short description for database-scripts with es680 - … description for database-scripts with es680...

Scripts for ES680

1

Short description for database-scripts with ES680

Data of this version: 2000-08-02

For questions and further ideas please contact:

Rolf Hammer / Ralf Kö[email protected] / [email protected]

We would be glad for the addition of new tools and new scripts into this kind of help-file!Please don’t change or delete any files from the ES680-directory!

Useful and important hints:

Wildcards of UNIX are:

? for only one but any symbol* for more than one but any symbol

Wildcards of SQL are:

_ (Underline) for only one but any symbol% for more than one but any symbol

Directory:

You will find most of the tools and scripts for checking function-diagrams in the following ES680-directory: cd /users2/tools/GTtools

If it doesn’t work than you can try to get to the right directory by this following input: cd /tmp_mnt/users2/tools/GTtools

The home of tools with some special ‘perl-scripts’ is: /tmp_mnt/users2/tools/GTtools/perl

There you’ll find some manuals (files with *.doc).ATTENTION:Don’t start the perl-scripts directly. They are only used as subroutines of some of the scripts describedbelow. It won’t be necessary using them separately.

All results of the scripts are located automatically and accessible under the following directory: /tmp_mnt/users2/tools/GTtools/listen

After running of any script the name of the file (xxx.lst) will appear in which you can see the result. To workwith this file it is very useful to transfer it with the software ‘FTP-Explorer’ from ES680 to your PC. Pleasecontact your Administrator to install and to run this software. On the PC it should be opened with EXCEL

Scripts for ES680

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because with this software you can sort the list for better checking the result. Furthermore the EXCEL filecan be imported into ACCESS 97 for additional checking procedures. The description of each script willinclude a recommendation for sorting criteria to achieve a good check-result.

After transferring your result-file from ES680 to your PC you should delete the file of the ES680-directory.

Under the directory ‘__OMtools’ you will find also some very useful scripts for checking your OM-engineering. The results of these scripts are located automatically and accessible under their own sub-directory ‘__OMtools/listen’. You’ll find a description of these scripts here as well.

To COPY these scripts to a tape (e.g. for commissioning)

To save the directory GTtools (see above) to a tape:Insert a tape and do the following input:

cd /users2/toolstar -cvh GTtools

At the new workstation:Insert the tape and change to a directory you want to:

cd tools (e.g. if the directory tools does exist!)tar -xv

With this command the directory GTtools (on the tape) and other subdirectories will be created.Then you might delete all files in the directory GTtools/listen if there are any because these files are notneeded to run the scripts.

To obtain HELP within the scripts:

Most of the scripts are provided with a help-function (but only in german) which you can be displayed withthe following command:

e.g.: "alle_kks.sh -h" (that’s the help-function of the first script described below)

Scripts for ES680

3

alle_bst.sh

Function: Generates one list with all used PIC-ID’s with the diagram ID-code of the function-diagrams and a second list with all possible PIC_ID’s

Parameter: $1 = Name of server and database

Command: alle_bst.sh <Server::><Database>

Example: alle_bst.sh i02es1::rbravo

Example of the first list: Example of the second list:

uas nam se pic_id name po_x po_y pic_id name

YDR 12CPC01.FA 1 28302 M_SCH_R 635 266 7200 SD.ANAEIYDR 12CPC01.GA 1 28302 M_SCH_R 610 316 7201 SD.ANAUTYDR 10CJF01.BA 1 26904 SV 185 441 31151 SIG_EYDR 10CJF01.BA 1 26904 SV 685 441 2343 SIM.GAYFR 12LBB42DT100 1 2812 A1V2 463 567 2491 SIMHWKAAYFR 12LBC50DP001 1 2812 A1V2 451 567 2493 SIMHWKBAYFR 11HAD80DL002 1 6301 A2V3 643 667 1930 SIMULBYFR 11QHA10DL001 1 6301 A2V3 631 617 1601 SPEICH1YFR 10HYY00DU001 2 5001 ABS 595 517 1602 SPEICH2YFR 10HYY00DU003 2 5001 ABS 463 367 1603 SPEICH3YFR 19QCB22CF101 2 6701 ADMZ1 643 167 20890 SREGYFR 19QCB23CF101 1 6701 ADMZ1 799 592 3302 SUBG1YFR 11MBA10FT901S 1 2951 BDMZ 871 517 3304 SUBG2YFR 11MBA10FT902S 1 2951 BDMZ 871 517 19155 SUMSUBYFR 11MBM10DG001 3 6402 BR-S 667 592 19154 SUM_AWYFR 11MBV20EE901 1 6402 BR-S 679 367 26904 SVYFR 11MBA10CT101A 2 4001 GWM 655 442 4901 SWFYFR 11MBA10CT101B 2 4001 GWM 655 442 19424 SYNCHRONYFR 11MBX25AA183 1 7200 SD.ANAEI 487 592 32231 TB-CPYFR 11MBX26AA183 1 7200 SD.ANAEI 487 592 24903 TEXT3YFR 11MBP10CG083 1 24904 TEXT4 631 692 24904 TEXT4YFR 11MBP22DG901 1 24904 TEXT4 463 742 1701 TIMER01YFR 11MKC01DE101B 1 1701 TIMER01 667 767 1702 TIMER02YFR 11MKC01DE101C 1 1701 TIMER01 703 342 1703 TIMER03YFR 11MKA01CE003S 6 1703 TIMER03 559 292 1704 TIMER04YFR 11MKC01DE902 4 1703 TIMER03 535 392 1705 TIMER05

To achieve a useful check-result:

⇒ The list is very long and might be sorted by the column ‘pic_id’ to see the SW-moduleson each function-diagram.

⇒ The script might be useful looking for strange SW-modules or faults after code-generation.

Translation of the headline of the list below:uas à DTKnam à Diagram ID-codese à page-numberpic_id à pic_id of the located SW-module name à description of the SW-modulepo_x à x-positionpo_x à x-position

Scripts for ES680

4

alle_kks.sh

Function: Generates a complete list of all function diagrams of the actual project with DTK, diagramID-Code (KKS for V-machine or WBS for 501-machine), page extent, description of thediagram, AP and date of the last change.The list will be sorted by the DTK (‘uas’) and diagram ID-Code (‘KKS’).


Command: alle_kks.sh <Server::><Database>

Example: alle_kks.sh txpabn you’ll get a list with all KKS of the project "txpabn"

Example of the listing result:

uas kks max_se bezeichnung fkz ap datum

YDH 00TOP00 1 I&C TOPOLOGY FOR 501F YMYB01 1 5/25/00 10:56YDM 11CJP01 2 AP & ET200M STRUCTURE YMYB01 11 4/5/00 17:08YDR 00CJS01.DA 1 CABINET CJS01 STATION DA YMYB01 11 5/3/00 12:54YDR 11CJP01.BA 1 AP CONFIGURATION YMYB01 11 4/3/00 10:15YDR 11CJQ01.DA 1 CABINET CJQ01 STATION DA YMYB01 11 5/3/00 12:55YDR 11CPA01.BA 1 CABINET CPA01 STATION BA YMYB01 11 5/3/00 12:57YFR 11ADA01DE101 5 GEN BRKR DC UNDERVOLTAGE YBAC01 11 5/25/00 11:00YFR 11ADA01DE101 M 1 GEN BRKR TRIP CMD YCJS01 13 6/6/00 11:56YFR 11ADA01DE101H 2 GENERATOR BREAKER YBAC01 11 6/6/00 11:53YFR 11CJP01GW001 6 CJP01 CABINET MONITORING YUBA01 11 4/13/00 9:13YFR 11CJQ01GW001 3 CJQ01 CABINET MONITORING YUBA01 11 4/13/00 9:13YFR 11CJQ01GW011 1 CJQ01 DC/DC CONVERTER #1 YUBA01 11 4/13/00 9:13YFR 11MBA10CT183S 2 COMPRESSOR INL TEMP YMBA10 11 5/25/00 13:36YFR 11MBD10CT001 1 TURB EXH E BRNG T(HT24) YMBD10 11 4/19/00 9:02YFR 11MBD10CT001 M 1 TURB EXH E BRNG T(HT24) YCJS01 13 6/9/00 12:38YFR 11MBJ00EG001 M 1 STARTER YCJS01 13 6/9/00 12:34YFR 11MBJ10AA083 1 START DEVICE LOW SPD CMD YMBJ00 11 5/25/00 9:58YFR 11MBJ10AA085 1 TORQUE CONV DRAIN DEMAND YMBJ00 11 4/12/00 14:49YFR 11MBJ10AE001 2 TURNING GEAR YMBK00 11 4/18/00 16:01YOA 10MBX00EJ200 0 UNIT OVERVIEW YCKYG1 -2 5/5/00 17:24YOA 11MBA10EJ210 0 READY TO START/TRIPS CT11 YCKYG1 -2 5/5/00 17:26YOA 11MBD10EJ206 0 CTG VIBR ANALYSIS CT11 YCKYG1 -2 5/5/00 17:27YOA 11MBM10EJ201 0 COMBUSTOR FLASHBACK CT11 YCKYG1 -2 5/5/00 17:27YOA 11MBM10EJ202 0 COMB BYPASS VALVES CT11 YCKYG1 -2 5/5/00 17:28


It depends on the sorting method and what you intend to check.

Translation of the headline of the list below:uas à DTK fkz à FGCkks à diagram ID-code ap à AP-numbermax_se à whole page of the diagram datum à date of the last changebezeichnung à description of the function diagram

Scripts for ES680

5

alle_sig.sh

Function: Generates a list including all signals of one or all FC’s.The list will be sorted by FC, the diagram ID-code, the signal and the page.

Parameter: $1 = Name of server and database$2 = name of the FC (in German: ‘fb’) like it is shown in the database.

Command: alle_sig.sh <Server::><Database> <FC>

Example: alle_sig.sh n70751::king C1 you’ll get a list with all signals of the FC ‘C1’alle_sig.sh n70751::king % you’ll get a list with all signals of all FC


fb q_kks sig q_se q_bez q_fkz einst einh q_ap

C1 11MBJ10CP085 XG51 1 ST PKG WORKING OIL PRES YMBJ00 LOW 12C1 11MBJ10CP085 XG51 1 ST PKG WORKING OIL PRES YMBJ00 LOW 12C1 11MBJ10CT009 XH01 1 TRQ CONV MTR END BRG TEMP YMBJ00 >212 °F 12C1 11MBJ10CT009 XH01 1 TRQ CONV MTR END BRG TEMP YMBJ00 >212 °F 12C1 11MBP05CF003 XQ01 1 FUEL GAS FLOW ORIFICE DP YMBP10 0..500 INH2O 11C1 11MBP05CF003 XQ01 1 FUEL GAS FLOW ORIFICE DP YMBP10 0..500 INH2O 11C1 11MBP05CP003 XQ01 1 FUEL GAS PRESS (F CALC) YMBP10 0..1000 PSIA 11C1 11MBP05CP003 XQ01 1 FUEL GAS PRESS (F CALC) YMBP10 0..1000 PSIA 11C1 11MBP05CP003 XQ01 1 FUEL GAS PRESS (F CALC) YMBP10 0..1000 PSIA 11C1 11MBP22CF001 XQ01 1 FG STAGE B VALVE FLOW YMBP10 0..50 KPPH 11C1 11MBP22CF001 XQ01 1 FG STAGE B VALVE FLOW YMBP10 0..50 KPPH 11

Continuation of the list:

q_kks sig z_ap z_fkz z_kks z_bez z_verw

11MBJ10CP085 XG51 12 YMBJ00 11MBJ10AA085 TORQUE CONV DRAIN DEMAND11MBJ10CP085 XG51 0 YP12 YP1211MBJ10CT009 XH01 11 YMBJ00 11MBJ10DT901 STARTING PKG START PERM11MBJ10CT009 XH01 0 SIGDEF TRQ CONV MTR END BRG TEMP11MBP05CF003 XQ01 0 loe 11EKT10EJ200 YP0111MBP05CF003 XQ01 0 YW13 YW1311MBP05CP003 XQ01 11 YMBP10 11MBP05CF003 FUEL GAS FLOW ORIFICE DP11MBP05CP003 XQ01 0 SIGDEF FUEL GAS PRESS (F CALC)11MBP05CP003 XQ01 0 loe 11EKT10EJ200 YP0111MBP22CF001 XQ01 0 SIGDEF FG STAGE B VALVE FLOW11MBP22CF001 XQ01 -2 YCKYC1 11MBP10EJ202 FUEL GAS SYSTEM YP01



Translation of the headline of the list below:fb à FC einh à unitq_kks à Diagram ID-code of the source signal q_ap à AP of the source signalsig à signal z_ap à AP of the destination signalq_se à page-number of the source signal z_fkz à FGC of the destination signalq_bez à description for the source signal z_kks à Diagram ID-code of the destination signalq_fkz à FGC of the source signal z_bez à description for the destiantion signaleinst à settings z_verw à destination usage

Scripts for ES680

6

AP_AP_Signale.sh

Function: Generates a list including all signals connected between different AP’s.The list will be unsorted.


