OctetView
0x00000…00100 (0, 0, 0) Sector 01104130313130 ┆ A0110A ┆
0x00100…00200 (0, 0, 1) Sector 00000000000000 ┆ ┆
0x00200…00300 (0, 0, 2) Sector ff0080fefffeff ┆ ~ ~ ┆
0x00300…00306 (0, 0, 3) WangDocument {d00=0x14, d01=0x29, d02=0x41, ptr=(10,0, 8), d05=0x00}
0x00306…0030c WangDocument {d00=0x15, d01=0x56, d02=0x41, ptr=(41,0, 0), d05=0x00}
0x0030c…00312 WangDocument {d00=0x15, d01=0x70, d02=0x41, ptr=(51,0, 8), d05=0x00}
0x00312…00320 15 70 41 49 00 00 00 00 00 00 00 00 00 00 ┆ pAI ┆
0x00320…00340 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ┆ ┆
[…0x5…]
0x003e0…00400 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 12 ┆ ┆
0x00400…00500 (0, 0, 4) Sector 00000000000000 ┆ ┆
0x00500…00600 (0, 0, 5) Sector 86312020202020 ┆ 1 B 7 Q? > 7 F d 0 \ . d N ~<) 0uH &4'>( 1c5 & & ┆
0x00600…00700 (0, 0, 6) Sector 421c402600415b ┆B @& A[' M X% % PO P ; pA7K C g x g V WD O B :c c * 1570A g c < {C < { ; 0 b b bD F K : 9 8 ^ t N : 1429A C n V 8 ┆
0x00700…00800 (0, 0, 7) Sector 00000000000000 ┆ ┆
[…0x8…]
0x01000…01100 (1, 0, 0) WangDocumentBody
0x01100…01200 (1, 0, 1) Sector 01025e00157041 ┆ ^ pAF) TDX.CLOSE SUBDEVICE (#32,0,#A2) TDX.CLOSE BUS (#32,0) TDX.SHUTDOWN (#32) END U (#32,0,#91,5,5,#F) END b) Close, DO #page.displacement BEGIN TDX.CLOSE VDU (#F) TDX.CLOSE SUBDEVICE (#32,0,#91) TDX.CLOSE BUS (#32,0) TDX.SHUTDOWN┆
0x01200…01300 (1, 0, 2) Sector 0103ff00157041 ┆ pA 1 5 PTP/PTR AND OCR TESTSEQUENCES 5.1 LINK A11 TESTSEQUENCE (PTP/PTR), DO #page.displacement BEGIN TDX.INITIALIZE (#32) TDX.OPEN BUS (#32,0) TDX.OPEN SUBDEVICE (#32,0,#A1,5┆
0x01300…01400 (1, 0, 3) Sector 0104ff00157041 ┆ pA) TDX.OPEN VDU (#32,0,#A1,3,5,#F) DEFINE (1, THE QUICK BROWN FOX JUMPS OVER THE LAZY DOGS BACK 0123456789(:13:)(:10:) ) GENERATE (1,1,31) CLEAR (2) TDX.WRITE (#F,1,62) TDX.READ (#F,2,62) COMPARE (1,2,31) CLEAR (2) TDX.CLOSE VDU (#F┆
0x01400…01500 (1, 0, 4) Sector 0105ff00157041 ┆ pA) TDX.CLOSE SUBDEVICE (#32,0,#A2) TDX.CLOSE BUS (#32,0) TDX.SHUTDOWN (#32) END 5.2 LINK A21 TESTSEQUENCE (OCR), DO #page.displacement This test is only applied if the OCR is available at the time of the test. BEGIN TDX.INITIALIZE (#32)┆
0x01500…01600 (1, 0, 5) Sector 01069c00157041 ┆ pA TDX.OPEN BUS (#32,0) TDX.OPEN SUBDEVICE (#32,0,#A2,5) TDX.OPEN VDU (#32,0,#A2,3,5,#F) ( Body wil be defined when the actual OCR is known ) BEGIN TDX.CLOSE VDU (#F) TDX.CLOSE SUBDEVICE (#32,0,#91) TDX.CLOSE BUS (#32,0) TDX.SHUTDOWN┆
0x01600…01700 (1, 0, 6) Sector 00007000157041 ┆ p pA TDX.CLOSE VDU (#F) TDX.CLOSE SUBDEVICE (#32,0,#A2) TDX.CLOSE BUS (#32,0) TDX.SHUTDOWN (#32) END COMPARE (1,6,31) CLEAR (6) REPEAT 23 BEGIN LTU.WRITE (LTU,4,5) LTU.WRITE (LTU,5,2) LTU.READ (LTU,6,63) COMPARE (1,6,31) CL┆
0x01700…01800 (1, 0, 7) Sector 00000000000000 ┆ ┆
0x01800…01900 (1, 0, 8) WangDocumentBody
[…0x6…]
0x01f00…02000 (1, 0, 15) Sector 0100ff00157041 ┆ pA 1 4.59 LINK A21 SPECIFIC TESTSEQUENCES These testsequences, along with the VDU common testsequence (sec. 4.1), are only applied if the OCR is unavailable. In this case the link is t┆
0x02000…02100 (2, 0, 0) WangDocumentBody
[…0xe…]
0x02f00…03000 (2, 0, 15) Sector 00000000000000 ┆ ┆
0x03000…03100 (3, 0, 0) WangDocumentBody
[…0x77…]
0x0a800…0a900 (10, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(10,0, 9), len=0xff, h3=41142941}, f00=»1429A «, f01=»CPS/TPR/005 «, f02=»vhn «, f03=»JRD «, f04=»APPENDICES «, f05=10-11-81 13:31, f06=» 5 «, f07=»27 «, f08=» 17130 «, f09=07-01-82 15:31, f10=» «, f11=»04 «, f12=» 114 «, f13=23-12-81 17:17, f14=21-06-82 11:09, f15=»0110A «, f16=» 43 «, f17=» 10 «, f18=»35 «, f19=» 360 «, f20=» 28677 «, f21=» «, f22=» @ «, f99=340010000110066610110480aaca15050000000000000037038700df}
