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Lucent Technologies 4ESS Manual

Lucent Technologies 4ESS Manual

Switch with 1b processor peripheral unit bus system growth/degrowth
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Task Oriented Practice (TOP)
TM
4ESS
Switch
With 1B Processor
Peripheral Unit Bus System
Growth/Degrowth
No
Go to 893
TOP Comments Hot Line:
Monday through Friday
8:00 a.m. - 4:00 p.m. (Eastern)
Call: 1-888-LTINFO6
Or FAX to: 1 910-727-3043
START
Do you
Yes
understand
how to use TOP
C
Copyright
1998 Lucent Technologies - All Rights Reserved
Go to 001
Issue 3
DEC 1998
234-353-045
TPG
000
TITLE PAGE

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  • Page 1 Go to 001 how to use TOP TOP Comments Hot Line: Monday through Friday Issue 3 DEC 1998 8:00 a.m. - 4:00 p.m. (Eastern) 234-353-045 Call: 1-888-LTINFO6 TITLE PAGE Copyright 1998 Lucent Technologies - All Rights Reserved Or FAX to: 1 910-727-3043...
  • Page 2 Lucent Technologies Business Units or Divisions without the expressed written consent of the Customer Training and Information Products Organization. For permission to reproduce or distribute, please contact: 4ESS Switch Documentation Customer Information Development Manager —...
  • Page 3 FIND YOUR JOB IN THE LIST BELOW ....THEN GO TO Acceptance ........... NTP-002 Add Half 1 Plug-in Units to PUB Branching and Loop Around Unit (Support to Installer) .
  • Page 4 Acceptance tests are not required for verification of growth procedures contained in this volume. Readiness of a frame or unit to become a part of the operating system is established by the successful completion of the particular growth procedure in its entirety. Issue 3 DEC 1998 234-353-045...
  • Page 5 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO RESPONSIBILITY NOTE: Associated Installation Handbook — 264A, Volume II, Section 125 TELCO Notify Next Higher Support Organization That PUB Work is Beginning —...
  • Page 6 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO At the IO/IOP 0 IPUB 0 Power Switch, Depress ON Switch to Restore Power. Leave ROS/NORM TELCO/INST DLP-522 Switch in ROS Position Temporarily Install BTR Assemblies on Bus Branch Out Terminals on Unit INST...
  • Page 7 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO At 1B Processor MTC Terminal, Enter Message to Restore Peripheral Unit Bus 0 to Service DLP-504 TELCO/INST ( RST:PUB 0! ) Restore IO/IOP 0 IPUB0 to Service at PowerSwitch.
  • Page 8 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Install Branching Unit +3V DC-DC Converters INST — Insert PUBB Frame Power Converters and Fuses (Bay 1) INST —...
  • Page 9 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Restore IO/IOP 0, IPUB 1 to Service at Power Switch. Rotate ROS/NORM Switch to NORM TELCO — Position At 1B Processor MTC Terminal, Enter Message to Diagnose, Restore IOUS1, IPUB1 to Service DLP-531 TELCO...
  • Page 10 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO RESPONSIBILITY NOTE: Associated Installation Handbook — 264A, Volume II, Section 125 Notify Next Higher Support Organization That PUB Work is Beginning TELCO —...
  • Page 11 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO At 1B Processor MTC Terminal, Enter Message(s) to Inhibit Peripheral Automatic Exerciser TELCO DLP-529 Diagnostics (INH:MACLI,CLASS MTCE;REX!) And Stop Peripheral System (STOP:TEST:PUSYS!) Remove Peripheral Unit Bus 1 From Service (RMV:PUB 1!) TELCO DLP-506...
  • Page 12 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO RESPONSIBILITY NOTE: Ensure that office preconditioning for PUB system growth or degrowth is completed CAUTION: If any trouble conditions cannot be resolved during work shift, cables to growth frame should be disconnected from PUBB frame and Bus Terminating Resistors (BTRs) reinstalled so that PUB can be returned to duplex operation prior to busy hour traffic conditions...
  • Page 13 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 12. If Last Frame Determined in Item 1.2 Is Not VIF Frame, Scope Bits 1 to 35 on PU Write TELCO DLP-515 Bus at Last Frame Determined in Item 1.2...
  • Page 14 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 2. Locate Growth Bus Branch Terminating Resistors at PUBB Frame, or Determine Location (Contd) TELCO of Last Frame Where PUB 1 Is Terminated on Bus Branch To Be Scoped Per Office —...
  • Page 15 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 17. At 1B Processor Terminal, Enter Stop Looping Message (EX:PUB 1!) TELCO — (Contd) 18. Set Up Loop To Observe PU Control Bus and Miscellaneous Bus Bits TELCO DLP-518 19.
  • Page 16 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Remove PUB 0 From Service and Power Down PUB 0 at PUBB 0, BAY 0 Power Switch TELCO 1.
  • Page 17 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 13. Scope Expanded Pollable Bits INST — (Contd) 14. Stop the Maintenance Control Client TELCO DLP-512 Restore PUB 0 to NORM at PUBB 0, Bay 0 Power Switch TELCO —...
  • Page 18 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 3. Scope Bit 0 on PU Write and Reply Buses at BTRs INST — (Contd) 4. At 1B Processor Terminal, Enter Stop Looping Message (EX:PUB 1!) TELCO —...
  • Page 19 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO RESPONSIBILITY Ensure that office preconditioning for PUB system growth or degrowth is complete NOTE: CAUTION: If any trouble conditions cannot be resolved during work shift, cables to growth first growth frame should be disconnected from operational frame or PUBB and BTRs reinstalled so that PUB can be returned to duplex operation prior to busy hour traffic conditions...
  • Page 20 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 12. If Last Frame Determined in Item 1.2 Is Not VIF Frame, Scope Bits 1 to 35 on PU TELCO DLP-515 Write Bus at Last Frame Determined in Item 1.2...

  • Page 21: Table Of Contents

    DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Execute PUB Looping Test To Verify Growth Bus Branch at BTRs (PUB 1) 1. If Procedure Was Stopped Temporarily, At 1B Processor MTC Terminal, Enter TELCO —...
  • Page 22 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 15. If Last Frame Determined in Item 2.2 Is VIF Frame, Scope Bits 0 to 11 on DLP-516 TELCO (Contd) PU Enable Address Bus at Last Frame Determined in Item 2.3...
  • Page 23 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO At 1B Processor MTC Terminal, Enter Message to Run Peripheral Unit Bus Diagnostic Using TELCO DLP-504 Restore Message (PUB 0) (RST:PUB 0!) At 1B Processor MTC Terminal, Enter Message to Run Peripheral Unit Bus Diagnostic Using TELCO DLP-504...
  • Page 24 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 6. Scope Bits 1 to 35 on PU Write Bus, Bits 0 to 11 on PU Enable Address Bus, INST —...