Command: AP_AP_Signale.sh <Server::><Database>

Example: AP_AP_Signale.sh n70751::rbkdid you’ll get a list with all signals


q_cpu1 q_kks q_se sig z_cpu1 z_kks z_se

12 11MBJ10AU001A 1 XG01 11 11MBX71AA183 212 11MBJ10AU001A 1 XG01 11 11MYB01EG001 112 11MBJ10AU001A 1 XG01 11 11MBJ10AP001B 112 11MBJ10AU001A 1 XG01 11 11MBJ10DT901 112 11MKA01CE004 1 XQ01 11 11MKA01CE902 112 11MKA01CE004 1 XQ01 11 11MKC01DE902 112 11MKA01CE004 1 XQ01 11 11MKC01DE902 312 11MKA01CE004 1 XQ01 11 11MKC01DE902 1012 11MKA01CE004 1 XQ01 2 10HYY00DU008 112 11MBJ10AU001B 4 ZV01 11 11MBJ10DT901 112 11MKA10CT181 1 XQ01 11 11MKA10EZ902 112 11MKA10CT182 1 XQ01 11 11MKA10EZ902 112 11MKA10CT183 1 XQ01 11 11MKA10EZ902 112 11MKA10CT184 1 XQ01 11 11MKA10EZ902 112 11MKA10CT185 1 XQ01 11 11MKA10EZ902 111 11MYB01EQ002 1 ZV01 12 11MKC01DE101B 111 11MYB01EQ002 1 ZV01 12 11LBA10DT901 112 11MKA10CT186 1 XQ01 11 11MKA10EZ902 112 11MKW40AP001 1 XG01 11 11MKW10EG901 111 11MYB01EC001 3 ZV01 15 11HAD30AA002 311 11MYB01EC001 3 ZV01 15 11LAB94AP001 111 11MYB01EC001 3 ZV01 15 11LBA10AA002 111 11MYB01EC001 3 ZV01 15 11LBA80AA002 111 11MYB01EC001 3 ZV01 12 11LBA31AA100 1



Translation of the headline of the list below:q_cpu1 à CPU-address from the source z_cpu1 à CPU-address from the destinationq_kks à Diagram ID-code from the source z_kks à Diagram ID-code from the destinationq_se à page-number from the source z_se à page-number from the destinationsig à signal

Scripts for ES680

7

bildyp01.sh

Function:Generates a list with the destination ID-code YP01.The list includes all destination ID-Codes (in german: KKS) with the name YP01(especially of the OM-picture). With this list you can check for OM-pictures and graphics.The list will be sorted by the destination ID (pictures and graphics).


Command: bildyp01.sh <Server::><Database>

Example: bildyp01.sh txpabn you’ll get a list with all use of YP01 of the project "txpabn"


kks e sig klartext l_einst p_einst einheit bild bildname om pos

11MBA10CG005 2 XQ01 IGV POSITIONROTARY

-10..50 DEG 11MBA10EJ211 C1 READYTO START

1 31

11MBA10CP003S 2 XQ01 COMBUSTORSHELL PRESSURE

0..350 PSIA 11MBA10EJ211 C1 READYTO START

1 160

11MBA10FT983 2 ZQ01 COMPRESSORINLET TEMP

0..120 DEG F 11MBA10EJ211 C1 READYTO START

1 253

11MBD10CS001S 9 XH31 TURBINE SPEED >IGN SPD 11MBA10EJ211 C1 READYTO START

1 42

11MBD10CS001S 13 XQ01 TURBINE SPEED 0..3600 RPM 11MBA10EJ211 C1 READYTO START

1 32

11MBE40CP003 1 XG53 COOLANT INLETPRESS

NOT LOW 11MBA10EJ211 C1 READYTO START

1 249

11MBP21CP003 1 XH01 GAS STG A VALVEDP

>5 PSIG 11MBA10EJ211 C1 READYTO START

1 245

11MBP22CG083 1 XG01 GAS STG B OSTVLV POS

CLOSE 11MBA10EJ211 C1 READYTO START

1 243

11MBP22CP003 1 XH01 GAS STG B VALVEDP


1 246

11MBP23CG083 1 XG01 GAS STG C OSTVLV POS

CLOSE 11MBA10EJ211 C1 READYTO START

1 242

11MBP23CP003 1 XH01 GAS STG C VALVEDP


1 247

11MBV20CT003S 2 XH04 SELECTED LUBEOIL TEMP

>MIN 11MBA10EJ211 C1 READYTO START

1 40


Sort the list by the column ‘bild’ (that means the OM-picture) and compare it with theproject requirements.

Translation of the headline of the list below:kks à diagram ID-code p_einst à ??e à page-number einheit à unitsig à signal bild à ID-code of the OM-pictureklartext à description bildname à description of the OM-picturel_einst à settings pos à position at the picture

Scripts for ES680

8

comp.sh

Function:Tool to compare two files.You’ll get two result-lists in which only the differences between the two files are shown.You can use this script to compare either text-files or listings from other scripts. But be surethat the other lists are sorted alphabetically!

Parameter:$1 = file1$2 = file2

Command: comp.sh -hcomp.sh <File1> <File2>

Example: comp.sh help1.doc help2.doc you’ll get differences between file1 and file2


It depends on what you want to check.

Scripts for ES680

9

conv_gif.sh

Function:Tool to convert the viewing screen of the ES680 to GIF-format.After you call the command like it is shown below you have only 3 seconds to fix the screenwith any picture you want to convert!

You’ll find the result under the subdirectory ‘/listen’.

Parameter:$1 = filename of the result

Command: conv_gif.sh < filename of the result >

Example: conv_gif.sh MBA10EJ200 you’ll get a file with the name MBA10EJ200.GIFif you fix the screen e.g. with the OM-pictureMBA10EJ200 within 3 seconds after calling thecommand.

Continue the job with the result you’ll get:

With the software-tool FTP-EXPLORER it is possible to transfer the GIF-file to the PC.There you’ll might print or change the graphic-file.

Scripts for ES680

10

et_bel.V6.01.06.shIf you might have problems in running this script because of another ES-Version try to run the script ‘etbel_uni.sh’.

This is independent to any version but with less information than the script below.

Function: Generates a list with the I/O-channel-terminations of the all ET200U/M-modules.ATTENTION: only for ES-Version 6.01.06 or newer!

Parameter: $1 = Name of server and database$2 = listing of the AP

Command: et_bel.V6.01.06.sh <server::><Database> <AP>

Example: et_bel.V6.01.06.sh rbkdid 11,12


Einbauort Line Stat Stpl Kanal Kennzeichen Sig Bezeichnung Verwendung BG_Typ AP

11CJQ01.EA 11 15 4 K01 11MBX35AA084 ZV01 PILOT FDBLOCK VALVE B

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K02 11MBX35AA087 ZV01 PILOT PURGEVLV B

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K03 11MBX36AA084 ZV01 STAGE A FDBLOCK VALVE B

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K04 11MBX36AA087 ZV01 STAGE APURGE VALVE B

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K05 11MBX37AA084 ZV01 STAGE B FDBLOCK VALVE B

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K06 11MBX37AA087 ZV01 STAGE BPURGE VALVE B

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K07 11MBX36AA085 ZV01 STAGE A DRAINVALVE

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K08 11MBX37AA085 ZV01 STAGE B DRAINVALVE

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K09 11MBX78AA083 ZV01 PILOT WTRPURGE ISO VLV

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K10 11MBX78AA085 ZV01 A STG WTRPURGE ISOLVLV

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K11 11MBX78AA087 ZV01 ST B WATERPURGE ISO VLV

YL01 M_BA16K 11

11CJQ01.EA 11 15 4 K12 M_BA16K 1111CJQ01.EA 11 15 4 K13 M_BA16K 1111CJQ01.EA 11 15 4 K14 M_BA16K 1111CJQ01.EA 11 15 4 K15 M_BA16K 1111CJQ01.EA 11 15 4 K16 M_BA16K 1111CJQ01.EA 11 15 5 K01 11MBM20CP005A

XQ01 COMB#03 HIFREQ DYNPRESS

M_AE8K 1


It is useful to sort by column ‘Einbauort’ (location), ‘Linie’ (line), ‘Stat’ (station), ‘Stpl’(slot) and ‘Kanal’ (channel).

Translation of the headline of the list below:Einbauort à location Sig à signalLine à line Bezeichnung à descriptionStat à station Verwendung à destinationStpl à slot BG_Typ à kind of HW-moduleKanal à channelKennzeichen à diagram ID-code

Scripts for ES680

11

fb_fb_sig.sh

Function:Generates a list with all signals exchanged between one source-FC and any destination-FC(in german: ‘fb’).You will get all signals from the source and from the destination.You won’t get Open-signals if the destination doesn’t exist!

Parameter: $1 = Name of server and database $2 = name of the FC (in german: ‘fb’) like it is shown in the database.

