 640.
1.5.3.206 NSTQ
1. Command function
To view the parameter value of each timer among SCCP timers.
2. Syntax structure
NSTQ: { EBSCID, EBSCNAME }: PARAGRP;
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 468 of 591
3. Parameter description
1) EBSCID (BSC Identification): BSC identification of the SS7 link. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) PARAGRP (Parameter Group): parameter attribute package type. Enumerated type, value range: ALL.
1.5.3.207 NTSM
1. Command function
To modify the circuit code of a SS7 time slot (an ATRUNK object is created automatically when ATIC is created in the physical configuration, and the default initial value of parameter CicNo in ATRUNK is set to the same value as the TS: 0~31).
2. Syntax structure
NTSM: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCM, tSID: CICNO;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): module number of the ATRUNK. Signless integer, value range: 1~64.
4) MUNIT (Multiple Unit): multi-unit name of the ATRUNK. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 469 of 591
5) UNIT (Unit): unit name of the ATRUNK. Signless integer, value range: 0~16.
6) PCM (PCM No.): PCM line number of the ATRUNK. Signless integer, value range: 1~4.
7) TSID (Time Slot Identification): time slot number of the ATRUNK. Signless integer, value range: 0~31.
8) CICNO (Circuit No.): TS circuit number. Signless integer, value range: 0~31.
1.5.3.208 NTSQ
1. Command function
To view an SS7 TS circuit number.
2. Syntax structure
NTSQ: {EBSCID, EBSCNAME}, MODULENO, MUNIT, UNIT, PCM, tSID: PARAGRP;
3. Parameter description
1) EBSCID (BSC Identification): BSC identification. Signless integer, value range: 1~255.
2) EBSCNAME ( BSC Name): BSC alias. Character string type, the maximum length of the character string is 40.
3) MODULENO (Module No.): module number of the ATRUNK. Signless integer, value range: 1~64.
4) MUNIT (Multiple Unit): multi-unit name of the ATRUNK. Signless integer, value range: 2 to 127.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 470 of 591
5) UNIT (Unit): unit name of the ATRUNK. Signless integer, value range: 0~16.
6) PCM (PCM No.): PCM line number of the ATRUNK. Signless integer, value range: 1~4.
7) TSID (Time Slot Identification): time slot number of the ATRUNK. Signless integer, value range: 0~31.
8) PARAGRP (Parameter Group): attribute package type. Enumerated type, value range: ALL.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 471 of 591
2 Operation
2.1 Overview
In volume one, we have described in detail the operation of each module and menu in the OMCR (V2) system. On this basis, this chapter will describe the commonly used operation for each module, including the following contents:
1. Security management
1) User management
2) Operation log
2. Configuration management
1) Radio resources management
2) Software loading
3) Dynamic data management
4) Integrated configuration management
3. Fault management
1) Alarm management
2) Test management
4. Performance management
1) Performance management
2) Performance analyzer
3) Invoke tracing
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 472 of 591
4) Signaling tracing
2.2 Security management
2.2.1 User management
In the main interface of OMCR (V2) (please refer to Fig.2-10 in volume 1),
select “security management ? user management” to enter the user management interface, as shown in Fig. 2-1.
Fig. 2-1 User management
2.2.1.1 Role setting
Click the “Role” tool button in the left tree to enter the role management interface, as shown in Fig. 2-2.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 473 of 591
Fig. 2-2 Role management
Select “Operation? Create role”. The dialog box for creating a role will pop up, as shown in Fig. 2-3.
Fig. 2-3 Create a role
2.2.1.2 User group setting
Click the “Group” tool button in the left tree to enter the user group management interface, as shown in Fig. 2-4.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 474 of 591
Fig. 2-4 User group management
Select “Operation? Create group”. The dialog box for creating a user group will pop up, as shown in Fig. 2-5.
Fig. 2-5 Create a new user group
2.2.1.3 User setting
By clicking “User” in the left tree, you can view a list of users, as shown in Fig. 2-6.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 475 of 591
Fig. 2-6 User management
Select “Operation? Create user”, as shown in Fig. 2-7.
Fig. 2-7 Create a new user
2.2.2 Operation log
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
“Security management? Operation log” to enter the operation log interface. During starting up, the user is allowed to make preliminary filtering, so as to locate to the desired logs. You can directly click the OK button to view the latest 1000 logs in the last week, as shown in Fig. 2-8.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 476 of 591
Fig. 2-8 Main interface of operation log--preliminary filtering
After licking “OK”, the main interface of operation log appears, as shown in Fig. 2-9.
Fig. 2-9 Main interface of operation log
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 477 of 591
Select a log item for viewing detailed information from the operation log
interface shown in Fig. 2-9, and double -click it or select the “View? Detail Information” menu, the “Detail Information” dialog box will pop up, as shown in Fig. 2-10.
Fig. 2-10 Detailed information
Select the “Log? Save as…” menu. The “Save As” dialog box will pop up, as shown in Fig. 2-11.
Fig. 2-11 Saving log
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 478 of 591
2.3 Configuration management
2.3.1 Radio resource management
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
“Configuration Management? Radio Resource Management” to enter the “ZXG10 Radio Resource Management” interface, as shown in Fig. 2-12.
Fig. 2-12 Main interface
2.3.1.1 Configuring sites
In Fig. 2-12, right-click a BSS, and in the pop-up menu, select “Create a logic site”. Then a dialog box as shown in Fig. 2-13 will pop up.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 479 of 591
Fig. 2-13 Configuring a site
2.3.1.2 Configuring BSC
In Fig. 2-12, right-click a BSS, and in the pop-up menu, select “Create a BSC”. Then an interface for configuring BSC will pop up, and you can respectively configure the basic property and timer of the BSC in the interface.
The basic property setting of the BSC in a GSM environment is as shown in Fig. 2-14, and that in a GPRS environment is as shown in Fig. 2-15.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 480 of 591
Fig. 2-14 Configuring BSC 1)——GSM
Fig. 2-15 Configuring BSC 1)——GPRS
The timer setting of the BSC in a GSM environment is as shown in Fig. 2-16, and that in a GPRS environment is as shown in Fig. 2-17.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 481 of 591
Fig. 2-16 Configuring BSC 2)——GSM
Fig. 2-17 Configuring BSC 2)——GPRS
The maximum number of GPRS retry times for the BSC is shown in Fig. 2-18.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 482 of 591
Fig. 2-18 Configuring BSC 3)
The GPRS timer setting of the BSC is shown in Fig. 2-19.
Fig. 2-19 Configuring BSC 4)
The other GPRS property setting of the BSC is shown in Fig. 2-20.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 483 of 591
Fig. 2-20 Configuring BSC 5)
2.3.2 Software loading
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
“Configuration management ? Software loading” to enter the main interface of software loading (as shown in Fig. 2-21).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 484 of 591
Fig. 2-21 Main interface of software loading
2.3.2.1 Logic view
Select menu “View? Logic view” to enter the logic view interface of software loading, as shown in Fig. 2-22.
Fig. 2-22 Logic view
In Fig. 2-22, right-click “Stored software”, and select “Store Software” from the pop-up menu. Then the “Store Software” interface will pop up, which is as shown in Fig. 2-23 for the GSM environment, and as shown in Fig. 2-24 for the GPRS environment.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 485 of 591
Fig. 2-23 Store software——GSM
Fig. 2-24 Store software——GPRS
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 486 of 591
2.3.2.2 Physical view
Select menu “View? physical view” to enter the physical view interface of software loading, as shown in Fig. 2-25.
Fig. 2-25 BSC loading—rack diagram display
In Fig. 2-25, right-click a board on the rack diagram, and select “Create version” from the pop-up menu to create board software, as shown in Fig. 2-26.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 487 of 591
Fig. 2-26 Create BOSN board software
The software loading for sites (including micro-cell sites) is different from that of BSC. From the browse tree in the physical view interface of software loading, select the site under the BSC for software loading. The interface is as shown in Fig. 2-27.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 488 of 591
Fig. 2-27 Software loading for a site
2.3.3 Dynamic data management
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
“Configuration management? Dynamic data management” to enter the “Dynamic data management” main interface, as shown in Fig.2-28.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 489 of 591
Fig. 2-28 Main interface of dynamic data management
2.3.3.1 Query/refresh
You can view the status of land resources with dynamic property, as shown in Fig.2-29. From the list on the right, select the channel to be queried and right-click it. Then select “Watch” from the pop-up menu to get the queried result of the channel status.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 490 of 591
Fig. 2-29 Status query
Refreshing is used to query the statuses of all channels or time slots. As shown in Fig.2-30, right-click the lower-right list in the main interface, and select “Refresh” from the pop-up menu to get the statuses of all channels
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 491 of 591
Fig. 2-30 Status refreshing
2.3.3.2 Blocking/unblocking
Blocking/unblocking is used to modify the status bit of such land resources as BSC, BTS and TRX with dynamic property. To illustrate with the channel, select channel 2 to be queried from the list on the right, and right-click it. Then select “Block” or “Unblock” from the pop-up menu to initiate the operation for modifying the management status of channel 2, as shown in Fig.2-31.
Fig. 2-31 Blocking/unblocking
2.3.3.3 Activation/deactivation
Activation/deactivation refers to activating/deactivating N7LINK. From the list on the right, select the N7LINK1 to be activated/deactivated, and right-click it. Then select “Activate” or “Unactivate” from the pop-up menu to initiate the operation for activating/deactivating N7LINK1, as shown in Fig.2-32.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 492 of 591
Fig. 2-32 Activating/deactivating
2.3.3.4 Setting/unsetting PCM circuits
Setting/unsetting refers to setting/unsetting PCM circuits. From the list on the right, select the PCM circuit to be set/unset, and right-click it. Then select “Set” or “Unset” from the pop-up menu to initiate the operation for setting/unsetting the PCM circuit, as shown in Fig.2-33.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 493 of 591
Fig. 2-33 setting/unsetting a PCM circuit
2.3.3.5 Global reset
From the tree list on the left of the main interface, right-click “GSM equipment” or “BSC equipment”, and select “Global reset” from the pop-up menu to initiate the operation for global reset, as shown in Fig.2-34.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 494 of 591
Fig. 2-34 Global reset
2.3.4 Integrated configuration management
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
the “Configuration management? Integrated configuration management” menu item. First, you need to select the configuration mode, as shown in Fig.2-35. You can select “Initial Configuration (Create a BSC)” and click “OK” to enter the initial configuration wizard; or select “Modify Configuration (Edit Data)” and click “OK” to enter the wizard for modifying configuration. If you click “Cancel”, you can enter the status only for editing script. After the settings in the wizard are completed, the main interface of integrated configuration management appears, as shown in Fig.2-36.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 495 of 591
Fig. 2-35 Selecting configuration mode
Fig. 2-36 Main interface of integrated configuration management
2.3.4.1 Initial configuration
In Fig. 2-35, select “Initial Configuration (Create a BSC)” and click “OK” to enter the interface as shown in Fig.2-37.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 496 of 591
Fig. 2-37 The second step of the wizard
Click “Next” to enter the wizard for creating MSC, as shown in Fig.2-38.
Fig. 2-38 Editing MSC
Click “Next” to enter the wizard for editing BSC, as shown in Fig.2-39.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 497 of 591
Fig. 2-39 Configuring BSC
2.3.4.2 Modifying configuration
In Fig. 2-35, select “Modify Configuration (Edit Data)”, and the system will get data script from the database first, as shown in Fig.2-40.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 498 of 591
Fig. 2-40 Increment configuration 1)
Enter the BSCID for modifying configuration. Note that this BSCID must exist in the system. Then the system begins to get data, as shown in Fig.2-41.
Fig. 2-41 Increment configuration 2)
After the data are acquired successfully from the database, the step 2 dialog box of the wizard pops up automatically, as shown in Fig.2-42.
Fig. 2-42 Increment configuration 3)
Click “Next” to enter the step for editing script. The following operations are the same as those of the initial configuration.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 499 of 591
2.4 Fault management
2.4.1 Alarm management
2.4.1.1 Viewing alarms
After the user logs in successfully, in the main interface of OMCR (V2)
(refer to Fig. 2-10 in volume 1), select “Fault management ? Alarm management” to enter the main interface of alarm management (as shown in Fig.2-43).
Fig. 2-43 Main interface of alarm management
Select an alarm item or notification item from the alarm list or notification list, then click the “Detailed information” tool button on the toolbar or double-click the selected alarm item or notification item. A dialog box will pop up (as shown in Fig.2-44), which displays the detailed information of the selected alarm item or notification item.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 500 of 591
Fig. 2-44 Detailed information
Select a rack to be viewed from the browse tree, or click the “Physical view” tool button on the toolbar provided that a BSC or BTS has been selected in the browse tree to enter the interface for displaying alarm management rack diagram (as shown in Fig.2-45).
Fig. 2-45 BSC alarm management rack diagram
Right-click a board on the BSC rack diagram, and select “Query board status” from the shortcut menu. Then a dialog box for displaying the board status will pop up, as shown in Fig.2-46.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 501 of 591
Fig. 2-46 Displaying board status
2.4.1.2 Alarm rule setting
In Fig. 2-43, select “Setting? Alarm rule? Alarm filter rule” to enter the dialog box of alarm filter rule editor (as shown in Fig.2-47).
Fig. 2-47 Alarm filter rule editor
In Fig. 2-43, select “Setting? Alarm rule? Alarm reclassification rule” to enter the dialog box of alarm reclassification rule editor (as shown in Fig.2-
48).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 502 of 591
Fig. 2-48 Alarm reclassification rule editor
In Fig. 2-43, select “Setting? Alarm rule? Alarm correlation rule” to enter the dialog box of alarm correlation rule editor (as shown in Fig.2-49).
Fig. 2-49 Alarm correlation rule editor
2.4.1.3 Trunk node alarm
In Fig. 2-43, select “Setting? Trunk node alarm? Set trunk node alarm” to enter the dialog box for setting trunk node alarm, as shown in Fig.2-50.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 503 of 591
Fig. 2-50 Setting trunk node alarm 1)
First, select the BSS, site and rack for setting trunk node alarm, then select the template to be set from the pull-down list of template numbers. Then the dialog box will list the alarm class and content for each node under the template, as shown in Fig.2-51.
Fig. 2-51 Setting trunk node alarm 2)
In the dialog box for setting trunk node alarm, click the “New Template” button to enter the dialog box for creating a new trunk node alarm template, as shown in Fig.2-52.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 504 of 591
Fig. 2-52 Creating a new trunk node alarm template
2.4.2 Test management
After logging in successfully, in the main interface of OMCR (V2) (refer to
Fig. 2-10 in volume 1), select “Fault management? Test management” to enter the main interface of test management (as shown in Fig.2-53).
Fig. 2-53 Test management main interface
2.4.2.1 Instant test
Expand the browse tree, and select the BSC to be tested. Then select
“Test mode? Instant test” to enter the instant test interface, as shown in Fig.2-54.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 505 of 591
Fig. 2-54 Instant test
Select “Instant test? Create test items”. The dialog box for creating instant test items will pop up, as shown in Fig.2-55.
Fig. 2-55 Creating instant test items
2.4.2.2 Scheduled test
Select the BSC to be tested, and then select “Test mode? Scheduled test” to enter the scheduled test interface, as shown in Fig.2-56.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 506 of 591
Fig. 2-56 Scheduled test
After new scheduled test items are created, the original scheduled test items will be automatically deleted. The test results generated in executing new scheduled test items will be saved in the test database together with
the original test results. Select “Scheduled test? Set scheduled test” to enter the dialog box for setting scheduled test, which is as shown in Fig.2-57 in the GSM environment, and is as shown in Fig.2-58 in the GPRS environment.
Fig. 2-57 Setting scheduled test——GSM
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 507 of 591
Fig. 2-58 Setting scheduled test——GPRS
2.5 Performance management
2.5.1 Performance management
After logging in successfully, in the main interface of OMCR (V2) (refer to
Fig. 2-10 in volume 1), select “Performance management? Performance management” to enter the main interface of performance management (as shown in Fig.2-59).
Fig. 2-59 Main interface of performance management
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 508 of 591
2.5.1.1 Measurement job
Select a specific measurement job from the browse tree. Then the right part of the interface will be divided into three blocks, which respectively display the list, schedule and measurement object of the job, as shown in Fig.2-60.
