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TRANSCRIPT
Sender TsSKB
Subject: Electro-Diagnostic Test of PAMELA RH
Prot N° Year # of pages
R1.d.1 377bis 03 103
Receiving data Transmitting data 11/06/03
353П-46КС-27895-1105 1
APPROVED
TsSKB General Designer
First Deputy
____________ G.E. Fomin
"___"________ 2003
Electro-Diagnostic Test
Of “Pamela” RH in article 46КС
353П-46КС-27895-1105
Leading Designer
______________ V.N. Zjabchuk
"___"__________ 2003
Section 1107, Chief Section 1105, Chief
______________ Sh.Z Dusaev _____________ V.M. Federov
"___"__________ 2003 "___"_________ 2003
Section 1402, Chief
_______________ Ya.A. Mostovoy
"___"__________ 2003
Section 1405, Chief
_______________ S.A. Kustov
"___"___________ 2003
Section 1406, Chief
_______________ A.S. Kolpashikov
"___"___________ 2003
2003
353П-46КС-27895-1105 2
TABLE OF CONTENTS
Introduction………………………..………………………………
1. Indication of safety measures...…………………………………
2. Types of hardware testing …......…………….…………………
3. Tests of the hardware as part of the article ……………………
3.1 Purposes and tasks of the tests.………………………………...
3.2 Tests support .................……………………………………….
3.3 Evaluation of test results ...........……………………………….
3.4 GTE composition …………………………………………………….
4. Test activations of "Pamela" RH with support systems of the article
4.1 Procedure of PAM TA .................……………………………….
4.1.1 Procedure of PAM TA fragment 1 – "RH test"…......................
4.1.2 Procedure of PAM TA fragment 2 – "Technological opera-
tion"………………….............................................................…
4.1.3 Procedure of PAM TA fragments 3, 4 – "GS
test"...........................................………………………………………
4.2 Procedure of PAM/HSRL TA.………………………
4.2.1 Procedure of PAM/HSRL TA fragment 1 – "Nominal operation,
standby electronics test"………
4.2.2 Procedure of PAM/HSRL TA fragment 2 – "Test of HSRL communi-
cation channels"......................………………………………………….
5. Joint Operation of Pamela and HSRL .............................................
6. Integrated tests of Pamela ...............................................................
7. Amount of Pamela’s retesting after replacement of its components or
replacement of “Resource DK” SC...............................................
8. Estimation of operating time ……………………………………
9. Order of Pamela’s activation, deactivation and re-set......................………………………………………….…..
Annex 1. List of test programs.
353П-46КС-27895-1105 3
INTRODUCTION
The document on electro-diagnostic testing of "Pamela" RH summarizes
the scope and procedure of electrical testing of "Pamela" RH in article 46КС and is
the initial data for development of documentation on integrated electrical testing of
the article.
The present document was developed according to:
“Materials on "Pamela" RH control logic” (353П-46КС-26166-1105).
LIST OF ACRONYMS
RH – research hardware;
TA – testing activation;
JO – joint operation;
IT – integrated testing;
CD – computer data;
TM – telemetry;
SI – signaling information;
BCS – on-board computer system;
BTCS – on-board time-coordinate synchronizer;
CRPDS – command relay/power distribution system;
GV–global variable
PSS –power supply system;
OBE HSRL – on-board equipment of high speed radio link;
CMS – command measuring system;
BDTS – on-board data telemetry system;
FTD – flight time diagram
User – user (cosmodrome);
GTC – ground testing complex;
TP – technological prototype;
353П-46КС-27895-1105 4
FP – flight prototype;
Terminal – terminal;
PSCU – Pamela storage & control unit;
GSE – ground support equipment;
GTE – ground testing equipment;
RM –route marking;
TRD – transmission radiation detector;
MCMD – CC transmitted to the equipment by MCL;
GTE – ground testing equipment.
353П-46КС-27895-1105 5
1. INDICATION OF SAFETY MEASURES
Operation with "Pamela" RH is allowed to persons acquainted with mode
of functioning, structure of the article, operational documentation for the testing
equipment, trained in safety measures and entitled to work with electric facilities
of voltage below 1000 V in a group of 3 minimum and also entitled to work with
high-pressure vessels.
Operating personnel shall be acquainted with and observe the rules and
service instructions for instruments used for operations with the article and
also other rules and instructions in force at the manufacturing plant and at
the user’s.
353П-46КС-27895-1105 6
2. TYPES OF HARDWARE TESTING
At 46КС article manufacturing plant ("Progress" plant) electrical testing of
"Pamela" RH both for technological and flight prototypes are carried out in the fol-
lowing phases:
- prior installation on the article – incoming test using "Pamela" RH GSE
according to documentation developed in INFN.
- after installation on the article:
1. Test activations with the article’s support systems including:
a) equipment serviceability checkout;
b) test of communications with BCtS, CRPDS, BTMS, BTCS;
c) test of communications with HSRL OBE using technological output of
TDM commutator.
2. Joint operation with HSRL OBE.
3. Integrated testing (IT).
Measurement of interference level and slump of voltage in supply circuits
is carried out for the technological prototype.
The consequence of testing flight prototype of "Pamela" RH at the user’s is
the same.
Diagram of work with technological and flight prototypes of "Pamela" RH
at the “Progress” plant and at the user’s is given in Figure 0.
353П-46КС-27895-1105 7
Installation oftechnological prototype inSC PC
TA, JO, IT with technologi-cal prototype (2 cycles)
Activities on measuringmagnetic fields levels
Testing at the "Progress" plant
Incoming test oftechnological pro-totype
Incoming test of flightprototype
Dismounting oftechnological prototype
Instal. of flightprototype intoSC PC
TA, JO, IT with flight prototype (2 cycles)
Dismantling of flight prototype
Testing at the "Progress" plant
Instal. of flightprototype intoSC PC
TA, JO, IT with flight pro-totype (2 cycles)
Autonomous testing of flight proto-type within the scope of incoming test(external examination of RH and GSmono-units)
Test at the user’s
Meas interf level&volt slump
Figure 0. Diagram of work with TP and FP of "Pamela" RH at the "Progress" plant and at the user’s.
353П-46КС-27895-1105 8
3. TESTS OF THE HARDWARE AS PART OF THE ARTICLE
3.1 Purposes and tasks of the tests.
The purpose of electrical testing of "Pamela" RH as part of the article is to
confirm its serviceability as part of the article and availability for operation in ac-
cordance with its mission.
Tasks of the electrical testing of the hardware as part of the article are as
follows:
а) testing accuracy of hardware/46КС article systems connections;
б) testing the hardware serviceability including checkout of: PSCU, Termi-
nal, basic and standby protection units (PU) sets, basic and standby chan-
nels of basic and standby exchange adapter, basic and standby power sup-
ply, basic and standby electronics of the tracker, trigger, С4, ND, "I-DAQ"
system and also memory modules А and В;
в) testing electric interaction of the hardware with support systems of the
article: BCtS, CCIU, BTMS, CRPDS, HSRL OBE and also electric interac-
tion of communication lines with these systems.
To test communication lines between the hardware and support systems of
the article it is necessary to perform:
1. Two-way exchange of information (delivery of macro commands
(MCMD) to the hardware and receipt of service information from
the hardware) by line A and line B using the terminal – BCtS
communication test.
2. Issue of all necessary CC to the hardware under sequential dis-
connection of buses Еок1, Еок2 – CRPDS communication test.
3. Transmission of test information to HSRL OBE by the primary
and standby channel – HSRL communication test.
4. Issue of synchrosignals to the hardware by channel 1 and 2 -
CCIU communication test
353П-46КС-27895-1105 9
5. Assessment of TM for reference values – BTMS communication
test.
Functional scheme of communication between "Pamela" RH and GTS and
article’s systems is given in picture 1.
PSS
CRPDS BCtS CCIU
"Pamela" RH
HSRL OBE BTMS GTS
CMS
Figure 1 Functional scheme of communication between "Pam-
ela" RH and support systems of article 46КС and GTS.
353П-46КС-27895-1105 10
3.2 Tests support.
All kinds of testing of the hardware as part of article 46КС are carried out
using ground testing complex on the basis of the control computer and mathemati-
cal test support. Hardware control in the course of the test activations and joint op-
eration with HSRL OBE is carried out by nominal program A11 using RAM Pro-
gram. Hardware control in the course of IT is carried out by nominal program A11
initiated from OP.
Prior testing of "Pamela" RH as part of the article the following article’s
systems shall be activated and ready for operation: BVS, BDTS, BTCS, CRPDS,
PSS, CMS. HSRL OBE shall be activated and ready for operation prior the first
exchange session in the course of PAM TA with HSRL, JO and IT.
Pressurized container with "Pamela" RH shall be in transport condition
with the cover closed, "Pamela" RH normally joined with the article’s systems.
"Pamela" RH GSE shall be connected with "Pamela" RH through connector BCS
Х «ГН15Т.10» and connected with HSRL OBE GTE according to ИЭ17 part44. In
the course of all kinds of electrical testing of "Pamela" RH as part of the SC the
ground cooling system (353У.9152.001) is connected to "Pamela" RH cooling
loop hydraulic pipelines. Connection of the cooling loop and filling the working
fluid into the cooling loop are made according to Instructions 353У.9152.001 ПМ
2 and 353У.9152.001 ИЭ 2 during tests in “Progress” plant and in the launch site
accordingly. When the pressurized container is in operating position or in any in-
termediate position the tests shall not be carried out.
Power dump is allowed at any operational phase of "Pamela" RH. After
restoration of supply it is necessary to activate test program ЖР67 in input termi-
nal 10 to deactivate the hardware and to proceed with the nominal operation of
"Pamela" RH.
3.3 Evaluation of test results.
353П-46КС-27895-1105 11
Control of "Pamela" RH serviceability in the course of all electrical tests in
the article is executed by GTS using test programs ЖР67, ЖР68, ЖР69.
ЖР67 – program "Pamela" RH serviceability test in the course of TA with
support systems of the article";
ЖР68 – program "Control of "Pamela" RH/HSRL" JO;
ЖР69 – program "Test of "Pamela" RH serviceability in the course of IT".
To control serviceability of the hardware the following items are used by
GTS:
- nominal circuits of TM-control by channels of addressed TM selection;
- technological control circuits led to GTS through the signaling transmit-
ter (ST);
- Computer data (CD) transmitted from BCtS RAM through technologi-
cal channel "МТ".
Evaluation of tests results is carried out by ANP prints, tapes of open re-
cording of BTMS, testing scientific data.
3.4 GTE composition.
"Pamela" RH GSE (КБ7.101.00.000.00), GTE of HSRL OBE and ground
cooling system (353У.9152.001) are used in the course of testing of "Pamela" RH
as part of the article.
353П-46КС-27895-1105 12
4. TEST ACTIVATIONS OF "PAMELA" RH WITH
SUPPORT SYSTEMS OF THE ARTICLE
Test activations of "Pamela" RH with support systems are composed of
two parts: PAM TA and PAM TA with HSRL.
4.1 Procedure of PAM TA.
PAM TA are obtained using RAM Program 42 "Pamela" RH control in
TA" and test program ЖР67. The hardware control is performed by nominal pro-
gram А11.
RAM Program 42 is intended for:
- generation of ID for program А11 and the hardware,
- initiation of А11 program inputs at the necessary moments of time (ac-
cording to the time diagram),
- on-board and ground software synchronization,
- gaining CD by the test program through route mark (“RM”) channel,
- debugging test of MCMD "Lock the transmitter" and MCMD "Unlock
the transmitter" by the Terminal.
Prior PAM TA it is necessary to put BTMS in operational mode "ЗАП4",
ПрБ1.
PAM TA consist of the following fragments: "RH test, "Operation in tech-
nological regime", "GS test ".
It is possible to debug each fragment separately. The point of fragment de-
bugging is determined by availability of "1" in the position corresponded with
fragment’s number, GV "VPAMTA" (variant of «Pamela» RH test activations).