Command: fb_fb_sig.sh <Server::><Database> <FC >

Example: fb_fb_sig.sh txpabn G1 you’ll get a list with signals from and to "G1"


q_kks sig q_se q_fkz fkz fb z_kks z_se z_fkz fkz fb

11MBN10EB901 ZV01 1 YMBN10 YMBN10 C1 19ERB41AP001 1 OERB40 OERB40 CT11DMPURGE ZV02 1 YMBN80 YMBN80 C1 19GHC44AP001 1 OGHC40 OGHC40 AA11ADA01DE101H XG01 2 YBAC01 YBAC01 C1 10HAD10DL001 1 OHAD10 OHAD10 WS11ADA01DE101H XG01 2 YBAC01 YBAC01 C1 11HAD00BR001 1 OHAD10 OHAD10 WS11ADA01DE101H XG01 2 YBAC01 YBAC01 C1 12HAD00BR001 1 OHAD10 OHAD10 WS11ADA01DE101H XG01 2 YBAC01 YBAC01 C1 10HYY00DU001 1 OHYY00 OHYY00 AA11ADA01DE101H XG01 2 YBAC01 YBAC01 C1 10HYY00DU002 3 OHYY00 OHYY00 AA11MKA01CE003S XQ01 4 YMKA01 YMKA01 C1 10QCA70EJ101 1 YCKYB1 YCKYB1 B111MKA01CE003S XQ01 4 YMKA01 YMKA01 C1 10QCA70EJ102 1 YCKYB1 YCKYB1 B110PAB20AP001 ZV03 2 OPAB20 OPAB20 CT 11MBA10EJ211 1 YCKYC1 YCKYC1 C111LBA50DF001 XH01 3 YLBA50 YLBA50 H1 11MBH60EJ200 1 YCKYC1 YCKYC1 C111LBB40CP100 XH01 2 YLBB40 YLBB40 B1 11MBH60EJ200 1 YCKYC1 YCKYC1 C111MKA01CE003S XQ01 4 YMKA01 YMKA01 C1 10PAB20EJ101 1 YCKYCT YCKYCT CT11MBM10CG102 XQ01 1 YMBM01 YMBM01 C1 10MYB10EJ299 0 YCKYGT YCKYGT GT11MBM10CG103 XQ01 1 YMBM01 YMBM01 C1 10MYB10EJ299 0 YCKYGT YCKYGT GT11MBM10CG104 XQ01 1 YMBM01 YMBM01 C1 10MYB10EJ299 0 YCKYGT YCKYGT GT11MBM10CG105 XQ01 1 YMBM01 YMBM01 C1 10MYB10EJ299 0 YCKYGT YCKYGT GT11MBM10CG106 XQ01 1 YMBM01 YMBM01 C1 10MYB10EJ299 0 YCKYGT YCKYGT GT


It is useful to sort by column ‘Einbauort’ (location), ‘Linie’ (line), ‘Stat’ (station), ‘Stpl’(slot) and ‘Kanal’ (channel).

Translation of the headline of the list below:q_kks à source ID-code fb à FCsig à signal z_kks à destination ID-codeq_se à source page z_se à destination pageq_fkz / fkz à source FGC z_fkz / fkz à destination FGC

Scripts for ES680

12

fb_fkz.sh

Function: Generates a list with all FC (in german: ‘fb’) and FGC (in german: ‘fkz’) of the database.


Command: fb_fkz.sh <Server::><Database>

Example: fb_fkz.sh n70751::bruen1


fkz beschr fb

OADB10 AUX BREAKER AAOADD10 LINE SWITCH AAOADR10 MASTER REMOTE STATUS AAOBBA30 6.9 KV SWITCH CTOBBB10 6.9 KV SWITCH AAOBFB10 480 V SWITCH AAOCRA01 OVERVIEW DIAGRAMS WSOERB40 FUEL OIL FWD CTOERC10 FUEL GAS AAOGAC60 RAW WATER B1OGAC70 CLG TOWER&RAW WATER CTOGAD10 POTTABLE WATER B1OGHC40 CONDENSATE MAKE-UP AAOGMA40 STACK AREA H1OGMA70 WATER STEAM WSOGTR10 CHEM FILTER CTOHAD10 WATER STEAM WS


It is useful to sort by the column ‘fkz’ (FGC) and ‘fb’ (FC). Check for correctness.

Translation of the headline of the list below:fkz à FGCbeschr à description of the function diagramfb à FC

Scripts for ES680

13

fehler_sig.sh

Function:Generates a list with all faulty destination-signals within the function-diagrams.The reason: Software-connections between AP-functions with a destination entry = YP arenot allowed!!! For those connections you won’t get a complete software-code!!!The script is valid for all versions.The list will be sorted by the source diagram ID-code, the page-number and the signal.


Command: fehler_sig.sh <Server::><Database>

Example: fehler_sig.sh n70751::king


q_kks sig q_se q_pid q_cpu1 z_kks z_verw z_cpu1

18ADB10CU001 XG01 1 1440 2 19BBB15CU001 YP14 218ADB20CU001 XG01 1 2469 2 19BBB15CU001 YP14 219GAD19AP001 XB01 1 2938 1 19GAD10EE001 YP14 119GAD19AP002 XB02 1 1545 1 19GAD19AP000 YP14 1


With the result of the columns ‘q_kks’ and ‘q_se’ you’ll find all function-diagrams withfaulty destination-signals.

Translation of the headline of the list below:q_kks à source ID-code q_cpu1 à source cpu-addresssig à signal z_kks à destination ID-codeq_se à source page z_verw à faulty destination signalq_pid à source plan_id z_cpu1 à destination cpu-address

Scripts for ES680

14

hw_bst.sh

Function: Generates a list with all hardwired signals (input and output signals) from any YFR-functiondiagram.You’ll get a list with the diagram ID-Code (in german: KKS or ‘nam’ in the list below), thesignal (Sig), the description (Text or ‘bez’ in the list above) of the diagram and the type ofthe HW-module (‘name’ in the list above).The list will be sorted by the function-diagram ID-code (‘nam’).


Command: hw_bst.sh <Name of server and database>

Example: hw_bst.sh n70751::rbkdid


uas nam se sig bez q_ein q_einhei name cpu1 loc_id plan_id fkz

YFR 11EKG10CT403 1 XQ01 FUEL GAS TEMP(F CALC)

0..100 °C SIM.GA 11 9 311 YMBP10

YFR 11MBA10CG003 1 XQ01 IGV POSITIONROTARY

0..32.9 ° SIM.GA 11 27 980 YMBA10

YFR 11MBA10CP003 1 XQ01 COMBUSTORSHELL PRESS A

0..1725 kPaA SIM.GA 11 2 1024 YMBM01

YFR 11MBA10CP005 1 XQ01 COMBUSTORSHELL PRESS B

0..1725 kPaA SIM.GA 11 2 1023 YMBM01

YFR 11MBA10CP083 1 XG52 COMP INLETPRES SWITCH

NORMAL S482GB 11 3 134 YMBA10

YFR 11MBM20CT032 1 XQ01 COMBUSTOR #16TEMP #2

0..1000 °C S464GT 11 7 267 YMBM20

YFR 11MBN01EC001 1 XG01 PLANT DCS GOTO FUEL OIL

SELECTED S482GB 11 17 1130 YMYB01

YFR 11MBN10AN001 1 XG51 FUEL OILINJECTION PUMP

NORMAL S482GB 11 2 1192 YMKW00

YFR 11MBN10AP001 1 ZV01 DIST FUEL PUMPCMD

ON SIMHWKBA 11 2 201 YMBN10

YFR 11MBN10AP001 2 ZV02 DIST FUEL PUMPCMD

SIMHWKBA 11 33 201 YMBN10

YFR 11MBN10CF003 1 XQ01 FUEL OIL FLOWMETER

0..909 l/min SIM.GA 11 2 316 YMBN10

YFR 11MBN10CG083 1 XG01 FUEL OIL ISO VLVSTATUS

CLOSED S482GB 11 2 1073 YMBN10

YFR 11MBN10CP083 1 XG52 DIST FUELFILTER DELTA P

NORMAL S482GB 11 3 37 YMBN10

YFR 11MBN10CP085 1 XG52 DIST PUMPSUCTION PRESS

NORMAL S482GB 11 3 89 YMBN10

YFR 11MBN10CT003 1 XQ01 DIST FUELTEMPERATURE

0..125 °C S464GT 11 7 342 YMBN10

YFR 11MBN21AP001 1 ZV01 FLOW DIVIDERCMD-PILOT

ON SIMHWKBA 11 2 941 YMBN10


Compare the list with the result of the script ‘et_bel.V6.01.06.sh’, if the hardwired inputsare there as well.

Translation of the headline of the list below:uas à DTK q_einhei à unitnam à Diagram ID-code name à name of the HW-modulese à page-number cpu1 à source-APsig à signal loc_id à location-IDbez à description plan_id à diagram-IDq_ein à settings fkz à FGC of the diagram

Scripts for ES680

15

meld_kma.shThis script is only useful if the project follows the KKS-identifications rules.

Function: Tool to identify the structure of the alarm identification.The list will be sorted by the diagram ID-Code (in german: KKS) and the signal. You cancompare the usage of YP10, YP11, YP12, etc. with the destination of the alarmidentification (the diagram ID-Code for an alarm identification will be identified by theletters ..EG.. in the diagram ID-code).The list will be sorted by the diagram ID-code and the signal.

Parameter: $1 = Name of server and database $2 = AP-address

Command: meld_kma.sh <Server::><Database> <AP-address>

Example: meld_kma.sh txpabn 12,13 you’ll get a list of the alarm identification for AP12 and 13


kks sig text einstell zyk verw zielkks zieltext

11MBA10EG901 ZV01 BLADE PATH TC >=1 FAIL 105 11MBA10EG902 TIMER IF >1 BLD P TC FAIL11MBA10EG901 ZV03 BLADE PATH TC >=3 FAIL 105 YP12 YP1211MBA10EG902 ZV01 TIMER IF >1 BLD

P TC FAACTIVE 105 YP12 YP12

11MBA10EG902 ZV02 TIMER IF >1 BLDP TC FA

TRIGCOND 105 11MBA10EG903 SPREAD/TC ALM FOR >12 H

11MBA10EG903 ZV01 SPREAD/TC ALMFOR >12 H

A UNLOAD 105 YP12 YP12

11MBA10EZ901 ZV01 EXHAUSTPRESSURE HIGH

A UNLOAD 101 YP11 YP11

11MBA10FT901S ZV11 BLADE PATHTEMP #1

REJECTED 105 11MBA10EG901 BLADE PATH TC


DEV ERR 105 YP12 YP12


REJECTED 105 11MBA10EG901 BLADE PATH TC


DEV ERR 105 YP12 YP12

11MBD10CS001S XH01 TURBINE SPEED >225 102 11MYB01EG001 ST DEV ENG & < IGN SPD11MBD10CS001S XH13 TURBINE SPEED 98% SPD 102 11MBD10EG902 OVERFREQUENCY11MBD10CS001S XH13 TURBINE SPEED 98% SPD 102 11MBD10EG901 OVERFREQUENCY LOAD

DUMP11MBD10CS001S XH13 TURBINE SPEED 98% SPD 102 11MBD10EG903 ANDERFREQUENCY11MBD10CS001S XH14 TURBINE SPEED

OVERFREQ>3633 102 11MBD10EG902 OVERFREQUENCY

11MBD10CS001S XH18 TURBINE SPEEDUFREQ DEL

<3420 102 11MBD10EG901 OVERFREQUENCY LOADDUMP

11MBD10CS001S XH19 TURBINE SPEEDANDERFREQ

<3432 102 11MBD10EG903 ANDERFREQUENCY

11MBD10CS001S XM03 TURBINE SPEED BAD QUAL 102 YP12 YP1211MBD10CS001S XQ01 TURBINE SPEED 0..3600 102 11MBD10EG904 SPEED SETPOINT

Translation of the headline of the list below:kks à Diagram ID-code zyk à SW-cyclesig à signal verw à destination usagetext à description zielkks à destination ID-codeeinstell à settings zieltextà destination description

Scripts for ES680

16

menge.sh

Function: Tool to identify all used modules of the project. Only the YFR-diagrams will be considered.You’ll get a list of all used HW-modules for a rough estimation for a bill of material.