  • Page 25: Store Input Messages On 1B Processor Terminal For Pub Looping Test

    DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO At 1B Processor MTC Terminal, Enter Message(s) to Inhibit Peripheral Automatic Exerciser TELCO DLP-529 Diagnostics (INH:MACLI,CLASS MTCE;REX!) and Stop Peripheral System (STOP:TEST;PUSYS!) 1.
  • Page 26 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 7. At 1B Processor Terminal, Enter Stop Looping Message (EX:PUB 1!) TELCO — (Contd) 8. Set Up Loop To Observe PU Control Bus and Miscellaneous Bus Bits TELCO DLP-518 9.

  • Page 27: Scope Bit 0 On Pu Write Bus At Last Frame Determined In Item

    DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO RESPONSIBILITY Ensure that office preconditioning for PUB system growth or degrowth is completed NOTE: CAUTION: If any trouble conditions cannot be resolved during work shift, the new bus interface should be disconnected and original cables reconnected at operational frames so that duplex PUB operational status is restored prior to busy hour traffic conditions...
  • Page 28 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 12. If Last Frame Determined in Item 1.2 Is Not VIF Frame, Scope Bits 1 to 35 on PU TELCO DLP-515 Write Bus at Last Frame Determined in Item 1.2...
  • Page 29 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Execute PUB Looping Test To Verify Growth Bus Branch at BTRs (PUB 1) 1. If Procedure Was Stopped Temporarily, At 1B Processor MTC Terminal, Enter TELCO —...

  • Page 30: Telco Dlp-516

    DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 15. If Last Frame Determined in Item 2.2 Is VIF Frame, Scope Bits 0 to 11 on DLP-516 TELCO (Contd) PU Enable Address Bus at Last Frame Determined in Item 2.3...
  • Page 31 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Remove PUB 0 From Service and Power Down PUB 0 at Power Switch of PUBB 0, BAY 0 1.
  • Page 32 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO TELCO — 10. At 1B Processor Terminal, Enter Stop Looping Message (EX:PUB 0!) (Contd) 11. Stop Maintenance Control Program Client TELCO DLP-512 12.
  • Page 33 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO — 3. Depress ROS Switch to Power Down PUB 1 at PUBB 0, BAY 1 TELCO (Contd) — 4.
  • Page 34 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 12. Determine if Last Frame in Item 2.2 Is an SCS or DIFE (Member Numbers 24-31) Frame, or XTSI on Expanded Pollable Bus. If SCS or DIFE (Member Numbers 24-31), or XTSI on DLP-533 (Contd) TELCO...
  • Page 35 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO RESPONSIBILITY NOTES: 1. Associated Installation Handbook — 264A, Volume II, Section 201 NOTES: 1. Associated Installation Handbook — 264A, Volume II, Section 201 2.
  • Page 36 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 14. If Last Frame Determined in Item 1.1 Is VIF Frame, Scope Bits 0 to 11 on PU TELCO DLP-516 (Contd)
  • Page 37 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 7. If Last Frame Determined in Item 2.1 Is VIF Frame, Set Up Oscilloscope TELCO DLP-530 (Contd) 1. Scope Bit 0 on PU Write Bus at Last Frame Determined in Item 2.2 TELCO DLP-513 8.
  • Page 38 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Determine Peripheral Frame(s) Where PUB Branch Will Be Reterminated (Could Be PUBB Frame) TELCO/INST — Per Office Record Drawing T-nnnn-Hn-3840 Assure Power Is Removed From Frame Controllers and IPUBs on Degrown Frame(s) TELCO/INST —...
  • Page 39 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 5. Advance Program to Bus Branch To Be Scoped and Set Up Loop To Observe Bits 1 to 35 on TELCO DLP-511 PU Write Bus, Bits 0 to 11 on PU Enable Address Bus, and Bits 1 to 23 on PU Reply Bus...
  • Page 40 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO At 1B Processor MTC Terminal, Enter Messages to Diagnose PUB 0 and PUB 1 TELCO 1. RST:PUB 0! —...
  • Page 41 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 5. Advance Program to Bus Branch To Be Scoped and Set Up Loop To Observe Bits 1 to 35 on PU Write Bus, Bits 0 to 11 on PU Enable Address Bus, and Bits 1 to 23 on TELCO DLP-511...
  • Page 42 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO RESPONSIBILITY NOTES: 1. Associated Installation Handbook — 264A, Volume II, Section 201 2. Peripheral frame(s) to be removed from PUB branch must have been degrown to grow state prior to start of this procedure Execute PUB Looping Test To Verify PUB Branch at BTRs (PUB 0): 1.
  • Page 43 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 14. If Last Frame Determined in Item 1.1 Is VIF Frame, Scope Bits 0 to 11 on PU TELCO DLP-516 (Contd)
  • Page 44 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 7. If Last Frame Determined in Item 2.1 Is VIF Frame, Set Up Oscilloscope TELCO DLP-530 (Contd) 1. Scope Bit 0 on PU Write Bus at Last Frame Determined in Item 2.2 TELCO DLP-513 8.
  • Page 45 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO Determine Peripheral Frame(s) Located Before (Could Be PUBB Frame) and After Degrowth TELCO/INST — Frame(s) On PUB Branch Per Office Record Drawing T-nnnn-Hn-3840 Verify New PUB Cabling Between Operational Frames on Each Side of Degrown Frame(s) INST —...
  • Page 46 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 4. At 1B Processor Terminal, Enter Stop Looping Message (EX:PUB 0!) TELCO — (Contd) 5. Advance Program Bus Branch To Be Scoped and Set Up Loop To Observe Bits 1 to 35 on PU Write Bus, Bits 0 to 11 on PU Enable Address Bus, and Bits 1 to 23 on PU Reply Bus TELCO DLP-511...
  • Page 47 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO At 1B Processor MTC Terminal, Enter Messages to Diagnose PUB 0 and PUB 1 TELCO — 1. RST:PUB 0! TELCO —...
  • Page 48 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO 2. Scope PU Reply Bus Bit 0 INST/TELCO DLP-514 (Contd) TELCO — 4. At 1B Processor Terminal, Enter Stop Looping Message (EX:PUB 1!) 5.
  • Page 49 DO THE ITEMS BELOW IN THE ORDER LISTED ..FOR DETAILS, GO TO NOTE: If a pulse is displayed, the degrown frame is NOT Isolated from the PUB. Replace cable removed in Step 23.1. Stop work and contact next higher level of support for (Contd) assistance 3.
  • Page 50 SUMMARY verify that controllers 0 and 1 version number agree with Using PUBB verify entry input message, call up PUBB appropriate office record and shipping information. If data UT translator and verify that submember equipage for is in error, perform functional word change. Refer to entry growth circuit half is unequipped.
  • Page 51 [8] See CAUTION 1. [7] Are bits Using RC Form 701, compared in degrow submember Step 6, Page 1, equipage to set to 0 unequipped [DLP-501] [9] Using 1B Processor MTC Terminal output [10] Were any and office records, version errors verify PUBB controller noted version numbers per...
  • Page 52 TABLE B ENTRY WORD UT ENTRY DATA AND WORD CONFIGURATION (OCTAL) entry data octal output bit position binary values Circuit half (0 or 1) submember equipage PUBB loop around unit XX = 2-digit code giving status of circuit half (0 or 1) Y...Y = Variable octal numbers = 00 = Unequipped = 11 = Operational...
  • Page 53 TABLE A (GROW) Page 7 RC:UTYPE,CHG;OPT(EQP,DEGROW),TST: UTYN a, [1] What is (SGRO) ORNU b, present state Page 4 of equipage bits MEMN c, (----, ----), to be changed (OPER) SUBMEM d, e ), RC Form [2] See CAUTION 1. At 701 filled REMARKS--------------------------------! 1B Processor MTC...
  • Page 54 [5] Analyze output TABLE B [4] Was recent message for error RC ORNU a SUCCESSFULLY TESTED change SUCCESSFULLY and repeat from TESTED and Step 2, Page 1, RC ORNU a SUCCESSFULLY BUFFERED SUCCESSFULLY with corrected RC:UTYPE,CHG;OPT(EQP,DEGROW),BUF: UTYN PUBB, BUFFERED [TABLE B] input data ORNU a, MEMN b,...
  • Page 55 [8] Determine TABLE C cause for rejection RC ORNU a ACTIVATED [7] Was recent and repeat from change ACTIVATED RC:UTYPE,CHG;OPT(EQP,GROW),BUF: UTYN PUBB, Step 6, Page 2, [TABLE C] with correct input ORNU a, message MEMN b, (----, ----), [9] Does output [12] Is it necessary SUBMEM c, (OPER, SGRO),...
  • Page 56 TABLE D [13] See CAUTION 2. At 1B Processor MTC RC:UTYPE;CHG;OPT(EQP,DEGROW),TST: UTYN a, CRT displays Terminal, Enter RC Form 701 OP:RCFORM 701! ORNU b, MEMN c, (----, ----), RC Form 701 filled in and entered SUBMEM d, e ), [14] Fill in blanks on RC Form 701 REMARKS------------------------------! per TABLE D to degrow submember Page 5...
  • Page 57 [16] Analyze output TABLE E [15] Was recent message for error RC ORNU a SUCCESSFULLY TESTED change SUCCESSFULLY and repeat from TESTED and Step 13, Page 4, RC ORNU a SUCCESSFULLY BUFFERED SUCCESSFULLY with corrected RC:UTYPE,CHG;OPT(EQP,DEGROW),BUF: UTYN PUBB, BUFFERED [TABLE E] input data ORNU a, MEMN b,...
  • Page 58 [19] Determine TABLE F cause for rejection RC ORNU a ACTIVATED [18] Was recent and repeat from change ACTIVATED RC:UTYPE,CHG;OPT(EQP,GROW), BUF: UTYN PUBB, Step 17, Page 5, [TABLE F] with correct input ORNU a, data MEMN b, (----, ----), [20] Does output [23] Is it necessary SUBMEM c, (SGRO, GROW),...
  • Page 59 TABLE G [24] See CAUTION 3. At 1B Processor MTC RC:UTYPE;CHG;OPT(EQP,DEGROW),TST: UTYN a, displays Terminal, Enter RC Form 701 OP:RCFORM 701! ORNU b, RC Form 701 filled in MEMN c, (----, ----), entered [25] Fill in blanks on SUBMEM d, e ), RC Form 701 per TABLE G to degrow submember to UNEQ...
  • Page 60 [27] Analyze output TABLE H [26] Was recent message for error RC ORNU a SUCCESSFULLY TESTED change SUCCESSFULLY and repeat from TESTED and Step 24, Page 7, RC ORNO a SUCCESSFULLY BUFFERED SUCCESSFULLY with corrected RC:UTYPE,CHG;OPT(EQP,DEGROW),BUF: UTYN PUBB, BUFFERED [TABLE H] input data ORNU a, MEMN b,...
  • Page 61 TABLE I [30] Determine cause for rejection RC ORNU a ACTIVATED [29] Was recent and repeat from change ACTIVATED RC:UTYPE,CHG;OPT(EQP,GROW),BUF: UTYN PUBB, Step 28, Page 8, [TABLE I] with correct input ORNU a, data MEMN b, (----, ----), [31] Does output SUBMEM c, (GROW, UNEQ), message indicate...
  • Page 62 [1] See octal word containing version data in entry output message [2] For each controller/unit convert octal digits to version number per FIG. 1 and record Page 2 [3] Obtain from installer LDI issue numbers for each growth frame controller/unit entry data octal output bit position...
  • Page 63 [4] Using TABLE A, select version TABLE A numbers associated with LDI MEMBER VERSION NUMBER UNIT SD NUMBER issue numbers obtained in Step 3. See NOTE 1 PUBB Controller 4A019-01 — — 4A038-01 — — [6] Record discrepancies found in Step 5 [5] Compare version numbers of Step 4 with version numbers calculated in Step 2...