The distribution of positions GV "VPAMTA" is given below:
23 … 6 5 4 3 2 1 0
fr.4 fr.3 fr.2 fr.1
353П-46КС-27895-1105 13
This variable is specified from the planning program КП6 prior ЖР67 ini-
tiation by input 1 and is transmitted to RAM Program42 by switching on and off
the "ПИ КТП", "ПИСУД" indicators from program ЖР67.
If necessary "Pamela" RH operation on a special program is provided in-
cluding "Pamela" RH dismantling from the article and testing by means of "Pam-
ela" RH GSE.
353П-46КС-27895-1105 14
4.1.1 Procedure of PAM TA fragment 1 – "RH test".
Time diagram of this fragment is given in fig. 1.
The following activities are performed on this fragment:
test of hardware/CRPDS communication (transmission of all CC provided
for "Pamela" RH by buses Еок1 and Еок2),
test of "Pamela" RH/BTSC communication (operation under alternate dis-
connection of primary and standby synchrosignals issue channels),
debugging test of MCMD "Lock the transmitter" and MCMD "Unlock the
transmitter" by the Terminal.
For this purpose four "Pamela" RH activations are performed: the first one
and the third one - with bus Еок2 being disconnected, the second one and the
fourth one – with bus Еок1 being disconnected. For it under the second activation
the first BTCS synchrosignals channel is active, under the third one - the second
BTCS synchrosignals channel is active.
Connection and disconnection of buses Еок1 and Еок2 and also connec-
tion/disconnection of BTCS channels are performed by program ЖР67.
In case of disconnection of channel 1 BTCS, channel 2 BTCS, connection
of channels (after debugging of input 1, 2, 3 of program Б76 respectively) attribute
"ABN BTCS" is analyzed by program ЖР67. When this attribute=1 "PAM ABN"
GV (abnormal completion of "Pamela" RH test activations) of value =1 is formed
and drift to line 50 is performed.
Program ЖР67 is initiated by input 1 from the planning program before the
beginning of fragment 1 and RAM Program 42 is initiated right after OP loading.
First program ЖР67 verifies temperature TM-parameters of "Pamela" RH
for compliance with allowed values. If there is no "ABN" then program ЖР67
executes board timing. For it ЖР67 sets indicator "ПИ КТП" to 0 ("ПИ КТП" is
on) and for two minutes it controls "МТ1" signal generated by RAM Terminal42
with the state of "ПИ КТП" indicator being changed from “on” to “off” ("ПИ
353П-46КС-27895-1105 15
КТП" indicator status poll is performed by RAM Program42 with a period of
Т=1sec).
If "МТ1" signal is generated in due time ЖР67 program’s actions are as
follows:
-Within 3 seconds after synchronization ЖР67 changes "ПИ КТП" indica-
tor state by issuing CC "Off ПИ КТП" or CC "On ПИ КТП" and also issues CC
"On ПИ СУД" or "Off ПИ СУД" depending on the first position of GV "V PAM
TA" (for unit position of GV "V PAM TA" CC "Off ПИ СУД" is issued and for it
"ПИ СУД" indicator value=1).
- in 3 seconds after synchronization RAM Program42 performs control of
"ПИ КТП" indicator state and in case of its change it inserts "1" in position 1 of
its working cell "ВРАБ" if "ПИ СУД"=1 or – 0 if "ПИ СУД"=0;
- after that the rest three positions of "ВРАБ" variable are generated with
a period of 3 sec similarly to the above. So within 12 seconds from the
moment of synchronization the transmission of data on PAM TA frag-
ments processing on board is completed.
Then program ЖР67 executes the second RAM Program 42 timing with
zeroing the on-board time scale (ТБШВ) and time counters in the GTC and
BTMS. This is performed as follows:
-RAM program records the value=525258 in GV «КДБСК1.КОД» and
ТБШВ=0 in GV «ВЯ БСУ»;
- RAM program enters the setting of the time interval УВИД=tбшв +3sec.
for reference to the mark of seconds for activation of program A40 by input 1.
- during 3 seconds program ЖР67 controls the generation of "МТ" signal
(140478), formed by A40 program.
After that, program ЖР67 (If "МТ" signal from program A40 is generated
in due time) executes clearance of time meters at GTS and BTMS and proceeds
with its work according to the timing diagram.
353П-46КС-27895-1105 16
Upon completion of the fragment debugging program ЖР67 executes dis-
connection of "ПИ КТП" indicator.
In abnormal completion of PAM TA (no "МТ1", abnormal temperature pa-
rameters, a unit value of GV "N BTCS", etc) program ЖР67 forms GV "PAM
ABN"=1.
In the process of its operation in this fragment RAM Program 42 executes
connection of program А11 inputs to carry out:
- test of "Pamela" RH/BCtS communication channel (DTL А),
- issue of MCMD "Time synchronization", "Mode selection" with an at-
tribute of TRD purge inhibition, "Pamela" RH test”,
- debugging test of MCMD "Lock the transmitter" and MCMD "Unlock
the transmitter" by the Terminal,
- request of the status word of the hardware after it was subjected to some
activities.
RAM Program 42 also forms the following signals:
"МТ1" – in case of “on” condition of "ПИ КТП" indicator during timing;
"МТ2" – in case of no “on” condition of "ПИ КТП" indicator during tim-
ing;
"МТ3" – if "Pamela" RH status word with zero positions is available;
"МТ4" – if "Pamela" RH status word with nonzero positions is available or
no exchange via MCL.
Debugging of MCMD "Lock/unlock the receiver-transmitter" is performed
by the Terminal in the following order:
1) MCMD "Lock the transmitter" is issued to the hardware through DTL A
and this command causes DTL B receiver-transmitter to be locked;
2) After that RAM Program 42 sets DTL A fault sign to "1" (GV
"КДСПЛ2" [1]=1) and activates input 16 of program А11 where MCL
exchange being executed. The exchange is started by DTL B and is not
353П-46КС-27895-1105 17
executed (no OS) as DTL B receiver-transmitter is locked. Program
A11 forms coded CD А11-0=448 and =638;
3) Then after zeroing the anomaly flag of DTL1 A (КДСПЛ2[1]=0) RAM
Program 42 issues MCMD "Unlock the transmitter" to Pamela through
DTL A, zeroes GV "НРЛПИБ" (70411[2]=0), sets КДСПЛ2[1] into
“1” and activates input 16 of program А11 where DTL B exchange is
completed normally and program А11 forms coded CD А11-0=0;
4) After that RAM Program 42 through DTL B it issues MCMD "Lock the
transmitter" to Pamela and the command causes DTL A transmitter to
be locked;
5) Then RAM Program 42 sets DTL A fault attribute to "0" (GV
"КДСПЛ2" [1]=0) and activates input 16 of program А11 where MCL
exchange being executed again. As DTL A receiver-transmitter is
locked, the exchange is not executed (no OS), program А11 forms
coded CD А11-0=208 and goes to DTL B where the exchange is com-
pleted nominally;
6) Then RAM Program 42 issues MCMD "Unlock the transmitter" by
DTL B;
7) After that RAM Program 42 zeroes DTL A exchange impossibility at-
tribute for program А11 (GV "НРЛПИА" (70412[9]=0) and activates
program А11 by entry 16. DTL A exchange is executed nominally
(coded CD А11-0=0).
Controlling the status word (StW) RAM Program 42 executes the follow-
ing: it issues MCMD “OFF GS” if "УНН" parameter (positions 1-4) =1 or 2, if the
value =1 for positions 11, 12, 13 it activates program А11 by input 13 for emer-
gency deactivation of "Pamela" RH.
In fragment 1 RAM Program 42 forms the following ID for program А11
and the hardware:
353П-46КС-27895-1105 18
- MCMD "Mode selection";
- MCMD "RH test".
MCMD data is given in table 2.
All commands sent to the hardware in the first fragment of PAM TA are
given in table 1.
Table 1
Command type Command name The command issue time The com-
mand issue
place
The first activation (in Еок1 and first BTCS channel)
СС Pamela power bus
on
t0 – time of on-board and
testing program synchro-
nization
ЖР67
СС "PSCU ON MAIN" 230 s +t0 ЖР67
MCMD СС request 350 s +t0 А11
CC "GAS ENABLE" 352 s +t0 ЖР67
"Interaction test of RH with BCtS via MCL"
MCMD Issue 32 words of
test info
355 s +t0 А11
MCMD read 32 words of
test info
А11
MCMD "Transmit StW" А11
MCMD StW request 357 s +t0 А11
MCMD Time Sync 365 s +t0 А11
MCMD СС request 367 s +t0 А11
MCMD "Select Mode" 375 s +t0 А11
1 data transmission line
353П-46КС-27895-1105 19
Command type Command name The command issue time The com-
mand issue
place
MCMD СС request 377 s +t0 А11
CC "IPM1 ON" 385 s +t0 ЖР67
CC "IPM3 ON" 385 s 200 ms +t0 ЖР67
CC "IPM5 ON" 385 s 400 ms +t0 ЖР67
MCMD СС request 387 s +t0 А11
MCMD СС request 537 s +t0 А11
CC ND power bus on 10 min +t0 ЖР67
CC "ND ON" 11 min +t0 ЖР67
CC ND main low volt-
age
12 min +t0 ЖР67
CC ND main high volt-
age
13 min +t0 ЖР67
Nominal deactivation
MCMD "Select Mode" 14 min +t0 А11
MCMD СС request 14 min 1s +t0 А11
MCMD " Select Mode " 14 min 2s +t0 А11
MCMD СС request 14 min 3s +t0 А11
MCMD СС request 14 min 3s +t0 А11
CC "IPM 1,2 OFF" 14 min 4s +t0 А11
CC "IPM 3,4 OFF " А11
CC "IPM 5,6 OFF " А11
CC "PSCU OFF" А11
CC "ND OFF" А11
CC "GAS OFF" А11
CC "Waiting Mode On" А11
353П-46КС-27895-1105 20
Command type Command name The command issue time The com-
mand issue
place
CC ND power bus off А11
CC Pamela power bus
off
А11
The second activation (in Еок2 and first BTCS channel)
CC Pamela power bus
on
t0 – time of on-board and
testing program synchro-
nization
ЖР67
CC "PSCU ON MAIN" 230 s +t0 ЖР67
MCMD СС request 350 s +t0 А11
СС "GAS ENABLE" 352 s +t0 ЖР67
"Interaction test of RH and BCtS via MCL"
MCMD issue 32 words of
tests info
355 s +t0 А11
MCMD read 32 words of
test info
А11
MCMD "Transmit StW" А11
MCMD СС request 357 s +t0 А11
MCMD Time Sync 365 s +t0 А11
MCMD СС request 367 s +t0 А11
MCMD "Select Mode" 375 s +t0 А11
MCMD СС request 377 s +t0 А11
CC "IPM1 ON" 385 s +t0 ЖР67
CC "IPM3 ON" 385 s 200 ms +t0 ЖР67
CC "IPM5 ON" 385 s 400 ms +t0 ЖР67
353П-46КС-27895-1105 21
Command type Command name The command issue time The com-
mand issue
place
MCMD СС request 387 s +t0 А11
MCMD СС request 537 s +t0 А11
CC ND power bus on 10 min +t0 ЖР67
CC "ND ON" 11 min +t0 ЖР67
CC ND main low volt-
age
12 min +t0 ЖР67
CC ND main high volt-
age
13 min +t0 ЖР67
Nominal deactivation (see above)
The third activation of the hardware (in Еок1 and second BTCS channel)
CC Pamela power bus
on
t0 – time of on-board and
testing program synchro-
nization
ЖР67
CC "PSCU ON
SPARE"
230 s +t0 ЖР67
MCMD СС request 350 s +t0 А11
CC "GAS ENABLE" 352 s +t0 ЖР67
"Interaction test of RH and BCtS via MCL"
MCMD issue 32 words of
test info
355 s +t0 А11
MCMD read 32 words test
info
А11
MCMD "Transmit StW" А11
MCMD СС request 357 s +t0 А11
MCMD Time Sync 365 s +t0 А11
353П-46КС-27895-1105 22
Command type Command name The command issue time The com-
mand issue
place
MCMD СС request 367 s +t0 А11
MCMD "Select Mode" 375 s +t0 А11
MCMD СС request 377 s +t0 А11
CC "IPM2 ON" 385 s +t0 ЖР67
CC "IPM4 ON" 385 s 200 ms +t0 ЖР67
CC "IPM6 ON" 385 s 400 ms +t0 ЖР67
MCMD СС request 387 s +t0 А11
MCMD СС request 537 s +t0 А11
CC ND power bus on 10 min +t0 ЖР67
CC "ND ON" 11 min +t0 ЖР67
CC ND spare low volt-
age
12 min +t0 ЖР67
CC ND spare high volt-
age
13 min +t0 ЖР67
Nominal deactivation
The fourth activation (in bus Еок2)
CC Pamela power bus
on
t0 – time of on-board and
testing program synchro-
nization
ЖР67
CC "PSCU ON
SPARE"
230 s +t0 ЖР67
MCMD СС request 350 s +t0 А11
CC "GAS ENABLE" 352 s +t0 ЖР67
353П-46КС-27895-1105 23
Command type Command name The command issue time The com-
mand issue
place
"Interaction test of RH with BCtS via MCL"
MCMD issue 32 words of
test info
355 s +t0 А11
MCMD read 32 words of
test info
А11
MCMD "Transmit StW" А11
MCMD СС request 357 s +t0 А11
MCMD Time Sync 365 s +t0 А11
MCMD СС request 367 s +t0 А11
MCMD "Select Mode" 375 s +t0 А11
MCMD СС request 377 s +t0 А11
CC "IPM 2 ON" 385 s +t0 ЖР67
CC " IPM 4 ON " 385 s 200 ms +t0 ЖР67
CC " IPM 6 ON " 385 s 400 ms +t0 ЖР67
MCMD СС request 387 s +t0 А11
MCMD СС request 537 s +t0 А11
CC ND power bus on 10 min +t0 ЖР67
CC "ND OFF" 11 min +t0 ЖР67
CC ND spare low volt-
age
12 min +t0 ЖР67
CC ND spare high volt-
age
13 min +t0 ЖР67
MCMD "RH test" 14 minutes +t0 А11
MCMD СС request 14 min 2s +t0 А11
CC "RESET PSCU" 15 min +t0 ЖР67
353П-46КС-27895-1105 24
Command type Command name The command issue time The com-
mand issue
place
CC "SAFE MODE
ON"
16 min +t0 ЖР67
CC "SAFE MODE
OFF"
17 min +t0 ЖР67
CC "Waiting Mode
Off"
18 min +t0 ЖР67
CC " Waiting Mode On
"
18 min 20s +t0 ЖР67
Еок1 ON, Еок2 OFF
CC "RESET PSCU" 20 min +t0 ЖР67
CC "SAFE MODE
ON"
21 min +t0 ЖР67
CC "SAFE MODE
OFF"
22 min +t0 ЖР67
CC "Waiting Mode
Off"
23 min +t0 ЖР67
CC " Waiting Mode On
"
23 min 20s +t0 ЖР67
Test of the terminal debugging of MCMD "Lock the transmitter",
"Unlock the transmitter".