Command: menge.sh <Server::><Database>

Example: menge.sh n70751::rbkdid


fb fkz ap uas kks bez blatt pic_id baustein

C1 YMKA01 12 YFR 11ADA00CE005 SYSTEM FREQUENCY 1 2343 SIM.GAC1 YBAC01 12 YFR 11ADA01DE101A SWYD BRKR MAN CLOSE PERM 1 2493 SIMHWKBAC1 YBAC01 12 YFR 11ADA01DE101A SWYD BRKR MAN CLOSE PERM 1 1930 SIMULBC1 YBAC01 12 YFR 11ADA01DE101B SWYD BREAKER TRIP REQ 1 2344 S482GBC1 YBAC01 12 YFR 11ADA01DE101C SWYD BREAKER TRIP CMD 1 2493 SIMHWKBAC1 YBAC01 11 YFR 11ADA01DE101H SWYD BREAKER POSITION 1 2344 S482GBC1 YBAC01 11 YFR 11ADA01DE101H SWYD BREAKER POSITION 3 7155 NA.BIAUTC1 YBAC01 11 YFR 11ADA01DE101H SWYD BREAKER POSITION 3 1930 SIMULBC1 YMKF00 12 YFR 11ALAEDPA AIR EUQIVAL DIFF PRESSURE 2 4001 GWMC1 YMKF00 12 YFR 11ALAEDPA AIR EUQIVAL DIFF PRESSURE 2 4001 GWMC1 YMKF00 12 YFR 11ALCTMPD COLLECTOR INLET TEMP 1 4001 GWMC1 YMKF00 12 YFR 11ALCTMPD COLLECTOR INLET TEMP 1 4001 GWMC1 YMBN10 11 YFR 11ALDVBDQ DIST VALVE BAD QUALITY 1 7103 NA.KBC1 YMBM01 11 YFR 11ALFB FLASHBACK 1 7155 NA.BIAUTC1 YMBM01 11 YFR 11ALFB FLASHBACK 1 1930 SIMULBC1 YMBN10 11 YFR 11ALFDPURG FLOW DIVIDER FLUSH 1 7155 NA.BIAUTC1 YMYB01 11 YFR 11ALGABRT OIL TO GAS TRANSFER 1 7155 NA.BIAUTC1 YMYB01 11 YFR 11ALGABRT OIL TO GAS TRANSFER 1 1930 SIMULBC1 YMBP10 11 YFR 11ALGVBDQ GAS VALVE BAD QUALITY 1 7103 NA.KBC1 YMKF00 12 YFR 11ALHPUR HYDROGEN PURITY 1 4001 GWMC1 YMKF00 12 YFR 11ALHPUR HYDROGEN PURITY 1 4001 GWMC1 YMKF00 12 YFR 11ALHPUR HYDROGEN PURITY 1 4001 GWMC1 YMBA10 11 YFR 11ALIGVPD IGV POS VS DEMAND 1 7103 NA.KBC1 YMYB01 11 YFR 11ALLDDMP LOAD REJECTION 1 7103 NA.KB


It is useful to sort by the column ‘fb’ (FC), ‘baustein’ (module) and ‘kks’ (diagram ID-Code) will give you an overview about the hardwired channel-termination.

Translation of the headline of the list below:fb à FC bez à descriptionfkz à FGC blatt à page-numberuas à DTK pic_id à picture-IDkks à Diagram ID-code baustein à HW-module

Scripts for ES680

17

mmi_bild.shATTENTION: This script is located under the subdirectory ‘__OMtools’!

Function: Generates a list with open signal-connections from the OM-pictures to function-diagrams.The list will be sorted by the function-diagram ID-code (‘fup_kks’).


Command: mmi_bild.sh <Server::><Database>

Example: mmi_bild.sh n70751::king you’ll get a list with open signal-connections fromOM to function-diagrams


fup_kks sig fup_bez fkz bild_kks bild_bez

10LBA21CP101 XQ01 10LBB30EJ101 BOP STEAM DRAINS 1/210LBA21CP101 XQ01 10LBB30EJ102 BOP STEAM DRAINS 2/210LBA21CP101 XQ01 10MAJ20EJ101 BOP AIR REMOVAL10LBA21CT100A XQ01 ST HP INLET STEAM TEMP ZLBA10 10LBB30EJ101 BOP STEAM DRAINS 1/210LBA21CT100B XQ01 ST HP INLET STEAM TEMP ZLBA10 10LBB30EJ101 BOP STEAM DRAINS 1/210LBA21DP100 XQ01 11LBA30EJ101 H1 HP/IP STEAM SYST10LBA24DP001 XQ01 10MAJ20EJ101 BOP AIR REMOVAL10LBA24DT001 XQ01 10MAJ20EJ101 BOP AIR REMOVAL10LBA55CP101 XQ01 ST ISV INLET STM PRESS ZLBA10 10LBB30EJ101 BOP STEAM DRAINS 1/210LBA55CT100A XQ01 10LBB30EJ101 BOP STEAM DRAINS 1/210LBA55CT100A XQ01 10LBB30EJ102 BOP STEAM DRAINS 2/210LBA55CT100B XQ01 10LBB30EJ101 BOP STEAM DRAINS 1/210LBA55CT100B XQ01 10LBB30EJ102 BOP STEAM DRAINS 2/210LBA55DT001 XQ01 loe 10CJA00EJ104 BOP RED THERMOCOUPL10LBB50CP100 XQ01 ST RSV INLET STM PRESS ZLBA10 10LBB30EJ101 BOP STEAM DRAINS 1/210MAD10CT020 XQ01 10MAD10EJ200 BEARINGS & VIBRATION10MKA01CE001A XQ01 10ADB50EJ200 BOP 230 KV SYSTEM11LMDIST XG01 11MBY10EJ200 CT CONTROL11LMGAS XG01 11MBY10EJ200 CT CONTROL11MBA10FT901S ZQ01 loe 11MBM10EJ701 BLADE PATH TEMP 111MBA10FT902S ZQ01 loe 11MBM10EJ701 BLADE PATH TEMP 111MBA10FT903S ZQ01 loe 11MBM10EJ701 BLADE PATH TEMP 1


A signal-connection to the picture-ID is missing for each function-diagram in the list abovewhich was connected before changing the function-diagram. The meaning of ‘loe’ in thecolumn ‘fkz’ is that this signal of the function-diagram doesn’t exist any more.

Translation of the headline of the list below:fup_kks à Function-diagram ID-code fkz à FGCsig à signal bild_kks à OM-diagram ID-codefup_bez à description of the diagram bild_bez à description of the picture

Scripts for ES680

18

mmi_fup.shATTENTION: This script is located under the subdirectory ‘__OMtools’!

Function: Generates a list with open signal-connections from the function-diagrams to the OM-pictures depending on the FC of the project.The list will be sorted by the function-diagram ID-code (‘q_kks’).

Parameter: $1 = Name of server and database $2 = FC

Command: mmi_fup.sh <Server::><Database> <FC>

Example: mmi_fup.sh n70751::king GT you’ll get a list with open signal-connections to alldiagram ID-codes of the located FC


fb q_kks sig seite q_bez einst q_fkz z_kks z_bez

C1 11ADA01DE101B XG01 1 SWYD BREAKER TRIP REQ CLOSED YBAC01 YP01C1 11MBA10CG003 XQ01 1 IGV POSITION LINEAR 0..100 YMBA10 YP01C1 11MBA10DG921 ZQ02 1 DC2 COOLING FLOW

DEMAND0..100 YMBH10 11MBH30EJ200 TURBINE COOLING SUPPLY

C1 11MBA10DG921 ZQ99 1 DC2 COOLING FLOWDEMAND

0..100 YMBH10 11MBM10EJ299 BLADE PATH T / EXHAUST T

C1 11MBA10DG921 ZQ99 1 DC2 COOLING FLOWDEMAND

0..100 YMBH10 11MBH30EJ200 TURBINE COOLING SUPPLY

C1 11MBD10CG001 XQ01 1 THRUST POSITION #1 0..30 YMBD10 YP01C1 11MBD10CG002 XQ01 1 THRUST POSITION #2 0..30 YMBD10 YP01C1 11MBD10CS001S XQ01 1 TURBINE SPEED 0..4500 YMYB01 11EKT10EJ200C1 11MBD10CT001A XQ01 1 TURB EXH E BRNG T(HT24) 0..250 YMBD10 10MBY10EJ200C1 11MBM10CG102 XQ01 1 COMB #2 BYPASS VLV POS 0..100 YMBM01 10MYB10EJ299 CONTROL VALVE

CALIBRATIONC1 11MBM10CG103 XQ01 1 COMB #3 BYPASS VLV POS 0..100 YMBM01 10MYB10EJ299 CONTROL VALVE







CALIBRATION


A signal-connection to the ID-code of the column ‘z_kks’ is missing for each function-diagram in the list above.

Translation of the headline of the list below:fb à FC einst à settingsq_kks à Function-diagram ID-code q_fkz à FGCsig à signal z_kks à destination-diagram ID-codeseite à page-number z_bez à description of the destination IDq_bez à description of the source diagram

Scripts for ES680

19

off_verb.sh

Function: Generates a list with all open connections (source or destination) caused by deleteddiagrams of the database. You’ll recognize them with the entries ‘loe’ in the field wherenormally you’ll find the FGC (in german: FKZ).The list will be sorted by q_kks (diagram ID-Code of the source signal).


Command: off_verb.sh <Server::><Database>

Example: off_verb.sh txpabn you’ll get a list with all open connections of the project "txpabn"


q_kks q_se sig q_bez q_fkz q_ap z_kks z_se z_verw z_bez z_fkz z_ap

11MBA10CT121A 1 XQ01 DISC CAV 2 T #1(DC2-1)

YMBH10 11 11MBY10EJ003 0 YP01 loe 0





11MBA10CT183 1 XQ01 COMPRESSORINLET RTD#1

YMBA10 11 11EKT10EJ200 0 YP01 loe 0

11MBA10EG902 1 ZV99 TIMER IF >1 BLDP TC FAIL

YMYB01 11 COUNTER 0 loe -400

11MBD10CS001S 1 XQ01 TURBINE SPEED YMYB01 11 11EKT10EJ200 0 YP01 loe 011MBD10CT001A 1 XQ01 TURB EXH E

BRNG T(HT24)YMBD10 11 10MBY10EJ200 0 YP01 loe 0

11MBD10CT003A 1 XQ01 T INL END BRNGT(HT22)

YMBD10 11 10MBY10EJ200 0 YP01 loe 0

11MBD10CT005A 1 XQ01 TURB THRUSTBRNG T(HT23)

YMBD10 11 10MBY10EJ200 0 YP01 loe 0

11MBH40DT005S 1 XQ01 ROTOR COOLINGTEMP


11MBH40FT903S 1 XQ02 COMBUSTORSHELL TEMP


11MBM10DG001 0 XA92 loe 11 11MYB10EJ299 1 YP01 CONTROLVALVECALIBRATION

YCKYC1 -2

11MBM10DG001 0 XQ01 loe 11 11MYB10EJ299 1 YP01 CONTROLVALVECALIBRATION

YCKYC1 -2

11MBN10AP001B 0 XG53 loe 11 11MBN10EJ200 1 YP01 FUEL OILSYSTEM

YCKYC1 -2

11MBN10CP083 0 XG53 loe 11 11MBN10EJ200 1 YP01 FUEL OILSYSTEM

YCKYC1 -2

11MBN10CP085 0 XG52 loe 11 11MBN10EJ200 1 YP01 FUEL OILSYSTEM

YCKYC1 -2

11MBN20CF001 1 XQ01 TOTAL OIL FLOW YMBN10 11 11MBY10EJ003 0 YP01 loe 0

Translation of the headline of the list below:q_kks à Source diagram ID-code z_kks à Destination diagram ID-codeq_se à Source page-number z_se à Destination page-numbersig à signal z_verw à Destination usageq_bez à Source description z_bez à Destination descriptionq_fkz à Source FGC z_fkz à Destination FGCq_ap à Source-AP z_ap à Destination-AP

Scripts for ES680

20

om_connect.shATTENTION: This script is located under the subdirectory ‘__OMtools’

(and differs from the german version only in its language)

Function: Generates a list or a printing with the correct orientation of the signals of one or more OM-pictures.