Fig. 2-60 Display of a single measurement job
In Fig. 2-59, select “Measurement jobs” from the left browse tree, and then
click menu “Performance management? Create” to enter wizard 1 for creating a measurement job (as shown in Fig.2-61).
Fig. 2-61 Wizard 1 for creating a measurement job 1)
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 509 of 591
After the settings are completed, click “Next” to enter wizard 2 for creating a measurement job (as shown in Fig.2-62).
Fig. 2-62 Wizard 2 for creating a measurement job
Click “Next” to enter wizard 3 for creating a measurement job (as shown in Fig.2-63).
Fig. 2-63 Wizard 3 for creating a measurement job
Click “Next” to enter wizard 4 for creating a measurement job (as shown in Fig.2-64).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 510 of 591
Fig. 2-64 Wizard 4 for creating a measurement job
2.5.1.2 Observation job
From the browse tree, select the observation job node of a BSS. Then the right part of the interface will display a list of all current observation jobs of the BSS (as shown in Fig.2-65).
Fig. 2-65 Display of observation jobs
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 511 of 591
In Fig. 2-65, select “Observation jobs” from the left browse tree, and then
click menu “Performance management? Create” to enter the dialog box for creating an observation job (as shown in Fig.2-66).
Fig. 2-66 Create observation job
Click the “OK” button to complete the creation of the new observation job. If the job is created successfully, the system will give a prompt, and the newly created job will be added in the browse tree and observation job list.
2.5.2 Performance analyzer
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
“Performance management? Performance analyzer” to enter the main interface of performance analyzer (as shown in Fig.2-67).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 512 of 591
Fig. 2-67 Main interface of performance analyzer
Select menu “Report ? Create performance report” to enter the performance report wizard (as shown in Fig.2-68).
Fig. 2-68 Performance report wizard 1)
Select the report type in this dialog box, and then click “Next” to enter the next wizard interface (as shown in Fig.2-69).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 513 of 591
Fig. 2-69 Performance report wizard 2)
Select the analysis object of the report, and then click “Next” to enter the next wizard interface (as shown in Fig.2-70).
Fig. 2-70 Performance report wizard 3)
Click “Finish” to complete the parameter input.
2.5.3 Invoke tracing
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
“Performance management? Invoke trace” to enter the main interface of invoke trace (as shown in Fig.2-71).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 514 of 591
Fig. 2-71 Main interface of invoke trace
Select menu “Trace? Start tracing”. Then the workstation will initiate a handshake (communication) for invoke tracing with the BSC. If the MSC has already activated the BSC for invoke tracing via a message, then the BSC will also initiate a handshake to the workstation. If the handshake is
successful, the tracing program will decode, classify and display the received tracing information. If the handshake is still unsuccessful after 1
minute, then it is regarded as a failure, and the system will instruct the user to end the tracing and re-initiate the tracing.
After successful handshake, once there is any tracing message, the program will decode and display the message in real time (as shown in Fig.2-72).
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 515 of 591
Fig. 2-72 Display of invoke tracing messages
By double-clicking a tracing message, a dialog box will pop up to display the detailed information of the tracing message, as shown in Fig.2-73.
Fig. 2-73 Detailed information of invoke tracing
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 516 of 591
2.5.4 Signaling tracing
In the main interface of OMCR (V2) (refer to Fig. 2-10 in volume 1), select
“System tools? Signal trace” to enter the main interface of signaling tracing, as shown in Fig.2-74.
Fig. 2-74 Main interface of signaling tracing
Select menu “Signal trace? Start” to start a trace and enter the tracing configuration dialog box, which is as shown in Fig.2-75 in the GSM
environment, and is as shown in Fig.2-76 in the GPRS environment.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 517 of 591
Fig. 2-75 Tracing configuration——GSM
Fig. 2-76 Tracing configuration——GPRS
First, select the BSC for signaling tracing from the pull-down list of BSCs, and then select the message type. Click the “Confirm” button to start signaling tracing, and the interface will display the traced messages in real time, as shown in Fig.2-77.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 518 of 591
Fig. 2-77 Display of traced messages
The message contents are displayed in the form of codes. You can double-click a traced message to view the detailed information of the message, as shown in Fig.2-78. Then a small window will appear at the lower part of the interface to display the detailed content of the selected tracing message.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 519 of 591
Fig. 2-78 Display of detailed information
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 520 of 591
Appendix A Performance measurement counter
A.1 BTS performance measurement counter
A.1.1 Power control counter
The power control counters are listed in table A-1.
Table A-1 Power control counter
Counter No. Counter description Explanations Source Unit
C00001 The Number times for smooth Increase of MS Power due to Uplink Signal Level
FUC TRX
C00002 The Number of times for fast Increase of MS Power due to Uplink Signal Level
FUC TRX
C00003 The Number times for smooth Decrease of MS Power due to Uplink Signal Level
FUC TRX
C00004 The Number of times for fast Decrease of MS Power due to Uplink Signal Level
FUC TRX
C00005 The Number of times for smooth Increase of BS Power due to Downlink Signal
Level
FUC TRX
C00006 The Number of times for fast Increase of BS Power due to Downlink Signal Level
FUC TRX
C00007 The Number of times for smooth Decrease of BS Power due to Downlink Signal
Level
FUC TRX
C00008 The Number of times for fast Decrease of BS Power due to Downlink Signal Level
FUC TRX
C00009 The Number of times for smooth Increase of MS Power due to Uplink Signal Quality
FUC TRX
C00010 The Number of times for fast Increase of MS Power due to Uplink Signal Quality
FUC TRX
C00011 The Number of times for smooth Decrease of MS Power due to Uplink Signal Quality
FUC TRX
C00012 The Number of times for fast Decrease of MS Power due to Uplink Signal Quality
FUC TRX
C00013 The Number of times for smooth Increase of BS Power due to Downlink Signal Quality
FUC TRX
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 521 of 591
Counter No. Counter description Explanations Source Unit
C00014 The Number of times for fast Increase of BS Power due to Downlink Signal Quality
FUC TRX
C00015 The Number of times for smooth Decrease of BS Power due to Downlink Signal Quality
FUC TRX
C00016 The Number of times for fast Decrease of BS Power due to Downlink Signal Quality
FUC TRX
C00017 The total value of the regular scanned results of MS service power
FUC TRX
C00018 Number of sampling times for regular scanning of MS service power
FUC TRX
C00019 The total value of the regular scanned results of BS service power
FUC TRX
C00020 Number of sampling times for regular scanning of BS service power
FUC TRX
C00021 The total value of the regular scanned results of Downlink Signal Level
FUC TRX
C00022 Number of sampling times for regular scanning of Downlink Signal Level
FUC TRX
C00023 The total value of the regular scanned results of Uplink Signal Level
FUC TRX
C00024 Number of sampling times for regular scanning of Uplink Signal Level
FUC TRX
C00025 The total value of the regular scanned results of Downlink Signal Quality
FUC TRX
C00026 Number of sampling times for regular scanning of Downlink Signal Quality
FUC TRX
C00027 The total value of the regular scanned results of Uplink Signal Quality
FUC TRX
C00028 Number of sampling times for regular scanning of Uplink Signal Quality
FUC TRX
A.1.2 Paging counter
The paging counters are listed in Table A-2.
Table A-2 Paging counters
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 522 of 591
Counter No. Counter description Source Unit
C01001 Counting the PS paging messages discarded due to queue being full
FUC TRX
C01002 Counting the CS paging messages discarded due to queue being full
FUC TRX
C01003 Average length of CH queue:9*9 FUC TRX
C01004 Average length of PCH:9*64 FUC TRX
A.2 RMM performance measurement counter
A.2.1 Radio access counter
This type of counters are mainly used to observe the wireless random access process of mobile stations, and used as the basis of radio access parameter adjustment and signaling channel allocation policy. Among them, several possible radio access reasons are listed in Table A-3.
Table A-3 Radio access counter
Counter No. Counter description Explanations Source Unit
C10001 Number of invalid access requests
Access delay is beyond the range of the cell, etc.
RMS Cell
C10002 Number of MOC access requests
The channel requirement of MOC is received
RMS Cell
C10003 Number of successfully processed MOC access
requests
Counted when immediate assignments are sent
RMS Cell
C10004 Number of successful MOC access times
Counted when link setup instructions are received for
immediate assignments
RMS Cell
C10005 Number of MTC access requests
The channel requirement of MTC is received
RMS Cell
C10006 Number of successfully processed MTC access
requests
Counted when immediate assignments are sent
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 523 of 591
Counter No. Counter description Explanations Source Unit
C10007 Number of successful MTC access times
Counted when link setup instructions are received for
immediate assignments
RMS Cell
C10008 Number of Call Reestablishment access
requests
The channel requirement of Call reestablishment is
received
RMS Cell
C10009 Number of successfully processed Call
Reestablishment access requests
Counted when immediate assignments are sent
RMS Cell
C10010 Number of successful Call Reestablishment access times
Counted when link setup instructions are received for
immediate assignments
RMS Cell
C10011 Number of emergency call access requests
The channel requirement of emergency call is received
RMS Cell
C10012 Number of successfully processed emergency call
access requests
Counted when immediate assignments are sent
RMS Cell
C10013 Number of successful emergency call access times
Counted when link setup instructions are received for
immediate assignments
RMS Cell
C10014 Number of LOC access requests
The channel requirement of LOC is received
RMS Cell
C10015 Number of successfully processed LOC access requests
Counted when immediate assignments are sent
RMS Cell
C10016 Number of successful LOC access times
Counted when link setup instructions are received for
immediate assignments
RMS Cell
C10017 Number of other access requests
Other channel requirements are received
RMS Cell
C10018 Number of successfully processed other access requests
Counted when immediate assignments are sent
RMS Cell
C10019 Number of successful other access times
Counted when link setup instructions are received for
immediate assignments
RMS Cell
Note: the number of access requests refers to the number of channel request messages received; and the number of successfully processed access requests refers to number of immediate assignments transmitted. Since in the SLOT-ALOHA protocols used by radio access, one access operation may include multiple access requests, the access success rate can be calculated and described by using the percentage of successfully
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 524 of 591
processed access requests to the total access requests, and this value reflects the blocking decree of the signaling channel; while the percentage of successful access times to the total access requests reflects the collision condition of radio access requests. If this value is relatively low, then such factors as whether the time interval of access requests is reasonable need to be taken into account.
A.2.2 SDCCH counter
This type of counters are mainly used to describe the allocation, seizure, assignment and using of resources related to SDCCH, and serve as the basis for the configuration of SDCCH and the adjustment of related parameters, as listed in Table A-4.
Table A-4 SDCCH counters
Counter No. Counter description Explanations Source Unit
C10101 SDCCH seizure attempt times (for assignment)
Applying for SDCCH from the database for immediate
assignment
RMS Cell
C10102 SDCCH seizure success times (for assignment)
Application from the database successful
RMS Cell
C10103 SDCCH seizure failure times (for assignment)
Application from the database unsuccessful
RMS Cell
C10104 SDCCH seizure attempt times (for handover)
Applying for SDCCH from the database for handover
RMS Cell
C10105 SDCCH seizure success times (for handover)
Application from the database successful
RMS Cell
C10106 SDCCH seizure failure times (for handover)
Application from the database unsuccessful
RMS Cell
C10107 SDCCH allocation attempt times (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10108 SDCCH allocation success times (for assignment)
ChannelActivationAck received
RMS Cell
C10109 SDCCH allocation failure times (for assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10110 SDCCH allocation attempt times (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 525 of 591
Counter No. Counter description Explanations Source Unit
C10111 SDCCH allocation success times (for handover)
ChannelActivationAck received
RMS Cell
C10112 SDCCH allocation failure times (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10113 SDCCH assignment attempt times
BSC sends immediate assignment messages
RMS Cell
C10114 SDCCH assignment success times
EstablishIndication received RMS Cell
C10115 SDCCH assignment failure times
EstablishIndication not received
RMS Cell
C10116 SDCCH handover attempt times Prepare for handover after receiving
ChannelActivationAck
RMS Cell
C10117 SDCCH handover success times AssignComplete is received in intra-cell handover, HandoverComplete is received in inter-cell
handover,
RMS Cell
C10118 SDCCH returned handover failure times
Um_HandoverFailure received
RMS Cell
C10119 SDCCH non-returned handover failure times
Handover failure in other conditions
RMS Cell
A.2.3 SAPI3 counter
This type of counters are mainly used to describe the link establishment and load conditions of point-to-point messages, as listed in Table A-5.
Table A-5 SAPI3 counters
Counter No. Counter description Explanations Source Unit
C10201 Number of SAPI3 link establishment times on SACCH/F (MO-SM)
An EstablishIndication message is received, and its
SAPI=3
RMS Cell
C10202 Number of SAPI3 link establishment times on SACCH/H (MO-SM)
An EstablishIndication message is received, and its
SAPI=3
RMS Cell
C10203 Number of SAPI3 link establishment times on SDCCH
An EstablishIndication message is received, and its
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 526 of 591
Counter No. Counter description Explanations Source Unit
(MO-SM) SAPI=3
C10204 Number of SAPI3 link establishment times on FACCH/F (MO-SM)
An EstablishIndication message is received, and its
SAPI=3
RMS Cell
C10205 Number of SAPI3 link establishment times on FACCH/H (MO-SM)
An EstablishIndication message is received, and its
SAPI=3
RMS Cell
C10206 Number of SAPI3 link establishment requests on
SACCH/F (MT-SM)
SMS is received, but no link has been established, then EstablishRequest is sent
RMS Cell
C10207 Number of SAPI3 link establishment requests on
SACCH/H (MT-SM)
SMS is received, but no link has been established, then EstablishRequest is sent
RMS Cell
C10208 Number of SAPI3 link establishment requests on
SDCCH (MT-SM)
SMS is received, but no link has been established, then EstablishRequest is sent
RMS Cell
C10209 Number of SAPI3 link establishment requests on
FACCH/F (MT-SM)
SMS is received, but no link has been established, then EstablishRequest is sent
RMS Cell
C10210 Number of SAPI3 link establishment requests on
FACCH/H (MT-SM)
SMS is received, but no link has been established, then EstablishRequest is sent
RMS Cell
C10211 Number of SAPI3 link establishment success times on
SACCH/F (MT-SM)
SMS is received, but no link has been established, then EstablishRequest is sent
RMS Cell
C10212 Number of SAPI3 link establishment success times on
SACCH/H (MT-SM)
SMS is received, but no link has been established, then EstablishRequest is sent
RMS Cell
C10213 Number of SAPI3 link establishment success times on
SDCCH (MT-SM)
An EstablishConfirm message is received
RMS Cell
C10214 Number of SAPI3 link establishment success times on
FACCH/F (MT-SM)
An EstablishConfirm message is received
RMS Cell
C10215 Number of SAPI3 link establishment success times on
FACCH/H (MT-SM)
An EstablishConfirm message is received
RMS Cell
C10216 Number of DTAP messages used for point-to-point short messages
in SDCCH uplink
SMS messages from mobile stations are received
RMS Cell
C10217 Number of DTAP messages used for point-to-point short messages
in SDCCH downlink
SMS messages from the network are received
RMS Cell
C10218 Number of DTAP messages used SMS messages from mobile RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 527 of 591
Counter No. Counter description Explanations Source Unit
for point-to-point short messages in FACCH/F uplink
stations are received
C10219 Number of DTAP messages used for point-to-point short messages
in FACCH/F downlink
SMS messages from the network are received
RMS Cell
C10220 Number of DTAP messages used for point-to-point short messages
in FACCH/H uplink
SMS messages from mobile stations are received
RMS Cell
C10221 Number of DTAP messages used for point-to-point short messages
in FACCH/H downlink
SMS messages from the network are received
RMS Cell
C10222 Number of DTAP messages used for point-to-point short messages
in SACCH/F uplink
SMS messages from mobile stations are received
RMS Cell
C10223 Number of DTAP messages used for point-to-point short messages
in SACCH/F downlink
SMS messages from the network are received
RMS Cell
C10224 Number of DTAP messages used for point-to-point short messages
in SACCH/H uplink
SMS messages from mobile stations are received
RMS Cell
C10225 Number of DTAP messages used for point-to-point short messages
in SACCH/H downlink
SMS messages from the network are received
RMS Cell
Note: here MO-SM refers to the mobile-originated short messages; MT-SM refers to the mobile-terminated short messages. Since in conversation state, point-to-point short messages can be received, a mobile caller may also be the party who receives a short message.