MCMD "Lock the
transmitter" (on
DTL B)
25 min +t0 ПрОЗУ42
"Test of RH/BCtS interaction through MCL"
353П-46КС-27895-1105 25
Command type Command name The command issue time The com-
mand issue
place
MCMD "Unlock the
transmitter" (on
DTL B)
27 min +t0 ПрОЗУ42
"Test of RH/BCtS interaction through MCL"
MCMD "Lock the
transmitter"
(on DTL A)
29 min +t0 ПрОЗУ42
"Test of RH/BCtS interaction through MCL"
MCMD "Unlock the trans-
mitter " (on DTL
A)
31 min +t0 ПрОЗУ42
"Test of RH/BCtS interaction through MCL"
Nominal deactivation
MCMD "Select Mode" 35 min +t0 А11
MCMD СС request 35 min 1s +t0 А11
MCMD "Select Mode" 35 min 2s +t0 А11
MCMD СС request 35 min 3s +t0 А11
MCMD СС request 35 min 3s +t0 А11
СС "IPM1-2 Off" 35 min 4с +t0 А11
СС "IPM3-4 Off" А11
СС "IPM5-6 Off" А11
СС PSCU Off А11
СС ND Off А11
СС GAS Off А11
353П-46КС-27895-1105 26
Command type Command name The command issue time The com-
mand issue
place
СС GS standby mode
on
А11
СС ND power bus off
А11
СС Pamela’s power bus off
А11
353П-46КС-27895-1105 27
Table 2 MCMD, formed by RAM Program 42 for fragment 1 of PAM TA.
MCMD "Select Mode"
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
counter MCMD = 0
0 code MCMD = 3316
length MCMD = ?
Time indicator (most significant bit) = 0
Time indicator (least significant bit) = 0
0 CW = 0
MCMD " Pamela’s test "
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD = 0
0 Code MCMD = 8F16
Length MCMD = 7
Time indicator (most significant bit) = 0
Time indicator (least significant bit) = 0
0 CW = 0
For this fragment "Pamela" RH is activated by CC "ON MAIN PSCU")
from program ПР67, nominal purging of TRD is not executed.
"Select Mode"
MCMD data field
"RH" test” MCMD data field
353П-46КС-27895-1105 28
4.1.2 Procedure of PAM TA fragment 2 – "Technological operation".
For this fragment the hardware is activated nominally, the 2, 3 and 6-rd
protection unit, memory module А, standby sources of low and high ND voltage
are ON. A2 operational mode is debugged. The following MCMD are debugged by
the hardware: "PCSU S/W correction", "Memory unload", "History zone reboot".
The time diagram is given in figure 9. Time sync of ground and on-board software
operation is made in the same way as in item 4.1.1.
In this fragment CD2 shall be taken off with micro OP№*** being pre-
recorded for reading the data array off WM BCtS 510008 address of size 2048 16-
digit words.
RAM Program42 forms the following ID necessary for А11 program and
the hardware in this fragment:
- GV "ЗВРПК"=1;
- GV "БЛПГК"=0;
- GV "БЛПАМ"=0;
- GV "ВРБУЗП"=1;
- GV "КДБЗ"=468;
- GV "НРНД"=0;
- GV "ВРНИЗН"=1;
- GV "ВРВЫСН"=1;
- GV "ВРИСПП"=0;
- GV "СЧПРПО"=0;
- GV "КДМАСК"=0;
- 2 MCMD "DUMP";
- MCMD "PATCH";
- MCMD "Select Mode";
- MCMD " History zone reboot ".
These MCMD are given in fig. 3.
Table 3 ID, formed by RAM Program42 for fragment 2 of PAM TA.
353П-46КС-27895-1105 29
MCMD "Select Mode" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD=0
0 Code MCMD=3316
Length MCMD=?
Time indicator (most significant bit) = 0
Time indicator (least significant bit) = 0
0 CW
MCMD "DUMP" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD=0
0 Code MCMD = 2116
Length MCMD =9
Time indicator (most significant bit) = 0
Time indicator (least significant bit) = 0
CW
MCMD "PATCH" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD = 2016
353П-46КС-27895-1105 30
Length MCMD = ?
Time indicator (most significant bit) = 0
Time indicator (least significant bit) = 0
КС
MCMD " History zone reboot " 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code КДМК = 2216
Length MCMD = 6
Time indicator (most significant bit) = 0
Time indicator (least significant bit) = 0
КС
Commands sent to the hardware in the second fragment of PAM TA are
given in table 4.
Table 4
Command type Command name The command issue time The com-
mand is-
sue place
"Nominal activation"
CC Pamela’s power bus on
t0 – time of on-board and test-
ing program synchronization
А11
353П-46КС-27895-1105 31
Command type Command name The command issue time The com-
mand is-
sue place
CC "PSCU ON
SPARE"
230 s + t0 А11
MCMD СС request 350 s + t0 А11
MCMD "RH/BCtS inter-
action test via
MCL" (see Ta-
ble 1)
351 s + t0
MCMD Time Sync 352 s + t0
MCMD СС request 353 s + t0 А11
CC "IPM 2 ON" 354 s + t0 А11
CC "IPM 3 ON" 354 s 250 мс + t0 А11
CC "IPM 6 ON" 354 s 500 мс + t0 А11
CC "GAS EN-
ABLE"
А11
MCMD СС request 355 s + t0 А11
MCMD СС request 506 s + t0 А11
MCMD "Select Mode" 508 s + t0 А11
MCMD СС request 509 s + t0 А11
CC ND power bus on
А11
CC "ND ON" А11
CC ND spare low
voltage
А11
CC ND spare high
voltage
А11
353П-46КС-27895-1105 32
Command type Command name The command issue time The com-
mand is-
sue place
MCMD "Select Mode" 9 min + t0 А11
MCMD "DUMP" 10 min + t0 А11
MCMD Reset memory
dump into
RAM BCtS
12 min + t0 А11
MCMD "PATCH" 15 min + t0 А11
MCMD "DUMP" 18 min + t0 А11
MCMD Reset memory
dump into
RAM BCtS
19 min + t0 А11
MCMD Reset history
zone MCMD
into RAM BCtS
22 min + t0 А11
MCMD "RESET HIS-
TORYAREA"
23 min + t0 А11
MCMD Reset history
zone MCMD
into RAM BCtS
25 min + t0 А11
"Nominal OFF"
(see Table 1)
40 min + t0 А11
353П-46КС-27895-1105 33
4.1.3 Procedure of PAM TA fragments 3, 4 – "GS test".
The time diagram of the fragments is given in figures 9,10. Time sync of
ground and on-board software operation is made in the same way as in item 4.1.1.
Fragment 3 is executed both for technological and flight "Pamela" RH pro-
totype.
In this fragment GS is tested for what concerns TRD purging, release of
differential pressure from PC. Fragment 4 is executed with a flight prototype only.
A general nominal purging of TRD is carried out. The duration of this fragment is
about 7 hours. During these hours "Pamela" RH status is under control of nominal
program А11 input 11 (request of the hardware for a status word with 10 sec pe-
riod) and test program ЖР67 input 3 (schematic TM).
For debugging of fragments 3, 4 RAM Program 42 forms the following ID:
- GV "ЗВРПК"=1;
- GV "БЛПГК"=0;
- GV "БЛПАМ"=0;
- GV "ВРБУЗП"=0;
- GV "КДБЗ"=158;
- GV "НРНД"=0;
- GV "ВРНИЗН"=0;
- GV "ВРВЫСН"=0;
- GV "ВРИСПП"=0;
- GV "СЧПРПО"=0;
- GV "КДМАСК"=0;
- MCMD "TRD purging";
- MCMD "Mode selection";
- MCMD "PC pressure release".
These MCMD are given in table 5.
Table 5 ID, formed by RAM Program 42 for fragments 3, 4 of PAM TA.
353П-46КС-27895-1105 34
MCMD "TRD purging" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD=0
0 MCMD= 3016
Length MCMD =7
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
MCMD "PC pressure release" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 MCMD = 3116
Length MCMD =7
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
MCMD "Select Mode" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 MCMD = 3316
Length MCMD =?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
MCMD data area “Select Mode”
353П-46КС-27895-1105 35
CW
Commands sent to the hardware in the third fragment of PAM TA are
given in table 6.
Table 6
Command type Command name The command issue time The com-
mand is-
sue place
"Nominal activation"
CC Pamela’s power bus on
t0 – time of on-board and test-
ing program synchronization
А11
CC "PSCU ON
MAIN"
230 s + t0 А11
MCMD СС request 350 s + t0 А11
MCMD "RH/BCtS inter-
action test via
MCL" (see table
1)
351 s + t0
MCMD Time Sync 352 s + t0
MCMD СС request 353s + t0 А11
CC "IPM 1 ON" 354 s + t0 А11
CC "IPM 3 ON" 354 s 250 мs + t0 А11
CC "IPM 5 ON" 354 s 500 мs + t0 А11
CC "GAS ENABLE" А11
MCMD СС request 355 s + t0 А11
353П-46КС-27895-1105 36
Command type Command name The command issue time The com-
mand is-
sue place
MCMD СС request 506 s + t0 А11
MCMD "Select Mode" 508 s + t0 А11
MCMD СС request 509 s + t0 А11
CC ND power bus on
А11
CC "ND ON" А11
CC ND main low
voltage
А11
CC ND main high
voltage
А11
MCMD PURGE TRD 540 s + t0 А11
MCMD "Select Mode" 662 s + t0 А11
MCMD START CON-
TAINER PURG-
ING
724 s (7 h 662s)*+ t0 А11
"Nominal OFF"
(see table 1)
985 s (7 h 1083s )* + t0 А11
* Values in parentheses are given for fragment 4.