Parameter: No parameter necessary.

Command: om_connect.sh You’ll be lead by the menu of the script.

Example of getting a list:

UAS Bild kennzeichen Signal X-Posi Y-Posi Dynavis-Pfad

YOA 11MYB10EJ299 11FC35201H XA92 570 136 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11FC35201H XQ01 692 162 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11JN6001 XQ01 1108 5 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBA10CG005 XQ01 690 5 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBA10CG005 XQ01 692 128 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBA10CP003S XQ01 840 0 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBA10CT183S XQ01 980 0 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBN11CG103 XQ01 1013 328 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBN21CG003 XQ01 1013 429 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBN22CG003 XQ01 1013 630 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBN23CG003 XQ01 1013 529 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBP21CG003 XQ01 391 629 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBP22CG003 XQ01 391 531 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBP23CG003 XQ01 391 327 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBP30CG003 XQ01 391 430 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX25AA183 XA92 271 638 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX25AA183 XQ01 391 663 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX26AA183 XA92 271 536 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX26AA183 XQ01 391 563 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX27AA183 XA92 271 335 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX27AA183 XQ01 391 362 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX28AA183 XA92 271 438 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX28AA183 XQ01 391 463 /MMI_PRO/G1/YOA/11MYB10EJ299YOA 11MYB10EJ299 11MBX31AA183 XA92 889 437 /MMI_PRO/G1/YOA/11MYB10EJ299


The positions of the process and their correct orientations are only useful with the OM-pictures itself! With the list above you can only get an overview about the signals.

Translation of the headline of the list below:uas à DTK X-Posi à x-position of the orientationBild à Diagram ID-code of the OM-picture Y-Posi à y-position of the orientationkennzeichen à function-diagram ID-code Dynavis-Pfad à directories of the pictureSignal à signal of the function

Scripts for ES680

21

pakete.sh

Function:Generates a list with the AP package-data of the actual project.The list will be sorted by the AP and the diagram ID-Code (or KKS in the list below).You’ll also see the shift of the cycles. Therefore it’s necessary that you start running thisscript after code generating. Otherwise you won’t get an useful result!


Command: pakete.sh <Server::><Database> <AP-address>

Example: pakete.sh nhp183::king 11,12,15


kks text fkz as_nr paket_ pb zyklus versch

11ADA01DE101H SWYD BREAKER POSITION YBAC01 11 11 10 101 011MBA10CP085 TURBINE EXHAUST PRESS YMBR10 11 145 36 101 011MBA10CP087 TURBINE EXHAUST PRESS YMBR10 11 145 36 101 011MBA10EZ901 EXHAUST RESSURE HIGH YMBR10 11 145 36 101 011MKY01CE001 GENERATOR LOCKOUT (86 YMKY01 11 231 49 101 011ALPANEL ALARM PANEL YMYB01 11 241 55 101 011MYB01EZ001 TRIP STATUS FIRST DRO YMYB01 11 241 55 101 011MYB01EZ002 SIMADYN MASTER TRIP YMYB01 11 241 55 101 011MKA01CE901 MW SIGNAL QUALITY YMKA01 11 181 60 101 011PBERAUP VOLT REG AUTO BUTTON YMKC10 11 191 71 101 011LMDIST DISTILLATE YMBN10 11 112 26 102 011MBN10CP003S DISTILLATE DISC PUMP YMBN10 11 112 26 102 011LMDIST DISTILLATE YMBN10 11 112 27 102 111MBN10CP003S DISTILLATE DISC PUMP YMBN10 11 112 27 102 111LNXFER DISABLE SPREAD YMBP10 11 132 33 102 011SESYNCM START TO SYNC PERIOD YMKY01 11 232 51 102 111MBD10CS001S TURBINE SPEED YMYB01 11 242 52 102 011MBD10CS001S TURBINE SPEED YMYB01 11 242 53 102 111MKA01CE003S MEGAWATTS YMKA01 11 182 58 102 011MKA01CE003S MEGAWATTS YMKA01 11 182 59 102 1


It is useful to sort by column ‘zyklus’ (cycle-time) and ‘paket_’ (package data). Now it ispossible to have the control about the right shift in one cycle-time.

Translation of the headline of the list below:kks à Diagram ID-code paket à package-numbertext à description pb à number of internal program-modulefkz à FGC zyklus à cycle time within CPU-referenceas_nr à AP versch à time shift within the same cycle-time

Scripts for ES680

22

pakete_tst.sh

Function: Generates a list with all faulty package data of the YFR-diagrams and the specified AP-address. The data are based to the parameters of the function-diagrams and modules.You will be able to look for faults in the package-assignment which are:⇒ Package-data is missing (entry in the column ‘pak’ of the list is 0)⇒ SW-cycle (‘zyk’) = 0 (exceptions are the diagrams for SGC and group-alarms)⇒ Hard- and Software cycle are not the same⇒ SW-cycle within obj_g and lt_f (database parameter) don’t match⇒ The last digit of the package-data is different to the cycle-time (exceptions are the

diagrams with SGC and group-alarms). For this important check you must add theparameter [p] to the command.

Parameter: $1 = Name of server and database $2 = AP-address $3 = Checking the last digit of the package-data

Command: pakete_tst.sh <Server::><Database> <AP> [p]

Example: pakete_tst.sh n70751::rbkdid 11,13 p you’ll get the check for the project ‘rbkdid’


uas kks text fkz seite loc_id name _ap pak _pb zyk o_z

YFR 11MYB01EG901 SIM-RDY TO STARTSIGNALS

YMYB01 1350 40 NA.KB 11 0 0 105 105


YMYB01 1350 41 NA.KB 11 0 0 105 105


YMYB01 1350 42 NA.KB 11 0 0 105 105

YFR 11MYB01EZ004 TRIP LOG FLAG YMYB01 4701 2 ODER 11 0 0 101 101YFR 11MYB01EZ004 TRIP LOG FLAG YMYB01 4701 3 AND 11 0 0 101 101YFR 11MBA10CG005 IGV POSITION ROTARY YMBA10 1240 26 SIM.GA 11 35 14 103 103YFR 11MBA10CT101A BLD PATH T # 1A(HT1-1) YMBM11 401 7 S464GT 11 109 64 105 105YFR 11MBA10CT101A BLD PATH T # 1A(HT1-1) YMBM11 3101 20 GWM 11 109 64 105 105YFR 11MBA10CT101A BLD PATH T # 1A(HT1-1) YMBM11 3101 19 SUBG1 11 109 64 105 105YFR 11MBA10CT101B BLD PATH T # 1B(HT1-2) YMBM11 401 7 S464GT 11 109 64 105 105


It is useful e.g. to sort by column ‘pak’ (package-data) and ‘fkz’ (FGC). Check for missingpackage-data which should be done depending on the FGC-parameter.

Translation of the headline of the list below:uas à DTK name à name of the HW-modulekks à Diagram ID-code _ap à APtext à description pak à package-numberfkz à FGC of the diagram _pb à number of internal program-modulefkz à FGC zyk à SW-cycle timeloc_id à location-ID o_z à HW-cycle time

Scripts for ES680

23

pakete_vor.sh

Function: Generates a list with all package-data of the YFR-diagrams and the specified AP-addresseven if you haven’t finished your code-generation or not completed your package-references. The data are based to the CPU-references of the Topology-diagram.The list will be sorted by the AP and the diagram ID-Code (in german: KKS).


Command: pakete_vor.sh <Server::><Database> <AP-address>

Example: pakete_vor.sh nhp183::king 11,12,15


kks text fkz __ap pak _pb sw_zyk hw_zyk

11MBA10CG005 IGV POSITION ROTARY YMBA10 11 35 14 103 10311MBA10CP003 COMBUSTOR SHELL PRESS A YMBM10 11 0 0 102 10211MBA10CP003S COMBUSTOR SHELL PRESSUR YMBM10 11 102 0 102 10211MBA10CP005 COMBUSTOR SHELL PRESS B YMBM10 11 0 0 102 10211MBA10CP083 COMP INLET PRES SWITCH YMBA10 11 35 12 105 10511MBA10CP085 TURBINE EXHAUST PRESS YMBR10 11 145 36 101 10111MBA10CP087 TURBINE EXHAUST PRESS YMBR10 11 145 36 101 10111MBA10CT183 COMPRESSOR INLET RTD#1 YMBA10 11 35 12 105 10111MBA10CT185 COMPRESSOR INLET RTD#2 YMBA10 11 35 12 105 10111MBA10DG901 IGV ACTUATOR IN DEGREES YMBA10 11 35 12 105 10111MBA10DT921 DISC CAVITY #2 TEMP YMBH10 11 55 0 105 10511MBA10DT923 DISC CAVITY #3 TEMP YMBH10 11 55 0 105 10511MBA10DT925 DISC CAVITY #4 TEMP YMBH10 11 55 0 105 10511MBA10EG901 BLADE PATH TC YMBM10 11 105 19 105 011MBA10EG902 TIMER IF >1 BLD P TC FA YMYB01 11 245 0 105 011MBA10EG903 SPREAD/TC ALM FOR >12 H YMBM10 11 105 19 105 011MBA10EZ901 EXHAUST RESSURE HIGH YMBR10 11 145 36 101 011MBA10FT901S BLADE PATH TEMP #1 YMBM11 11 109 64 105 10511MBA10FT902S BLADE PATH TEMP #2 YMBM11 11 109 64 105 10511MBA10FT903S BLADE PATH TEMP #3 YMBM11 11 109 64 105 10511MBA10FT904S BLADE PATH TEMP #4 YMBM11 11 109 64 105 105


It is useful to sort by column ‘pak’ (package-data) and ‘fkz’ (FGC). Check of missingpackage-data is useful which should be done depending on the FGC-parameter.

Translation of the headline of the list below:kks à Diagram ID-code pak à package-numbertext à description _pb à number of internal program-modulefkz à FGC sw_zyk à SW cycle time within CPU-referenceap à AP hw_zyk à HW cycle time within CPU-reference

Scripts for ES680

24

param_dmz.sh

Function: Generates a list with the parameters TTD, AWT and other parameters of binary- and analoginput signals as well as limit-values. The running-time of this script is quite long!


Command: param_dmz.sh <Server::><Database> <AP-address>

Example: param_dmz.sh txpabn 11,12 you’ll get all TTD and AWT from AP 11 & 12


Kennzeichen Sig LocId Baustein Einst_(Z) Einh_(Z) Anfang Ende Einheit Wert OU Hysterese Zeit Delta

11ADA00CE005 XQ01 8 SIM.GA 55..65 55 75 HZ 1000 2511MBD10CG001 XQ01 2 SIM.GA 0..30 MILS 0 30 MILS 1000 33311MBD11CY001S XQ01 2 SIM.GA 0..1000 MILS/S 0 1000 MILS/S 1000 5011MBD11CY001S XH01 2 SIM.GA HIGH VIB 0 1000 MILS/S 10000 1 5011MBE30CT003 XQ01 2 S464GT 0..400 °F 32 2012 1 1000 511MBE40CT003 XQ01 2 S464GT 0..400 °F 32 2012 1 1000 511MBH30CT005A XQ01 2 S464GT 0..1500 °F 32 2012 1 1000 511MBH30CT005B XQ01 2 S464GT 0..1500 °F 32 2012 1 1000 511MBH30DT005S XH01 16 GWM HIGH 0 590 1 5

Continuation of the list:

Kennzeichen Sig GSB AE\DMZ QDMZ QNDMZ QAWT QNAWT QUMK QNUMK GT EIU KONV

11ADA00CE005 XQ01 1 411MBD10CG001 XQ01 1 411MBD11CY001S XQ01 1 411MBD11CY001S XH01 1 1 4 011MBE30CT003 XQ01 1 411MBE40CT003 XQ01 1 411MBH30CT005A XQ01 1 411MBH30CT005B XQ01 1 411MBH30DT005S XH01 1 1 0


It depends of the sorting and what you intend to check.