  • Page 64: Transid

    SUMMARY RC:FUNC;CHG;OPT(TRANS),_ _ _: TRANSID _ _ _ _, Call up RC Form 801 on CRT. Using 1B Processor MTC Terminal, ORNU _ _ _ _ _ _ _, fill in blank fields on form to identify and to correct selected ENTRY _ _ _ _ _ _ _, WORDNO _ _ _ _, digit(s) within a selected word of UT translator.
  • Page 65 Using 1B Processor MTC Terminal display of RC Form 801: [6] In field following WORDNO, type decimal number of UT translator word to be changed [7] Determine quantity of consecutive bits which span all bits requiring change in this UT translator word [8] In field following SIZE, type decimal number of...

  • Page 66: Entry

    PARTIAL RC ENTRY _ _ _ FORM 801 IN THIS EXAMPLE, NUMBER 9 (BITS) SIZE 9 _, DISP _ _, WOULD BE TYPED AFTER SIZE BINOCT _, (PER STEP 8) NEWDATA _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _, OLDDATA 1 1 0 0 0 0 1 1 0 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _, IN THIS EXAMPLE, 110000110 WOULD BE TYPED AFTER OLDDATA (PER STEP 14)
  • Page 67 Using 1B Processor MTC Terminal display of RC Form 801: [11] Type B in field following BINOCT [12] See NOTE 1. Determine binary bits to be inserted into UT translator word to correct that word. See example of FIG. 2, Page 3 [13] In field following NEWDATA, type binary bits determined in Step 12.
  • Page 68 TABLE A [18] At 1B [16] Was recent Processor MTC change SUCCESSFULLY RC ORNU a SUCCESSFULLY TESTED Terminal, Enter TESTED and RCACT:ORNU a! RC ORNU a SUCCESSFULLY BUFFERED SUCCESSFULLY a = RC order BUFFERED [TABLE A] RC:FUNC;CHG;OPT(TRANS),BUF: TRANSID UTPUBB, number ORNU a, ENTRY b, WORDNO...