353П-46КС-27895-1105 37
Figure 1 Time diagram of PAM TA fragment 1 (beginning)
ЖР67 in.1
УВИД1=350s+tTSD
КП6 CC "Откл.
Еок2"
ПрОЗУ42
t0=tCTS=0
МТ
t0+230s
PSC
U O
N M
AIN
(PSC
U O
N S
PAR
E)
УВИД2=355s+ tTSD А11 inp.16
(MCL tets)
GA
S EN
AB
LE
ПШПП
А36 initiation in input 26
УВИД3=357s+tTSD А11 in.p15
(СС)
МТ3
А11 inp.15
(СС)
МТ3
А11 inp. 6
(MCMD
"Synchr")
А11 inp. 6
(MCMD"Select Mode")
УВИД4=365s+tTSD
IPM
1 (2
) ON
IPM
3(4)
ON
IPM
5(6)
ON
t0+385s
УВИД6=375s+tTSD
А11 inp.15
(СС)
МТ3
УВИД5=367s+tTSD УВИД8=387s+tTSD
А11 inp.15
(СС)
МТ3
УВИД7=377s+tTSD
TRD purging inhibit in-
dicator is introduced
А11 inp. 15
(СС)
УВИД9=537s+tTSD
А11 in.p15
(СС)
МТ3
УВИД8=387s+tTSD
МТ3
t0+352s
МТ1
OP
CC
"O
N Еок
1"
CC
"O
FF Еок
2"
1-st "Pamela" RH activation
Б76 input1
УВИД10=14min+tо
А11 inp.2
deactivation
2s 2s
2s 2c
2s 2s
A40 in.1 УВИД=3s+tTSD
t0+10min… t0+14min
CC
" N
D p
ower
bus"
, "N
D O
n"
353П-46КС-27895-1105 38
Figure 2 Time diagram of PAM TA fragment 1 (continued)
УВИД10=14мин+tо
А11 inp.2
deactivation 2-nd activation of "Pamela" RH
БР76 input3 БР76 input 2
3-rd activation of "Pamela" RH
Бр76 input 3
УВИД10=14min+tо
А11 input 2
deactivation 4-th activation of "Pamela" RH
CC
"O
FF Еок
2"
CC
"O
N Еок
1"
t0+15min 60 sec 60 sec
60 sec
CC
"O
N Еок
2"
t0+15min
CC
"O
FF Еок
1"
t0+16min
t0+16min t0+18min t0+19min
t0+18min
353П-46КС-27895-1105 39
Figure 3 Time diagram of PAM TA fragment 1 (continued)
t0+23min t0+23 min 20s
УВИД13=25 минут +tTSD
t0+15min t0+16min t0+17min
CC
"R
ESET
PSC
U"
CC
"SA
FE M
OD
E O
N"
CC
"SA
FE M
OD
E O
FF"
УВИД14=27 min +tTSD УВИД15=29min+tTSD
А11 in.16
MCL Test
А11 in.16
MCL test
MC "Lock trans-
mitter"
MC "Unlock transmit-
ter"
Test of MCMD "Lock the transmitter", "Unlock the transmitter"
by bus А
t0+20min t0+21min t0+22min
CC
"R
ESET
PSC
U"
CC
"SA
FEM
OD
EO
N"
CC
"SA
FE M
OD
E O
FF"
t0+18min t0+18 min 20s
CC
"W
aitin
g m
ode
OFF
"
CC
"W
aitin
g m
ode
ON
"
КУ
"Вкл
. Еок
2"
КУ
"Откл.
Еок
1"
CC
"SA
FE M
OD
E O
N"
CC
"SA
FE M
OD
E O
FF"
CC
" Еок
2 O
N"
CC
"Еок1
OFF
"
353П-46КС-27895-1105 40
Figure 4 Time diagram of PAM TA fragment 1 (ending)
А11 in. 2
(OFF.)
УВИД16=31 min +tTSD УВИД17=35 min +tTSD
А11 in.16
MCL test А11 in. 16
MCL test
MC "Lock transmittre"
MC "Unlock transmit-
ter"
Test of MCMD "Locking", "Unlocking" in bus А
353П-46КС-27895-1105 41
Figure 5. Time diagram of PAM/HSRL TA fragment 1 (beginning).
УВИД4,i=760s+tTSD
i=1-200
t0=tcts=0
ЖР67 inp.5
А11 inp. 9
MCMD Orbital
information
ПрОЗУ 43
МТ
А11 inp.1
RH in mode.
В4
УВИД2=600s+tTSD УВИД3=660s+tTSD
А11 inp.7
MCMD Inclina-
tion information
А11 inp.6
MCMD Time
Sync
А11 inp.15
ССА request
УВИД5=1360s+tTSD
МТ3
УВИД6=1400s+tTSD
А11 inp.6
MCMD 1 main trig ON and
1 trig. ВЭ
УВИ7=2000s+tTSD
А11 inp.6
MCMD 2 main trig ON and
2 trig. ВЭ
УВИ8=2600s+tTSD
А11 inp.6
MCMD 1 spare trig ON and
3 trig. ВЭ
УВИ9=3200s+tTSD
А11 inp.6
MCMD 2 spare trig ON
УВИ10=3800s+tTSD
А11 inp.6
MCMD 1 trig RH ON OBE
УВИ11=4400s+tTSD
УВИД1=3s+tCTS
A40 inp.1
353П-46КС-27895-1105 42
Figure 5. Time diagram of PAM/HSRL TA fragment 1 (continued).
А11 inp.6
MCMD 1 main trig ON, 2 trig. UHE
And all 2 level triggers OFF
УВИ18=8400s+tTSD
А11 inp.6
MCMD "Trigger" ON 2 level
УВИ15=6800s+tTSD
А11 inp.6
MCMD 2 level " АС PROHIBITION"
ON
УВИ16=7200s+tTSD
А11 inp.6
MCMD 2 level "TOF" ON
УВИ17=7800s+tTSD
А11 inp.6
MCMD 2 trig. OBE ON
УВИ12=5000s+tTSD
А11 inp.6
MCMD 3 trig. OBE ON
УВИ13=5600s+tTSD
А11 inp.6
MCMD 1 main trig and trig
"Spectrometer" 2 level trig ON
УВИ14=6200s+tTSD
УВИ19=8500s+tTSD
ПрОЗУ13 inp.1
УВИ20=8800s+tTSD
А11 inp. 10
Тнм1= 8900s+ tCTS 1 session of exchange with HSRL OBE
УВИ21=9100s+tTSD
353П-46КС-27895-1105 43
Figure 5. Time diagram of PAM/HSRL TA fragment 1 (continued).
А11 inp. 2 (off)
УВИД23=9220s+tTSD
А11 inp.6
УВИД22=9200s+tTSD
MCMD "select
mode"
А11 inp.15
Request area ССА
УВИД24=9300с+tTSD
t0=tcts+9260s
А11 inp.1
RH in mode
В4
УВИД25=9900s+tTSD А11 inp.6
MCMD to initiate
standby electronics
А11 inp.6
MCMD 1 main trig ON and
1 trig. UHE
УВИ27=10600s+tTSD
А11 inp.6
MCMD 2 main trig ON and
2 trig. UHE
УВИ28=11200s+tTSD
А11 inp.6
MCMD 1 spare trig ON and 3 trig. UHE
УВИ29=11800s+tTSD
А11 inp.6
MCMD 2 spare trig ON
УВИ30=12400s+tTSD
А11 inp.6
MCMD 1 trig OBE ON
УВИ31=13000s+tTSD
УВИД26=10000s+tTSD
353П-46КС-27895-1105 44
А11 inp 6
MCMD 1 main trig ON, 2 trig. UHE
And all triggers 2 level OFF
УВИ38=17700s+tTSD
А11 inp.6
MCMD "Trigger" trig 2 level ON
УВИ35=15400s+tTSD
А11 inp.6
MCMD trigger 2 level ON "АС PRO-
HIBITION"
УВИ36=16000s+tTSD
А11 inp.6
MCMD trigger 2 level ON "TOF"
УВИ37=16600s+tTSD
А11 inp.6
MCMD 2 trig OBE ON
УВИ32=13600s+tTSD
А11 inp.6
MCMD 3 trig OBE ON
УВИ33=14200s+tTSD
А11 in.p6
MCMD 1 main trig ON and
"Spectrometer" trig 2 level ON
УВИ34=14800s+tTSD
А11 inp. 2 (off)
17740s+tTSD
Тнм2=17400s+ tTSD
2 session of exchange
with HSRL OBE
Figure 5 Time diagram of PAM/HSRL TA fragment 1 (ending).
353П-46КС-27895-1105 45
4.2 Procedure of PAM/HSRL TA.
Before PAM/HSRL TA start ЖР 67 program is activated by input 5 from
the planning program. RAM program 43 is activated immediately after loading the
operational program. Nominal A11 program controls Pamela.
Prior debugging this fragment it is necessary to re-activate HSRL without
warming-up and to initiate BDTS to mode "ЗАП8", ПрБ1. HSRL initiation is re-
corded by tapes of open TM recording.
PAM/HSRL TA consist of 2 fragments: “Nominal operation, checkout of
spare electronics” and “Checkout of connection with HSRL” .
It is possible to debug each fragment separately. The point of fragment de-
bugging is determined by availability of "1" in the position corresponded with
fragment’s number, GV "VPAMTA" (variant of «Pamela» RH test activa-
tions).The distribution of bits of this variable, its assignment and uplinking of in-
formation on the performance of PAM/HSRL TA fragments is analogous to the
described under 4.1 and 4.1.1.
4.2.1 Procedure of PAM/HSRL TA fragment 1 – "Nominal operation,
standby electronics test".
The diagram of debugging this fragment by the hardware is given in Fig 4.
Time sync of ground and on-board software operation is made in the same
way as in item 4.1.1.
"Pamela" RH GSE/HSRL GTE connection diagram is given in Fig 7.
For debugging this fragment of PAM TA it is necessary to connect per-
sonal computer (PC) of "Pamela" RH GSE and HSRL GTE and also to initiate
RAM Program 13 input 1 developed by department 1107 from RAM Program 43
to initiate HSRL OBE in due time (not less than 100 sec prior the first Тнм1-
exchange session). GSE is to be connected to "Pamela" RH (through connector of
BCS Х «ГН15Т.10»).
For this testing fragment "Pamela" RH is activated twice. The first activa-
tion of the hardware is executed by initiation of nominal program А11 in input 1
353П-46КС-27895-1105 46
from RAM Program 43. The 1, 4, 6-th protection units (PU), memory module А,
primary sources of low and high ND voltage are initiated. After nominal activation
the hardware is in В4 mode of operation.
After that by consequent initiations of program A11 in inputs 9, 6 RAM
Program 43 provides for issue of MCMD: "Orbit information (CMMP)", "Time
synchronization".
Then RAM Program 43 provides for transmission of AP arrays to the
hardware within 10 minutes with 3 sec period by repeated initiations of program
A11 in input 6 for simulation of similar conditions in the course of nominal opera-
tion of "Pamela" RH.
After that RAM Program 43 performs ССА zone query (by initiating pro-
gram А11 in input 15), rewrite of 12 ССА zone words to BCtS RAM and "МТ3"
signal transmission to GTS RAM via "МТ" channel in case all CCА zone parame-
ters are normal.