A.2.4 TCH/F counter
This type of counters are mainly used to describe the allocation, seizure, assignment and using of resources related to TCH/F, as listed in Table A-6.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 528 of 591
Table A-6 TCH/F counters
Counter No. Counter description Explanations Source Unit
C10301 TCH/F seizure attempt times (signaling) (for assignment)
Applying for TCH/F from the database, for immediate
assignment
RMS Cell
C10302 TCH/F seizure success times (signaling) (for assignment)
Application from the database successful
RMS Cell
C10303 TCH/F seizure failure times (signaling) (for assignment)
Application from the database fails
RMS Cell
C10304 TCH/F seizure attempt times (signaling) (for handover)
Applying for TCH/F from the database, for handover
RMS Cell
C10305 TCH/F seizure success times (signaling) (for handover)
Application from the database successful
RMS Cell
C10306 TCH/F seizure failure times (signaling) (for handover)
Application from the database fails
RMS Cell
C10307 TCH/F allocation attempt times (signaling) (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10308 TCH/F allocation success times (signaling) (for assignment)
ChannelActivationAck received
RMS Cell
C10309 TCH/F allocation failure times (signaling) (for assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10310 TCH/F allocation attempt times (signaling) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10311 TCH/F allocation success times (signaling) (for handover)
ChannelActivationAck received
RMS Cell
C10312 TCH/F allocation failure times (signaling) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10313 TCH/F assignment attempt times (signaling)
BSC sends immediate assignment messages
RMS Cell
C10314 TCH/F assignment success times (signaling)
EstablishIndication received RMS Cell
C10315 TCH/F assignment failure times (signaling)
EstablishIndication not received
RMS Cell
C10316 TCH/F handover attempt times (signaling)
Prepare for handover after receiving
ChannelActivationAck
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 529 of 591
Counter No. Counter description Explanations Source Unit
C10317 TCH/F handover success times (signaling)
AssignComplete is received in intra-cell handover, HandoverComplete is received in inter-cell
handover,
RMS Cell
C10318 TCH/F returned handover failure times (signaling)
Um_HandoverFailure received
RMS Cell
C10319 TCH/F non-returned handover failure times (signaling)
Handover failure in other conditions
RMS Cell
C10320 TCH/F seizure attempt times (voice) (for assignment)
Applying for TCH/F from the database, for assignment
RMS Cell
C10321 TCH/F seizure success times (voice) (for assignment)
Application from the database successful
RMS Cell
C10322 TCH/F seizure failure times (voice) (for assignment)
Application from the database fails
RMS Cell
C10323 TCH/F seizure attempt times (voice) (for handover)
Applying for TCH/F from the database, for handover
RMS Cell
C10324 TCH/F seizure success times (voice) (for handover)
Application from the database successful
RMS Cell
C10325 TCH/F seizure failure times (voice) (for handover)
Application from the database fails
RMS Cell
C10326 TCH/F allocation attempt times (voice version 1) (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10327 TCH/F allocation success times (voice version 1) (for assignment)
ChannelActivationAck received
RMS Cell
C10328 TCH/F allocation failure times (voice version 1) (for assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10329 TCH/F allocation attempt times (voice version 1) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10330 TCH/F allocation success times (voice version 1) (for handover)
ChannelActivationAck received
RMS Cell
C10331 TCH/F allocation failure times (voice version 1) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10332 TCH/F allocation attempt times (voice version 2) (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10333 TCH/F allocation success times (voice version 2) (for assignment)
ChannelActivationAck received
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 530 of 591
Counter No. Counter description Explanations Source Unit
C10334 TCH/F allocation failure times (voice version 2) (for assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10335 TCH/F allocation attempt times (voice version 2) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10336 TCH/F allocation success times (voice version 2) (for handover)
ChannelActivationAck received
RMS Cell
C10337 TCH/F allocation failure times (voice version 2) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10338 TCH/F allocation attempt times (voice version 3) (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10339 TCH/F allocation success times (voice version 3) (for assignment)
ChannelActivationAck received
RMS Cell
C10340 TCH/F allocation failure times (voice version 3) (for assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10341 TCH/F allocation attempt times (voice version 3) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10342 TCH/F allocation success times (voice version 3) (for handover)
ChannelActivationAck received
RMS Cell
C10343 TCH/F allocation failure times (voice version 3) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10344 TCH/F assignment attempt times (voice)
BSC sends AssignCommand to BTS
RMS Cell
C10345 TCH/F assignment success times (voice)
AssignmentComplete received
RMS Cell
C10346 TCH/F assignment failure times (voice)
AssignmentComplete not received
RMS Cell
C10347 TCH/F handover attempt times (voice)
Prepare for handover after receiving
ChannelActivationAck
RMS Cell
C10348 TCH/F handover success times (voice)
AssignComplete is received in intra-cell handover, HandoverComplete is received in inter-cell
handover,
RMS Cell
C10349 TCH/F returned handover failure Um_HandoverFailure RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 531 of 591
Counter No. Counter description Explanations Source Unit
times (voice) received
C10350 TCH/F non-returned handover failure times (voice)
Handover failure in other conditions
RMS Cell
C10351 TCH/F seizure attempt times (data) (for assignment)
Applying for TCH/F from the database, for
assignment.
RMS Cell
C10352 TCH/F seizure success times (data) (for assignment)
Application from the database successful
RMS Cell
C10353 TCH/F seizure failure times (data) (for assignment)
Application from the database fails
RMS Cell
C10354 TCH/F seizure attempt times (data) (for handover)
Applying for TCH/F from the database, for handover
RMS Cell
C10355 TCH/F seizure success times (data) (for handover)
Application from the database successful
RMS Cell
C10356 TCH/F seizure failure times (data) (for handover)
Application from the database fails
RMS Cell
C10357 TCH/F allocation attempt times (data) (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10358 TCH/F allocation success times (data) (for assignment)
ChannelActivationAck received
RMS Cell
C10359 TCH/F allocation failure times (data) (for assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10360 TCH/F allocation attempt times (data) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10361 TCH/F allocation success times (data) (for handover)
ChannelActivationAck received
RMS Cell
C10362 TCH/F allocation failure times (data) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10363 TCH/F assignment attempt times (data)
BSC sends AssignCommand to BTS
RMS Cell
C10364 TCH/F assignment success times (data)
AssignmentComplete received
RMS Cell
C10365 TCH/F assignment failure times (data)
AssignmentComplete not received
RMS Cell
C10366 TCH/F handover attempt times (data)
Prepare for handover after receiving
ChannelActivationAck
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 532 of 591
Counter No. Counter description Explanations Source Unit
C10367 TCH/F handover success times (data)
AssignComplete is received in intra-cell handover, HandoverComplete is received in inter-cell
handover,
RMS Cell
C10368 TCH/F returned handover failure times (data)
Um_HandoverFailure received
RMS Cell
C10369 TCH/F non-returned handover failure times (data)
Handover failure in other conditions
RMS Cell
A.2.5 TCH/H counter
This type of counters are mainly used to describe the allocation, seizure, assignment and using of resources related to TCH/H, as listed in Table A-7.
Table 2-7 TCH/H counter
Counter No. Counter description Explanations Source
Unit
C10401 TCH/H seizure attempt times (signaling) (for assignment)
Applying for TCH/H from the database, for immediate
assignment
RMS Cell
C10402 TCH/H seizure success times (signaling) (for assignment)
Application from the database successful
RMS Cell
C10403 TCH/H seizure failure times (signaling) (for assignment)
Application from the database fails
RMS Cell
C10404 TCH/H seizure attempt times (signaling) (for handover)
Applying for TCH/H from the database, for handover
RMS Cell
C10405 TCH/H seizure success times (signaling) (for handover)
Application from the database successful
RMS Cell
C10406 TCH/H seizure failure times (signaling) (for handover)
Application from the database fails
RMS Cell
C10407 TCH/H allocation attempt times (signaling) (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10408 TCH/H allocation success times (signaling) (for assignment)
ChannelActivationAck received
RMS Cell
C10409 TCH/H allocation failure times (signaling) (for assignment)
ChannelActivationNack received or
ChannelActivationAck not
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 533 of 591
Counter No. Counter description Explanations Source
Unit
received
C10410 TCH/H allocation attempt times (signaling) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10411 TCH/H allocation success times (signaling) (for handover)
ChannelActivationAck received
RMS Cell
C10412 TCH/H allocation failure times (signaling) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10413 TCH/H assignment attempt times (signaling)
BSC sends immediate assignment messages
RMS Cell
C10414 TCH/H assignment success times (signaling)
EstablishIndication received
RMS Cell
C10415 TCH/H assignment failure times (signaling)
EstablishIndication not received
RMS Cell
C10416 TCH/H handover attempt times (signaling)
Prepare for handover after receiving
ChannelActivationAck
RMS Cell
C10417 TCH/H handover success times (signaling)
AssignComplete is received in intra-cell handover, HandoverComplete is received in inter-cell
handover,
RMS Cell
C10418 TCH/H returned handover failure times (signaling)
Um_HandoverFailure received
RMS Cell
C10419 TCH/H non-returned handover failure times (signaling)
Handover failure in other conditions
RMS Cell
C10420 TCH/H seizure attempt times (voice) (for assignment)
Applying for TCH/H from the database, for
assignment
RMS Cell
C10421 TCH/H seizure success times (voice) (for assignment)
Application from the database successful
RMS Cell
C10422 TCH/H seizure failure times (voice) (for assignment)
Application from the database fails
RMS Cell
C10423 TCH/H seizure attempt times (voice) (for handover)
Applying for TCH/H from the database, for handover
RMS Cell
C10424 TCH/H seizure success times (voice) (for handover)
Application from the database successful
RMS Cell
C10425 TCH/H seizure failure times (voice) (for handover)
Application from the database fails
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 534 of 591
Counter No. Counter description Explanations Source
Unit
C10426 TCH/H allocation attempt times (voice version 1) (for
assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10427 TCH/H allocation success times (voice version 1) (for
assignment)
ChannelActivationAck received
RMS Cell
C10428 TCH/H allocation failure times (voice version 1) (for
assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10429 TCH/H allocation attempt times (voice version 1) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10430 TCH/H allocation success times (voice version 1) (for handover)
ChannelActivationAck received
RMS Cell
C10431 TCH/H allocation failure times (voice version 1) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10432 TCH/H allocation attempt times (voice version 2) (for
assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10433 TCH/H allocation success times (voice version 2) (for
assignment)
ChannelActivationAck received
RMS Cell
C10434 TCH/H allocation failure times (voice version 2) (for
assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10435 TCH/H allocation attempt times (voice version 2) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10436 TCH/H allocation success times (voice version 2) (for handover)
ChannelActivationAck received
RMS Cell
C10437 TCH/H allocation failure times (voice version 2) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10438 TCH/H allocation attempt times (voice version 3) (for
assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10439 TCH/H allocation success times (voice version 3) (for
assignment)
ChannelActivationAck received
RMS Cell
C10440 TCH/H allocation failure times (voice version 3) (for
ChannelActivationNack received or
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 535 of 591
Counter No. Counter description Explanations Source
Unit
assignment) ChannelActivationAck not received
C10441 TCH/H allocation attempt times (voice version 3) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10442 TCH/H allocation success times (voice version 3) (for handover)
ChannelActivationAck received
RMS Cell
C10443 TCH/H allocation failure times (voice version 3) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10444 TCH/H assignment attempt times (voice)
BSC sends AssignCommand to BTS
RMS Cell
C10445 TCH/H assignment success times (voice)
AssignmentComplete received
RMS Cell
C10446 TCH/H assignment failure times (voice)
AssignmentComplete not received
RMS Cell
C10447 TCH/H handover attempt times (voice)
Prepare for handover after receiving
ChannelActivationAck
RMS Cell
C10448 TCH/H handover success times (voice)
AssignComplete is received in intra-cell handover, HandoverComplete is received in inter-cell
handover,
RMS Cell
C10449 TCH/H returned handover failure times (voice)
Um_HandoverFailure received
RMS Cell
C10450 TCH/H non-returned handover failure times (voice)
Handover failure in other conditions
RMS Cell
C10451 TCH/H seizure attempt times (data) (for assignment)
Applying for TCH/H from the database, for
assignment.
RMS Cell
C10452 TCH/H seizure success times (data) (for assignment)
Application from the database successful
RMS Cell
C10453 TCH/H seizure failure times (data) (for assignment)
Application from the database fails
RMS Cell
C10454 TCH/H seizure attempt times (data) (for handover)
Applying for TCH/H from the database, for handover
RMS Cell
C10455 TCH/H seizure success times (data) (for handover)
Application from the database successful
RMS Cell
C10456 TCH/H seizure failure times (data) (for handover)
Application from the database fails
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 536 of 591
Counter No. Counter description Explanations Source
Unit
C10457 TCH/H allocation attempt times (data) (for assignment)
BSC sends ChannelActivation to BTS
RMS Cell
C10458 TCH/H allocation success times (data) (for assignment)
ChannelActivationAck received
RMS Cell
C10459 TCH/H allocation failure times (data) (for assignment)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10460 TCH/H allocation attempt times (data) (for handover)
BSC sends ChannelActivation to BTS
RMS Cell
C10461 TCH/H allocation success times (data) (for handover)
ChannelActivationAck received
RMS Cell
C10462 TCH/H allocation failure times (data) (for handover)
ChannelActivationNack received or
ChannelActivationAck not received
RMS Cell
C10463 TCH/H assignment attempt times (data)
BSC sends AssignCommand to BTS
RMS Cell
C10464 TCH/H assignment failure times (data)
AssignmentComplete received
RMS Cell
C10465 TCH/H assignment success times (data)
AssignmentComplete not received
RMS Cell
C10466 TCH/H handover attempt times (data)
Prepare for handover after receiving
ChannelActivationAck
RMS Cell
C10467 TCH/H handover success times (data)
AssignComplete is received in intra-cell handover, HandoverComplete is received in inter-cell
handover,
RMS Cell
C10468 TCH/H returned handover failure times (data)
Um_HandoverFailure received
RMS Cell
C10469 TCH/H non-returned handover failure times (data)
Handover failure in other conditions
RMS Cell
A.2.6 RMM assignment counter
This type of counters describes the assignment process of RMM. In an assignment operation, multiple attempts are allowable if the channel can not be applied for, so the whole assignment process must be described completely, and it is insufficient to only describe the assignment process
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 537 of 591
on TCH/F or TCH/H. These counters can be used to judge how forced release, queuing and directional retry contribute to the success rate of assignment from the view point of calls, as listed in Table A-8.
Table 2-8 RMM assignment counter
Counter No. Counter description Explanations Source Unit
C10501 Number of times for execution of general assignments (voice)
Without such processing as queuing and directional retry,
the criterion is whether an Assign Command is sent. As
to the next process, it is described by the assignment
counter of TCH
RMS Cell
C10502 Number of times for forced release attempt of assignment
(voice)
When no channel can be applied for from the database, a channel with lower priority
level is released by force.
RMS Cell
C10503 Number of times for execution of assignments due to forced
release (voice)
Forced release of the channel is successful, and the desired
channel is acquired.
RMS Cell
C10504 Number of times for queuing attempt of assignment (voice)
When no channel can be applied for from the database,
the system queues for the release of resources
RMS Cell
C10505 Number of times for execution of assignments due to queuing
(voice)
Queuing is successful, and the desired channel is acquired.
RMS Cell
C10506 Total time length of successful assignment queuing (voice)
The total amount of time taken for queuing
RMS Cell
C10507 Number of successful times for assignment queuing (voice)
Number of times for successful queuing
RMS Cell
C10508 Number of times for directional retry attempt of
assignment (voice)
When no channel can be applied for from the database, directional retry is performed
RMS Cell
C10509 Number of times for execution of assignments due to
directional retry (voice)
Directional retry is successful, and the desired
channel is acquired.
RMS Cell
C10510 Number of times for execution of general assignments (data)
Without such processing as queuing and directional retry,
the criterion is whether an Assign Command is sent. As
to the next process, it is described by the assignment
counter of TCH
RMS Cell
C10511 Number of times for forced release attempt of assignment
When no channel can be applied for from the database,
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 538 of 591
Counter No. Counter description Explanations Source Unit
(data) a channel with lower priority level is released by force.
C10512 Number of times for execution of assignments due to forced
release (data)
Forced release of the channel is successful, and the desired
channel is acquired.