Translation of the headline of the list below:Kennzeichen à Diagram ID-code Ende à end of the analog valueSig à signal Einheit à unit of the analog valueBaustein à name of the HW-module Wert à limit valueEinst_(Z) à setting of the destination ID OU à upper-/lower switchEinh_(Z) à unit of the settings Hysterese à hysteresisAnfang à beginning of the analog value Zeit à sampling period

Translation of the headline of the list below:GSB à parameter of limit signal QUMK à TTD of the simulated valueAE\DMZ à TTD of the analog input value QNUMK à TTD of the negated simulated valueQDMZ à TTD of the normal binary value GT à parameter of the transmitter typeQNDMZ à TTD of the negated binary value EIU à parameter for input signal monitoringQAWT à AWT of the normal value KONV à parameter for contact supplyQNAWT à AWT of the negated value (AWT can be 1 for E, 2 for A, 4 for W, 8 for T))

Scripts for ES680

25

param_esg.sh

Function:Generates a list with the settings of the DCM-modules in the YFR-diagrams.The running-time of this script is really long!


Command: param_esg.sh <Server::><Database> <AP-address>

Example: param_esg.sh txpabn 11,12 you’ll get the DCM-parameter of AP 11 & 12


Kennzeichen Sig Baustein Einst_Z Einh_Z SP_OM SP_MS BAV t_Unterspg

t_Staff RWE RWA TVE TGL NLZ PBR RDE

MBA10AT001 XB95 S482MO OM 3 0 0 1 1 0 10 0 0 0 MBA41AA051 XB95 S482MO OM 1 0 0 3 3 0 60 0 0 0 MBA42AA051 XB95 S482MO OM 1 0 0 3 3 0 60 0 0 0 MBA43AA051 XB95 S482MO OM 1 0 0 3 3 0 60 0 0 0 MBA44AA051 XB95 S482MO OM 1 0 0 3 3 0 60 0 0 0 MBH22AA101 XC95 S265RA OM 0 0 0 0 2 2 0 250 0 0 1 MBH22AA102 XC95 S265RA OM 0 0 0 0 2 2 0 250 0 0 1 MBH23AA101 XC95 S265RA OM 0 0 0 0 2 2 0 250 0 0 1 MBH23AA102 XC95 S265RA OM 0 0 0 0 2 2 0 250 0 0 1 MBL11AA101 XB95 S265SA OM 0 0 0 3 3 0 10 0 0 1 MBL13CU001 XB95 ESG.MO OM 0 0 0 1 1 0 10 0 0 0 MBL20AA010 XB95 S265SA OM 0 0 0 3 3 0 10 0 0 1 MBM12GT001 XB95 S482MO OM 1 0 0 1 1 0 20 0 0 0 MBP13AA501 XB95 S482MO OM 3 0 0 1 1 0 2 0 0 0 MBP31AH001 XB95 S482MO OM 0 0 0 1 1 0 10 0 0 0 MBP32AH001 XB95 S482MO OM 0 0 0 1 1 0 10 0 0 0 MBP80AP001 XB95 ESG.MO OM 0 0 0 1 1 0 10 0 0 0 MBP82AA052 XB95 S482MO OM 1 0 0 0 3 0 20 0 0 0 MBV30AP001 XB95 S482MO OM 0 0 0 1 1 0 10 0 0 0 MBV41AA001 XB95 S265SA OM 1 0 0 2 2 10 360 0 0 1



Translation of the headline of the list below:Kennzeichen à Diagram ID-code t_Staff à ????Sig à signal RWE à cb. travel limit switch on (parameter RWE)Baustein à name of the HW-module RWA à cb. travel limit switch off (parameter RWA)Einst_(Z) à setting of the destination ID TVE à time to leave limit position (parameter TVE)Einh_(Z) à unit of the settings TGL à running time (parameter TGL)SP_OM à parameter Block OM-operating drive NLZ à ????SP_MS à parameter Block alarm protection PBR à command output priority (parameter PBR)BAV à parameter BAV (cmd-output variant) RDE à check-back contact torque (parameter RDE)t_Unterspg à ????

Scripts for ES680

26

param_na.sh

Function: Tool to identify the bus-parameters of the auxiliary-systems (Secondary-System-modules).The running-time of this script is really long!

Parameter: $1 = Name of server and database $2 = List of those AP’s in which the modules for the auxiliary-system are running

Command: param_na.sh <Server::><Database> <AP>

Example: param_na.sh n70751::txpabn 11,12 you’ll get a list of AP 11 & 12param_na.sh –a you’ll get a list of all AP’s


Kennzeichen Sig Baustein Einst(Z) Einh(Z) Anf Ende Zeit Delta AWT DMZ FEDW FRCPU DWin DWout Bit KNR

11ADA01DE101H ZV01 NA.BIAUT CLD ONCE 0 13 61 1111MBP30CT003 XQ01 SD.ANAUT 0..200 °F 0 200 13 2511MBP30CT003 XM23 NA.BIAUT CH OK 0 13 62 1111MBP30EG901 int. NA.KB n.a. n.a. 0 1 0 13 92 511MBP30EG902 int. NA.KB n.a. n.a. 0 1 0 13 92 411MBP30EG903 XQ01 SD.ANAEI 0..800 PSIA 0 800 1000 5 0 32 13 3211MBX21AA183 XQ01 SD.ANAEI 0..100 % 0 100 1000 100 1 32 13 7511MBX21AA183 XA01 NA.BIAUT on 0 13 63 811MBX25AA183 XQ01 SD.ANAEI 0..100 % 0 100 1000 100 1 32 13 4811MBX25AA183 XA01 NA.BIAUT ON 0 13 63 111MBX26AA183 XQ01 SD.ANAEI 0..100 % 0 100 1000 100 1 32 13 5211MBX26AA183 XA01 NA.BIAUT ON 0 13 63 211MBX27AA183 XQ01 SD.ANAEI 0..100 % 0 100 1000 100 1 32 13 5611MBX27AA183 XA01 NA.BIAUT ON 0 13 63 311MBX28AA183 XQ01 SD.ANAEI 0..100 % 0 100 1000 1 1 32 13 4411MBX28AA183 XA01 NA.BIAUT ON 0 13 63 011MBX31AA183 XG02 NA.KB CLOSED 0 1 0 13 94 311MBX31AA183 ZQ01 SD.ANAEI 0..100 % 0 100 1000 100 1 32 13 6011MBX31AA183 XA01 NA.BIAUT ON 0 13 63 411MBX32AA183 XG02 NA.KB CLOSED 0 1 0 13 94 411MBX32AA183 ZQ01 SD.ANAEI 0..100 % 0 100 1000 100 1 32 13 6411MBX32AA183 XA01 NA.BIAUT ON 0 13 63 5


It is useful to sort by column ‘FRCPU’ (number of the foreign CPU), ‘DWin’ (DW of theinput signal) and the belonging part ‘KNR’ (channel number), ‘DWout’ (DW of the outputsignal) and the belonging part ‘Bit’ (data-bit). Due to this sort-sequence you’ll find alldouble reservations.

Translation of the headline of the list below:Kennzeichen à Diagram ID-code AWT à AWT (1=E, 2=A, 4=W, 8=T)Sig à signal DMZ à TTDBaustein à name of the HW-module FEDW à Analog input data-wordEinst(Z) à setting of the destination ID FRCPU à CPU of the auxiliary systemEinh(Z) à unit of the settings DWin à Binary input data-wordAnf à beginning of the analog value DWout à Binary output data-wordEnde à end of the analog value Bit à Bit-No belonging to DWoutZeit à sampling period KNR à Channel-No belonging to DWinDelta à Delta

Scripts for ES680

27

param_om.sh

Function:Tool to identify the parameters of all modules of the actual project which are used for OM-picture display.Attention: The running-time of this script is very long!

Parameter:$1 = Name of server and database

Command: param_om.sh <Server::><Database>

Example: param_om.sh n70751::txpabn you’ll get the OM-parameter of the project txpabn


Bild QuellKKS Sig Baustein Einst(Z) Einh(Z) X_Pos Y_Pos Pos F/0_Farbe

1_Farbe ANF END VW_0 Anwahl

11MBA10EJ210 11MBD10CS001S XQ01 DAAWT 0..3600 RPM 10 10 5 F-MF_LUFT 0 360011MBA10EJ210 11MKA01CE003S XQ01 DAAWT 0..300 MW 150 10 5 F-MF_LUFT 0 21011MBA10EJ210 11TEAVBP XQ01 DAAWT 0..1500 °F 430 10 5 F-MF_LUFT 0 150011MBA10EJ210 11TELS ZQ01 DAAWT 0..200 °F 570 10 5 F-MF_LUFT 0 16011MBA10EJ210 11MBA10CG005 XQ01 DAAWT -10..50 DEG 710 10 5 F-MF_LUFT 0 10011MBA10EJ210 11MBA10CP003S XQ01 DAAWT 0..350 PSIA 850 10 5 F-MF_LUFT 0 25011MBA10EJ210 11TEAVTX ZQ01 DAAWT 0..1500 °F 290 10 5 F-MF_LUFT 0 100011MBA10EJ210 11MBA10FT983 ZQ01 DAAWT 0..120 DEG F 990 10 5 F-MF_LUFT 0 12011MBA10EJ210 11PBTRSET XA92 TS OM 38 735 011MBA10EJ210 11MKA01CE903E XQ01 DAAWT 0..100 % 1131 10 5 F-MF_LUFT 0 10011MBA10EJ211 11MBD10CS001S XQ01 DAAWT 0..3600 RPM 10 10 5 F-MF_LUFT 0 360011MBA10EJ211 11MKA01CE003S XQ01 DAAWT 0..300 MW 150 10 5 F-MF_LUFT 0 21011MBA10EJ211 11TEAVBP XQ01 DAAWT 0..1500 °F 430 10 5 F-MF_LUFT 0 150011MBA10EJ211 11TELS ZQ01 DAAWT 0..200 °F 570 10 5 F-MF_LUFT 0 16011MBA10EJ211 11MBA10CG005 XQ01 DAAWT -10..50 DEG 710 10 5 F-MF_LUFT 0 10011MBA10EJ211 11MBA10CP003S XQ01 DAAWT 0..350 PSIA 850 10 5 F-MF_LUFT 0 25011MBA10EJ211 11TEAVTX ZQ01 DAAWT 0..1500 °F 290 10 5 F-MF_LUFT 0 100011MBA10EJ211 11MBA10FT983 ZQ01 DAAWT 0..120 DEG F 990 10 5 F-MF_LUFT 0 12011MBA10EJ211 11MKA01CE903E XQ01 DAAWT 0..100 % 1131 10 5 F-MF_LUFT 0 100



Translation of the headline of the list below:Bild à Diagram ID-code of the OM-pictureQuellKKS à Diagram ID-code of the source Pos à ????Sig à signal F/0_Farbe à F/0-colorBaustein à name of the HW-module 1_Farbe à 1-colorEinst(Z) à setting of the destination ID Anf à beginning of the analog valueEinh(Z) à unit of the settings Ende à end of the analog valueX_Pos à X-position of the module VW_0 à ????Y_Pos à Y-position of the module Anwahl à ????Delta à Delta

Scripts for ES680

28

param_sim.sh

Function: Generates a list with all TTD-parameters of HW-I/O and TTD-modules.The running-time of this script is simply long!