Then RAM Program 43 performs testing of trigger system of the first and
second level in the following way:
- MCMD are issued for activation of the first main trigger and the first
trigger for high-energy electrons (by initiating program А11 in input 6);
- in 10 minutes MCMD are issued to the hardware for activation of the
second main trigger and the second trigger for high-energy electrons;
- in 10 more minutes MCMD are issued for activation of the first standby
trigger and the third trigger of high-energy electrons;
- with a period of 10 minutes MCMD are issued for activation of the sec-
ond standby trigger, the first trigger for Brazilian anomaly, the second
trigger for Brazilian anomaly and the third trigger for Brazilian anom-
aly;
- in 10 more minutes MCMD are issued for activation of the first main
trigger and second level trigger "Spectrometer" of the trigger system;
353П-46КС-27895-1105 47
- in 10 minutes MCMD is issued for activation of second level trigger
"trigger";
- in 10 minutes MCMD is issued for activation of second level trigger
"АС inhibition";
- in 10 minutes MCMD is issued for activation of second level trigger
"TOF";
- in 10 more minutes MCMD are issued for activation of the first trigger
by default, the first trigger of high-energy electrons and for deactivation
of all second level triggers.
After that RAM Program 43 provides for HSRL exchange session for
transmission of the accumulated scientific data via HSRL OBE and HSRL GTE
relay to "Pamela" RH GSE for processing and making a conclusion. This exchange
session is carried out using the main exchange adapter in the main data transmis-
sion channel.
Then RAM Program 43 including program А11 in input 6 provides for is-
sue of MCMD "Mode selection" to the hardware, ССА zone query for transmis-
sion to GTS RAM and the following (in 20 sec) "Pamela" RH deactivation (by ini-
tiating program А11 in input 2).
After that the second hardware activation is executed in this fragment. It is
also executed by initiation of nominal program А11 in input 1 from RAM Program
43. After nominal activation the hardware is in В4 mode of operation.
Then RAM Program 43 provides for issue of MCMD for connection of
standby electronics of the tracker, trigger, С4 and system "I-DAQ".
After that the first and second level triggers are tested the way it’s specified
above.
After that RAM Program 43 provides for HSRL exchange session for
transmission of the accumulated scientific data via HSRL OBE and HSRL GTE
relay to "Pamela" RH GSE for processing and concluding.
353П-46КС-27895-1105 48
Then nominal "Pamela" RH deactivation is executed by initiating program
А11 in input 2.
For debugging PAM/HSRL TA fragment 1 RAM Program 43 forms the
following ID:
- GV "ЗВРПК"=1;
- GV "БЛПГК"=0;
- GV "БЛПАМ"=0;
- GV "ВРБУЗП"=0;
- GV "ВРНИЗН"=0;
- GV "ВРВЫСН"=0;
- GV "ВРИСПП"=0;
- GV "СЧПРПО"=0;
- GV "КДМАСК"=0;
- GV "КДБЗ"=518 (for the first activation) and GV "КДБЗ"=268 (for the
second activation);
- GV "НРНД"=0;
- GV "ВРАДАП"=0;
- GV "ВРКАН"=0 for the 1-st exchange session, =1 for the second ex-
change session.
- MCMD "Orbit information (CMMP)";
- MCMD "Inclination data (AP)";
- MCMD "Time synchronization";
- MCMD "Mode selection".
These MCMD are given in table 7.
MCMD for activation/deactivation of triggers and initiation of standby
electronics of the tracker, trigger, С4 and system "I-DAQ" will be given below.
353П-46КС-27895-1105 49
Table 7 MCMD formed by RAM Program 43 for PAM/HSRL TA frag-
ment 2.
MCMD Orbital information
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD = 0
0 Code MCMD = Е116
Length MCMD = 20
Time indicator (most significant) = 0
Time indicator (least significant) = 0
1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0
1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0
1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
0 CW
MCMD Inclination information
CM
MP
arra
y
353П-46КС-27895-1105 50
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD = 0
0 Code MCMD = Е216
Length MCMD = 66
Time indicator (most significant) = 0
Time indicator (least significant) = 0
1 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0
0 1 1 0 0 0 0 1 1 1 0 0 0 0 0 0
0 1 1 1 0 0 1 1 1 0 0 0 0 0 0 0
0 0 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0
0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0
0 0 1 1 1 1 1 1 0 0 0 0 0 0 0 0
0 0 1 1 0 0 1 1 1 0 0 0 0 0 0 0
1 1 1 0 0 0 0 1 1 1 0 0 0 0 0 0
1 1 0 0 0 0 0 0 1 1 1 0 0 0 0 0
ППО-2 = ППО-1
ППО-3 = ППО-1
ППО-4 = ППО-1
ППО-5 = ППО-1
ППО-6 = ППО-1
0 CW
MCMD Time Sync
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD = Е016
AP-
1 ar
ray
353П-46КС-27895-1105 51
Length MCMD = 8
Time indicator (most significant) = 0
Time indicator (least significant) = 0
ТBTS
ТBTS
CW
MCMD Select Mode
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD = 3316
Length MCMD = ?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
All controls issued to the hardware in the first fragment of PAM/HSRL TA
are given in table 4.
353П-46КС-27895-1105 52
Table 8
Control type Control name The control issue time The con-
trol issue
point
"Nominal activation"
CC Pamela 's power bus on
t0 – time of on-board and test-
ing program synchronization
А11
CC "PSCU ON
MAINE"
230 s + t0 А11
MCMD СС request 350 s + t0 А11
MCMD "RH/BCtS inter-
action test via
MCL" (see Ta-
ble. 1)
351 s + t0
MCMD Time Sync 352 s + t0
MCMD СС request 353s + t0 А11
CC "IPM 1 ON" 354 s + t0 А11
CC "IPM 4 ON" 354 s 250 мs + t0 А11
CC "IPM 6 ON" 354 s 500 мs + t0 А11
CC "GAS EN-
ABLE"
А11
MCMD СС request 355 s + t0 А11
MCMD СС request 506 s + t0 А11
MCMD "Select Mode" 508 s + t0 А11
MCMD СС request 509 s + t0 А11
353П-46КС-27895-1105 53
Control type Control name The control issue time The con-
trol issue
point
CC ND power bus on
А11
CC "ND ON" А11
CC ND main low
voltage
А11
CC ND main high
voltage
А11
MCMD Orbital informa-
tion
600 sec + t0 А11
MCMD Time sync 660 sec + t0 А11
MCMD Inclination in-
formation
760 s + t0 and on with the pe-
riod of 3 sec during 10 min
А11
MCMD ССA request 1360 sec + t0 А11
MCMD activation 1
main trig and 1
trig. ВЭ
1400 sec + t0 А11
MCMD Activation 2
main trig and 2
trig ВЭ
2000 sec + t0 А11
MCMD Activation 1
spare trig and 3
trig ВЭ
2600 sec + t0 А11
MCMD Activation 2
spare trig
3200 sec + t0 А11
MCMD 1 trig OBE ON 3800 sec + t0 А11
353П-46КС-27895-1105 54
Control type Control name The control issue time The con-
trol issue
point
MCMD 2 trig OBE ON 4400 sec + t0 А11
MCMD 3 trig OBE ON 5000 sec + t0 А11
MCMD 1main trig ON
and 2 level trig
"Spectrometer"
5600 sec + t0 А11
MCMD 2 level trig ON
"Trigger"
6200 sec + t0 А11
MCMD 2 level trig ON
"АС Prohibit"
6800 sec + t0 А11
MCMD 2 level trig ON
"TOF"
7800 sec + t0 А11
MCMD 1 main trig ac-
tivation, 2 trig
ВЭ ON and all
triggers of 2
level ON
8400 sec + t0 А11
First communication session
MCMD Time sync 8880 sec + t0 А11
MCMD Select Mode А11
MCMD "DOWNLOAD" А11
MCMD ССA request А11
MCMD ССA request 9103 sec + t0 А11
MCMD Select Mode 9110 sec + t0 А11
MCMD ССA request 9200 sec + t0 А11
353П-46КС-27895-1105 55
Control type Control name The control issue time The con-
trol issue
point
Nominal OFF
(see Table 1)
9220 sec + t0 А11
Nominal switch ON (second)
CC Pamela’s power bus on
t0 – time of on-board and test-
ing program synchronization
А11
CC "PSCU ON
SPARE"
230 s + t0 А11
MCMD СС request 350 s + t0 А11
MCMD "RH/BCtS inter-
action test via
MCL" (see Ta-
ble 1)
351 s + t0
MCMD Time sync 352 s + t0
MCMD СС request 353s + t0 А11
CC "IPM 2 ON" 354 s + t0 А11
CC "IPM 3 ON" 354 s 250 мs + t0 А11
CC "IPM 4 ON" 354 s 500 мs + t0 А11
CC "GAS EN-
ABLE"
А11
MCMD СС request 355 s + t0 А11
MCMD СС request 506 s + t0 А11
MCMD "Select Mode" 508 s + t0 А11
MCMD СС request 509 s + t0 А11
353П-46КС-27895-1105 56
Control type Control name The control issue time The con-
trol issue
point
CC ND power bus on
А11
CC "ND ON" А11
CC ND spare low
voltage
А11
CC ND spare high
voltage
А11
MCMD Spare electron-
ics ON
9900 s + t0 А11
MCMD 1 main trig and
1 trig ВЭ ON
10000 s+ t0 А11
MCMD 2 main trig and
2 trig ВЭ ON
10600 s + t0 А11
MCMD 1 spare trig and
3 trig ВЭ ON
11200 s + t0 А11
MCMD 2 spare trig and
spare trig ON
11800 s + t0 А11
MCMD 1 trig OBE ON 12400 s+ t0 А11
MCMD 2 trig OBE ON 13000 s + t0 А11
MCMD 3 trig OBE ON 13600 s + t0 А11
MCMD 1 main trig and
2 level trig
"Spectrometer "
ON
14200 s + t0 А11
353П-46КС-27895-1105 57
Control type Control name The control issue time The con-
trol issue
point
MCMD 2 level trig
"Trigger" ON
14800 s + t0 А11
MCMD 2 level trig
"АС Prohibi-
tion" ON
15400 s + t0 А11
MCMD 2 level trig
"TOF " ON
16000 s + t0 А11
MCMD 1 main trig , 2
trig ВЭ ON and
all 2 level trig-
gers OFF
16600 s + t0 А11
MCMD
MCMD " Time Sync 17380 s + t0 А11
MCMD Select mode " А11
MCMD "DOWNLOAD" А11
MCMD ССA request А11
MCMD ССA request 17603 s + t0 А11
Nominal switch
OFF (see Table
1)
17700 s + t0 А11
353П-46КС-27895-1105 58
МП2 array formed by RAM Program 43 to provide for two exchange ses-
sions is given in Fig 6.
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1
ТНОИ=0 2
КРСР КСН
ПМХСМ
НА
3
НА
2
НА
1 КМАР=2 3
НВ=1 4 ТНСН1 5
//////////////////////// ДЛСН1 6 ТНСН2 7
//////////////////////// ДЛСН2 8 ТНСН3 9
//////////////////////// ДЛСН3 10 ///////////////////////////////////// ПКАС ПД /////////// 11
КПЗВ КПЗН 12
//////////////////
ПРБ
А13
ПРБ
А23
СП3
ПРБ
А12
ПРБ
А22
СП2
ПРБ
А11
ПРБ
А21
СП1 ///// 13
//////////////////////////////////////////////////////////////// НЧК3 НЧК2 НЧК1 14 ПХМ1
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 00 /////////////////////////////// КМАРР=1 КРНА=1110 1
ДЛМ =200с 2 ТНМ=8900 sec 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=1 10
00000 00 0 0 0000000 11
353П-46КС-27895-1105 59
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
ПХМ2 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
00 /////////////////////////////// КМАРР=1 КРНА=1110 1 ДЛМ =200с 2
ТНМ=17400 sec 3 СДИ* 4
/////////////////////////////////////////////////////////////////////////////////////////////////////// 5 ДЛС 6
ДЛЗНП (ДЛАП2) 7 СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=2 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
МХСМ
Figure 6
353П-46КС-27895-1105 60
4.2.1.1 Order of gaining information from HSRL GTE.
1) HSRL GTE records (to flight time diagram) information obtained
from technological output of HSRL OBE during PAM/HSRL TA
or from nominal output of HSRL OBE during JO and IT;
2) Information of each recorded route is conversed into a file;
3) After completing PAM TA fragment HSRL GTE converses in-
formation into the original form – information packets at HSRL
OBE input;
4) When the information is conversed HSRL GTE by request of
"Pamela" RH GSE issues information via ЛВС "FAST
EHERNET" at a rate of 100 Мbaud (real transmission rate – 2-5
MB/s). "Pamela" RH GSE request consists in the following:
"Pamela" RH operator opens "Pamela" directory (with conse-
quent opening of all embedded directories) in PC being part of
HSRL GTE and transfers necessary files to PC being part of
"Pamela" RH GSE.