0x0a900…0aa00 (10, 0, 9) WangDocumentBody
[…0x1e6…]
0x29000…29100 (41, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(41,0, 1), len=0xff, h3=41155641}, f00=»1556A «, f01=»CPS/TPR/005 «, f02=»SRA «, f03=»SRA «, f04=»Testgroup 7/3 «, f05=23-12-81 15:01, f06=» «, f07=»03 «, f08=» 184 «, f09=19-04-82 09:13, f10=» «, f11=»00 «, f12=» 2 «, f13=19-04-82 08:35, f14=27-05-82 09:49, f15=»0110A «, f16=» 75 «, f17=» 8 «, f18=»01 «, f19=» 1112 «, f20=» 16234 «, f21=» «, f22=» p «, f99=020000000110068610110480aaca15050000000000000037036101df}
0x29100…29200 (41, 0, 1) WangDocumentBody
[…0xa6…]
0x33800…33900 (51, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(51,0, 9), len=0xff, h3=41157041}, f00=»1570A «, f01=»CPS/TPR/005 «, f02=»vhn «, f03=»JRD «, f04=»Appendices «, f05=05-01-82 15:02, f06=» 4 «, f07=»47 «, f08=» 8842 «, f09=21-06-82 11:15, f10=» «, f11=»01 «, f12=» 157 «, f13=19-04-82 09:50, f14=21-06-82 11:19, f15=»0110A «, f16=» 94 «, f17=» 6 «, f18=»37 «, f19=» 892 «, f20=» 10646 «, f21=» «, f22=» 0 «, f99=040010000110068610110480aaca15050000000000000037033f01df}
0x33900…33a00 (51, 0, 9) WangDocumentBody
[…0x6…]
0x34000…34100 (52, 0, 0) Sector 3401ff00154141 ┆4 AAitialize the VUP software. The initialization refers to the functions to be performed after load or re-load of VUP and which it is necessary to execute before VUP can initiate its normal operation. 2.2.2.1.2 Close Down On command from SSC, VUP ┆
0x34100…34200 (52, 0, 1) Sector 34028e00154141 ┆4 AAshall terminate its current processing in an ordered manner and bring itself into a state, where it can respond to a restart command. e preparation database. Whereas f2) and f5) above require VUP to retrieve the items which the user wants to edit ┆
0x34200…34300 (52, 0, 2) Sector 3403ff00154141 ┆4 AA 1 2.2.2.1.3 Restart On command from SSC VUP shall be able to execute a restart function. Restart is commanded following close down, switchover or total system failure. VUP shall imp┆
0x34300…34400 (52, 0, 3) Sector 3404ff00154141 ┆4 AAlement functions necessary to restart after each situation listed above. 2.2.2.2 Checkpointing and Recovery a) Checkpointing Checkpointing is performed by calling the SAVE-function (CSF function) at appropriate points, that is when a message┆
0x34400…34500 (52, 0, 4) Sector 3405ff00154141 ┆4 AA is created, updated, and sent to queues in the system. b) Recovery When VUP is restarted by SSC software following close down, switchover, or total system failure "recovery required" is specified by SSC. Relevant queues will then have conte┆
0x34500…34600 (52, 0, 5) Sector 3406ff00154141 ┆4 AAnts according to latest checkpoint and VUP shall inspect the queues to reestablish the VUP state. 2.2.2.3 Error Detecting and Error Handling a) Error Detecting Errors delected by TEP are of the following types: - Internal software errors ┆
0x34600…34700 (52, 0, 6) Sector 3407ff00154141 ┆4 AA - Illegal contents of received QEL's - Unknown CC's delivered by System Software b) Error Handling Errors detected by VUP shall be reported to the SSC together with information on whether VUP was able to handle the error itself or not. (Ref┆
0x34700…34800 (52, 0, 7) Sector 3308c500154141 ┆3 E AAer also subsection 2.2.2.4). Detection of an error which VUP cannot handle itself shall cause VUP to stop its processing and transfer control to SSC for further handling of the situation. listed below may be issued by the user: - Retrieval (for┆
0x34800…34900 (52, 0, 8) Sector 3409ff00154141 ┆4 AAmat H) - Deletion Request (format P1) - Outgoing Message Status (format N) - Delivery Status (format R) - Release Status (format Q) In figure 2.2-6 the different stages of a request transaction is shown, together with the user access to contro┆