  • Page 69: Remarks

    TABLE B [21] Does output message indicate [19] Was recent RC ORNU a ACTIVATED changed data field(s) change ACTIVATED RC:FUNC;CHG;OPT(TRANS),BUF: TRANSID UTPUBB, are correct for this [TABLE B] ORNU a, recent change ENTRY b, WORDNO c, SIZE d, DISP e, BINOCT B, [20] Determine [22] If data changes...
  • Page 70 [1] See NOTE 1. At 1B Processor MTC [2] Does output Terminal, enter message indicate RST:PUB a! ATP and RESTORE a = Bus member COMPLETED number (0 or 1) Peripheral [5] Refer trouble growth [3] Output to installer equipment message for resolution;...
  • Page 71 TABLE A SUMMARY RC:UTYPE;CHG;OPT(EQP,GROW),TST: UTYN a, Call up RC Form 700 on CRT. Using 1B Processor MTC Terminal, fill in blanks on RC Form 700 to change submember equipage. ORNU b, Using assigned order number, activate recent change; then MEMN c, (----, ----), verify current translations SUBMEM d,...
  • Page 72 TABLE B [3] Was recent change SUCCESSFULLY RC ORNU a SUCCESSFULLY TESTED Page 3 TESTED and RC ORNU a SUCCESSFULLY BUFFERED SUCCESSFULLY BUFFERED [TABLE B] RC:UTYPE;CHG;OPT(EQP,GROW),BUF: UTYN PUBB, ORNU a, OLD NEW MEMN b, ME ( ---- ---- [4] Analyze OLD NEW output message for SUBMEM c,...
  • Page 73 TABLE C [5] At 1B [7] Determine cause [6] Was Processor MTC RC ORNU a ACTIVATED for rejection and recent change Terminal, enter repeat from Step 5 RC:UTYPE;CHG;OPT(EQP,GROW),BUF: UTYN PUBB, RCACT:ORNU a! ACTIVATED with correct input [TABLE C] a = RC order ORNU a, message number...
  • Page 74 TABLE D [11] At 1B Processor MTC INPUT MESSAGE OUTPUT MESSAGE Terminal, enter VER:UTYPE:b c,SME f! VER:UTMN;OPT(SME),CUR: FLN a, UTYN b, input message MEMN c, ME d, per TABLE D SUBMEM e, SME f, a = Floor location number b = Unit Type = PUBB [12] Are c = Member number of growth associated frame output message...
  • Page 75 [1] At 1B Processor MTC [2] Was PU Terminal, enter bus removed RMV:PUB a! from service a = Bus member number (0 or 1) System [5] Determine denied why request was [3] Output request denied, resolve indicates and repeat from Step 1 Invalid input...
  • Page 76 [1] See NOTE 1. At [2] Does output PUBB frame power message indicate switch, rotate ATP on phases run OFF switch from ROS to normal position Peripheral growth [5] Refer [3] Output equipment trouble to message indicates installer for trouble is in resolution;...
  • Page 77 [1] At 1B Processor TABLE A MTC Terminal, Enter message per TABLE A, VER:UTYPE:PUBB 0,SME a! index number for a = SME index number PUBB unit half 1 = 71 (for PUBB Unit 0) specifying SME = 73 (for PUBB Unit 1) = 75 (for PUBB Unit 2) = 77 (for PUBB Unit 3) [2] Is SME...
  • Page 78 [1] At power switch, rotate OFF switch to normal position [3] Does output message indicate ATP and RESTORE [2] See NOTE 1. COMPLETED Depress ON switch Peripheral growth [6] Refer trouble [4] Output equipment to installer message indicates for resolution; trouble is in ATP required Nongrowth...
  • Page 79 1. Get program listings PR-4A510 (PUDGPBGR) TABLE A and PR-4A512 (PUDGPB02) (See FIG. 1) ITEM STATEMENT LABEL ADDRESS 2. Using PR-4A512, verify address of STM10600 ITEM 1 in TABLE A PBTS2600 PBTS2900 3. Using PR-4A510, verify address of ITEMS 2 through 6 in TABLE A PBTS3600 PBTS4400 USE FIRST ADDRESS...
  • Page 80 At 1B Processor SREC or Beltline Terminal: 4. Depress FORM ENTER key to ON CAUTION: The messages must not be entered into system at this time 5. Type input messages per TABLE B 6. Depress FORM ENTER key to OFF End of procedure TABLE B NUMBER...
  • Page 81 [2] Was [1] At 1B Processor CLASS MTCE SUBCLASS a MTC Terminal or SREC Page 2 7 69 0 xxxxxxxx Terminal or beltline PUB b terminal, enter message received message per TABLE A [3] At 1B Processor MTC or SREC Terminal enter TABLE A start looping...
  • Page 82 TABLE C [6] At 1B Processor MESSAGE MTC or SREC INPUT MESSAGE NUMBER Terminal enter EX:PUB a:PH 2,ADR 543! starting address message per a = bus 0 or 1 TABLE C 543 = Address of statement label STM10600 [7] Was [9] Are EX: PUB a SUSPENDED branches A...
  • Page 83 [10] At 1B Processor [11] Was [13] At 1B Processor MTC Terminal EX: PUB a:SUSPENDED MTC Terminal or or SREC Terminal, AT PH 2 ADR 32 SREC Terminal, enter step message AFTER TEST xxxxx enter looping EX:PUB a;STEP! (STEP) MSG COMPL message per TABLE D a = bus 0 or 1 message received...
  • Page 84 [17] At 1B Processor [18] Was [20] At 1B Processor MTC Terminal EX: PUB a:SUSPENDED MTC Terminal or or SREC Terminal, AT PH 2 ADR 32 SREC Terminal, enter step message AFTER TEST xxxxx enter looping EX:PUB a;STEP! (STEP) MSG COMPL message per TABLE F a = bus 0 or 1 message received...
  • Page 85 [3] Determine [1] At 1B Processor [2] Is output cause and MTC Terminal, enter message per resolve. Repeat OP:MACLI,CLASS MTCE! TABLE A from Step 1 [4] At 1B Processor [5] Was MTC Terminal, enter maintenance stop maintenance control program control program client stopped client message per TABLE B...
  • Page 86 [1] Locate line in FIG. 1, 2, 3, or 5, Pages 2 and 3, respectively, that contains last frame where PU write bus is terminated on bus branch to be scoped [2] Assure that scope probes are wrapped around each other with positive lead PU write connected to Channel 1 and negative bus bit 0...