Command: param_sim.sh <Server::><Database> <ap>

Example: param_sim.sh txpabn 11,12 you’ll get the SIM module-parameters of AP 11 & 12


Kennzeichen Sig Baustein Einst_(Z) Einh_(Z) Anfang Ende Zeit Delta AWT DMZ

11ADA01DE101H XG01 S482GB CLOSED 0 1 111ADA01DE101H ZV01 BDMZ CLD ONCE 0 111ADA01DE101H ZV02 BDMZ NCL ONCE 0 111MBA10CG005 XQ01 SIM.GA -10..50 DEG -10 50 1000 167 111MBA10CG005 XH01 SIM.GA STROKE 0 4 111MBA10CP003S ZV23 BDMZ CH FAULT 0 211MBA10CP083 XG51 S482GB NORMAL 0 1 011MBA10CP083 XG01 BDMZ LOW 0 411MBA10CP085 XG52 S482GB NORMAL 0 1 011MBA10CP085 XG03 BDMZ HIGH 0 811MBA10CP087 XG52 S482GB NORMAL 0 1 011MBA10CP087 XG03 BDMZ HIGH 0 811MBA10CS001A XG51 S482GB NORMAL 0 1 011MBA10CS001A ZV01 BDMZ FAULT 0 411MBA10CS001B XG51 S482GB NORMAL 0 1 011MBA10CS001B ZV01 BDMZ FAULT 0 411MBA10CT101A XQ01 S464GT 0..1500F °F 32 2012 1000 167 111MBA10CT101A XH01 S464GT HI TEMP 0 4 111MBA10CT101A XH02 GWM >50 °F 0 1 011MBA10CT101B XQ01 S464GT 0..1500 °F 32 2012 1000 167 111MBA10CT101B XH01 S464GT HI TEMP 0 4 111MBA10CT101B XH02 GWM >50 °F 0 1 011MBA10CT102A XQ01 S464GT 0..1500F °F 32 2012 1000 167 1


It is useful to sort by column ‘Kennzeichen’ (diagram ID-Code) and ‘Sig’ (signal), if it’snot already done. Check the parameter ‘AWT’ (AWT) and whether the ‘DMZ’ (TTD) isactivated.

Translation of the headline of the list below:Kennzeichen à Diagram ID-code Ende à end of the analog valueSig à signal Zeit à sampling periodBaustein à name of the HW-module Delta à DeltaEinst_(Z) à setting of the destination ID AWT à AWT (1=E, 2=A, 4=W, 8=T)Einh_(Z) à unit of the settings DMZ à TTDAnfang à beginning of the analog value

Scripts for ES680

29

rev_list.sh

Function: Searching for any diagrams which have one or more entries in the revision fields.You’ll get a list including the diagram ID-Code (in german: KKS), page-number (ingerman: Seite), the entry of the revision field and the parameter-number.

The meaning of the parameter-numbers are the following: 1. 2. 3. line of the revision entry-block ---------------------------------------------------- 21 25 29 Status of the revision 22 26 30 Reason of modification 23 27 31 Date of modification 24 28 32 Name of the person

Further parameters (which are not analyzed with this script, see instead ‘schriftfeld.sh’): 4 page number 6 location 17 drawn by person 18 creation date of the diagram 19 checked by 20 Standard 33 Department


Command: rev_list.sh <Server::><Database>

Example: rev_list.sh txpabn REV you’ll get revision entries named with ...REV... rev_list.sh txpabn "" you’ll get all revision entries


kks seite revision parame

11BAB30CE006 1 1 2111BAB30CE006 1 -10 to 210 M 2211BAB30CE006 1 01.09.1999 2311BAB30CE006 1 NZK 2411MBA10CT002 1 IGV DEMAND 2211MBA10CT002 1 07.23.1999 2311MBA10CT002 1 NZ 2411MBJ01EU001 1 1 2111MBJ01EU001 2 1 2111MBJ01EU001 2 MC34201 22

Translation of the headline of the list below:kks à diagram ID-codeseite à page-numberrevision à revision-entry parame à parameter of the revision-field

Scripts for ES680

30

sample.sh

Function: A template for a script which can be used to implement a the real function.You might use this framework to create a new script to make it user-friendly and todocument it.

schriftfeld.sh

Function: Generates a list with all entries in the document title field.The list includes DTK, FC, ID-code, entry of the document title field and the parameter-number.

The meaning of the parameter-numbers are the following:17 drawn by person

18 creation date of the diagram 19 checked by 20 Standard

Parameter: $1 = Name of server and database$2 = name of the FC (in German: ‘fb’) like it is shown in the database.

Command: schriftfeld.sh <Server::><Database> <FB>

Example: schriftfeld.sh txpabn GT you’ll get the entries of the document title field ofthe FC ‘GT’

schriftfeld.sh txpabn % you’ll get the entries of the document title field ofall FC’s


uas fb kks inhalt param_

YDH C1 00TOP00 U. FOCHLER 17YDH C1 00TOP00 24.09.1998 18YDH C1 00TOP00 M. WEISS 19YDH C1 00TOP00 501F 20YFR C1 11MBN10CP083 U. FOCHLER 17YFR C1 11MBN10CP083 28.09.1998 18YFR C1 11MBN10CP083 M. WEISS 19YFR C1 11MBN10CP083 501F 20YFR C1 11MBX76AA095A PRIMKE 17YFR C1 11MBX76AA095A 28.09.1998 18YFR C1 11MBX76AA095A M. WEISS 19YFR C1 11MBX76AA095A 501F 20

Translation of the headline of the list below:uas à DTKfb à FCkks à diagram ID-codeinhalt à entry of the document title fieldparam_ à parameter of the title-field

Scripts for ES680

31

sig_fkz.sh

Function: Creates a list of all signals for one FGC (in german: FKZ).

Parameter: $1 = Name of server and database $2 = FGC

Command: sig_fkz.sh <Server::><Database> <FGC>

Example: sig_fkz.sh txpabn YMBJ00 you’ll get a list with all signals of the FGC YMBJ00


kks sig fkz bezeichnung einstell einheit

11MBJ10AA083 ZQ01 YMBJ00 STRT DEV TRQ CONV SPD CTL 0..100 %11MBJ10AA085 ZV51 YMBJ00 TORQUE CONV DRAIN DEMAND CLOSE11MBJ10AP001A XG01 YMBJ00 ST DEV TORQ CONV PMP STAT ON11MBJ10AP001B ZV01 YMBJ00 ST DEV TORQ CONV PMP CMD ON11MBJ10AP001B ZV02 YMBJ00 ST DEV TORQ CONV PMP CMD TRIP11MBJ10AU001A XG01 YMBJ00 START DEVICE STATUS ON11MBJ10AU001B ZV01 YMBJ00 START DEVICE CMD OFF DLYD11MBJ10AU001B ZV02 YMBJ00 START DEVICE CMD RUN11MBJ10AU001B ZV04 YMBJ00 START DEVICE CMD OFF11MBJ10AU001B ZV06 YMBJ00 START DEVICE CMD N ONPULS11MBJ10AU001E ZV02 YMBJ00 START DEVICE RUN CMD ON11MBJ10CL083 XG51 YMBJ00 STARTER OIL RSVR LO LEVEL LOW11MBJ10CP083 XG51 YMBJ00 TORQUE CONV OIL PRESS FULL11MBJ10CP083 XG53 YMBJ00 TORQUE CONV OIL PRESS EMPTY11MBJ10CT009 XH01 YMBJ00 TRQ CONV MTR END BRG TEMP >212 °F11MBJ10CT009 XH02 YMBJ00 TRQ CONV MTR END BRG TEMP >230 °F


It is useful to sort by column ‘kks’ (diagram ID-Code) and ‘sig’ (signal) if it’s not done yet.Checking parameters are individual.

Translation of the headline of the list below:kks à Diagram ID-code bezeichnung à descriptionsig à signal einstell à settingsfkz à FGC of the diagram einheit à unit

Scripts for ES680

32

sig_kks.sh

Function: Generates a to one function-diagram.

Parameter: $1 = Name of server and database $2 = Diagram ID-code

Command: sig_kks.sh <Server::><Database> < Diagram ID-code >

Example: sig_kks.sh txpabn '11MBA10%' you’ll get a list with all signals of the functiondiagram '11MBA10%'


kks sig fkz bezeichnung einstell einheit

11MBA10CG005 XH01 YMBA10 IGV POSITION ROT >47 DEG STROKE11MBA10CG005 XQ01 YMBA10 IGV POSITION ROTARY -10..50 DEG11MBA10CP003 XM23 YMBM10 COMBUSTOR SHELL PRESS A FAULT >>MAX11MBA10CP003 XQ01 YMBM10 COMBUSTOR SHELL PRESS A 0..350 PSIA11MBA10CP003S XM23 YMBM10 COMBUSTOR SHELL PRESSURE CH OK11MBA10CP003S XQ01 YMBM10 COMBUSTOR SHELL PRESSURE 0..350 PSIA11MBA10CP003S ZV01 YMBM10 COMBUSTOR SHELL PRESSURE SEN DEV FAULT11MBA10CP003S ZV23 YMBM10 COMBUSTOR SHELL PRESSURE CH FAULT11MBA10CP005 XM23 YMBM10 COMBUSTOR SHELL PRESS B FAULT >>MAX11MBA10CP005 XQ01 YMBM10 COMBUSTOR SHELL PRESS B 0..350 PSIA11MBA10CP083 XG01 YMBA10 COMP INLET PRES SWITCH LOW11MBA10CP083 XG51 YMBA10 COMP INLET PRES SWITCH NORMAL11MBA10CP085 XG03 YMBR10 TURBINE EXHAUST PRESS HIGH11MBA10CP085 XG52 YMBR10 TURBINE EXHAUST PRESS NORMAL11MBA10CP087 XG03 YMBR10 TURBINE EXHAUST PRESS HIGH11MBA10CP087 XG52 YMBR10 TURBINE EXHAUST PRESS NORMAL11MBA10CS001A XG51 YMBY01 HEALTH TACH #1 NORMAL11MBA10CS001A ZV01 YMBY01 HEALTH TACH #1 FAULT11MBA10CS001B XG51 YMBY01 HEALTH TACH #2 NORMAL11MBA10CS001B ZV01 YMBY01 HEALTH TACH #2 FAULT11MBA10CT101A XH01 YMBM11 BLD PATH T # 1A(HT1-1) HI TEMP11MBA10CT101A XH02 YMBM11 BLD PATH T # 1A(HT1-1) >50 °F


The list might be sorted by the column ‘kks’ and ‘sig’. It’s useful to check the usage of all‘sig’-parameters.

Translation of the headline of the list below:kks à Diagram ID-code bezeichnung à descriptionsig à signal einstell à settingsfkz à FGC of the diagram einheit à unit

Scripts for ES680

33

srel_lst.sh

Function: Generates a list with all settings for I&C, called SREL-variables, of the actual databaseunder the condition that the names of the SREL-variables are stored with a TEXT4-moduleand all these entries start with "#SREL:".The actual numerical value can not be recognized with this kind of script as soon as it isstored with another TEXT4-module!