0x34900…34a00 (52, 0, 9) Sector 340aff00154141 ┆4 AAl the transaction by means of function keys in each stage. 2.2.1.6 Maintenance of Message Status Files It is the responsibility of VUP to maintain and update the following status files for each VDU: - Outgoing Message Status - Delivery Statu┆
0x34a00…34b00 (52, 0, 10) Sector 340bff00154141 ┆4 AAs - Release Status 2.2.1.6.1 Outgoing Message Status The Outgoing Message Status file shall contain the status for each message prepared at a VDU. Each day at 24.00 hour the Outgoing Message status file shall be cleaned up. This means that a┆
0x34b00…34c00 (52, 0, 11) Sector 340cff00154141 ┆4 AAll status information concerning items which will no longer undergo changes shall be deleted (e.g. messages released, deleted etc.) 2.2.1.6.2 Delivery Status The Delivery status shall contain a list of all items removed from the receive queue, a┆
0x34c00…34d00 (52, 0, 12) Sector 340d7300154141 ┆4 s AAs well as these of the relevant type retrieved. The Delivery Status shall be cleared each day at 24.00 hour. tivates the function key Suspend VUP shall exit the Release Mode of operation. Append msg. X X P1 Deletion request X P2 Dele┆
0x34d00…34e00 (52, 0, 13) Sector 340e5f00154141 ┆4 _ AA 1 Figure 2.2-6 nt Preparation a) Message/comment preparation consists of two functions: Preparation of New messages/comments, Editing of existing Messages and Comments. b)┆
0x34e00…34f00 (52, 0, 14) Sector 340fff00154141 ┆4 AA 1 2.2.1.6.3 Release Status The release status shall contain a list of all items to which a release decision has been taken and a list of the associated release notifications for eac┆
0x34f00…35000 (52, 0, 15) Sector 3400ff00154141 ┆4 AAh VDU with release capability. Each day at 24.00 hour the Release Status file shall be cleared. 2.2.2 Functional Responsibilities 2.2.2.1 Initialization, Close Down, and Restart 2.2.2.1.1 Initialization On command from SSC VUP shall in┆
0x35000…35100 (53, 0, 0) Sector 3501ff00154141 ┆5 AAst. f) Message/Comment preparation is achieved through one of the transactions listed below: 1) New Message Preparation (format A) 2) Continue Message Preparation (format C1) 3) Prepare Predefined Message (format M) 4) New Comment Prepara┆
0x35100…35200 (53, 0, 1) Sector 3502ff00154141 ┆5 AAtion (format G1) 5) Continue Comment Preparation (format G3) g) f1), f3), and f4) above requires that VUP inserts the new item in the preparation database. Whereas f2) and f5) above require VUP to retrieve the items which the user wants to edit ┆
0x35200…35300 (53, 0, 2) Sector 3503ff00154141 ┆5 AAfrom the preparation database. h) In figure 2.2-5 the different stages of a preparation transaction (refer f) above) is shown. The user access to control the transaction by means of function keys is shown for each stage as well. 1) For messages┆
0x35300…35400 (53, 0, 3) Sector 35047000154141 ┆5 p AA the request for further treatment may be: - APPEND - COORDINATE - SEND FOR RELEASE - DEFER m the queue, or request a printed copy of the item. This may be done by means of the function keys: Keep and Present, Delete and Present, Print┆
0x35400…35500 (53, 0, 4) Sector 35059e00154141 ┆5 AA 1 2) For comments the request for further treatment may be: - SEND - DEFER cified the first item queued with highest precedence shall be displayed. When the user activate┆
0x35500…35600 (53, 0, 5) Sector 35065e00154141 ┆5 ^ AA 1 Figure 2.2-4 ion. VDU User Sub-Process HDB Historical Data Base FQT Flash Queue Timeout 6.21 LOOKUP STATUS REC ............ 591 7.1 UFCO-VDIA Interfaces .......... 410┆