  • Page 87 P† N† P† N† CCIS *80-25 PUBB FRAME BRANCH A *76-03 BUS 0 080-17 BRANCH B *72-06 BUS 1 080-38 BRANCH C *76-05 BRANCH D *72-07 BIT 0 BUS 0 080-03 BRANCH E *64-03 BIT 0 BUS 1 080-27 BRANCH F *60-06 BRANCH G *64-05...
  • Page 88 P* N* 200 NS NORMAL PULSE AT DRIVER 200 NS DIF or DIFE (24-31) BUS 0 180-109 BUS 1 180-257 NORMAL PULSE 500 FEET FROM DRIVER * P FOR POSITIVE LEAD AND N FOR NEGATIVE LEAD BIT 0 FIG. 4 FIG.
  • Page 89 [1] Locate line in FIG. 1, 2, 3, or 5, Pages 2 and 3, respectively, that contains last frame where PU reply bus is terminated on bus branch to be scoped [2] Assure that scope probes are wrapped around each other with positive lead connected to Channel 1 and negative lead PU reply...
  • Page 90 N† N† P† P† P† N† CCIS *80-33 PUBB FRAME BRANCH A *76-19 BUS 0 080-02 BRANCH B *72-17 BUS 1 080-23 BRANCH C *76-20 EST OR BRANCH D *72-18 BUS 0 080-11 NCLK BRANCH E *64-19 BUS 1 080-36 ONLY BIT 0 BRANCH F...
  • Page 91 P* N* 200 NS BIT 0 NORMAL PULSE AT DRIVER 200 NS DIF or DIFE (24-31) BUS 0 180-053 BUS 1 180-201 *P FOR POSITIVE LEAD AND NORMAL PULSE 500 FEET FROM DRIVER N FOR NEGATIVE LEAD FIG. 4 FIG. 3 XTSI BUS 0 BUS 0...
  • Page 92 [1] Locate line in FIG. 1, 2, 3, 4, or 6, Pages 2, 3, 4, 5, and 6, respectively, that contains last frame where PU write bus is terminated on bus branch to be scoped [2] Assure that scope probes are wrapped around each other with positive lead connected to PU write...
  • Page 93 BITS 1 TO 7 BITS 8 TO 15 BITS BITS 1 TO 7 8 TO 15 P† N† P† N† FRAME CCIS *80-25 *80-23 BUS 0 080-17 080-16 BUS 1 080-38 080-37 BIT 1 BIT 8 BUS 0 080-03 080-04 BUS 1 080-27 080-28...
  • Page 94 BITS 16 TO 23 BITS 24 TO 31 BITS 32 TO 35 BITS BITS BITS P† N† P† N† P† N† FRAME 16 TO 23 24 TO 31 32 TO 35 CCIS *80-21 *80-19 *80-18 BUS 0 080-15 080-14 080-13 080-36 080-35 080-34...
  • Page 95 BITS 1 TO 7 BITS 8 TO 15 BITS 16 TO 23 BITS 24 TO 31 BITS 32 TO 35 P† N† P† N† P† N† P† N† P† N† BIT 1 BIT 8 PUBB FRAME *76-09 BRANCH A *76-03 *76-12 *76-34 *76-06...
  • Page 96 200 NS BITS 1 TO 7 BITS 8 TO 15 BITS 16 TO 23 BITS 24 TO 31 BITS 32 TO 35 P* N* P* N* P* N* P* N* P* N* NORMAL PULSE AT DRIVER 200 NS DIF or DIFE (24-31) NORMAL PULSE 500 FEET FROM DRIVER BUS 0 180-109...
  • Page 97 BIT 8 BIT 24 BIT 32 BIT 16 BIT 1 XTSI XTSI XTSI BUS 0 045-168 BUS 0 052-180 BUS 0 045-160 BUS 0 052-172 BUS 0 045-152 BUS 0 052-164 BUS 1 053-168 BUS 1 061-180 BUS 1 053-160 BUS 1 061-172 BUS 1...
  • Page 98 [1] Locate line on FIG. 1, 2, 3, or 5, Pages 2, 3, and 4, respectively, that contains last frame where PU enable address bus is terminated on bus branch to be scoped [2] Assure that scope probes are wrapped around each other with enable positive lead connected to address...
  • Page 99 BITS 0 TO 7 BITS 8 TO 11 BITS BITS P† N† P† N† FRAME 0 TO 7 8 TO 11 CCIS *80-16 *80-15 080-12 080-11 BUS 0 BUS 1 080-33 080-32 BIT 0 BIT 8 080-08 080-09 BUS 0 BUS 1 080-33 080-34...
  • Page 100 BITS 0 TO 7 BITS 8 TO 11 BITS BITS PUBB P† N† P† N† FRAME 0 TO 7 8 TO 11 BRANCH A *76-37 *76-40 BRANCH B *72-36 *72-38 BRANCH C *76-39 *76-42 BRANCH D *72-37 *72-39 BRANCH E *64-37 *64-40 BRANCH F...
  • Page 101 200 NS BITS 0 TO 7 BITS 8 TO 11 P* N* P* N* NORMAL PULSE AT DRIVER BIT 0 200 NS DIF or DIFE (24-31) BUS 0 180-079 180-073 BUS 1 180-227 180-221 NORMAL PULSE 500 FEET FROM DRIVER * P FOR POSITIVE LEAD AND N FOR NEGATIVE LEAD BIT 8...
  • Page 102 [1] Locate line in FIG. 1, 2, 3, or 5, Pages 2, 3, 4, and 5, respectively, that contains last frame where PU reply bus is terminated on bus branch to be scoped [2] Assure that scope probes are wrapped around each other with positive lead connected to PU reply Channel 1 and negative lead...
  • Page 103 BITS 1 TO 7 BITS 8 TO 15 BITS 16 TO 23 BITS BITS BITS P† N† P† N† P† N† P† N† P† N† 1 TO 7 8 TO 15 FRAME 16 TO 23 *80-33 *80-32 CCIS *80-31 EST OR 080-02 080-02 BUS 0...
  • Page 104 BITS 1 TO 7 BITS 8 TO 15 BITS 16 TO 23 P† N† P† N† P† N† BIT 1 BIT 8 PUBB FRAME BRANCH A *76-19 *76-21 *76-23 BRANCH B *72-17 *72-19 *72-25 *76-24 BRANCH C *76-20 *76-22 BRANCH D *72-18 *72-20 *72-26...
  • Page 105 200 NS BITS 1 TO 7 BITS 8 TO 15 BITS 16 TO 23 P* N* P* N* P* N* NORMAL PULSE AT DRIVER 200 NS DIF or DIFE (24-31) BUS 0 180-053 180-041 180-035 BUS 1 180-201 180-189 180-183 NORMAL PULSE 500 FEET FROM DRIVER * P FOR POSITIVE LEAD AND N FOR NEGATIVE LEAD...
  • Page 106 BIT 8 BIT 1 BIT 16 XTSI XTSI XTSI BUS 0 045-168 BUS 0 052-180 BUS 0 045-160 BUS 0 052-172 BUS 0 045-152 BUS 0 052-164 BUS 1 053-168 BUS 1 061-180 BUS 1 053-160 BUS 1 061-172 BUS 1 053-152 BUS 1 061-164...
  • Page 107 [1] At 1B Processor [2] Was MTC Terminal or CLASS MTCE SUBCLASS a SREC Terminal, or Page 2 7 69 0 xxxxxxxx beltline terminal, PUB b enter message per message received TABLE A [3] At 1B Processor MTC Terminal or TABLE A SREC Terminal, MESSAGE...
  • Page 108 TABLE C [6] At 1B Processor MESSAGE MTC Terminal or INPUT MESSAGE NUMBER SREC Terminal enter EX:PUB a:PH 2,ADR 543! starting address message per a = bus 0 or 1 TABLE C 543 = Address of statement label STM10600 [7] Was [9] Are EX: PUB a SUSPENDED branches A...