RMS Cell
C10513 Number of times for queuing attempt of assignment (data)
When no channel can be applied for from the database,
the system queues for the release of resources
RMS Cell
C10514 Number of times for execution of assignments due to queuing
(data)
Queuing is successful, and the desired channel is acquired.
RMS Cell
C10515 Total time length of successful assignment queuing (data)
The total amount of time taken for successful assignment queuing
RMS Cell
C10516 Number of successful times for assignment queuing (data)
Number of times for successful queuing
RMS Cell
C10517 Number of times for directional retry attempt of
assignment (data)
When no channel can be applied for from the database, directional retry is performed
RMS Cell
C10518 Number of times for execution of assignments due to directional retry (data)
Directional retry is successful, and the desired
channel is acquired.
RMS Cell
A.2.7 RMM call drop counter
This type of counters is used for statistics of various call drop conditions, for the convenience of fault diagnosis, as listed in Table A-9.
Table A-9 RMM call drop counter
Counter No. Counter description Explanations Source Unit
C10601 Number of failures due to losing contact with SMM (On SDCCH)
No response from SMM until timeout
RMS Cell
C10602 Number of wireless link failures (On SDCCH)
Abis_ConnectFailInd is received
RMS Cell
C10603 Number of LAPD link failures (On SDCCH)
LAPD Release is received RMS Cell
C10604 Number of forced release times by OMC-R (On SDCCH)
OMS_ForcedRelease is received
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 539 of 591
Counter No. Counter description Explanations Source Unit
C10605 Number of forced release times by other calls (On SDCCH)
Preemptive is received RMS Cell
C10606 Number of other call drop times (On SDCCH)
Call drop due to other reasons
RMS Cell
C10607 Number of failures due to losing contact with SMM (On TCH/F
signaling)
No response from SMM until timeout
RMS Cell
C10608 Number of wireless link failures (On TCH/F signaling)
Abis_ConnectFailInd is received
RMS Cell
C10609 Number of LAPD link failures (On TCH/F signaling)
LAPD Release is received RMS Cell
C10610 Number of forced release times by OMC-R (On TCH/F signaling)
OMS_ForcedRelease is received
RMS Cell
C10611 Number of forced release times by other calls (On TCH/F signaling)
Preemptive is received RMS Cell
C10612 Number of other call drop times (On TCH/F signaling)
Call drop due to other reasons
RMS Cell
C10613 Number of failures due to losing contact with SMM (On TCH/F
voice)
No response from SMM until timeout
RMS Cell
C10614 Number of wireless link failures (On TCH/F voice)
Abis_ConnectFailInd is received
RMS Cell
C10615 Number of LAPD link failures (On TCH/F voice)
LAPD Release is received RMS Cell
C10616 Number of forced release times by OMC-R (On TCH/F voice)
OMS_ForcedRelease is received
RMS Cell
C10617 Number of forced release times by other calls (On TCH/F voice)
Preemptive is received RMS Cell
C10618 Number of other call drop times (On TCH/F voice)
Call drop due to other reasons
RMS Cell
C10619 Number of failures due to losing contact with SMM (On TCH/F
data)
No response from SMM until timeout
RMS Cell
C10620 Number of wireless link failures (On TCH/F data)
Abis_ConnectFailInd is received
RMS Cell
C10621 Number of LAPD link failures (On TCH/F data)
LAPD Release is received RMS Cell
C10622 Number of forced release times by OMC-R (On TCH/F data)
OMS_ForcedRelease is received
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 540 of 591
Counter No. Counter description Explanations Source Unit
C10623 Number of forced release times by other calls (On TCH/F data)
Preemptive is received RMS Cell
C10624 Number of other call drop times (On TCH/F data)
Call drop due to other reasons
RMS Cell
C10625 Number of failures due to losing contact with SMM (On TCH/H
signaling)
No response from SMM until timeout
RMS Cell
C10626 Number of wireless link failures (On TCH/H signaling)
Abis_ConnectFailInd is received
RMS Cell
C10627 Number of LAPD link failures (On TCH/H signaling)
LAPD Release is received RMS Cell
C10628 Number of forced release times by OMC-R (On TCH/H signaling)
OMS_ForcedRelease is received
RMS Cell
C10629 Number of forced release times by other calls (On TCH/H signaling)
Preemptive is received RMS Cell
C10630 Number of other call drop times (On TCH/H signaling)
Call drop due to other reasons
RMS Cell
C10631 Number of failures due to losing contact with SMM (On TCH/H
voice)
No response from SMM until timeout
RMS Cell
C10632 Number of wireless link failures (On TCH/H voice)
Abis_ConnectFailInd is received
RMS Cell
C10633 Number of LAPD link failures (On TCH/H voice)
LAPD Release is received RMS Cell
C10634 Number of forced release times by OMC-R (On TCH/H voice)
OMS_ForcedRelease is received
RMS Cell
C10635 Number of forced release times by other calls (On TCH/H voice)
Preemptive is received RMS Cell
C10636 Number of other failure times (On TCH/H voice)
Call drop due to other reasons
RMS Cell
C10637 Number of failures due to losing contact with SMM (On TCH/H
data)
No response from SMM until timeout
RMS Cell
C10638 Number of wireless link failures (On TCH/H data)
Abis_ConnectFailInd is received
RMS Cell
C10639 Number of LAPD link failures (On TCH/H data)
LAPD Release is received RMS Cell
C10640 Number of forced release times by OMC-R (On TCH/H data)
OMS_ForcedRelease is received
RMS Cell
C10641 Number of forced release times by other calls (On TCH/H data)
Preemptive is received RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 541 of 591
Counter No. Counter description Explanations Source Unit
C10642 Number of other call drop times (On TCH/H data)
Call drop due to other reasons
RMS Cell
C10643 Number of SDCCH call drop times Call loss due to wireless reasons after successful
assignment
Cell
C10644 Number of TCH/F call drop times Call loss due to wireless reasons after successful
assignment
RMS Cell
C10645 Number of TCH/H call drop times Call loss due to wireless reasons after successful
assignment
RMS Cell
C10646 Call drop due to handover failure No HoCom or AssigCom message is received until
timeout
RMS Cell
Note: These counters take statistics for various call drop conditions, so as to facilitate fault diagnosis.
A.2.8 Radio measurement counter
These parameters reflect the interference and service quality of channels in seizure and idle states.
Ordinary measurement reports and preprocessing measurement reports are handled in the same way, as listed in Table A-10.
Table A-10 Radio measurement counters
Counter No. Counter description Explanations Source Unit
C10701 Number of uplink quality samples on radio channel
Counted when measurement reports are received or pre-processed. The same below.
RMS Cell
C10702 The worst uplink quality level on radio channel
RMS Cell
C10703 The total number of uplink quality levels on radio channel
RMS Cell
C10704 Number of downlink quality samples on radio channel
RMS Cell
C10705 The worst downlink quality level on radio channel
RMS Cell
C10706 The total number of downlink RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 542 of 591
Counter No. Counter description Explanations Source Unit
quality levels on radio channel
C10707 Number of uplink receiving intensity samples on radio channel
RMS Cell
C10708 The highest uplink receiving intensity on radio channel
RMS Cell
C10709 The lowest uplink receiving intensity on radio channel
RMS Cell
C10710 The total number of uplink receiving intensities on radio
channel
RMS Cell
C10711 Number of downlink receiving intensity samples on radio channel
RMS Cell
C10712 The highest downlink receiving intensity on radio channel
RMS Cell
C10713 The lowest downlink receiving intensity on radio channel
RMS Cell
C10714 The total number of downlink receiving intensities on radio
channel
RMS Cell
C10715 Number of TA samples on radio channel
RMS Cell
C10716 Maximum TA of radio channel RMS Cell
C10717 Total number of radio channel TAs RMS Cell
C10718 The average number of available TCH/Fs in interference band 0
DBS Cell
C10719 The average number of available TCH/Fs in interference band 1
Call the database interface to query resource conditions
according to the cell No. The same below.
DBS Cell
C10720 The average number of available TCH/Fs in interference band 2
DBS Cell
C10721 The average number of available TCH/Fs in interference band 3
DBS Cell
C10722 The average number of available TCH/Fs in interference band 4
DBS Cell
C10723 The average number of available TCH/Fs in interference band 5
DBS Cell
C10724 The average number of available TCH/Hs in interference band 0
DBS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 543 of 591
Counter No. Counter description Explanations Source Unit
C10725 The average number of available TCH/Hs in interference band 1
DBS Cell
C10726 The average number of available TCH/Hs in interference band 2
DBS Cell
C10727 The average number of available TCH/Hs in interference band 3
DBS Cell
C10728 The average number of available TCH/Hs in interference band 4
DBS Cell
C10729 The average number of available TCH/Hs in interference band 5
DBS Cell
C10730 The average number of available SDCCHs in interference band 0
DBS Cell
C10731 The average number of available SDCCHs in interference band 1
DBS Cell
C10732 The average number of available SDCCHs in interference band 2
DBS Cell
C10733 The average number of available SDCCHs in interference band 3
DBS Cell
C10734 The average number of available SDCCHs in interference band 4
DBS Cell
C10735 The average number of available SDCCHs in interference band 5
DBS Cell
Note: These parameters reflect the interference and service quality of channels in seized and idle states.
Ordinary measurement reports and preprocessing measurement reports are handled in the same way
A.2.9 Handover reason counter
This type of counters is used to count the number of handover attempts due to various reasons. Since handover generally happens only in necessary conditions, these data are quite significant to the appraisement of network service quality, as listed in Table A-11.
Table A-11 Handover reason counters
Counter No. Counter description Explanations Source Unit
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 544 of 591
Counter No. Counter description Explanations Source Unit
C10801 Handover attempt due to directional retry
No channel can be applied for during assignment, so
directional retry is performed.
RMS Cell
C10802 Handover attempt due to uplink receiving intensity (on SDCCH)
The handover is due to high uplink bit error rate or low
uplink level
RMS Cell
C10803 Handover attempt due to downlink receiving intensity (on SDCCH)
The handover is due to high downlink bit error rate or
low downlink level
RMS Cell
C10804 Handover attempt due to uplink interference (on SDCCH)
Because of uplink interference
RMS Cell
C10805 Handover attempt due to downlink interference (on SDCCH)
Because of downlink interference
RMS Cell
C10806 Handover attempt due to C/I (on SDCCH)
Because of concentric circle handover to STRX or to
NTRX
RMS Cell
C10807 Handover attempt due to PBGT (on SDCCH)
Boundary handover due to PBGT value
RMS Cell
C10808 Handover attempt due to TA being too large (on SDCCH)
Because the distance between MS and the network is too long
RMS Cell
C10809 Handover attempt due to MSC request (on SDCCH)
E.g., handover attempts due to interrogation of
handover candidates
RMS Cell
C10810 Handover attempt due to traffic (on SDCCH)
Handover triggered due to traffic
RMS Cell
C10811 Handover attempt due to other reasons (on SDCCH)
The handover is due to other reasons, such as fast fading and macro/micro
handover, etc.
RMS Cell
C10812 Handover attempt due to uplink receiving intensity (on TCH/F)
The handover is due to high uplink bit error rate or low
uplink level
RMS Cell
C10813 Handover attempt due to downlink receiving intensity (on TCH/F)
The handover is due to high downlink bit error rate or
low downlink level
RMS Cell
C10814 Handover attempt due to uplink interference (on TCH/F)
Because of uplink interference
RMS Cell
C10815 Handover attempt due to downlink interference (on TCH/F)
Because of downlink interference
RMS Cell
C10816 Handover attempt due to C/I (on TCH/F)
Because of concentric circle handover to STRX or to
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 545 of 591
Counter No. Counter description Explanations Source Unit
NTRX
C10817 Handover attempt due to PBGT (on TCH/F)
Boundary handover due to PBGT value
RMS Cell
C10818 Handover attempt due to TA being too large (on TCH/F)
Because the distance between MS and the network is too long
RMS Cell
C10819 Handover attempt due to MSC request (on TCH/F)
E.g., handover attempts due to interrogation of
handover candidates
RMS Cell
C10820 Handover attempt due to traffic (on TCH/F)
Handover triggered due to traffic
RMS Cell
C10821 Handover attempt due to other reasons (on TCH/F)
The handover is due to other reasons, such as fast fading and macro/micro
handover, etc.
RMS Cell
C10822 Handover attempt due to uplink receiving intensity (on TCH/H)
The handover is due to high uplink bit error rate or low
uplink level
RMS Cell
C10823 Handover attempt due to downlink receiving intensity (on TCH/H)
The handover is due to high downlink bit error rate or
low downlink level
RMS Cell
C10824 Handover attempt due to uplink interference (on TCH/H)
Because of uplink interference
RMS Cell
C10825 Handover attempt due to downlink interference (on TCH/H)
Because of downlink interference
RMS Cell
C10826 Handover attempt due to C/I (on TCH/H)
Because of concentric circle handover to STRX or to
NTRX
RMS Cell
C10827 Handover attempt due to PBGT (on TCH/H)
Boundary handover due to PBGT value
RMS Cell
C10828 Handover attempt due to TA being too large (on TCH/H)
Because the distance between MS and the network is too long
RMS Cell
C10829 Handover attempt due to MSC request (on TCH/H)
E.g., handover attempts due to interrogation of
handover candidates
RMS Cell
C10830 Handover attempt due to traffic (on TCH/H)
Handover triggered due to traffic
RMS Cell
C10831 Handover attempt due to other reasons (on TCH/H)
The handover is due to other reasons, such as fast fading and macro/micro
handover, etc.
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 546 of 591
Counter No. Counter description Explanations Source Unit
C10832 Handover attempt due to enlarging of TA in expansion cell (on TCH/F)
The enlarging of TA causes switchover from normal carrier to expanded carrier
RMS Cell
C10833
Handover attempt due to diminishing of TA in expansion cell
(on TCH/F)
The diminishing of TA causes switchover from
expanded carrier to normal carrier
RMS Cell
A.2.10 General counter of handover
This type of counters is mainly used to check the handover status, and the objective is to distinguish inner and outer circles, levels and frequency bands, and the controlling side, as listed in Table A-12. In the table, both BSC handover and MSC handover refer to inter-cell handover.
Table A-12 General counter of handover
Counter No. Counter description Explanations Source Unit
C10901 The Number of BSC-controlled Inter-cell Outgoing
Handover Attempts
Counted when handover is necessary after a measurement
report or pre-processing measurement report is received.
RMS Cell
C10902 The Number of times for execution of BSC-controlled Inter-cell Outgoing Handover
After the application of resources to the target instance
is successful
RMS Cell
C10903 The Number of Successful BSC-controlled inter-cell
Outgoing Handovers
The Handover Complete message from the target instance
is received
RMS Cell
C10904 The Number of MSC-controlled Outgoing Handover
Attempts
Counted when handover is necessary after a measurement
report or pre-processing measurement report is received.
A handover request is sent to MSC after the interrogation of MSC handover candidates is
received
RMS Cell
C10905 The Number of MSC-controlled Outgoing Handover
Request Failures due to unknown reasons
T7 timeout (possibly HO Require does not use the response request unit)
RMS Cell
C10906 The Number of MSC-controlled Outgoing Handover
Request Failures due to no available land resources
The received handover request is rejected
RMS Cell
C10907 The Number of MSC-controlled Outgoing Handover
Request Failures due to no
The received handover request is rejected
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 547 of 591
Counter No. Counter description Explanations Source Unit
available radio resources
C10908 The Number of MSC-controlled Outgoing Handover Request Failures due to other
reasons
The received handover request is rejected.
Device failure, invalid message, etc.
RMS Cell
C10909 The Number of times for execution of MSC-controlled
Outgoing Handover
Counted if Handover Command is sent
RMS Cell
C10910 The Number of Successful MSC-controlled Outgoing
Handovers
Counted if the reason value in the received Clear Command
message is successful handover
RMS Cell
C10911 The Number of BSC-controlled Inter-cell Incoming
Handover Attempts
The target instance receives the RadioApply message due to
intra-cell handover
RMS Cell
C10912 The Number of times for execution of BSC-controlled Inter-cell Incoming Handover
Resources have been requested successfully, and the
RadioAvailable message is returned to the source instance
RMS Cell
C10913 The Number of Successful BSC-controlled inter-cell
Incoming Handovers
The Handover Complete message has been received from
MS
RMS Cell
C10914 The Number of MSC-controlled Incoming Handover Attempts
The total number of received handover attempts
RMS Cell
C10915 The Number of times for execution of MSC-controlled Incoming Handover (general)
Resources have been requested successfully from the database
RMS Cell
C10916 The Number of Forced Release Attempts of MSC-
controlled Incoming Handover
When no channel can be applied for from the database, a channel
with lower priority level is released by force.