Command: srel_lst.sh <Server::><Database>

Example: srel_lst.sh n70751::rbkdid


kks se srel

MBA00EZ110 1 #SREL: K.PUMP.01 MBA10EZ001 2 #SREL: S.TURB.95 MBA11CT101A 1 #SREL: T.VI.00 MBA11CT102A 1 #SREL: T.VI.00 MBA11CT103A 1 #SREL: T.VI.00 MBA11CT104A 1 #SREL: T.VI.00 MBA26CT900 5 #SREL: TT.AT.03 MBA26CT900 10 #SREL: TT.AT.01 MBA26CT900 12 #SREL: TT.AT.02 MBA26EZ001 2 #SREL: TT.AT.02 MBA26EZ001 2 #SREL: TT.AT.03 MBA26EZ001 7 #SREL:S.TURB.00 = n0 MBA26EZ001 7 #SREL:TT.ATK.11 MBA26EZ001 7 #SREL:TT.ATK.M07 MBA26EZ001 7 #SREL:TT.ATK.S07 MBA26FT901 1 #SREL: S.TURB.00 = n0 MBA26FT901 1 #SREL: TT.ATK 'K1' MBA26FT901 1 #SREL: TT.ATK 'K2' MBA26FT901 1 #SREL: TT.ATK 'K3' MBA26FT901 2 #SREL: TT.ATK.11 MBA26FT901 2 #SREL: TT.ATK.M07 MBA26FT901 2 #SREL: TT.ATK.S07


⇒ It is useful to sort by column ‘nam’ (diagram ID-Code) and ‘se’ (page-number) toobtain a good overview of the SREL-variables of the V-machines.

⇒ It is useful to sort by column ‘srel’ if you intend to change some of the SREL-variables.

Translation of the headline of the list below:kks à Diagram ID-codese à page-number srel à SREL-variables (settings for I&C)

Scripts for ES680

34

such_sig.sh

Function: Searching for the specified diagram ID-Code with a signal (wildcards are permitted).The search will be done within the source and the target ID-code.

Parameter: $1 = Name of server and database $2 = KKS $2 = Sig

Command: such_sig.sh <Server::><Database> 'KKS' 'Sig'

Example: such_sig.sh rbkdid '11MBY10CS%' ‘XH%’ you’ll get a list with all signal like XH..within the specified diagram ID-code

such_sig.sh king 'SIGDEF' '%' you’ll get a list with all KKS and signals ofthe project ‘king’


cpu1 q_kks q_se sig q_bez q_ein q_einhei z_kks z_se z_bez z_verw z_cpu1

11 11MBH40FT903S 1 XQ02 COMBUSTOR SHELLTEMP

0..1000 DEG F SIGDEF 0 COMBUSTOR SHELLTEMP

0

11 11MBH40FT903S 1 ZV01 COMBUSTOR SHELLTEMP

DEV ERR SIGDEF 0 COMBUSTOR SHELLTEMP

0

11 11MBH50CG083 1 XG01 GAS MANIF PRG ISOVLV#1

OPEN SIGDEF 0 GAS MANIF PRG ISOVLV#1

0

11 11MBH50CG085 1 XG01 GAS MANIF PRG ISOVLV#2

OPEN SIGDEF 0 GAS MANIF PRG ISOVLV#2

0

11 11MBH50CG087 1 XG02 GAS MANIF PURGEVNT VLV

CLOSE SIGDEF 0 GAS MANIF PURGEVNT VLV

0

11 11MBH50CG087 1 XG52 GAS MANIF PURGEVNT VLV

OPEN SIGDEF 0 GAS MANIF PURGEVNT VLV

0

11 11MBH50CP083 1 XG03 GAS MANIF PRGVENT PS#1

HIGH SIGDEF 0 GAS MANIF PRGVENT PS#1

0


NORMAL SIGDEF 0 GAS MANIF PRGVENT PS#1

0


HIGH SIGDEF 0 GAS MANIF PRGVENT PS#2

0


NORMAL SIGDEF 0 GAS MANIF PRGVENT PS#2

0

11 11MBH50EG901 1 ZV01 FG MANIF PRGSPACE P HIGH

TRIP SIGDEF 0 FG MANIF PRGSPACE P HIGH

0

11 11MBH50EG901 1 ZV02 FG MANIF PRGSPACE PRESS

LOW SIGDEF 0 FG MANIF PRGSPACE PRESS

0

12 11MBH60CF003 1 XH01 TRNSTN STM FLOW1 ORIF DP

HI DP SIGDEF 0 TRNSTN STM FLOW1 ORIF DP

0


It depends of the sorting or of the command and what you intend to check.

Translation of the headline of the list below:cpu1 à Source-AP q_einhei à unit of the source signalq_kks à Source diagram ID-code z_kks à Destination diagram ID-codeq_se à Page-number of the source diagram z_se à Destination page-numbersig à signal z_bez à Destination descriptionq_bez à Description of the source diagram z_verw à Destination usageq_ein à settings of the source signal z_cpu1 à Destination-AP

Scripts for ES680

35

such_verw.sh

Function: Searching for all function-diagrams containing the specified signal of the destination-field‘z_verw’. You’ll get a list like it is shown below

Parameter: $1 = Name of server and database$2 = Destination (parameter ‘z_verw’)

Command: such_verw.sh <Server::><Database> <destination>

Example: such_verw.sh n70751::rbkdid YW13 you’ll get a list with all signals YW13 in thedestination field

such_verw.sh n70751::rbkdid YP% you’ll get a list with any signals YP.. in thedestination field


q_fkz q_kks sig q_se q_bez q_ap z_ap z_fkz z_kks z_se z_bez z_verw

YMBA10 11MBA10CG005 XH01 1 IGV POSITIONROT >47 DEG

11 0 YP12 0 YP12

YMBA10 11MBA10CG005 XM23 1 IGV POSITIONROTARY

11 0 YP12 0 YP12

YMBA10 11MBA10CG005 XQ01 1 IGV POSITIONROTARY

11 0 loe 11EKT10EJ200

0 YP01

YMBA10 11MBA10CG005 XQ01 1 IGV POSITIONROTARY

11 -2 YCKYC1

11MBA10EJ210

1 C1 TRIPS YP01

YMBM10 11MBA10CP003 XM23 1 COMBUSTORSHELL PRESS A

11 0 YP12 0 YP12

YMBM10 11MBA10CP003S XQ01 2 COMBUSTORSHELLPRESSURE

11 -2 YCKYC1

11MBA10EJ210

1 C1 TRIPS YP01

YMBM10 11MBA10CP003S XQ01 2 COMBUSTORSHELLPRESSURE

11 -2 YCKYC1

11MBA10EJ211

1 C1 READY TOSTART

YP01

YMBM10 11MBA10CP003S ZV01 1 COMBUSTORSHELLPRESSURE

11 0 YP12 0 YP12

YMBM10 11MBA10CP003S ZV23 1 COMBUSTORSHELLPRESSURE

11 0 YP11 0 YP11

YMBM10 11MBA10CP005 XM23 1 COMBUSTORSHELL PRESS B

11 0 YP12 0 YP12

YMBA10 11MBA10CP083 XG01 1 COMP INLETPRES SWITCH

11 0 YP12 0 YP12

YMBR10 11MBA10CP085 XG03 1 TURBINEEXHAUST PRESS

11 0 YP13 0 YP13


It is useful to sort by column ‘z_verw’ (destination-use), ‘z_kks‘ (diagram ID-Code fromdestination) and ‘q_kks’ (diagram ID-code from source). With this sort-criteria you mightcheck e.g. if you have got an OM-picture for each YP01-destination.But you can also have further check possibilities!

Translation of the headline of the list below:q_fkz à FGC of the source signal z_ap à Destination-APq_kks à diagram ID-code of the source signal z_fkz à FGC of the destination signalsig à signal z_kks à Diagram ID-code of the destination signalq_se à Page-number of the source diagram z_se à Page-number of the destination signalq_bez à Description of the source diagram z_bez à Description of the destination signalq_ap à Source-AP z_verw à Destination usage

Scripts for ES680

36

text4.sh

Function: Searching for all text-entries containing the TEXT4-module.


Command: text4.sh <Server::><Database>

Example: text4.sh n70751::rbkdid


kks se comment

11MBP01EU001 1 $X111MBP01EU002 1 $X211MBP01EU003 1 $X311MBP01EU004 1 $X411MBP01EU005 1 $X511MBP01EU006 1 $X611MBP01EU007 1 $X711MBP01EU008 1 $X811MBP01EU009 1 $X911MBP01EU010 1 $X1011MBP01EU011 1 $X1111MBP01EU012 1 $X1211MBP01EU013 1 $X1311MBP01EU014 1 $X1411MBP01EU015 1 $X1511MBP01EU016 1 $X1611MBP01EU017 1 $X1711MBP01EU018 1 $X1811MBP01EU020E 1 $GAS_OR.I1


⇒ It useful to sort by column ‘kks’ (diagram ID-code) and ‘se’ (page) if it’s not done yet.Now you can see those parts which might be changed or deleted.

⇒ It is useful to sort by column ‘comment’ to identify diagrams to be deleted if a specialsystem is not applied.

Translation of the headline of the list below:kks à Diagram ID-codese à page-number comment à Text-entry

Scripts for ES680

37

zuli_offen.sh

Function: Generates a list with all open signals of any input or output entries in the function-diagrams.Excluded are connections of HW-modules and those of the auxiliary-systems (Secondary-System-modules).You’ll get two lists: one with ‘Open Input signals’ and one with ‘Open Output signals’

Parameter: $1 = Name of server and database $2 = AP

Command: zuli_offen.sh <Server::><Database> <AP>

Example: zuli_offen.sh rbkdid 11,12 you’ll get a list with open signals of any input or outputentries of AP11 & 12


‘Open Input signals’ sorted by diagram ID-code:

eingang_offen signal plankennzeichen

11DMPURGE ZV01 11TEHS11MBV20EZ903 ZV01 11MYB01EB001

‘Open Output signals’ sorted by diagram ID-code:

quellkennzeichen signal seite ziel_offen verw

11MBA10CG005 XQ01 1 11EKT10EJ200 YP0111MBA10CT121A XQ01 1 11MBY10EJ003 YP0111MBA10CT123A XQ01 1 11MBY10EJ003 YP0111MBA10CT125A XQ01 1 11MBY10EJ003 YP0111MBA10CT183 XQ01 1 11EKT10EJ200 YP0111MBA10DG921 ZQ02 1 11MBH30EJ200 YP0111MBA10DG921 ZQ99 1 11MBH30EJ200 YP0111MBA10DG921 ZQ99 1 11MBM10EJ299 YP0111MBD10CS001S XQ01 1 11EKT10EJ200 YP0111MBD10CT001A XQ01 1 10MBY10EJ200 YP0111MBD10CT003A XQ01 1 10MBY10EJ200 YP0111MBD10CT005A XQ01 1 10MBY10EJ200 YP0111MBH40DT005S XQ01 1 11MBY10EJ003 YP0111MBH40FT903S XQ02 1 11MBY10EJ003 YP0111MBN10AP001B XG51 1 10MBN10EJ200 YP01


⇒ Open Input signals of the column ‘eingang_offen’ haven’t got any usage to thelocated diagram ID-code of ‘plankennzeichen’ yet.

⇒ Open Output signals of the column ‘quellkennzeichen’ still have an open signal entryto the diagram ID-code of ‘ziel_offen’.

Translation of the headline of the two lists below:eingang_offen à ID-code of the ‘Open Input signal’signal à Signalplankennzeichen à Diagram ID-code of the open usage

quellkennzeichen à Diagram ID-code of the ‘Open Output signal’signal à Signalseite à page-numberziel_offen à Diagram ID-code of the open usageverw à destination usage

short description for database-scripts with es680 - … description for database-scripts with es680...

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