  • Page 109 [10] At 1B Processor [11] Was [13] At 1B Processor MTC Terminal EX: PUB a:SUSPENDED MTC Terminal or or SREC Terminal, AT PH 2 ADR 32 SREC Terminal, enter step message AFTER TEST xxxxx enter looping EX:PUB a;STEP! (STEP) MSG COMPL message per TABLE D a = bus 0 or 1 message received...
  • Page 110 [17] At 1B Processor [18] Was [20] At 1B Processor MTC Terminal EX: PUB a:SUSPENDED MTC Terminal or or SREC Terminal, AT PH 2 ADR 32 SREC Terminal, enter step message AFTER TEST xxxxx enter looping EX:PUB a;STEP! (STEP) MSG COMPL message per TABLE F a = bus 0 or 1 message received...
  • Page 111 [1] Locate line in FIG. 1, 2, 3, 4, or 6, Pages 2, TABLE A 3, 4, 5, and 6, respectively, that contains FAULTY TRIGGER last frame where PU control bus and miscellaneous bus bits are terminated on bus branch to be scoped APUB APUF CLKI...
  • Page 112 CONNECTOR 1 CONNECTOR 2 FRAME CONNECTOR 1 CONNECTOR 2 P† N† P† N† CCIS *80-30 *80-13 BUS 0 080-02 080-10 080-23 080-31 BUS 1 APUB APUT BUS 0 080-14 080-10 APUF CLKI BUS 1 080-39 080-35 PURP PUASW BUS 0 080-39 080-29 BUS 1...
  • Page 113 FRAME CONNECTOR 3 CONNECTOR 4 CONNECTOR 3 CONNECTOR 4 P† N† P† N† CCIS *80-15 *80-18 IOCL PUPE BUS 0 080-11 080-13 IOCH PUPO BUS 1 080-32 080-34 PUSYC EA12 080-09 080-07 BUS 0 BUS 1 080-34 080-32 BUS 0 080-27 080-37 BUS 1...
  • Page 114 CONNECTOR 1 CONNECTOR 2 CONNECTOR 3 CONNECTOR 4 P† N† P† N† P† N† P† N† IOCL PUPE IOCH PUPO PUSYC APUB EA12 APUT CLKI APUF PURP PUASW PUBB FRAME BRANCH A *76-25 *76-31 *76-40 *76-09 BRANCH B *72-27 *72-32 *72-38 *72-10 *76-26...
  • Page 115 200 NS CONNECTOR 1 CONNECTOR 2 CONNECTOR 3 CONNECTOR 4 P* N* P* N* P* N* P* N* IOCL PUPE IOCH PUPO PUSYC EA12 APUB APUT CLKI APUF PURP PUASW NORMAL PULSE AT DRIVER 200 NS DIF or DIFE (24-31) (See Note.) BUS 0 180-023 180-067...
  • Page 116 APUB APUT CLKI APUF PURP PUASW PUFE IOCL PUFO IOCH PUSYC EA12 XTSI XTSI BUS 0 045-144 BUS 0 052-156 BUS 0 045-152 BUS 0 052-164 BUS 1 053-144 BUS 1 061-156 BUS 1 053-152 BUS 1 061-164 FIG. 6 Issue 3 DEC 1998 234-353-045...
  • Page 117 [1] Locate line in FIG. 1, 2, or 3, Pages 2, 3, and 4, respectively, that contains last frame where PU miscellaneous bus bits are terminated on bus branch to be scoped [2] Assure that scope probes are wrapped around each other with positive lead miscellaneous connected to Channel 1 and negative bus bits...
  • Page 118 CONNECTOR 1 CONNECTOR 2 FRAME CONNECTOR 1 CONNECTOR 2 CCIS *80-15 *80-18 P† P† N† N† BUS 0 080-11 080-13 IOCL PUPE BUS 1 080-32 080-34 IOCH PUPO PUSYC EA12 BUS 0 080-09 080-07 080-34 080-32 BUS 1 BUS 0 080-27 080-37 BUS 1...
  • Page 119 CONNECTOR 2 PUBB FRAME CONNECTOR 1 CONNECTOR 1 CONNECTOR 2 BRANCH A *76-40 *76-09 P† N† P† N† BRANCH B *72-38 *72-10 BRANCH C *76-42 *76-11 IOCL PUPE BRANCH D *72-39 *72-11 IOCH PUPO BRANCH E *64-40 *64-09 PUSYC EA12 BRANCH F *60-38 *60-10...
  • Page 120 CONNECTOR 1 CONNECTOR 2 200 NS P* N* P* N* PUPE IOCL PUPO IOCH PUSYC EA12 NORMAL PULSE AT DRIVER 200 NS DIF or DIFE (24-31) BUS 0 180-073 180-085 BUS 1 180-221 180-233 NORMAL PULSE 500 FEET FROM DRIVER * P FOR POSITIVE LEAD AND N FOR NEGATIVE LEAD FIG.
  • Page 121 TABLE B [1] At 1B [5] Repeat [2] Are output Processor MTC VER:UTMN;OPT(SME),CUR: FLN a, UTYN PUBB, message format and from Step 1 Terminal, enter member identification using corrected MEMN 0, ME OPER, message per correct per TABLE B input message SUBMEM b, SME OPER, TABLE A...
  • Page 122 [1] At power switch, assure that OFF switch is set to ROS [3] Does output message indicate ATP or explainable CATP on phases [2] See NOTE 1. Depress ON switch Peripheral [6] Refer trouble growth [4] Output to installer equipment message indicates for resolution;...
  • Page 123 [1] At 1B Processor MTC Terminal, enter DGN:PUB a! a = Bus member number (0 or 1) [4] Does [2] Was message output message accepted and did indicate ATP diagnostic run on phases run Nongrowth [6] Clear PUB [5] Output [3] Analyze output equipment diagnostic failure;...
  • Page 124 [1] At 1B Processor MTC Terminal, enter [2] Are output [3] Repeat from VER:UTYPE:a b,ME! message format Step 1 using and member corrected input a = Unit type of related identification message frame correct per TABLE A b = Member number of related frame [4] Is frame in OPER state...
  • Page 125 [7] Has member equipage been verified for both operational frames [8] At 1B Processor MTC Terminal, enter [9] Are output VER:UTYPE:a b,ME! [11] Is frame message format and in OPER state member identification a = Unit type of related per TABLE A, correct per TABLE A, frame Page 1...
  • Page 126 [1] At 1B Processor MTC Terminal, enter RST:a b,CONTR c! [2] Was message [4] Does output a = Unit type of frame accepted and message indicate from which bus did diagnostic ATP on phases is extended b = Member number of frame from which bus is extended c = Member number 0 or 1...
  • Page 127 [6] At 1B Processor MTC Terminal, enter RST:a b,CONTR c! [7] Was message [9] Does output a = Unit type of frame accepted and message indicate from which bus did diagnostic ATP on phases is extended b = Member number of frame from which bus is extended c = Member number 0 or 1...
  • Page 128 SUMMARY Diagnose PU bus interface 0, specifying phase 99. After ATP, restore PU bus interface 0 to service. Repeat diagnostic and restoral for PU bus interface 1 [1] Read NOTE 1. At 1B Processor MTC Terminal, enter [3] Analyze [2] Was message DGN:a b,IPUB 0:PH 99! output message;...