RMS Cell
C10917 The Number of times for execution of MSC-controlled Incoming Handover (forced
release)
Forced release of the channel is successful, and the desired
channel is acquired.
RMS Cell
C10918 The Number of Queuing Attempts of MSC-controlled
Incoming Handover
When no channel can be applied for from the database, the
system queues for the release of resources
RMS Cell
C10919 The Number of times for execution of MSC-controlled Incoming Handover (queuing)
Queuing is successful, and the desired channel is acquired.
RMS Cell
C10920 The Number of Successful MSC-controlled Incoming
Handovers
Handover Complete received RMS Cell
C10921 The total queuing time of MSC-controlled Incoming
Handover
The total amount of time taken for queuing in incoming
handover
RMS Cell
C10922 The Number of MSC-controlled Incoming Handover Queues
The Number of Incoming Handover Queues
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 548 of 591
Counter No. Counter description Explanations Source Unit
C10923 The Total queuing time of Successful MSC-controlled
Incoming Handover
The total amount of time taken for queuing of successful
incoming handover
RMS Cell
C10924 The Number of Successful MSC-controlled Incoming
Handover Queues
Number of times for successful queuing of incoming handover
RMS Cell
C10925 Number of incoming handover attempts from the same layer and the same frequency band
RMS Cell
C10926 Number of successful incoming handovers from the
same layer and the same frequency band
RMS Cell
C10927 Number of outgoing handover attempts to the same layer and
the same frequency band
RMS Cell
C10928 Number of successful outgoing handovers to the same layer and the same
frequency band
RMS Cell
C10929 Number of incoming handover attempts from a undefined
layer and the same frequency band
RMS Cell
C10930 Number of successful incoming handovers from a
undefined layer and the same frequency band
RMS Cell
C10931 Number of outgoing handover attempts to a undefined layer and the same frequency band
RMS Cell
C10932 Number of successful outgoing handovers to a
undefined layer and the same frequency band
RMS Cell
C10933 Number of incoming handover attempts from a undefined
layer (GSM 900? GSM 1800)
RMS Cell
C10934 Number of incoming handovers from a undefined
layer (GSM 900? GSM 1800)
C10935 Number of successful incoming handovers from a
undefined layer (GSM 900?GSM 1800)
RMS Cell
C10936 Number of outgoing handover attempts to a undefined layer
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 549 of 591
Counter No. Counter description Explanations Source Unit
(GSM 900? GSM 1800)
C10937 Number of successful outgoing handovers to a
undefined layer (GSM 900?GSM 1800)
RMS Cell
C10938 Number of incoming handover attempts from a undefined
layer (GSM 1800? GSM 900)
RMS Cell
C10939 Number of incoming handovers from a undefined
layer (GSM 1800? GSM 900)
RMS Cell
C10940 Number of successful incoming handovers from a
undefined layer (GSM 1800? GSM 900)
RMS Cell
C10941 Number of outgoing handover attempts to a undefined layer
(GSM 1800? GSM 900)
RMS Cell
C10942 Number of successful outgoing handovers to a
undefined layer (GSM 1800? GSM 900)
RMS Cell
C10943 Number of incoming handover attempts from the upper layer and the same frequency band
RMS Cell
C10944 Number of successful incoming handovers from the
upper layer and the same frequency band
RMS Cell
C10945 Number of outgoing handover attempts to the upper layer and
the same frequency band
RMS Cell
C10946 Number of successful outgoing handovers to the upper layer and the same
frequency band
RMS Cell
C10947 Number of incoming handover attempts from the lower layer and the same frequency band
RMS Cell
C10948 Number of successful incoming handovers from the
lower layer and the same frequency band
RMS Cell
C10949 Number of outgoing handover attempts to the lower layer and
the same frequency band
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 550 of 591
Counter No. Counter description Explanations Source Unit
C10950 Number of successful outgoing handovers to the lower layer and the same
frequency band
RMS Cell
C10951 Number of incoming handover attempts from the same layer
and a different frequency band (GSM 900? GSM 1800)
RMS Cell
C10952 Number of incoming handovers from the same layer and a different frequency band
(GSM 900? GSM 1800)
RMS Cell
C10953 Number of successful incoming handovers from the
same layer and a different frequency band (GSM 900?
GSM 1800)
RMS Cell
C10954 Number of outgoing handover attempts to the same layer and
a different frequency band (GSM 900? GSM 1800)
RMS Cell
C10955 Number of successful outgoing handovers to the same layer and a different
frequency band (GSM 900?GSM 1800)
RMS Cell
C10956 Number of incoming handover attempts from the upper layer and a different frequency band
(GSM 900? GSM 1800)
RMS Cell
C10957 Number of incoming handovers from the upper
layer and a different frequency band (GSM 900? GSM 1800)
RMS Cell
C10958 Number of successful incoming handovers from the
upper layer and a different frequency band (GSM 900?
GSM 1800)
RMS Cell
C10959 Number of outgoing handover attempts to the upper layer and
a different frequency band (GSM 900? GSM 1800)
RMS Cell
C10960 Number of successful outgoing handovers to the upper layer and a different
frequency band (GSM 900?GSM 1800)
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 551 of 591
Counter No. Counter description Explanations Source Unit
C10961 Number of incoming handover attempts from the lower layer and a different frequency band
(GSM 900? GSM 1800)
RMS Cell
C10962 Number of incoming handovers from the lower
layer and a different frequency band (GSM 900? GSM 1800)
RMS Cell
C10963 Number of successful incoming handovers from the
lower layer and a different frequency band (GSM 900?
GSM 1800)
RMS Cell
C10964 Number of outgoing handover attempts to the lower layer and
a different frequency band (GSM 900? GSM 1800)
RMS Cell
C10965 Number of successful outgoing handovers to the lower layer and a different
frequency band (GSM 900?GSM 1800)
RMS Cell
C10966 Number of incoming handover attempts from the same layer
and a different frequency band (GSM 1800? GSM 900)
RMS Cell
C10967 Number of incoming handovers from the same layer and a different frequency band
(GSM 1800? GSM 900)
RMS Cell
C10968 Number of successful incoming handovers from the
same layer and a different frequency band
(GSM 1800? GSM 900)
RMS Cell
C10969 Number of outgoing handover attempts to the same layer and
a different frequency band (GSM 1800? GSM 900)
RMS Cell
C10970 Number of successful outgoing handovers to the same layer and a different
frequency band (GSM 1800? GSM 900)
RMS Cell
C10971 Number of incoming handover attempts from the upper layer and a different frequency band
(GSM 1800? GSM 900)
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 552 of 591
Counter No. Counter description Explanations Source Unit
C10972 Number of incoming handovers from the upper
layer and a different frequency band (GSM 1800? GSM 900)
RMS Cell
C10973 Number of successful incoming handovers from the
upper layer and a different frequency band
(GSM 1800? GSM 900)
RMS Cell
C10974 Number of outgoing handover attempts to the upper layer and
a different frequency band (GSM 1800? GSM 900)
RMS Cell
C10975 Number of successful outgoing handovers to the upper layer and a different
frequency band (GSM 1800? GSM 900)
RMS Cell
C10976 Number of incoming handover attempts from the lower layer and a different frequency band
(GSM 1800? GSM 900)
RMS Cell
C10977 Number of incoming handovers from the lower
layer and a different frequency band (GSM 1800? GSM 900)
RMS Cell
C10978 Number of successful incoming handovers from the
lower layer and a different frequency band
(GSM 1800? GSM 900)
RMS Cell
C10979 Number of outgoing handover attempts to the lower layer and
a different frequency band (GSM 1800? GSM 900)
RMS Cell
C10980 Number of successful outgoing handovers to the lower layer and a different
frequency band (GSM 1800? GSM 900)
RMS Cell
C10981 Intra-cell handover attempt times
RMS Cell
C10982 Intra-cell handover success times
RMS Cell
C10983 Intra-cell handover attempt times from the inner circle to
the outer circle
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 553 of 591
Counter No. Counter description Explanations Source Unit
C10984 Intra-cell handover success times from the inner circle to
the outer circle
RMS Cell
C10985 Intra-cell handover attempt times from the outer circle to
the inner circle
RMS Cell
C10986 Intra-cell handover success times from the outer circle to
the inner circle
RMS Cell
C10987 Intra-cell handover attempt times from the inner circle to
the inner circle
RMS Cell
C10988 Intra-cell handover success times from the inner circle to
the inner circle
RMS Cell
C10989 Intra-cell handover attempt times from the outer circle to
the outer circle
For non-concentric circle cells, it is the same as that of intra-cell
handover
RMS Cell
C10990 Intra-cell handover success times from the outer circle to
the outer circle
For non-concentric circle cells, it is the same as that of intra-cell
handover
RMS Cell
Note: the above counters are used to check the status of concentric circle handover.
Note: The analysis of C10901~ C10924 is from the view point of control entities. For different entities, the time delays for controlling handover are different, so here what is counted includes not only the number of execution times but also the number of successful incoming handovers. The handover success rate of TCH is not used simply here in order to determine how great the influence of handover time delay is, and also to judge how much help queuing and forced release, etc will give to improving the handover success rate. The above reasons will not be distinguished any more for the handovers of C10925~ C10980 which are judged from the view point of layers because the analysis from one view point is enough for determining the action of queuing, etc, and it is unnecessary to count from several view points. This judgment is only applicable to inter-cell handover in a BSC, and it is unable to count the external handover controlled by MSC. The counters of C10981~ C10990 are used to check the handover of concentric circles.
A.2.11 RMM queue counter
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 554 of 591
The RMM queue counters are listed in Table A-13.
Table A-13 RMM queue counter
Counter No.
Counter description Explanations Source Unit
C11001 Average queue length Queried according to the cell number
RMS Cell
C11002 Total queuing time Counted when quitting a queue due to queuing
failure or acquiring the resources successfully
RMS Cell
C11003 Total number of queues The same as above RMS Cell
C11004 Total time of successful queuing
Counted when acquiring the resources successfully
RMS Cell
C11005 Total number of successful queues
The same as above RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 555 of 591
A.2.12 Handover synchronization mode counter
The handover synchronization mode counters are listed in Table A-14.
Table A-14 Handover synchronization mode counter
Counter No. Counter description Source Unit
C11201 Synchronized handover execution times
RMS Cell
C11202 Synchronized handover success times
RMS Cell
C11203 Pre-synchronized handover execution times
RMS Cell
C11204 Pre-synchronous handover success times
RMS Cell
C11205 Pseudo-synchronized handover execution times
RMS Cell
C11206 Pseudo-synchronized handover success times
RMS Cell
C11207 Asynchronous handover execution times
RMS Cell
C11208 Asynchronous handover success times
RMS Cell
A.2.13 Paging counter
The paging counters are listed in Table A-15
Table A-15 Paging counter
Counter No. Counter description Explanations Source Unit
C11301 Number of paging messages
Number of times for sending paging messages to cells
L3GP Cell
A.2.14 Abis interface message counter
The Abis interface message counters are listed in Table A-16.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 556 of 591
Table A-16 Abis interface message counter
Counter No. Counter description Source Unit
C11401 DATA REQuest quantity PnDS Cell
C11402 DATA INDication quantity PnDS Cell
C11403 ERROR INDication quantity PnDS Cell
C11404 ESTablish REQuest quantity PnDS Cell
C11405 ESTablish CONFirm quantity PnDS Cell
C11406 ESTablish INDication quantity PnDS Cell
C11407 RELease REQuest quantity PnDS Cell
C11408 RELease CONFirm quantity PnDS Cell
C11409 RELease INDication quantity PnDS Cell
C11410 UNIT DATA REQuest quantity PnDS Cell
C11411 UNIT DATA INDication quantity PnDS Cell
C11412 CHANnel ACTIVation quantity PnDS Cell
C11413 CHANnel ACTIVation ACK quantity
PnDS Cell
C11414 CHANnel ACTIVation Negative ACK quantity
PnDS Cell
C11415 CONNection FAILure INDication quantity
PnDS Cell
C11416 DEACTIVATE SACCH quantity PnDS Cell
C11417 ENCRyption CoMmanD quantity PnDS Cell
C11418 HANDOver DETection quantity PnDS Cell
C11419 MEASurement RESult quantity PnDS Cell
C11420 MODE MODIFY REQuest quantity
PnDS Cell
C11421 MODE MODIFY ACKnowledge quantity
PnDS Cell
C11422 MODE MODIFY Negative ACKnowledge quantity
PnDS Cell
C11423 PHYsical CONTEXT REQuest quantity
PnDS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 557 of 591
Counter No. Counter description Source Unit
C11424 PHYsical CONTEXT CONFirm quantity
PnDS Cell
C11425 RF CHANnel RELease quantity PnDS Cell
C11426 MS POWER CONTROL quantity PnDS Cell
C11427 BS POWER CONTROL quantity PnDS Cell
C11428 PREPROCecc CONFIGure quantity
PnDS Cell
C11429 PREPROCessed MEASurement RESult quantity
PnDS Cell
C11430 RF CHANnel RELease ACKnowledge quantity
PnDS Cell
C11431 SACCH INFO MODIFY quantity PnDS Cell
A.2.15 Radio resources availability counter
The radio resources availability counters are listed in Table A-17
Table A-17 Radio resources availability counters
Counter No.
Counter description Explanations Source Unit
C11501 Average number of available SDCCHs
DBS Cell
C11502 Average number of unavailable SDCCHs
DBS Cell
C11503 Maximum number of busy SDCCHs RMS Cell
C11504 Average number of busy SDCCHs RMS Cell
C11505 Total busy time of SDCCH RMS Cell
C11506 Total congestion time of SDCCH The total time when the cell can not get SDCCH
RMS Cell
C11507 Average number of available TCH/H
DBS Cell
C11508 Average number of unavailable TCH/H
DBS Cell
C11509 Maximum number of busy TCH/H RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 558 of 591
Counter No.
Counter description Explanations Source Unit
C11510 Average number of busy TCH/H RMS Cell
C11511 Total busy time of TCH/H RMS Cell
C11512 Total congestion time of TCH/H The total time when the cell can not get TCH/H
RMS Cell
C11513 Average number of available TCH/F
DBS Cell
C11514 Average number of unavailable TCH/F
DBS Cell
C11515 Maximum number of busy TCH/F RMS Cell
C11516 Average number of busy TCH/F RMS Cell
C11517 Total busy time of TCH/F RMS Cell
C11518 Total congestion time of TCH/F The total time when the cell can not get TCH/F
RMS Cell
C11519 Total number of carriers DBS Cell
C11520 Total number of intact carriers DBS Cell
A.2.16 Counters for generating the report forms required by the National Telecommunications Bureau
The counters for generating the report forms required by the National Telecommunications Bureau are listed in Table A-18.
Table a-18 the counters for generating the report forms required by the National Telecommunications Bureau
Counter No.
Counter description Explanations Source Unit
C11601 Total number of available SDCCHs
The number of SDCCHs that can be assigned normally. RMS Cell
C11602 Total number of unavailable SDCCHs
The number of SDCCHs that cannot be assigned normally. RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 559 of 591
Counter No.
Counter description Explanations Source Unit
C11603
Total call attempts of SDCCH
The total number of call attempts of the system to SDCCH. The call attempts include the statuses of requesting to allocate the SDCCH, such as the normal originating call, location update, call resetup, IMSI request, IMSI separation and short message, etc.
RMS Cell
C11604
Total overflow times of SDCCH
Means the total times that the system cannot assign the SDCCH channel for all the call attempts to SDCCH, i.e. the failure times of occupancy.
RMS Cell
C11605
Total number call drops of SDCCH
After the system assigns the SDCCH during the calling course, the total number of call drops before the TCH is not occupied.
RMS Cell
C11606 Total busy time of SDCCH
The total time of using SDCCH RMS Cell
C11607 Total number of available voice channels
The number of TCHs that can be assigned normally. RMS Cell
C11608 Total number of unavailable voice channels
The number of TCHs that cannot be assigned normally. RMS Cell
C11609
Total number of call attempts of the voice channel (without containing the handover)
Means all of call attempts to TCH after the SDCCH is occupied. The call attempt includes the condition that both the caller and the called parties try to set up communication, and also the status that the TCH channel is assigned to be used as SDCCH in very early allocation, but excluding various handover conditions.