The structure of the information in directory "Pamela" of HSRL GTE PC is
as follows:
- The directory with a number and date of the fragment –
"ФХУ_АБ_ВГ_ДЕ_ЖЗ", where: Ф - fragment,
Х – number of the fragment,
У – sequence number for the fragment
iteration,
АБ – month.
ВГ – date,
ДЕ – hours,
ЖЗ – minutes;
- "MN" directory with the number of the route in this PAM TA fragment,
353П-46КС-27895-1105 61
where М – route, N - № of the route in this fragment,
- "SFI.pam" data file containing packets with scientific information of
"Pamela" RH.
353П-46КС-27895-1105 62
4.2.2 Procedure of PAM/HSRL TA fragment 2 – "Test of HSRL com-munication channels". The time diagram of this fragment is given in Figure 7.
Time sync of ground and on-board software operation is made in the same
way as in item 4.1.1.
"Pamela" RH GSE/HSRL GTE connection diagram is given in Fig 6.
In this fragment RAM Program 43 provides the following activities:
- timely (not less than 100 sec before the beginning of the first Тнм1-
exchange session) initiation of RAM Program 13 input 1 for activation
of HSRL OBE,
- the hardware change over to operational mode А0 (by initiating program
А11 in input 6),
- issue of MCMD "BITE" with a test 16-digit word to fill RH memory
with test information (by initiating program А11 in input 6),
- issue of MCMD "Mode selection" to memorize "prototype" in "Pamela"
RH and to set no-file read mode (by initiating program А11 in input 6),
- managing four HSRL exchange sessions (by successive fourfold refer-
ence to program А11 in input 10),
- the hardware change over to operational mode А0 (by initiating pro-
gram А11 in input 6),
- issue of MCMD "Memory packing" to activate memory module В (by
initiating program А11 in input 6),
- issue of MCMD "BITE" with a test 16-digit word to fill RH memory
with test information (by initiating program А11 in input 6),
- issue of MCMD "Mode selection" to memorize "prototype" in "Pamela"
RH (by initiating program А11 in input 6),
- managing the fifth HSRL exchange session (by initiating program А11
in input 10),
353П-46КС-27895-1105 63
- issue of MCMD "Memory packing" to activate memory module A (by
initiating program А11 in input 6),
- "Pamela" RH deactivation by initiating program А11 in input 2.
In the third fragment five exchange sessions are provided: with a main ex-
change adapter in the primary and standby sub-channel №19, with a standby ex-
change adapter in the primary and standby sub-channel №19, the fifth exchange
session is executed with a main adapter in the primary exchange channel.
In this fragment memory module A is active during sessions 1, 2, 3 and
memory module B – during session 5.
To perform this test assembly program ПрБ1 and operational mode
"ЗАП8" of BDTS are initiated not late than 1minute prior the first activation of
HSRL.
For debugging of fragment 3 RAM Program 42 forms the following ID:
- GV "ЗВРПК"=1;
- GV "БЛПГК"=0;
- GV "БЛПАМ"=0;
- GV "ВРБУЗП"=1;
- GV "ВРНИЗН"=1;
- GV "ВРВЫСН"=1;
- GV "ВРИСПП"=1;
- GV "СЧПРПО"=0;
- GV "КДМАСК"=0;
- GV "КДБЗ"=528;
- GV "ВРКАН"=0 for exchange sessions 1,3 and 5, =1 for sessions 2 and
4;
- GV "ВРАДАП"=0 for exchange sessions 1, 2 and 5, =1 for sessions 3
and 4;
- GV "ВРИОК=1";
- MCMD "Memory packing";
353П-46КС-27895-1105 64
- MCMD "Mode selection"(2 types – for change over to mode А0 and for
making the prototype);
- MCMD "BITE";
- МП2 array.
MCMD: "BITE", "Memory packing", "Mode selection" are given in table
9.
МП2 array including 5 sub-arrays with route characteristics (one for each
exchange session) is given in Fig 7.
"Pamela" RH
ХР5 ХР6
Input com-
mutator
HSRLOB
FTD
(Volume = 20
Gb)
FAST ETHERNET(100 м)
"Pamela" RH
GSE
HSRL GTE
Figure 6 "Pamela" RH GSE/HSRL OBE GTE connection diagram
Cable type –
STR (кат.5)
353П-46КС-27895-1105 65
Table 9 MCMD, formed by RAM program 43 for fragment 2 of Pamela/
HSRL test activations.
MCMD EXE_MEM_CONF 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD =2916
Length MCMD =7
Time indicator (most significant) = 0
Time indicator (least significant) = 0
ПВВМ ПВМП
CW
ПВМП – memory module selection flag =0, if memory module A is selected, and
=1 if memory module B is selected
ПВВМ – flag of activation/ deactivation of the selected memory module.
Table 9 cont’d.
MCMD "BITE" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD =8016
Length MCMD =7
Time indicator (most significant) = 0
Time indicator (least significant) = 0
1 1 1 0 0 0 1 1 1 0 0 0 1 1 1
CW
Table 9 cont’d
MCMD Select Mode
353П-46КС-27895-1105 66
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD = 3316
Length MCMD = ?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW=0
Table 9 cont’d 9.
MCMD Select Mode
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD К=0
0 Code MCMD = 3316
Length MCMD = ?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW=0
Data field
Data field
353П-46КС-27895-1105 67
МП2 (1) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1
ТНОИ=0 2
КРСР КСН
ПМХСМ
НА
3
НА
2
НА
1 КМАР=2 3
НВ=3 4 ТНСН1 5
//////////////////////// ДЛСН1 6 ТНСН2 7
//////////////////////// ДЛСН2 8 ТНСН3 9
//////////////////////// ДЛСН3 10 ///////////////////////////////////// ПКАС ПД /////////// 11
КПЗВ КПЗН 12
//////////////////
ПРБ
А13
ПРБ
А23
СП3
ПРБ
А12
ПРБ
А22
СП2
ПРБ
А11
ПРБ
А21
СП1 ///// 13
//////////////////////////////////////////////////////////////// НЧК3 НЧК2 НЧК1 14 ПХМ1
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 00 /////////////////////////////// КМАРР=1 КРНА=1110 1
ДЛМ =200с 2 ТНМ=20 min 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=1 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12
353П-46КС-27895-1105 68
С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
ПХМ2 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
00 /////////////////////////////// КМАРР=1 КРНА=1110 1 ДЛМ =200с 2 ТНМ=30 min 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=2 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
МХСМ
МП2 (2)
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1
ТНОИ=0 2
КРСР КСН
ПМХСМ
НА
3
НА
2
НА
1 КМАР=2 3
НВ=4 4 ТНСН1 5
//////////////////////// ДЛСН1 6
353П-46КС-27895-1105 69
ТНСН2 7 //////////////////////// ДЛСН2 8
ТНСН3 9 //////////////////////// ДЛСН3 10 ///////////////////////////////////// ПКАС ПД /////////// 11
КПЗВ КПЗН 12
////////////////// ПРБ
А13
ПРБ
А23
СП3
ПРБ
А12
ПРБ
А22
СП2
ПРБ
А11
ПРБ
А21
СП1 ///// 13
//////////////////////////////////////////////////////////////// НЧК3 НЧК2 НЧК1 14 ПХМ1
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 00 /////////////////////////////// КМАРР=1 КРНА=1110 1
ДЛМ =200с 2 ТНМ=40 min 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=1 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
ПХМ2 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
00 /////////////////////////////// КМАРР=1 КРНА=1110 1 ДЛМ =200с 2 ТНМ=50 min 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6
353П-46КС-27895-1105 70
ДЛЗНП (ДЛАП2) 7 СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=2 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
МХСМ
МП2 (3)
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1
ТНОИ=0 2
КРСР КСН
ПМХСМ
НА
3
НА
2
НА
1 КМАР=1 3
НВ=5 4 ТНСН1 5
//////////////////////// ДЛСН1 6 ТНСН2 7
//////////////////////// ДЛСН2 8 ТНСН3 9
//////////////////////// ДЛСН3 10 ///////////////////////////////////// ПКАС ПД /////////// 11
КПЗВ КПЗН 12
//////////////////
ПРБ
А13
ПРБ
А23
СП3
ПРБ
А12
ПРБ
А22
СП2
ПРБ
А11
ПРБ
А21
СП1 ///// 13
//////////////////////////////////////////////////////////////// НЧК3 НЧК2 НЧК1 14 ПХМ1
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
353П-46КС-27895-1105 71
00 /////////////////////////////// КМАРР=1 КРНА=1110 1 ДЛМ =200с 2 ТНМ=72 min 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=1 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
МХСМ
Figure 7 Memory array 2 for fragment 2 of Pamela/HSRL testing activation.
Note: Parameters, used by Pamela and HSRL are marked in thick print.
The other parameters will be assigned as zero.
All commands, sent to Pamela during the second fragment of Pam-
ela/HSRL testing activation, are given in Table 2.
Table 10
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
which the
command
is issued.
"Nominal activation"
353П-46КС-27895-1105 72
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
which the
command
is issued.
CC Pamela’s power bus on
t0 – time of on-board and test-
ing program synchronization
А11
CC "PSCU ON
SPARE"
230 s + t0 А11
MCMD СС request 350 s + t0 А11
MCMD "RH/BCtS inter-
action test via
MCL" (ses Ta-
ble 1)
351 s + t0
MCMD Time Sync 352 s + t0
MCMD СС request 353s + t0 А11
CC "IPM 2 ON" 354 s + t0 А11
CC "IPM 4 ON" 354 s 250 мs + t0 А11
CC "IPM 6 ON" 354 s 500 мs + t0 А11
CC "GAS EN-
ABLE"
А11
MCMD СС request 355 s + t0 А11
MCMD СС request 506 s + t0 А11
MCMD "Select Mode" 508 s + t0 А11
MCMD СС request 509 s + t0 А11
CC ND power bus on
А11
CC "ND ON" А11
353П-46КС-27895-1105 73
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
which the
command
is issued.
CC ND spare low
voltage
А11
CC ND spare high
voltage
А11
MCMD "Select Mode" 550 s + t0 А11
MCMD "BITE" 570 s + t0 А11
MCMD "Select Mode" 600 s + t0 А11
First communication session
MCMD Time Sync 1180 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
MCMD ССA request А11
MCMD ССA request 1403 s + t0 А11
MCMD
MCMD Time Sync 1780 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
MCMD ССA request А11
MCMD ССA request 1403 s + t0 А11
Third communication session
MCMD Time Sync 2380 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
353П-46КС-27895-1105 74
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
which the
command
is issued.
MCMD СCA request А11
MCMD ССA request 2603 s + t0 А11
Fourth communication session
MCMD Time Sync 2980 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
MCMD ССA request А11
MCMD ССA request 3203 s + t0 А11
MCMD "Select Mode" 3600 s + t0 А11
MCMD EXE_MEM_CO
NF
3630 s + t0 А11
MCMD "BITE" 3660 s + t0 А11
MCMD "Select Mode" 3690 s + t0 А11
Fifth communication session
MCMD Time Sync 4300 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
MCMD ССА request А11
MCMD ССA request 4503 s + t0 А11
MCMD EXE_MEM_CO
NF
4620 s + t0 А11
"Nominal switch
OFF " (see Ta-
ble 1)
4800 s + t0 А11
353П-46КС-27895-1105 75
Research data are received by Pamela’s GSE according to 4.1.2.1.