  • Page 129 [6] Read NOTES 2 and 3. At 1B Processor MTC Terminal, enter [7] Does output RST:a b,IPUB 0! message indicate a = Unit type of operational ATP on phases frame nearest insertion point b = Member number of operational frame [8] Clear PUB diagnostic failure;...
  • Page 130 [9] Read NOTE 4. At 1B Processor MTC Terminal, enter DGN:a b ,IPUB 1:PH 99! a = Unit type of operational frame nearest insertion point b = Member number of operational frame [10] Was message [12] Does output accepted and did message indicate diagnostic run ATP on phases...
  • Page 131 [14] Read NOTES 5 and 6. At 1B Processor MTC Terminal, enter [15] Does output RST:a b,IPUB 1! message indicate a = Unit type of operational ATP on phases frame nearest insertion point b = Member number of operational frame [16] Clear PUB diagnostic failure;...
  • Page 132 [1] Read NOTE 1. TABLE A At 1B Processor DGN:a b,IPUB c :PH 99 MTC Terminal, enter message a = Unit type of operational frame that per TABLE A has full bus access on one side of degrown frame(s) b = Member number of operational frame c = IPUB number [4] Does [2] Was message...
  • Page 133 [8] Read NOTES 2 [9] Does output and 3. At 1B message indicate Processor MTC ATP and RESTORE Terminal, enter COMPLETED message per TABLE B [13] If degrown Modified [12] Refer frame(s) are between equipment trouble to two operational frames [10] Trouble area installer for...
  • Page 134 [1] See NOTE 1. At 1B Processor MTC terminal, [6] If degrown enter frame(s) are between [2] Does output RST:VIF a,CONTR b! two operational VIF message indicate a = Member number of frames, repeat from ATP and RESTORE operational VIF Step 1 for other COMPLETED frame next to...
  • Page 135 [1] At 1B Processor MTC Terminal, enter [2] Does INH:MACLI,CLASS MTCE; REX! system respond REX — Inhibits routine with OK exercises in the maintenance class [3] If response is syntax error correct and repeat from Step 1. If rejection code refer to technical support organization [4] Does...
  • Page 136 [1] Is storage oscilloscope set up [2] Get TEKTRONIX* storage oscilloscope model 2232 or equivalent and two TEKTRONIX oscilloscope X10 probes model P6109 or equivalent [3] Connect one X10 probe to channel 1 (POS) and other X10 probe to channel 2 (NEG) Page 2 [4] Power up storage oscilloscope...
  • Page 137 [7] Observe storage oscilloscope TABLE A screen and set ACQ controls per COLUMN CONTROLS SWITCH* TABLE A by depressing switch associated with control not Peakdet SAVE REF Scan set correctly Fast Swp Lim: NO LIMIT 4K (for Swp Lim:) and adjust CURSORS to obtain NO LIMIT [8] Depress SETUP —...
  • Page 138 [12] Depress SETUP — REF to return to screen [13] Determine one location in FIG. 1, Page 5 where bus scoping adapter can be connected [14] Connect storage scope with bus scoping adapter to connector location determined in Step 13 [see DLP-532 on how to use bus scoping adapter] [15] Set bus scoping adapter...
  • Page 139 TABLE D OSCILLOSCOPE CONTROL SETTINGS FOR MODEL 2232 CONTROLS POSITION SAVE/CONT Depress until SAVE is not displayed Depress (out) STORE VAR HOLDOFF Rotate to 1 o’clock position Rotate to 2 o’clock position VERTICAL — POSITION (left) Rotate to 12 o’clock position VERTICAL —...
  • Page 140 200 NS CLKI - † POSITION 2 NORMAL PULSE AT DRIVER 200 NS FRAME BUS 0 080-10 BUS 1 080-35 BUS 0 080-29 BUS 1 076-29 * P FOR POSITIVE LEAD AND N FOR NEGATIVE LEAD NORMAL PULSE 500 FEET FROM DRIVER †...
  • Page 141 [1] At 1B [3] Does output Processor MTC message indicate [2] Is Terminal, enter RST:IOUS , IPUB COMPLETED response PF RST:IOUS , IPUB Syntax DPLX DPLX Error [5] Connect [4] Does output [8] Clear [8] Clear [7] Output FAIL FAIL input and message indicate duplex...
  • Page 142 [1] Ensure scope probes from storage scope [1] Ensure scope probes from storage scope TABLE A are wrapped around each other with are wrapped around each other with ASSOCIATED ASSOCIATED ASSOCIATED ASSOCIATED positive lead connected to Channel 1 positive lead connected to Channel 1 SCOPE ADAPTER SCOPE ADAPTER SCOPE ADAPTER...
  • Page 143 BUS SCOPING ADAPTER CONNECTOR BIT 0 - POSITION 0 BTR - CONNECTOR TO BE SCOPED PROBE FROM PROBE FROM CHANNEL 1 CHANNEL 2 FIG. 1 — Bus Scoping Adapter Connections Issue 3 DEC 1998 234-353-045 PAGE 2 of 2 HOW TO USE BUS SCOPING ADAPTER...
  • Page 144 [1] Obtain PK-4A002 for appropriate 4E generic in office [2] In the Address Map [3] On the line part of PK-4A002, under located in Step 2, the PIDENT, STRIP, and under the ADDR SECTION columns, locate column, obtain the the line that contains address listed.
  • Page 145 [8] Contact next [7] Identify higher technical explanation of [6] Is PF support group and response error code inform personnel of received in received actions performed TABLE A and results obtained [9] See CAUTION. At 1B Processor MTC Terminal, enter COPY:OWBUF! [12] Contact next [11] Identify...
  • Page 146 TABLE A OVERWRITE ERROR CODES ERROR ERROR EXPLANATION EXPLANATION CODE CODE DPLX GULP cannot be paged to parse the message Incorrect ID tag specified for a file store FAIL because the file stores are duplex failed. only overwrite. Part or all non-library main memory Conditional printout may follow.