RMS Cell
C11610
Total number overflow times of voice channel (without containing the handover)
All overflow times of call to TCH after the SDCCH is occupied. The overflow includes the condition that the caller and callee try and fail to set up TCH after the SDCCH is occupied, and also the state that the TCH channel is assigned to be used as SDCCH in very early allocation, but not including the various handover conditions
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 560 of 591
Counter No.
Counter description Explanations Source Unit
C11611
Total number call attempts of voice channel (containing the handover)
Means the number of all call attempts to TCH after the SDCCH is occupied. The call attempt includes the condition that the caller and callee try to set up communication, and also the state that the TCH channel is assigned to be used as SDCCH in very early allocation, including the various handover and direct retry conditions.
RMS Cell
C11612
Total number of overflow times of voice channel (containing handover)
Means all overflow times of call to TCH after the SDCCH is occupied. The overflow contains the condition that the caller and callee try and fail to set up TCH after the SDCCH is occupied, also the state that the TCH channel is assigned to be used as SDCCH in very early allocation, including the various handover and direct retry conditions
RMS Cell
C11613
Total number of occupancy times of voice channel (without containing handover)
Indicates the successful occupancy times to the voice channel of radio interface. RMS Cell
C11614
Total number of occupancy times of voice channel (containing handover)
RMS Cell
C11615
Total number of call drop times of voice channel
Indicates the call loss caused by radio reasons after the voice channel is successfully assigned to users. Includes the call drops in and after handover
RMS Cell
C11616 Total busy time of voice channel
The total sum of time that the voice channel is used. RMS Cell
C11617
Total number requests for handover (number of incoming handover times)
Means the total number of handover requests of the system between cells of the same BSC and those of different BSCs. Includes the number of incoming handover times to cells
RMS Cell
C11618
Total number of times for successful handover (number of successful times for incoming handover)
Means the total number of successful handover times of the system between cells of the same BSC and those of different BSCs. Includes the number of incoming handover times to cells
RMS Cell
C11619 Total number of call attempts for dual frequency handover
The number of handover attempts between the systems of GSM 900M and GSM 1800
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 561 of 591
Counter No.
Counter description Explanations Source Unit
C11620 Number of success times for dual frequency handover
The times of successful handover between the systems of GSM 900M and GSM 1800
RMS Cell
C11621 Number of paging
messages
C11622
Number of call drop
times due to radio link
failure
RMS Cell
C11623
Number of call drop
times due to LAPD link
failure
RMS Cell
C11624
Number of call drop
times due to handover
failure
RMS Cell
C11625 Number of random
access call attempts RMS Cell
C11626 Number of successful
times for random access RMS Cell
C11627 Maximum number of
busy SDCCHs RMS Cell
C11628 Average number of busy
SDCCHs RMS Cell
C11629 Total congestion time of
SDCCH RMS Cell
C11630 Maximum number of
busy TCH/F RMS Cell
C11631 Average number of busy
TCH/F RMS Cell
C11632 Total congestion time of
TCH/F
RMS Cell
C11633 Total number of intact
carriers
RMS Cell
C11634 Number of successful
access times for
emergent calls
RMS Cell
C11635 Number of successful
access times for call
resetup
RMS Cell
C11636 Number of successful
MOC access times
RMS Cell
C11637 Number of successful
MTC access times
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 562 of 591
Counter No.
Counter description Explanations Source Unit
C11638 Number of successful
LOC access times
RMS Cell
C11639 Number of success times
for other access requests
RMS Cell
C11640 Number of success times
for SDCCH allocation
(without containing
handover)
RMS Cell
C11641 Number of failure times
for SDCCH allocation
(without containing
handover)
RMS Cell
C11642 Number of success times
for SDCCH allocation
(containing handover)
RMS Cell
C11643 Number of failure times
for SDCCH allocation
(containing handover)
RMS Cell
C11644 Number of success times
for SDCCH assignment
RMS Cell
C11645 Number of failure times
for SDCCH assignment
RMS Cell
C11646 Number of success times
for SDCCH handover
RMS Cell
C11647 SDCCH returned
handover failure times
RMS Cell
C11648 SDCCH non-returned
handover failure times
RMS Cell
C11649 Number of DTAP
messages used for point-
to-point short messages
in SDCCH uplink
RMS Cell
C11650 Number of DTAP
messages used for point-
to-point short messages
in SDCCH downlink
RMS Cell
C11651 Number of DTAP
messages used for point-
to-point short messages
in FACCH/F uplink
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 563 of 591
Counter No.
Counter description Explanations Source Unit
C11652 Number of DTAP
messages used for point-
to-point short messages
in FACCH/F downlink
RMS Cell
C11653 Number of success times
for TCH/F allocation
(without including
handover)
RMS Cell
C11654 Number of failure times
for TCH/F allocation
(without including
handover)
RMS Cell
C11655 Number of success times
for TCH/F allocation
(including handover)
RMS Cell
C11656 Number of failure times
for TCH/F allocation
(including handover)
RMS Cell
C11657 Number of success times
for TCH/F assignment
RMS Cell
C11658 Number of failure times
for TCH/F assignment
RMS Cell
C11659 Number of success times
for TCH/F handover
RMS Cell
C11660 Number of failure times
for TCH/F returned
handover
RMS Cell
C11661 Number of failure times
for TCH/F non-returned
handover
RMS Cell
C11662 Number of times for
queuing attempt of
assignment
RMS Cell
C11663 Number of times for
execution of assignments
due to queuing
RMS Cell
C11664 Total time length of
successful assignment
queuing
RMS Cell
C11665 Number of successful
times for assignment
queuing
RMS Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 564 of 591
Counter No.
Counter description Explanations Source Unit
C11666 Number of times for
directional retry attempt
of assignment
RMS Cell
C11667 Number of times for
execution of assignments
due to directional retry
RMS Cell
C11668 Number of outgoing
handover times
RMS Cell
C11669 Number of successful
outgoing handover times
RMS Cell
C11670 The average number of available TCHs in interference band 1
C11671 The average number of available TCHs in interference band 2
C11672 The average number of available TCHs in interference band 3
C11673 The average number of available TCHs in interference band 4
C11674 The average number of available TCHs in interference band 5
C11675 Number of success times for intra-cell handover
C11676 Number of failure times for intra-cell handover
C11677 The Number of BSC-controlled Inter-cell Incoming Handover Attempts (the actual
value is the number of execution times for incoming handover)
C11678 The Number of Successful BSC-
controlled inter-cell Incoming Handovers
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 565 of 591
Counter No.
Counter description Explanations Source Unit
C11679 The Number of BSC-controlled Inter-cell Outgoing Handover Attempts (the actual
value is the number of execution times for outgoing handover)
C11680 The Number of Successful BSC-
controlled inter-cell Outgoing Handovers
C11681 Number of carriers
A.3 SMM performance measurement counter definition
A.3.1 BSSMAP message counter
The BSSMAP message counters are listed in Table A-19.
Table A-19 BSSMAP message counter
Counter No. Counter description Source Unit
C20001 Number of ASSIGNMENT REQUEST messages AIS BSC
C20002 Number of ASSIGNMENT COMPLETE messages AIS BSC
C20003 Number of ASSIGNMENT FAILURE messages AIS BSC
C20004 Number of HANDOVER REQUEST messages AIS BSC
C20005 Number of HANDOVER REQUIRED messages AIS BSC
C20006 Number of HANDOVER COMMAND messages AIS BSC
C20007 Number of HANDOVER REQUEST ACK messages AIS BSC
C20008 Number of HANDOVER COMPLETE messages AIS BSC
C20009 Number of HANDOVER FAILURE messages AIS BSC
C20010 Number of HANDOVER PERFORMED messages AIS BSC
C20011 Number of HANDOVER REQUIRED REJECT AIS BSC
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 566 of 591
Counter No. Counter description Source Unit
messages
C20012 Number of HANDOVER DETECT messages AIS BSC
C20013 Number of CLEAR COMMAND messages AIS BSC
C20014 Number of CLEAR COMPLETE messages AIS BSC
C20015 Number of CLEAR REQUEST messages AIS BSC
C20016 Number of SAPI “N” REJECT messages AIS BSC
C20017 Number of uplink CONFUSION messages P0DS BSC
C20018 Number of downlink CONFUSION messages P0DS BSC
C20019 Number of SUSPEND messages AIS BSC
C20020 Number of RESUME messages AIS BSC
C20021 Number of MSC INVOKE TRACE messages AIS BSC
C20022 Number of BSS INVOKE TRACE messages AIS BSC
C20023 Number of CHANGE CIRCUIT messages AIS BSC
C20024 Number of CHANGE CIRCUIT ACKNOWLEDGE messages
AIS BSC
C20025 Number of CIPHER MODE COMMAND messages AIS BSC
C20026 Number of CIPHER MODE COMPLETE messages AIS BSC
C20027 Number of CIPHER MODE REJECT messages AIS BSC
C20028 Number of CLASSMARK UPDATE messages AIS BSC
C20029 Number of QUEUING INDICATION messages AIS BSC
C20030 Number of COMPLETE LAYER 3 INFORMATION messages
AIS BSC
C20031 Number of CLASSMARK REQUEST messages AIS BSC
C20032 Number of HANDOVER CANDIDATE ENQUIRE messages
P0DS BSC
C20033 Number of HANDOVER CANDIDATE RESPONSE messages
L3GP BSC
C20034 Number of uplink RESET messages L3GP BSC
C20035 Number of downlink RESET messages P0DS BSC
C20036 Number of uplink RESET ACKNOWLEDGE messages L3GP BSC
C20037 Number of downlink RESET ACKNOWLEDGE P0DS BSC
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 567 of 591
Counter No. Counter description Source Unit
messages
C20038 Number of uplink OVERLOAD messages L3GP BSC
C20039 Number of downlink OVERLOAD messages P0DS BSC
C20040 Number of uplink RESET CIRCUIT messages L3GP BSC
C20041 Number of downlink RESET CIRCUIT messages P0DS BSC
C20042 Number of uplink RESET CIRCUIT ACK messages L3GP BSC
C20043 Number of downlink RESET CIRCUIT ACK messages P0DS BSC
C20044 Number of uplink BLOCK messages L3GP BSC
C20045 Number of downlink BLOCK messages P0DS BSC
C20046 Number of uplink BLOCKING ACKNOWLEDGE messages
L3GP BSC
C20047 Number of downlink BLOCKING ACKNOWLEDGE messages
P0DS BSC
C20048 Number of uplink UNBLOCK messages L3GP BSC
C20049 Number of downlink UNBLOCK messages P0DS BSC
C20050 Number of uplink UNBLOCKING ACKNOWLEDGE messages
L3GP BSC
C20051 Number of downlink UNBLOCKING ACKNOWLEDGE messages
P0DS BSC
C20052 Number of uplink CIRCUIT GROUP BLOCK messages L3GP BSC
C20053 Number of downlink CIRCUIT GROUP BLOCK messages
P0DS BSC
C20054 Number of uplink CIRCUIT GROUP BLOCKING ACKNOWLEDGE messages
L3GP BSC
C20055 Number of downlink CIRCUIT GROUP BLOCKING ACKNOWLEDGE messages
P0DS BSC
C20056 Number of uplink CIRCUIT GROUP UNBLOCK messages
L3GP BSC
C20057 Number of downlink CIRCUIT GROUP UNBLOCK messages
P0DS BSC
C20058 Number of uplink CIRCUIT GROUP UNBLOCKING ACKNOWLEDGE messages
L3GP BSC
C20059 Number of downlink CIRCUIT GROUP UNBLOCKING ACKNOWLEDGE messages
P0DS BSC
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 568 of 591
Counter No. Counter description Source Unit
C20060 Number of uplink UNEQUIPPED CIRCUIT messages L3GP BSC
C20061 Number of downlink UNEQUIPPED CIRCUIT messages
P0DS BSC
C20062 Number of RESOURCE REQUEST messages P0DS BSC
C20063 Number of RESOURCE INDICATION messages L3GP BSC
C20064 Number of PAGING messages P0DS BSC
C20065 Number of uplink LOAD INDICATION messages L3GP BSC
C20066 Number of downlink LOAD INDICATION messages P0DS BSC
A.3.2 A interface message counter
The A interface message counters are listed in Table A-20.
Table A-20 A interface message counter
Counter No.
Counter description Explanations Source Unit
C20101 Number of uplink DTAP messages
DTAP messages sent to MSC P0DS BSC
C20102 Number of downlink DTAP messages
DTAP messages received from MSC
P0DS BSC
C20103 Number of uplink BSSMAP messages
BSSMAP messages sent to MSC P0DS BSC
C20104 Number of downlink BSSMAP messages
BSSMAP messages received from MSC
P0DS BSC
C20105 Error BSSMAP messages received
The received BSSMAP messages are in error
P0DS BSC
A.3.3 SCCP connection counter
The SCCP connection counters are listed in Table A-21.
Table A-21 SCCP connection counter
Counter Counter description Explanations Source Unit
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 569 of 591
No.
C20201 Number of SCCP link establishment requests
(BSC)
BSC sends ConnectRequest messages to MSC
P0DS BSC
C20202 Number of times for successful SCCP link establishment (BSC)
The number of valid ConnectConfirm messages
received by BSC from MSC
P0DS BSC
C20203 Number of SCCP link establishment failures due
to timeout (BSC)
T9105 of BSC overflows, and no response is received from MSC
AIS BSC
C20204 Number of SCCP link establishment rejection
times (BSC)
After sending ConnectRequest, BSC receives DisconnectIndication
from MSC
AIS BSC
C20205 Number of SCCP link establishment requests
(MSC)
BSC receives the ConnectIndication message from
MSC
P0DS BSC
C20206 Number of times for successful SCCP link establishment (MSC)
BSC sends the ConnectResponse message to MSC
P0DS BSC
A.3.4 SMM assignment counter
The SMM assignment counters are listed in Table A-22.
Table A-22 SMM assignment counter
Counter No.
Counter description Explanations Source Unit
C20301 Number of A interface assignment attempts
The assignment requests received from MSC
AIS BSC
C20302 A interface assignment failure due to circuit
blocking
Since the required circuit is blocked, an assignment failure is
returned.
AIS BSC
C20303 A interface assignment failure due to mismatching
of circuit group
Since the required circuit group does not match, an assignment
failure is returned.
AIS BSC
C20304 A interface assignment failure due to no response
from RMM
No response is received until timeout after an assignment request
is sent to RMM
AIS BSC
C20305 A interface assignment failure due to other reasons
Assignment failure due to any other reasons
AIS BSC
A.3.5 SMM handover counter
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 570 of 591
The SMM handover counters are listed in Table A-23.
Table A-23 SMM handover counter
Counter No.
Counter description Explanations Source Unit
C20401 Number of incoming handover attempts of A interface
The handover requests received from MSC
AIS BSC
C20402 A interface incoming handover failure due to circuit blocking
Since the required circuit is blocked, an handover
failure is returned.
AIS BSC
C20403 A interface incoming handover failure due to mismatching of circuit group
Since the required circuit group does not match, an
handover failure is returned.
AIS BSC
C20404 A interface incoming handover failure due to no response from RMM
No response is received until timeout after an
handover request is sent to RMM
AIS BSC
C20405 A interface incoming handover failure due to other reasons
Handover failure due to any other reasons
AIS BSC
A.3.6 SMM call drop counter
The SMM call drop counters are listed in Table A-24.
Table A-24 SMM call drop counter
Counter No. Counter description Explanations Source Unit
C20501 Number of clearing requests from RMM
Received clearing requests from RMM AIS BSC
C20502 Number of abnormal link disconnections
of SCCP
Link disconnection indication messages are received from SCCP
AIS BSC
C20503 Number of drop calls due to being
out of contact with RMM
In Serving state, T12 overflows.
In Assigning state, T1 overflows.
In OutgoingHO state, T8 overflows.
In RadioApply state, T4 overflows.
AIS BSC
C20504 Number of drop calls due to other
reasons
In Serving state, the received HoPerformed message is incorrect.
In Serving state, AssignFail or HoFail is received, which is not due to returning to
AIS BSC
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 571 of 591
the original channel.
In Serving state, a ChangeCircuit message is received, but the application for circuits
fails.