0x35600…35700 (53, 0, 6) Sector 35075e00154141 ┆5 ^ AA 1 Figure 2.2-5 se Queue When the user enters the command RESP, VUP shall enter the Response Mode of operation. The user shall now be able to inspect the items in the respon┆
0x35700…35800 (53, 0, 7) Sector 3408ff00154141 ┆4 AA 1 2.2.1.5 Treatment of User Requests Besides the user requests which may be entered as part of a transaction, the requests listed below may be issued by the user: - Retrieval (for┆
0x35800…35900 (53, 0, 8) Sector 3509ff00154141 ┆5 AAll be the first queued. When the user activates the function key suspend VUP shal exit the response mode of operation. 2.2.1.3.3 The Release Queue The release queue contains messages for release. When the releaser enters the command RELS (p┆
0x35900…35a00 (53, 0, 9) Sector 350aff00154141 ┆5 AArecedence) VUP shall enter the Release Mode of operation. The releaser shall now be able to inspect the items in the release queue one by one, enter his release decision and/or request a printed copy of the item. To each item in the release queue ┆
0x35a00…35b00 (53, 0, 10) Sector 350bff00154141 ┆5 AAis attached an input format for the entry of the release decision. After input of the decision the releaser notifies VUP that a release decision has been entered by means of the function key ENTER. VUP remove the item from the queue and executes the┆
0x35b00…35c00 (53, 0, 11) Sector 350cff00154141 ┆5 AA decision. Inspection and print requests are issued to VUP by means of the function keys: Keep and Present, Print. The first message to be presented to the releaser shall be the first queued of the precedence specified by the command parameter. ┆
0x35c00…35d00 (53, 0, 12) Sector 350dc500154141 ┆5 E AAIf none is specified the first item queued with highest precedence shall be displayed. When the releaser activates the function key Suspend VUP shall exit the Release Mode of operation. Append msg. X X P1 Deletion request X P2 Dele┆
0x35d00…35e00 (53, 0, 13) Sector 350eff00154141 ┆5 AA 1 2.2.1.4 Message/Comment Preparation a) Message/comment preparation consists of two functions: Preparation of New messages/comments, Editing of existing Messages and Comments. b)┆
0x35e00…35f00 (53, 0, 14) Sector 350fff00154141 ┆5 AA Messages may be edited until they are requested released. If the release request is rejected or deferred the messages become available for editing again. After release the message is not available for editing. c) Comments may be edited until they┆
0x35f00…36000 (53, 0, 15) Sector 3500ff00154141 ┆5 AA are requested sent (distributed internally). d) It is the responsibility of VUP to send retrieval key to SAR for the first draft of a message. e) It is the responsibility of VUP to send retrieval keys for a comment at the time of the send reque┆
0x36000…36100 (54, 0, 0) Sector 3601ff00154141 ┆6 AAss (TERMINAL FUNCTION) and the classification of the information currently accessed (CLASSIFICATON). Whenever the classification is unknown or no transaction is in progress the maximum classification to which the user may gain access through this ┆
0x36100…36200 (54, 0, 1) Sector 3602ff00154141 ┆6 AAVDU shall be displayed. 2.2.1.3 Display of Queued Information An overview of transactions to be performed in the Response Mode, Receive Mode and Release Mode of operation together with the transaction control capabilities in each mode of operat┆
0x36200…36300 (54, 0, 2) Sector 3603ff00154141 ┆6 AAion is given in figure 2.2-4. For the sake of completeness the Interactive mode of operation is reflected as well. 2.2.1.3.1 The Receive Queue When the user enters the command RECV (precedence) VUP shall enter the Receive Mode of operation. The┆