  • Page 147 TABLE A (CONTD) OVERWRITE ERROR CODES ERROR ERROR EXPLANATION EXPLANATION CODE CODE UPD:HDATA may be input only from the File store queue full. maintenance channel (or its backup if the DKAD reject — core ADR is out of range. maintenance channel is out-of-service) or the Request technical assistance.
  • Page 148 [13] At 1B Processor MTC Terminal, enter diagnostic looping messages [15] See NOTE 1. EX:PUB ;START! Connect scope yyyy EX:PUB :PH 2,ENABLE ,ADR 1262-1275! [14] Frame DIFE probes across the (yyyy=3195 for CC 0 or 56955 for CC 1) to be BTR locations for (x = PUB 0 or 1) scoped is...
  • Page 149 [19] Have all [20] Have all four expanded four expanded pollable bits in pollable bits Step 5 for this been scoped for CC been scoped both CCs [23] Repeat PDGB from Step 5 PSZB PLPB for the PHPB [19] At 1B Processor MTC other CC Terminal, enter stop maintenance control program client message...
  • Page 150 CONNECTOR 2 200 NS P* N* PDGB PSZB PLPB PHPB NORMAL PULSE AT DRIVER 200 NS DIF or DIFE (24-31) BUS 0 180-067 BUS 1 180-215 NORMAL PULSE 500 FEET FROM DRIVER P FOR POSITIVE LEAD AND N FOR NEGATIVE LEAD FIG.
  • Page 151 [1] Obtain PK-4A002 for appropriate 4E generic in office [2] In the Address Map [3] On the line part of PK-4A002, under located in Step 2, the PIDENT, STRIP, and under the ADDR SECTION columns, locate column, obtain the the line that contains address listed.
  • Page 152 [8] See CAUTION. [9] Is [6] Is PF At 1B Processor COPY:OWBUF COMPLETED response Page 3 MTC Terminal, message received received enter COPY:OWBUF! [7] Identify [10] Identify explanation of explanation of error code error code received in received [DLP-533] [DLP-533] CAUTION Verify correct output message...
  • Page 153 [11] At 1B Processor MTC Terminal, [12] See NOTE 1. enter diagnostic looping messages Connect scope probes EX:PUB x;START! across the BTR at EX:PUB x:PH 2,ENABLE yyyy,ADR 1262-1275! locations for bit to (yyyy=3195 for CC 0 or 56955 for CC 1) be scoped (FIG.
  • Page 154 [15] Have all [16] Have all four expanded four expanded pollable bits in pollable bits Step 5 for this been scoped for CC been scoped both CCs [19] Repeat from Step 5 for the [17] At 1B Processor MTC other CC Terminal, enter stop maintenance control program client message STOP:MACLI,CLASS MTCE,SUBCLASS a!
  • Page 155 CONNECTOR 2 P† N† 200 NS PDGB PSZB PLPB PHPB NORMAL PULSE AT DRIVER PUBB FRAME 200 NS BRANCH A *76-28 BRANCH B *76-28 BRANCH C *76-28 BRANCH D *76-28 BRANCH E *64-28 BRANCH F *64-28 BRANCH G *64-28 BRANCH H *64-28 BRANCH K *48-28...
  • Page 156 [1] At SREC terminal [2] Was or 1B Processor CLASS MTCE SUBCLASS a Page 2 7 69 0 xxxxxxxx MTC terminal, enter message PUB b message received per TABLE A [3] At 1B Processor MTC Terminal or SREC Terminal, TABLE A enter start looping MESSAGE message per TABLE B...
  • Page 157 TABLE C [6] At 1B Processor MESSAGE INPUT MESSAGE MTC Terminal, NUMBER enter starting EX:PUB a:PH 2,ADR 543! address message a = bus 0 or 1 per TABLE C 543 = Address of statement label STM10600 [7] Was [9] Are EX: PUB a SUSPENDED branches A AT PH 2 ADR 543...
  • Page 158 [10] At 1B [11] Was [10] At 1B Processor MTC EX: PUB a:SUSPENDED Processor MTC Terminal, enter AT PH 2 ADR 32 Terminal, enter step message AFTER TEST xxxxx looping message EX:PUB a;STEP! (STEP) MSG COMPL per TABLE D a = bus 0 or 1 message received [16] Repeat from [14] Was...
  • Page 159 [17] At 1B [18] Was [20] At 1B Processor MTC EX: PUB a:SUSPENDED Processor MTC Terminal, enter AT PH 2 ADR 32 Terminal, enter step message AFTER TEST xxxxx looping message EX:PUB a;STEP! (STEP) MSG COMPL per TABLE F a = bus 0 or 1 message received [19] Determine [21] Was...
  • Page 160 [1] At SREC terminal [2] Was CLASS MTCE SUBCLASS a or 1B Processor Page 2 MTC terminal, 7 69 0 xxxxxxxx PUB b enter message per TABLE A message received [3] At SREC Terminal or 1B Processor MTC Terminal TABLE A enter start looping message per TABLE B MESSAGE...
  • Page 161 TABLE C MESSAGE [6] At SREC terminal INPUT MESSAGE NUMBER or 1B Processor EX:PUB a:PH 2,ADR 543! MTC terminal, enter starting address a = bus 0 or 1 message per TABLE C 543 = Address of statement label STM10600 [7] Was [9] Are EX: PUB a SUSPENDED branches A...
  • Page 162 [10] At SREC [11] Was [13] At SREC Terminal or 1B EX: PUB a:SUSPENDED Terminal or 1B Processor MTC AT PH 2 ADR 32 Processor MTC Terminal, enter Terminal enter AFTER TEST xxxxx step message (STEP) MSG COMPL looping message EX:PUB a;STEP! message received per TABLE D...
  • Page 163 [17] At SREC [18] Was [20] At SREC Terminal or 1B EX: PUB a:SUSPENDED Terminal or 1B Processor MTC AT PH 2 ADR 32 Processor MTC Terminal, enter AFTER TEST xxxxx Terminal enter step message (STEP) MSG COMPL looping message EX:PUB a;STEP! message received per TABLE F...
  • Page 164 ITEM ISSUE ITEM ISSUE ITEM ISSUE ITEM ISSUE ITEM ISSUE ITEM ISSUE DLP-522 IXL-001 NTP-002 DLP-523 NTP-003 DLP-524 NTP-004 DLP-525 DLP-526 NTP-005 NTP-006 DLP-527 NTP-007 DLP-528 NTP-008 DLP-529 DLP-530 NTP-009 NTP-010 DLP-531 NTP-011 DLP-532 NTP-012 DLP-533 NTP-013 DLP-534 DLP-535 DLP-500 DLP-501 DLP-536 DLP-502...

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