In Assigning state, the received AssignCom message is incorrect.
In Assigning state, AssignFail or HoFail is received, which is not due to returning to
the original channel.
AIS clears the call when receiving the EV_RELEASE_CALL message from the
global module (L3GP)
Note: if SCCP link establishment is successful, then it can be regarded as entering into the conversation state.
A.3.7 Land resource availability counter
The land resource availability counters are listed in Table A-25.
Table A-25 Land resource availability counter
Counter No.
Counter description Explanations Source Unit
C20601 Average number of available trunk circuits
Read from the database DBS BSC
C20602 Average number of unavailable trunk circuits
Read from the database DBS BSC
C20603 Maximum number of busy trunk circuits
The peak value of the number of seized trunk circuits
AIS BSC
C20604 Total busy time of trunk circuits
Total time when each trunk circuit is seized
AIS BSC
C20605 Total congestion time of trunk circuits
The total time when no trunk circuit can be requested
AIS BSC
A.4 LAPD counter
The LAPD counters are listed in Table A-26.
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 572 of 591
Table A-26 LAPD counter
Counter No.
Counter description Explanations Source Unit
C30001 Application layer data packages obtained from MP
<10000 per minute, and <600000 per hour
LAPD link
C30002 Application layer acknowledgement data
packages sent
<10000 per minute, and <600000 per hour
LAPD Link
C30003 BTS application layer acknowledgement data
packages received
<10000 per minute, and <600000 per hour
LAPD Link
C30004 BTS application layer data packages sent to MP
<10000 per minute, and <600000 per hour
LAPD Link
C30005 Total number of frames sent <10000 per minute, and <600000 per hour
LAPD Link
C30006 Total number of frames received
<10000 per minute, and <600000 per hour
LAPD Link
C30007 Total number of queue overflows
<100000 per hour LAPD Link
C30008 Number of retransmission times <100000 per hour LAPD Link
C30009 Number of retransmission requests
<100000 per hour LAPD Link
C30010 Number of link establishment times
<50000 per hour LAPD Link
C30011 Number of link disconnection times
<50000 per hour LAPD Link
C30012 Number of protocol errors <10000 per hour LAPD Link
A.5 Signaling No.7 counter
A.5.1 SCCP unit counter
The SCCP unit counters are listed in Table A-27.
Table A-27 SCCP unit counter
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 573 of 591
Counter No.
Counter description Explanations Source Unit
C40001 Number of SIO octets received by MTP messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40002 Number of SIO octets transmitted by MTP messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40003 Number of SIF octets received by MTP messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40004 Number of SIF octets transmitted by MTP messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40005 Number of SIO octets received by TEST messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40006 Number of SIO octets transmitted by TEST messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40007 Number of SIF octets received by TEST messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40008 Number of SIF octets transmitted by TEST messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40009 Number of SIO octets received by SCCP CLASS0 messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40010 Number of SIO octets transmitted by SCCP CLASS0
messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40011 Number of SIF octets received by SCCP CLASS0 messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40012 Number of SIF octets transmitted by SCCP CLASS2 messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40013 Number of SIO octets received by SCCP CLASS2 messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40014 Number of SIO octets transmitted by SCCP CLASS2
messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
C40015 Number of SIF octets received Max. per minute: 500000, per hour:
SCCP N7TSCircuit
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 574 of 591
Counter No.
Counter description Explanations Source Unit
by SCCP CLASS0 messages 30000000
C40016 Number of SIF octets transmitted by SCCP CLASS2 messages
Max. per minute: 500000, per hour:
30000000
SCCP N7TSCircuit
A.5.2 SCCP composite counter
The SCCP composite counters are listed in Table A-28.
Table A-28 SCCP composite counter
Counter No.
Counter description
Explanations Source Unit
C40101 SCCP_MSGS_RX
For counting the number of Class 0 and Class2 messages i.e., number of SIOs
received from a certain link,
Max. per minute: 500000, per hour: 30000000
C40101 = C40009 + C40013
SCCP N7TSCircuit
C40102 SCCP_MSGS_TX
For counting the number of Class 0 and Class2 messages i.e., number of SIOs
transmitted over a certain link,
Max. per minute: 500000, per hour: 30000000
C40102 = C40010 + C40014
SCCP N7TSCircuit
A.6 Gb interface counter
A.6.1 NS sub-layer counter
The NS sub-layer counters are as listed in table A-29.
Table A-29 NS sub-layer counter
Counter
No.
Counter description Counter variable name Source Unit
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 575 of 591
Counter
No.
Counter description Counter variable name Source Unit
C50001 Number of bytes sent by the NS sub-
layer
dwSendBytes FRP NSVC
C50002 Number of bytes received by the NS
sublayer
dwRecvBytes FRP NSVC
C50003 Number of PDUs sent by the NS
sublayer
dwSendDataPDUs FRP NSVC
C50004 Number of PDUs received by the NS
sublayer
dwRecvDataPDUs FRP NSVC
C50005 Number of PDUs discarded by the NS
sublayer
dwDiscDataPDUs FRP NSVC
C50006 Number of reset messages sent by the
NS sublayer to the opposite end
dwSendResetPDUs FRP NSVC
C50007 Number of reset messages received
from the opposite end
dwRecvResetPDUs FRP NSVC
C50008 Number of reset acknowledgement
messages given by the NS sublayer to
the opposite end
dwSendResetAckPDUs FRP NSVC
C50009 Number of reset acknowledgement
messages received from the opposite
end
dwRecvResetAckPDUs FRP NSVC
C50010 Number of blocking messages sent by
the NS sublayer to the opposite end.
dwSendBlockPDUs FRP NSVC
C50011 Number of blocking messages received
from the opposite end
dwRecvBlockPDUs FRP NSVC
C50012 Number of blocking acknowledgement
messages given by the NS sublayer to
the opposite end.
dwSendBlockAckPDUs FRP NSVC
C50013
Number of blocking acknowledgement
messages received from the opposite
end
dwRecvBlockAckPDUs FRP NSVC
C50014 Number of unblocking messages sent
by the NS sublayer to the opposite end. dwSendUnblockPDUs FRP NSVC
C50015 Number of unblocking messages
received from the opposite end dwRecvUnblockPDUs FRP NSVC
C50016
Number of unblocking
acknowledgement messages given by
the NS sublayer to the opposite end.
dwSendUnblockAckPD
Us FRP NSVC
C50017
Number of unblocking
acknowledgement messages received
from the opposite end
dwRecvUnblockAckPD
Us FRP NSVC
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 576 of 591
Counter
No.
Counter description Counter variable name Source Unit
C50018
NS encounters abnormality in the
course of transmission due to the
number of times for transmission
network failure
dwNetFailureCauses FRP NSVC
C50019
NS encounters abnormality in the
course of transmission due to the
number of times for O&M interference
dwOAMCauses FRP NSVC
C50020
NS encounters abnormality in the
course of transmission due to the
number of times for equipment failure
dwDevFailureCauses FRP NSVC
C50021
NS encounters abnormality in the
course of transmission due to the
number of times for NS-VC blocking
dwNSVCBlockedCause
s FRP NSVC
C50022
NS encounters abnormality in the
course of transmission due to the
number of times for NS-VC being
unknown
dwNSVCUnknownCaus
es FRP NSVC
C50023
NS encounters abnormality in the
course of transmission due to the
number of times for protocol error
(including PDU semantic error,
incompatibility of PDU with protocol,
protocol error, invalid essential IE, loss
of essential IE)
dwProtocolErrorCauses FRP NSVC
C50024
The number of times for test process
being unsuccessful (after attempting for
the maximum number of times
specified by NS-ALIVE-RETRIES)
dwTestFailures FRP NSVC
C50025
The number of times for blocking
process being unsuccessful after
attempting for the maximum number of
times specified by NS-BLOCK-
RETRIES
dwBlockFailures FRP NSVC
C50026
The number of times for unblocking
process being unsuccessful after
attempting for the maximum number of
times specified by NS-UNBLOCK-
RETRIES
dwUnblockFailures FRP NSVC
A.6.2 BSSGP counter
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 577 of 591
The BSSGP counters are as listed in table A-30.
Table A-30 BSSGP counters
Counter
No. Counter description
Counter variable
name Source Unit
C51001 Total number of uplink UNITDATA
messages processed by BSSGP dwUlUnitDataNum BRP Cell
C51002 Total number of downlink UNITDATA
messages processed by BSSGP dwDlUnitDataNum BRP Cell
C51003 Number of BSC-originated “packet
paging” times dwPTPPagingPSNum BRP Cell
C51004 Number of BSC-originated “circuit
paging” times dwPTPPagingCSNum BRP Cell
C51005 Number of “Radio status PDU” messages
received by BSC dwRadioStatusNum BRP Cell
C51006 Number of “Status” messages sent by
BSC dwSendStatusNum BRP Cell
C51007 Number of “Status” messages received by
BSC dwRcvdStatusNum BRP Cell
C51008 Total number of “flow control” messages
received by BSC dwBVCFlowCtrlNum BRP Cell
C51009
Total number of “flow control
acknowledgement” messages received by
BSC
DwBVCFlowCtrlAck
Num BRP Cell
C51010 Total number of discarded messages
requested by BSSGP-layer users dwUserReqMsgNum BRP Cell
C51011
Number of “radio status PDU” messages
received by BSC due to “loss of radio
contact with MS”
dwNoMSPDNNum BRP Cell
C51012
Number of “radio status PDU” messages
received by BSC due to “radio link
quality being unable to sustain further
communication
dwLowRSLinkPDUN
um BRP Cell
C51013
Number of “radio status PDU” messages
received by BSC due to “Cell reslecting
command”
dwCellReselectPDUN
um BRP Cell
C51014
Number of times that the cause value
indicated by the sending “ status ”
message is “equipment error”
dwSendEqErrStaNum BRP Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 578 of 591
Counter
No. Counter description
Counter variable
name Source Unit
C51015
Number of times that the cause value
indicated by the sending “ status ”
message is “transmission network service
failure”
dwSendNetSerFaltNu
m BRP Cell
C51016
Number of times that the cause value
indicated by the sending “ status ”
message is “unknown MS”
dwSendNoMsStaNum BRP Cell
C51017
Number of times that the cause value
indicated by the sending “ status ”
message is “BVCI unknown”
dwSendNoBUCIStaN
um BRP Cell
C51018
Number of times that the cause value
indicated by the sending “ status ”
message is “Cell traffic congestion”
dwSendCellSvrBlkSta
Num BRP Cell
C51019
Number of times that the cause value
indicated by the sending “ status ”
message is “O&M intervention”
dwSendOMIntStaNu
m BRP Cell
C51020
Number of times that the cause value
indicated by the sending “ status ”
message is “protocol error class”
dwSendProErrClasSta
Num BRP Cell
C51021 Number of times that the cause value
indicated by the sending “ status ”
message is “processor overload”
dwSendProcOverStaN
um
BRP Cell
C51022 Number of times that the cause value
indicated by the receiving “ status ”
message is “equipment error”
dwRecvEqErrStaNum BRP Cell
C51023 Number of times that the cause value
indicated by the receiving “ status ”
message is “transmission network service
failure”
dwRecvNetSerFaltNu
m
BRP Cell
C51024 Number of times that the cause value
indicated by the receiving “ status ”
message is “unknown MS”
dwRecvNoMsStaNum BRP Cell
C51025 Number of times that the cause value
indicated by the receiving “ status ”
message is “BVCI unknown”
dwRecvNoBUCIStaN
um
BRP Cell
C51026 Number of times that the cause value
indicated by the receiving “ status ”
message is “Cell traffic congestion”
dwRecvCellSvrBlkSta
Num
BRP Cell
C51027 Number of times that the cause value
indicated by the receiving “ status ”
message is “O&M intervention”
dwRecvOMIntStaNu
m
BRP Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 579 of 591
Counter
No. Counter description
Counter variable
name Source Unit
C51028 Number of times that the cause value
indicated by the receiving “ status ”
message is “protocol error class”
dwRecvProErrClasSta
Num
BRP Cell
C51029 Number of times that the cause value
indicated by the receiving “ status ”
message is “processor overload”
dwRecvProcOverSta
Num
BRP Cell
C51030 Number of “suspend” messages received
by BSC
dwGetSuspendMsgNu
m
BRP Cell
C51031 Number of “suspend acknowledgement”
messages returned by SGSN
dwRetSuspendAckNu
m
BRP Cell
C51032 Number of “suspend non-
acknowledgement” messages returned by
SGSN
dwRetSuspendNackN
um
BRP Cell
C51033 Number of “resume” messages received
by BSC
dwGetResumeMsgNu
m
BRP Cell
C51034 Number of “resume acknowledgement”
messages returned by SGSN
dwRetResumeAckNu
m
BRP Cell
C51035 Number of “FLUSH-LL PDU” messages
received by BSC from SGSN
dwSendFlushPDUMs
gNum
BRP Cell
C51036 Number of “FLUSH-LL-
acknowledgement” messages sent by
BSC
dwGetFlushPDUAck
Num
BRP Cell
C51037 Number of “blocking” messages sent by
BSS
dwSendBVCBlkNum BRP Cell
C51038 Number of “blocking acknowledgement”
messages received by BSS
dwRcvdBVCBlkAck
Num
BRP Cell
C51039 Number of “unblocking” messages sent
by BSS
dwSendBVCUnBlkN
um
BRP Cell
C51040 Number of “unblocking
acknowledgement” messages received by
BSS
dwRcvdBVCUnBlkA
ckNum
BRP Cell
C51041 Number of “reset” messages sent by BSS dwSendBVCRstNum BRP Cell
C51042 Number of “reset” messages received by
BSS
dwRcvdBVCRstNum BRP Cell
C51043 Number of “reset acknowledgement”
messages sent by BSS
dwSendBVCRstAckN
um
BRP Cell
C51044 Number of “reset acknowledgement”
messages received by BSS
dwRcvdBVCRstAck
Num
BRP Cell
A.6.3 Paging performance measurement counter
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 580 of 591
NSE performance measurement counters are as listed in table A-31.
Table A-31 NSE performance measurement counters
Counter
No.
Counter description Counter variable
name
Source Unit
C52001 Number of times that BSS receives CS
Paging
dwCSPagings GGP NSE
C52002 Number of times that BSS receives PS
Paging
dwPSPagings GGP NSE
C52003 Total number of sending status messages dwSendStatusePDUs GGP NSE
C52004 Total number of receiving status messages dwRecvStatusePDUs GGP NSE
C52005 Number of times that the cause value
indicated by the sending “ status ”
message is “equipment error”
dwSendEquFailures GGP NSE
C52006 Number of times that the cause value
indicated by the sending “ status ”
message is “transmission network service
failure”
dwSendNetFailures GGP NSE
C52007 Number of times that the cause value
indicated by the sending “ status ”
message is “unknown MS”
dwSendUnkownMSe
s
GGP NSE
C52008 Number of times that the cause value
indicated by the sending “ status ”
message is “BVCI unknown”
dwSendUnkonwBVC
Is
GGP NSE
C52009 Number of times that the cause value
indicated by the sending “ status ”
message is “Cell traffic congestion”
dwSendCellCongs GGP NSE
C52010 Number of times that the cause value
indicated by the sending “ status ”
message is “O&M intervention”
dwSendOAMInterve
ntions
GGP NSE
C52011 Number of times that the cause value
indicated by the sending “ status ”
message is “protocol error”
dwSendProtocolError
s
GGP NSE
C52012 Number of times that the cause value
indicated by the sending “ status ”
message is “processor overload”
dwSendOverLoades GGP NSE
C52013 Number of times that the cause value
indicated by the sending “ status ”
message is “network service transmission
capability from 0—>non-0 value”
dwSendCapaModifie
ds
GGP NSE
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 581 of 591
Counter
No.