353П-46КС-27895-1105 76
Thus during Pamela’s testing activation the following Pamela’s links are
checked: with Resource on-board computer system (by sending MCMD to Pamela
both via MCL line A and line B), with HSRL on-board equipment (by performing
five download sessions with the main and spare channels), with BTMS (by check-
ing TM-parameters with reference values), with BTCS (by sending synchro sig-
nals via channels 1 and 2), with CRPDS (by sending CC via buses Еок1 and
Еок2).
Table 11 gives the order of switching between redundant communication
channels of Pamela and BTCS, CRPDS, HSRL on-board equipment.
Table 11
CC name Check in bus Еок1
Check in bus Еок2
Exchange via MCL
bus A
Exchange via MCL
bus В
Cha
nnel
1
of .
BTC
S
Cha
nnel
2
of
BTC
S
1. Main PSCU on
frag.1 PAM TA
frag.1 PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
2. PSCU off frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
3. Spare PSCU on
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
4. PSCU reset frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
5. IPM 1 on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
6. IPM1-2 off frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
7. IPM 2 on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
8. IPM 3 on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
9. IPM 3-4 off frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
353П-46КС-27895-1105 77
CC name Check in bus Еок1
Check in bus Еок2
Exchange via MCL
bus A
Exchange via MCL
bus В
Cha
nnel
1
of .
BTC
S
Cha
nnel
2
of
BTC
S
10. IPM 4 on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
11. IPM 5 on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
12. IPM 5-6 off frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
13. IPM 6 on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
14. Safe mode on
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
15. Safe mode off
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
16. ND on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
17. ND off frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
18. ND main high voltage
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
19. ND spare high voltage
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
20. ND main low voltage
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
21. ND spare low voltage
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
22. GS on frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
23. GS off frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
24. GS enable frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
353П-46КС-27895-1105 78
CC name Check in bus Еок1
Check in bus Еок2
Exchange via MCL
bus A
Exchange via MCL
bus В
Cha
nnel
1
of .
BTC
S
Cha
nnel
2
of
BTC
S
25.GS disable frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
26. Pamela power bus on
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
27.Pamela power bus off
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
28.ND power bus on
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
29.ND power bus off
frag.1 of
PAM TA
frag.1 of
PAM TA
\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\\\\ \\\\\\\\
MCDM \\\\\\\\\\\\\\ \\\\\\\\\\\\\\ frag. 1 of PAM TA2
frag. 1, 2 of PAM
TA
\\\\\\\\\\\\ \\\\\\\\
Synchro signals \\\\\\\\\\\\\\ \\\\\\\\\\\\\\ \\\\\\\\\\ \\\\\\\\\\\ frag.1 of PAM TA
frag.1,2of
PAM TA
2 TA=Testing activation
353П-46КС-27895-1105 79
CD-computer data
inp.- input
ms-marshrut (route start)
TSD-time scale digitization
Figure 7. Time diagram of fragment 2 of Pamela/HSRL testing switch (beginning)
2 com.sess.
УВИД8=33min20s+ tTSD УВИД9=43min20s+ tTSD
4 comm.sess УВИД10=53min20s+ tTSD
CDА11-
УВИД7=23min20s+tTSD
ЖР67 inp.7
УВИД1=3s+tTSD
А11 inp.1 (on.) ПрОЗУ13
inp.1
УВИД2=8min 30s+ tTSD
ИОК
А11-2
УВИД3=9min10s+ tTSD А11in.6 MCMC
("select mode")
УВИД4=9min 30s+ tTSD
A40 inp.
ИОК
А11-2
А11
МТ
t0+20min Тнм2
t0+21min
Тms3
t0+30min
Тнм4
t0+50min
t0=tTSD=0
А11 inp.6 (MCMD
"BITE")
УВИД5=10min+tTSD УВИД6=15min+ tTSD А11inp.6 (MCMD
"Select mode") Тms1
3 comm.sess.
t0+40min
Transfer into mode А0
Making "imitating model"
ИОК
А11-2
353П-46КС-27895-1105 80
ИОК
А11-2
А11 inp.6 (MCMD
"memory packing")
УВИД16=77min+ tTSD
Memory module В.
А11 inp.6 (MCMD "se-
lect mode")
А11 inp.6 (MCMD
"BITE")
УВИД12=60min30s+tTSD УВИД13=61min+ tTSD УВИ11=60min+ tTSD
А11 inp.6 (MCMD "Se-
lect Mode") А11 inp.6 (MCMD
"memory packing.")
RH transfer into AF mode
УВИД14=61min30с+ tTSD
Create "simulation sample"
УВИД15=75min20s+ tTSD
5 comm.sess.
Тнм5
t0+72 min
Memory module А
А11 inp.2
(0ff)
УВИД17=80min+ tTSD
Figure 7 Time diagram of fragment 2 of Pamela/HSRL testing switch (end).
353П-46КС-27895-1105 81
353П-46КС-27895-1105 82
5. Joint Operation of Pamela and HSRL
During this testing phase operation of Pamela and HSRL on-board equip-
ment will be checked when research data (test data) are being downloaded from
Pamela’s memory into the target data memory of HSRL on-board equipment.
Before joint operation HSRL should be re-activated without warming-up.
Joint operation is performed using RAM program 45 " Pamela ‘s control
during download session", ЖP68, RAM program 13 " HSRL on-board equipment
control during download session " and testing program ОР63 of department 1107.
Pamela’s GSE/HSRL testing equipment is given in Fig.12.
Time diagram is given in Materials of electric and diagnostic tests of HSRL
(353П-46КС-23286-1107).
Time sync of ground and on-board software operation is made in the same
way as in item 4.1.1.
Pamela is planned to be switched on by A11 program activation via input
1. After four download sessions Pamela is planned to be switched off by A11 pro-
gram activation via input 2.
The first download session is performed with the main adapter in the main
sub-channel #19, the second one is performed with the main adapter in the spare
sub-channel #19, the third one is with the spare adapter in the main sub-channel
#19, the fourth is with the spare adapter in the spare sub-channel #19.
Before each download session (at least 3 minutes before it starts) RAM
program 43 arranges the issue of "BITE” MCMD with the test 16-bit word by acti-
vation of A11 program via input 6. During joint operation with Pamela RAM pro-
gram 43 forms the following initial data for A11 program:
- GV "ЗВРПК"=1;
- GV "БЛПГК"=0;
- GV "БЛПАМ"=0;
- GV "ВРБУЗП"=0
- GV "ВРНИЗН"=0
353П-46КС-27895-1105 83
- GV "ВРВЫСН"=0
- GV "ВРИСПП"=0;
- GV "СЧПРПО"=0;
- GV "КДМАСК"=0;
- GV "КДБЗ"=258;
- GV "НРНД"=0;
- GV "ВРКАН"=0 for download sessions 1 and 3, =1 for download ses-
sions 2 and 4;
- GV П "ВРАДАП=0 for download sessions 1 and 2, =1 for download
sessions 3 and 4;
- GV GV "ВРИОК=1";
- “Select mode” MCMD (to transfer Pamela into the standby mode);
- "BITE" MCMD.
"BITE" MCMD is given in Table 8.
Table 8.
MCMD "BITE" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD =8016
Length MCMD =7
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW=0
TW1=**********;
TW2=**********;
TW3=**********;
TW4=**********.
Test word (TWi)
353П-46КС-27895-1105 84
RAM program 43 forms Memory array 2 for joint operation.
Fig. 3 shows memory arrays 2 for joint operation of Pamela and HSRL.
МП2 (1) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1
ТНОИ=0 2
КРСР КСН
ПМХСМ
НА
3
НА
2
НА
1 КМАР=2 3
НВ=17 4 ТНСН1 5
//////////////////////// ДЛСН1 6 ТНСН2 7
//////////////////////// ДЛСН2 8 ТНСН3 9
//////////////////////// ДЛСН3 10 ///////////////////////////////////// ПКАС ПД /////////// 11
КПЗВ КПЗН 12
//////////////////
ПРБ
А13
ПРБ
А23
СП3
ПРБ
А12
ПРБ
А22
СП2
ПРБ
А11
ПРБ
А21
СП1 ///// 13
//////////////////////////////////////////////////////////////// НЧК3 НЧК2 НЧК1 14 ПХМ1
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 00 /////////////////////////////// КМАРР КРНА=1110 1
ДЛМ =200с 2 ТНМ=900с 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=1 10
00000 00 0 0 0000000 11
353П-46КС-27895-1105 85
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
ПХМ2 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
00 /////////////////////////////// КМАРР КРНА=1110 1 ДЛМ =200с 2 ТНМ=1400с 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=2 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
МХСМ
МП2 (2)
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1
ТНОИ=0 2
КРСР КСН
ПМХСМ
НА
3
НА
2
НА
1 КМАР=2 3
НВ=18 4 ТНСН1 5
353П-46КС-27895-1105 86
//////////////////////// ДЛСН1 6 ТНСН2 7
//////////////////////// ДЛСН2 8 ТНСН3 9
//////////////////////// ДЛСН3 10 ///////////////////////////////////// ПКАС ПД /////////// 11
КПЗВ КПЗН 12
//////////////////
ПРБ
А13
ПРБ
А23
СП3
ПРБ
А12
ПРБ
А22
СП2
ПРБ
А11
ПРБ
А21
СП1 ///// 13
//////////////////////////////////////////////////////////////// НЧК3 НЧК2 НЧК1 14 ПХМ1
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 00 /////////////////////////////// КМАРР КРНА=1110 1
ДЛМ =200с 2 ТНМ=1900с 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=1 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
ПХМ2 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
00 /////////////////////////////// КМАРР КРНА=1110 1 ДЛМ =200с 2 ТНМ=2400с 3
СДИ* 4 /////////////////////////////////////////////////////////////////////////////////////////////////////// 5
353П-46КС-27895-1105 87
ДЛС 6 ДЛЗНП (ДЛАП2) 7
СПК2 НПК2 (НМП2) СПК1 НПК1 (НМП1) 8 СПК4 НПК4 (НМП4) СПК3 НПК3 (НМП3) 9
////////////////////////////////////////////
ПВКЗУ
ПС /////////// НМВ=2 10
00000 00 0 0 0000000 11
0 0000000 0 0000000 12 С К МЭ Т1 Т2 Т3 /////////// РФСЧ ///////////////////////////////////// 13 КСНР1 КСНВ1 КСНН1 ///// НРЗ1 14 КСНР2 КСНВ2 КСНН2 ///// НРЗ2 15 КСНР3 КСНВ3 КСНН3 ///// НР33 16 КС1 КС2 КС3 /////////////////////////////// РВО 17
МХСМ
Figure 8 Memory array 2 for joint operation.
Note: Parameters, used by Pamela and HSRL, are marked in thick print.
The other parameters will be assigned as “zero”.
All commands, sent to Pamela during joint operation, are given in Table 4.
Table 12 Commands, sent to Pamela during joint operation.
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
where the
command
is issued
"Nominal activation"
CC Pamela’s power bus on
t0 – time of on-board and test-
ing program synchronization
А11
353П-46КС-27895-1105 88
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
where the
command
is issued
CC "PSCU ON
MAINE"
230 s + t0 А11
MCMD CC request 350 s + t0 А11
MCMD "RH/BCtS inter-
action test via
MCL" (see Ta-
ble. 1)
351 s + t0
MCMD Time sync 352 s + t0
MCMD CC request 353s + t0 А11
CC "IPM 1 ON" 354 s + t0 А11
CC "IPM 3 ON" 354 s 250 мs + t0 А11
CC "IPM 5 ON" 354 s 500 мs + t0 А11
CC "GAS EN-
ABLE"
А11
MCMD CC request 355 s + t0 А11
MCMD CC request 506 s + t0 А11
MCMD "Select Mode" 508 s + t0 А11
MCMD CC request 509 s + t0 А11
CC ND power bus on
А11
CC "ND ON" А11
CC ND main low
voltage
А11
353П-46КС-27895-1105 89
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
where the
command
is issued
CC ND main high
voltage
А11
MCMD "Select Mode"" 550 s + t0 А11
MCMD "Select Mode" 565 s + t0 А11
MCMD "BITE" 570 s + t0 А11
First communication session
MCMD "Time sync" 880 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
MCMD CCA request А11
MCMD CCA request 1103 s + t0 А11
MCMD "BITE" 1200 s + t0 А11
Second communication session
MCMD "Time sync" 1380 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
MCMD CCA request А11
MCMD CCA request 1603 s + t0 А11
MCMD "BITE" 1700 s + t0 А11
Third comunication session
MCMD "Time sync" 1880 s + t0 А11
MCMD "Select Mode" А11
353П-46КС-27895-1105 90
Type of com-
mand
Name of com-
mand
Time of the command issue Place from
where the
command
is issued
MCMD "DOWNLOAD" А11
MCMD CCA request А11
MCMD CCA request 2103 s + t0 А11
MCMD "BITE" 2200 s + t0 А11
Fourth communication session
MCMD "Time sync" 2380 s + t0 А11
MCMD "Select Mode" А11
MCMD "DOWNLOAD" А11
MCMD CCA request А11
MCMD CCA request 2603 s + t0 А11
"Nominal switch
off" (см табл. 1)
4800 s + t0 А11
Research data are received by Pamela’s GSE according to 4.2.1.1, but
HSRL testing equipment takes data from the nominal output of HSRL on-board
equipment.