Counter description Counter variable
name
Source Unit
C52014 Number of times that the cause value
indicated by the sending “ status ”
message is “PDU semantic error”
dwSendSemanErrors GGP NSE
C52015 Number of times that the cause value
indicated by the sending “ status ”
message is “invalid essential information
unit”
dwSendInvalidMIEs GGP NSE
C52016 Number of times that the cause value
indicated by the sending “ status ”
message is “missing essential information
unit”
dwSendMissingMIEs GGP NSE
C52017 Number of times that the cause value
indicated by the sending “ status ”
message is “missing condition information
unit”
dwSendMissingCIEs GGP NSE
C52018 Number of times that the cause value
indicated by the sending “ status ”
message is “unexpected condition
information unit”
dwSendUnexpedtedC
IEs
GGP NSE
C52019 Number of times that the cause value
indicated by the sending “ status ”
message is “condition information unit
error”
dwSendCIEErrors GGP NSE
C52020 Number of times that the cause value
indicated by the sending “ status ”
message is “protocol status incompatible
dwSendUncompatibl
es
GGP NSE
C52021 Number of times that the cause value
indicated by the receiving “status”
message is “equipment error”
dwRecvEquFailures GGP NSE
C52022 Number of times that the cause value
indicated by the receiving “status”
message is “transmission network service
failure”
dwRecvNetFailures GGP NSE
C52023 Number of times that the cause value
indicated by the receiving “status”
message is “unknown MS”
dwRecvUnkownMSe
s
GGP NSE
C52024 Number of times that the cause value
indicated by the receiving “status”
message is “BVCI unknown”
dwRecvUnkonwBV
CIs
GGP NSE
C52025 Number of times that the cause value
indicated by the receiving “status”
message is “Cell traffic congestion”
dwRecvCellCongs GGP NSE
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 582 of 591
Counter
No.
Counter description Counter variable
name
Source Unit
C52026 Number of times that the cause value
indicated by the receiving “status”
message is “O&M intenvention”
dwRecvOAMInterve
ntions
GGP NSE
C52027 Number of times that the cause value
indicated by the receiving “status”
message is “protocol error”
dwRecvProtocolErro
rs
GGP NSE
C52028 Number of times that the cause value
indicated by the receiving “status”
message is “processor overload”
dwRecvOverLoades GGP NSE
C52029 Number of times that the cause value
indicated by the receiving “status”
message is “BVC blocking”
dwRecvBVCBlocked
es
GGP NSE
C52030 Number of times that the cause value
indicated by the receiving “status”
message is “PDU semantic error”
dwRecvSemanErrors GGP NSE
C52031 Number of times that the cause value
indicated by the receiving “status”
message is “invalid essential information
unit”
dwRecvInvalidMIEs GGP NSE
C52032 Number of times that the cause value
indicated by the receiving “status”
message is “missing essential information
unit”
dwRecvMissingMIEs GGP NSE
C52033 Number of times that the cause value
indicated by the receiving “status”
message is “missing condition
information unit”
dwRecvMissingCIEs GGP NSE
C52034 Number of times that the cause value
indicated by the receiving “status”
message is “unexpected condition
information unit”
dwRecvUnexpedted
CIEs
GGP NSE
C52035 Number of times that the cause value
indicated by the receiving “status”
message is “condition information unit
error”
dwRecvCIEErrors GGP NSE
C52036 Number of times that the cause value
indicated by the receiving “status”
message is “protocol status incompatible”
dwRecvUncompatibl
es
GGP NSE
C52037 Number of times that the cause value
indicated by the receiving “status”
message is “SGSN congestion”
dwRecvSGSNCongs GGP NSE
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 583 of 591
Counter
No.
Counter description Counter variable
name
Source Unit
C52038
Number of times that the cause value
indicated by the receiving “status”
message is “network service transmission
capability from 0—>non 0 value”
dwRecvCapaModifie
ds GGP NSE
C52039 Number of signaling BVC reset messages
sent by Gb dwSendResetPDUs GGP NSE
C52040 Number of signaling BVC reset ACK
messages received by Gb
dwRecvResetAckPD
Us GGP NSE
C52041 Number of signaling BVC reset messages
received by Gb dwRecvResetPDUs GGP NSE
C52042 Number of signaling BVC reset ACK
messages sent by Gb
dwSendResetAckPD
Us GGP NSE
A.7 BSS counter
A.7.1 Traffic statistic counter
Traffic statistic counters are as listed in table A-32.
Table A-32 Traffic statistic counters
Counter
No. Counter description Counter variable name Source Unit
C60001 Number of used PPCHs dwPPCHUsedNum BPR Cell
C60002 Total number of PRACHs dwPRACHTotalNum BPR Cell
C60003 Number of used PAGCHs dwPAGCHUsedNum BPR Cell
C60004 Total number of blocks (except
for DUMMY frame)
dwTotalExceptDummyB
lkNum BPR Cell
C60005 Total number of downlink sending
blocks dwDlSendBlockNum BPR Cell
C60006 Total number of downlink
retrying blocks dwDlRetryBlockNum BPR Cell
C60007 Number of times for invalid
reservation of uplink blocks dwUlInvalidReservNum BPR Cell
C60008 Number of used uplink
PDTCH/PACCHs
dwUlPDTCHPACCHUs
edNum BPR Cell
C60009 Number of used downlink
PDTCH/PACCHs
dwDlPDTCHPACCHUs
edNum BPR Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 584 of 591
Counter
No. Counter description Counter variable name Source Unit
C60010 Number conversion times from
CS1 to CS2
dwCS1toCS2ChangeTi
mes BPR Cell
C60011 Number conversion times from
CS2 to CS1
dwCS2toCS1ChangeTi
mes BPR Cell
C60012 Block retransfer rate of RLC dwRLCBLockRetransfer
Rate BRP Cell
C60013 Real loading rate of cell dwCellRealLoadRate BRP Cell
C60014 Average real loading rate of cell
PDCH
dwCellPDCHRealLoadR
ate BRP Cell
C60015 PCCCH load rate dwPCCCHLoadRate BRP Cell
C60016 PRACH load rate dwPRACHLoadRate BRP Cell
C60017 PPCH load rate dwPPCHLoadRate BRP Cell
C60018 PAGCH load rate dwPAGCHLoadRate BRP Cell
C60019 PDTCH/PACCH utilization rate dwPDTCHPACCHUtiliz
eRate BRP Cell
C60020 Uplink PDTCH/PACCH
utilization rate
dwUlPDTCHPACCHUti
lizeRate BRP Cell
C60021 Downlink PDTCH/PACCH
utilization rate
dwDlPDTCHPACCHUti
lizeRate BRP Cell
C60022 Uplink power control dwUlPowerControl BRP Cell
A.7.2 Resource management counter
Resource management counters are as listed in table A-33.
Table A-33 Resource management counter
Counter
No. Counter description Counter variable name Source Unit
C61001 Number of times that BSC
forcedly retract dynamic PDCH dwRecedeDynPDCHTimes GSP Cell
C61002 Number of times for activation
of dynamic PDCH dwDynPDCHActTimes GSP Cell
C61003 Number of times for successful
activation of dynamic PDCH dwDynPDCHActSucTimes GSP Cell
C61004
Number of times for
unsuccessful activation of
dynamic PDCH
dwDynPDCHActFailTimes GSP Cell
C61005 PDCH availability statistics dwPDCHAvail GSP Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 585 of 591
Counter
No. Counter description Counter variable name Source Unit
C61006 Number of PDCH failure times dwPDCHFaultTimes GSP Cell
C61007 Number of PDCH failure
recovery times dwPDCHFaultRecovTimes GSP Cell
C61008 Average number of available
PDCHs dwMeanAvailPDCH GSP Cell
C61009 Maximum number of available
PDCHs dwMaxAvailPDCH GSP Cell
C61010 Minimum number of available
PDCHs dwMinAvailPDCH GSP Cell
C61011 Average number of occupied
PDCHs dwMeanOccPDCH GSP Cell
C61012 Maximum number of occupied
PDCHs dwMaxOccPDCH GSP Cell
C61013 Minimum number of occupied
PDCHs dwMinOccPDCH GSP Cell
C61014 Number of channel blocking
times dwPDCHBlkTimes GSP Cell
C61015 Number of channel unblocking
times dwPDCHUnblkTimes GSP Cell
C61016
Number of uplink data blocks
sent by the cell over the Um
interface
dwUmUlBlockNum GSP Cell
C61017
Number of downlink data blocks
sent by the cell over the Um
interface
dwUmDlBlockNum GSP Cell
C61018 Number of packet channel
assignment requests dwPCHAssReqNum GSP Cell
C61019 Number of successful packet
channel assignment requests dwSuccPCHAssReqNum GSP Cell
C61020
Arithmetic mean of the time
interval between two continuous
packet channel access requests
originated by MS
dwMeanPSInterArrivalTime GSP Cell
C61021 Number of uplink assignment
processes attempted by the cell dwTotalAttUpAssProcs GSP Cell
C61022
Number of successful uplink
assignment processes attempted
by the cell
dwSusTotalAttUpAssProcs GSP Cell
C61023 Number of downlink assignment
processes attempted by the cell dwTotalAttDnAssProcs GSP Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 586 of 591
Counter
No. Counter description Counter variable name Source Unit
C61024
Number of successful downlink
assignment processes attempted
by the cell
dwSusTotalAttDnAssProcs GSP Cell
C61025
Number of uplink assignment
processes attempted by the cell
due to one phase access
dwAttAssProcsOnePhaseAc
cess GSP Cell
C61026
Number of successful uplink
assignment processes attempted
by the cell due to one phase
access
dwSusAttAssProcsOnePhase
Access GSP Cell
C61027
Number of uplink assignment
processes attempted by the cell
due to single block packet
access
dwAttImmAssProcsSBPacke
tAccess GSP Cell
C61028
Number of successful uplink
assignment processes attempted
by the cell due to single block
packet access
dwSusAttAssProcsSBPacket
Access GSP Cell
C61029
Number of uplink assignment
processes attempted by the cell
due to paging response
dwAttAssProcsPagResp GSP Cell
C61030
Number of successful uplink
assignment processes attempted
by the cell due to paging
response
dwSusAttAssProcsPagResp GSP Cell
C61031
Number of uplink assignment
processes attempted by the cell
due to cell updating
dwAttAssProcsCellUpdate GSP Cell
C61032
Number of successful uplink
assignment processes attempted
by the cell due to cell updating
dwSusAttAssProcsCellUpdat
e GSP Cell
C61033
Number of uplink assignment
processes attempted by the cell
due to mobility management
dwAssProcsMMMange GSP Cell
C61034
Number of successful uplink
assignment processes attempted
by the cell due to mobility
management
dwSusAssProcsMMMange GSP Cell
C61035
Number of uplink assignment
processes attempted by the cell
due to two phase access
dwAttAssTwoPhaseAccess GSP Cell
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 587 of 591
Counter
No. Counter description Counter variable name Source Unit
C61036
Number of successful uplink
assignment processes attempted
by the cell due to two phase
access
dwSusAttAssTwoPhaseAcce
ss GSP Cell
C61037
Number of uplink assignment
processes attempted by the cell
due to short access
dwAttAssShortAccess GSP Cell
C61038
Number of successful uplink
assignment processes attempted
by the cell due to short access
dwSusAttAssShortAccess GSP Cell
C61039 Number of successfully seized
PDTCHs dwSuccPDTCHSeizureNum GSP Cell
C61040 Number of messages waiting for
sending over PCH-AGCH dwPCHAGCHWaitMsgNum GSP Cell
C61041 Number of paging messages
deleted for the PCH queue
dwPCHDelPagMsgNum
GSP Cell
C61042
Number of packet paging
messages deleted from the
PPCH queue
dwPPCHDelPagPSMsgNum GSP Cell
C61043 Number of paging messages that
fail to be sent by the cell dwPagMsgSentFailNum GSP Cell
C61044
Average number of messages
waiting for sending over PCH-
AGCH
dwPCHAGCHWaitMsgMea
nNum GSP Cell
C61045
Average number of messages
waiting for sending over the
PPCH-PAGCH subchannel of
PCCCH
dwPPCHPAGCHWaitMsgM
eanNum GSP Cell
A.8 Other counters
A.8.1 RMM load counter
The RMM load counters are listed in Table A-34.
Table A-34 RMM load counter
Counter No. Counter description Source Unit
C90101 Average load of the processor OSS %
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 588 of 591
C90102 Peak value of processor load OSS %
C90103 Average value of seized memory resources OSS %
C90104 Peak value of seized memory resources OSS %
A.8.2 Service load counter
The service load counters are listed in Table A-35.
Table A-35 Service load counter
Counter No.
Counter description
Explanations Source Unit
C90201 BHCA The BHCA of SMM means that, when any instance is created for AIS:
the EstablishIndcation message from RMM is received (during initial access).
The BHCA of RMM means that, when any instance is created for RMS:
the ChannelRequired message of BTS is received.
the HandoverRequest message from SMM is received.
the handover request message from the local module or other RMMs is received.
AIS Or
RMS
Number of
calls/hour
A.8.3 SMM Load counter
The SMM Load counters are listed in Table A-36.
Table A-36 SMM load counter
Counter No. Counter description Source Unit
C90401 Average load of the processor OSS %
C90402 Peak value of processor load OSS %
C90403 Average value of seized memory resources
OSS %
C90404 Peak value of seized memory resources OSS %
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 589 of 591
Appendix B Acronyms
Acronyms Full name
Abis A-bis Interface
AIPP A Interface Peripheral Processor
AIU A Interface Unit
AUC Access Unit Controller
BAF BSS Adapter Function
BCCH Broadcast Channel
BIE Base station Interface Equipment
BIPP aBis Interface Peripheral Processor
BIU aBis Interface Unit
BOSN Bit Oriented Switching Network
BRP BSSGP RLC/MAC Protocol
BSIA Base Station Interface Adapter
BSC Base Station Controller
BSS Base station Sub System
BSSAP Base station Sub System Application Part
BSSGP Base station Sub System GPRS Protocol
BTS Base Transceiver Station
BVC BSSGP Virtual Connect
CBCH Cell Broadcast Channel
CCCH Common Control Channel
CDF Commands Dispatching Function
CLF Commands Logging Function
CMIP Common Management Information Protocol
CMIS Common Management Information Service
CRF Commands Resolution Function
CS Circuit Switched
DRT Dual-Rate Transcoder
DSP Digital Signal Processor
EDRT Enhanced DRT
EFD Event Forwarding Discriminator
EGSM Extend GSM
ESU Executable Software Unit
FN Frame Number
FR Frame Relay
FRP FR Protocol
FTAM File Transfer Access Maintenance
FU Frame Unit
FUC Frame Unit Controller
GGSN Gateway GPRS Support Node
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 590 of 591
Acronyms Full name
GIPP Gb Interface Peripheral Processor
GIU GPRS Interface Unit
GPRS General Packet Radio Service
GSM Globe System for Mobile communication
GSN GPRS Support Node
HMS ZXIP10-AS HMS
HSN Hopping Sequence Number
LAF Local Access Function
LAPD Link Access Protocol of D-Channel
LMF Local Management Function
LMT Local Management Terminal
MAC Medium Access Control
MAF Management Application Functions
MAIO Mobile Allocation Index Offset
MIB Management Information Base
MIT MO Instance Tree
MF Mediation Function
MKF MMI Kernel Function
MMI Man Machine Interface
MML Man Machine Language
MO Managed Object
MOC Managed Object Class
MOF MO administration Function
MP Main Processor
MS Mobile Station
MSC Mobile Switch Center
MSF Management Support Function
MTP Message Transfer Part
NAF NMC Access Function
NC Network Control
NEF Network Element Function
NMC Network Management Center
NS Network Service
NSVC NS Virtual Circuit
OMC Operation Maintenance Center
OMCR Operation Maintenance Center Radio
OOF Operation Outputting Function
OSF Operations Systems Function
PACCH Packet Associated Control Channel
PAGCH Paging & Access Granted Channel
PCU Packet Control Unit
PDCH Packet Data Channel
Operation Manual of ZXG10-BSC (V2)-Vol 2
Page 591 of 591
Acronyms Full name
PDTCH Packet Data Traffic Channel
PDU Protocol Data Unit
PP Peripheral Processor
PS Packet Switched
PTM Point To Multipoint
PTP Point To Point
PUC Packet Unit Control
PVC Permanent Virtual Circuit
RACH Random Access Channel
RMM Radio Management Module
RLC Radio Link Control
SDCCH Specified Control Channel
SGSN Serving GPRS Support Node
SMB Short Message Broadcast
SMM Service Management Module
SMS Short Message Service
SSF Session Services Function
TC TransCoder
TCH Traffic Channel
TCPP TransCoder unit Peripheral Processor
TIC Trunk Interface Circuit
TMN Telecommunication Management Network
TRAU Transcoder and Rate Adaptor Unit
TRX Transceiver
UISF User Interface Support Function
WAF Windows Administration Function
WSF WorkStation Function
top related