353П-46КС-27895-1105 91
Pamela
ХР5 ХР6
HSRL OBE FTD
(Size = 20
Gbyte)
100 m
Pamela’s
GSE
HSRL GTE
Figure 9 Layout of Pamela’s GSE and HSRL GTE
during joint operation.
353П-46КС-27895-1105 92
6. INTEGRATED TESTS OF PAMELA
During integrated tests all initial data for Pamela are assigned in the opera-
tional program.
Pamela’s participation in the integrated tests of “Resource-DK” SC implies
the following items:
1) Before the beginning of the first mode Р10 Pamela is switched on
nominally (by activation of A11 program via input 1 from the operational pro-
gram);
2) After finishing the activation process (at least 550 seconds after A11 ac-
tivation via input 1) the following MCMDs are sent to Pamela:
- MCMD “Select Mode” (1) to transfer Pamela into the stand –by mode
(for this purpose MCMD “Select Mode” should be included into RAM area of
A11 program, starting with the GV”MCMD.CODE5”, A11 program should be
activated by input 6),
- “BITE”MCMD to fill Pamela’s memory with test data (for this pur-
pose MCMD "BITE" should be included into RAM area of A11 program, start-
ing with the GV ”MCMD.CODE5”, A11 program should be activated by input
6).
- 10 seconds later MCMD “Select Mode” (2) to make the imitating
model in Pamela’s memory (for this purpose MCMD “Select Mode” should be
included into RAM area of A11 program, starting with the GV
”MCMD.CODE5”, A11 program should be activated by input 6).
3) Between 5 and 6 min later Pamela participates in the first download ses-
sion with HSRL OBE in the first mode P10 (by activation of program A11via input
10 from program Р10), download session lasts 200 seconds;
4) When the first download session is finished (10 seconds later), the fol-
lowing MCMD are sent to Pamela:
- MCMD “Select Mode” (3) to make the imitating model in Pamela’s
memory (for this purpose MCMD “Select Mode” should be included into
353П-46КС-27895-1105 93
RAM area of A11 program, starting with the GV ”MCMD.CODE5”, A11 pro-
gram should be activated by input 6).
- 2 to 5 minutes after issue of MCMD according to item 4) MCMD “Se-
lect Mode” (4) is issued with the initial data to calibrate Pamela (for this pur-
pose MCMD “Select Mode” should be included into RAM area of A11 pro-
gram, starting with the GV ”MCMD.CODE5”, A11 program should be acti-
vated by input 6).
- 10 seconds later “Calibrate” MCMD is issued (by activation of A11
program via input 37)
- 3 minutes after “Calibrate” MCMD issue, MCMD “Select Mode” (5)
is issued to transfer Pamela into the mode of particle counting (for this purpose
MCMD “Select Mode” should be included into RAM area of A11 program,
starting with the GV ”MCMD.CODE5”, A11 program should be activated by
input 6).
5) Between 1 and 2 hours later Pamela participates in the second
download session with HSRL OBE (in the 3d mode P10), download session
lasts 200 seconds.
6) Pamela is switched off nominally (by activation of program
A11 via input 2 from the operational program).
The following initial data should be formed before A11 program activation
via input 1:
-GV "ЗВРПК"=1;
- GV "ВРБУЗП"=1;
- GV "КДБЗ"=258;
- GV "БЛПАМ"=0;
- GV "ВРНИЗН"=0;
- GV "ВРВЫСН"=0;
- GV "КДМАСК"=0;
- GV "СЧПРПО"=0;
353П-46КС-27895-1105 94
- GV "НРНД"=0.
5 “Select Mode” MCMDs, “BITE” MCMD , formed for Pamela with
checking information, are given in Table 5.
Table 13
MCMD "Select Mode" (1) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD=0
0 Code MCMD= 3316
Length MCMD=?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
MCMD "Select Mode" (2) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD =0
0 Code MCMD= 3316
Length MCMD=?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
MCMD "Select Mode" (3) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
353П-46КС-27895-1105 95
Counter MCMD=0
0 Code MCMD= 3316
Length MCMD=?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
MCMD "Select Mode" (4) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD=0
0 Code MCMD= 3316
Length MCMD=?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
MCMD "Select Mode" (5) 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD=0
0 Code MCMD= 3316
Length MCMD=?
Time indicator (most significant) = 0
Time indicator (least significant) = 0
353П-46КС-27895-1105 96
CW=0
MCMD"BITE" 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Counter MCMD=0
0 Code MCMD=8016
Length MCMD=7
Time indicator (most significant) = 0
Time indicator (least significant) = 0
CW
The following initial data should be formed before activation of A11 pro-
gram via input 10 (in the first and the third modes P10):
- GV "ВРКАН"=0;
- GV "ВРАДАП"=0;
- GV "ВРИОК=1".
Subarrays of route (marshrut) characteristics should be formed too with
КРНА (code of Pamela’s operation)=168, marshrut length=200s, time of marshrut
start, number of marshrut in orbit.
Additions will be put to data of table 5.
ЖР69 testing program should be activated by inputs:
- by input 1 to check Pamela’s temperature parameters. In case of anom-
aly in any of these parameters ЖР69 program forms GV
"ННТМПП"=1 (anomaly in Pamela’s temperature parameters) for the
planning program КР18. Time of ЖР69 program operation by input 1
does not exceed 3 minutes.
Test word
353П-46КС-27895-1105 97
- by input 2 and 3 to control Pamela’s switching on and off. Time of
ЖР69 program operation by input 2 does not exceed 10 minutes. Time
of ЖР69 program operation by input 3 does not exceed 1 minute.
- by input 4 for periodic control of Pamela’s status throughout the whole
activation (between P10). Time of ЖР69 program operation by input 4
does not exceed 4 minutes.
Pamela’s GSE receives research data according to 4.2.1.1, but HSRL GTE
takes data from the nominal HSRL output.
353П-46КС-27895-1105 98
7. AMOUNT OF PAMELA’S RETESTING AFTER REPLACEMENT OF
ITS COMPONENTS OR REPLACEMENT OF “RESOURCE DK” SC
SUPPORT SYSTEMS
After replacement of Pamela’s components as well as “Resource DK” SC
systems or units connected with Pamela, test activation using “Resource DK” SC
support systems should be repeated within the following amount:
- for replacement of on-board computer system, CRPDS, BDTS, BTCS –
fragment 1 of Pamela’s test activation;
- for replacement of HSRL – fragment 2 of Pamela’s test activation with
HSRL;
- for replacement of Pamela’s components – full Pamela’s test activation
and full Pamela’s test activation with HSRL;
353П-46КС-27895-1105 99
8. Estimation of operating time
Automated estimation of Pamela’s operating time in hours is made by signalling
parameter "ПИТ ПАМ" (Pamela’s power supply) by summation of times when
this parameter is in the closed status.
Estimation of the number of Pamela’s activations is also made by signaling
parameter "ПИТ ПАМ" (Pamela’s power supply) by summation of the number of
closures of this parameter.
353П-46КС-27895-1105 100
9. ORDER OF PAMELA’S ACTIVATION, DEACTIVATION AND RE-
SET
Before Pamela’s activation, make sure that all Pamela’s connectors are
mated nominally, besides display "PAM CMC" shall be highlighted on digital
typewriter.
Activation of the hardware during TA with support systems of the article
(PAM TA and PAM/HSRL TA) and also during JO and IT is executed by nominal
program А11 (except PAM TA fragment 1). Prior activation of the hardware the
following support systems of the article shall be connected and ready for work:
BCtS, CRPDS, BDTS in modes ЗАП4, ПрБ1, BTCS, HSRL OBE (if necessary).
The hardware is completely deactivated during nominal operation under
CC "OFF PSCU", issued by program А11.
If emergent deactivation of the hardware is necessary the following CC se-
quence shall be issued:
"IPM 1-2 off", " IPM 3-4 off", " IPM 5-6 off", "PSCU off", "ND off", "GS
off", "GS stand-by", "ND power bus off", "Pamela’s power bus off".
In emergent power cut off from the article it is necessary to initiate test
program ЖР67 in input 6 after power restoration to issue the above commands.
Then work with "Pamela" RH in normal mode of operation.
Initial condition of "Pamela" RH is regarded as its deactivated condition it
is in after nominal deactivation of the hardware. Initial condition of "Pamela" RH
ПС-parameters is as follows:
"PAM P"=0, "ND"=0.
353П-46КС-27895-1105 101
353П-46КС-27895-1105 102
Figure 9 Time diagram of fragment 2 of Pamela’s test activation.
А11 inp. 6
ЖР67 inp.1 ПрОЗУ t0=tCTS=0
MC
MD
"Se
lect
Mod
e"(А
2)
ЖР67 inp.2
ПрОЗУ 42
МТ
А11 inp.1
RH in В4
mode
А11 inp. 6
УВИД1=9 min+tTSD УВИД2=10min+ttsdУВИД4=15min+tTSD
MC
MD
"D
UM
P"
MCMD "PATCH"
УВИД3=12min+ttsd
MCMD "DUMP"
УВИД5=18 min +tTSD УВИД6=19 min +tTSD УВИД7=20 min +tTSD
RAM dump
А11in.15
MC
MD
"R
ESET
HIS
TOR
Y
AR
EA"
А11 inp. 2(0ff)
History area
read
УВИД8=22 min +tTSD УВИД9=23 min +tTSD
History area read
А11 inp. 6А11 inp. 15
А11 inp.6 А11 inp.6 А11 inp.15 А11 inp15
УВИД10=25 min +tTSD А11 inp.6
А11 inp.15
УВИД11=40 min +tTSD
РР84 inp.4
t0+18 min ON CF and
establish-
ment of
t0+22min. с/с OFF
РР84 inp.5
СРК62 СРК112
УВИД=3s+tTSD A40 inp.1
353П-46КС-27895-1105 103
Figure 10 Time diagram of fragment 4 of Pamela’s test activation.
ЖР67 inp.3 А11 inp.1 (On)
ПрОЗУ42
МТ УВИД1=3s+tTSD
УВИД2=540s+tTSD УВИД3=662s+tTSD УВИД4=7ч 662s+tTSD
А11 inp.6 А11 inp.6
TRD purg-
ing
30s 120s
А0 mode
А11 inp.2
(Off)
PC
purging
А11 inp.6 420s
УВИД5=7ч1083s+ tTSD
ЖР67 inp.3
А11 inp.1 (On)A40 inp.1
МТ
t0=tTSD=0
УВИД2=540s+tTSD УВИД3=662s+tTSD
А11 inp.2
(Off)
УВИД4=724s+tTSD
А11 inp.6 А11 inp.6
TRD
purging
PC jettison-
ing
30s 120s
Mode А0
А11 inp.6
420s
60s
УВИД5=1145s+ tTSD
Figure 9 Time diagram of fragment 3 of Pamela’s test activation.
УВИД=3s+tTSD
ЖР67 inp.1
A40 inp.1
t0=tTSD=0
ПрОЗУ 42 ЖР67 inp.1