0x36300…36400 (54, 0, 3) Sector 3604ff00154141 ┆6 AA user shall now be able to inspect the items in the receive queue one by one, remove an inspected item from the queue, or request a printed copy of the item. This may be done by means of the function keys: Keep and Present, Delete and Present, Print┆
0x36400…36500 (54, 0, 4) Sector 3605ff00154141 ┆6 AA, Cancel. The first message to be presented to the user shall be the first queued of the precedence specified by the command parameter. If none is specified the first item queued with highest precedence shall be displayed. When the user activate┆
0x36500…36600 (54, 0, 5) Sector 36065300154141 ┆6 S AAs the function key Suspend, VUP shall exit the Receive Mode of operation. ed information. VDU User Sub-Process HDB Historical Data Base FQT Flash Queue Timeout 6.21 LOOKUP STATUS REC ............ 591 7.1 UFCO-VDIA Interfaces .......... 410┆
0x36600…36700 (54, 0, 6) Sector 3607ff00154141 ┆6 AA 1 2.2.1.3.2 The Response Queue When the user enters the command RESP, VUP shall enter the Response Mode of operation. The user shall now be able to inspect the items in the respon┆
0x36700…36800 (54, 0, 7) Sector 3508ff00154141 ┆5 AAse queue one by one, remove an inspected item from the queue or request a printed copy of the item. This may be done by means of the function keys; Keep and Present, Delete and Present, Print, Cancel. The first item to be presented to the user sha┆
0x36800…36900 (54, 0, 8) Sector 3609ff00154141 ┆6 AAive queue shall be displayed in the field marked COOR. The distribution of messages on precedence levels for the two precedence queues receive and release shall be displayed in the fields marked: ZZ (FLASH), OO (IMMEDIATE), PP (PRIORITY), RR (ROUT┆
0x36900…36a00 (54, 0, 9) Sector 360a0f00154141 ┆6 AAINE). i.e. Man/Machine I/F Support and monitoring 2) Direct all user requests/commands to the relevant package within CAMPS 3) Present to the user information sent to his VDU 4) Supervise/allow the user preparing messages and comments. ┆
0x36a00…36b00 (54, 0, 10) Sector 360bff00154141 ┆6 AA 1 1 QUEUED INFORMATION FORMAT TRANSACTION DATA ENTRY RECEIVE RESPONSE RELEASE┆
0x36b00…36c00 (54, 0, 11) Sector 360cff00154141 ┆6 AA ID REQUEST QUEUE QUEUE QUEUE A New msg. prep. X B Msg coordination X C1 Cont. msg prep X D Msg release X E1 Incom. msg. pres. X E2 Outg. msg. present ┆
0x36c00…36d00 (54, 0, 12) Sector 360dff00154141 ┆6 AA X F Release notificat. X G1 New comment prep. X G2 Comment present X G3 Cont. Comment prep X H Retrieval X X M Prep. predef. msg X N Outg. msg. status X O Append msg. X X P1 Deletion request X P2 Dele┆
0x36d00…36e00 (54, 0, 13) Sector 360e8900154141 ┆6 AAtion notificat. X Q Msg release status X R Delivery Status X FIGURE 2.2-1 TRANSACTION RELATED TO THE USER FUNCTION ed. In figure 2.1-3 the message flow between VUP and the rest of the CAMPS system as well as the VUP internal flow a┆
0x36e00…36f00 (54, 0, 14) Sector 360f5e00154141 ┆6 ^ AA 1 FIGURE 2.2-2 etween VUP and other CAMPS packages is depicted in figure 2.1-4. .2.5.4.6 SUBQ FOUR ACTION Module ........ 482 4.2.5.4.7 SUBQ FIVE ACTION Module ........ ┆
0x36f00…37000 (54, 0, 15) Sector 3600ff00154141 ┆6 AA 1 2.2.1.2 Information Concerning the Transaction in Progress The first line of the VDU Header area (refer fig. 2.2-2) shall be used to identify to the user the transaction in progre┆
0x37000…37100 (55, 0, 0) Sector 3701ff00154141 ┆7 AA 1 2.2 PACKAGE FUNCTIONS In this section the functions to be performed by VUP are outlined. As stated in section 2.1 the main task of VUP is to implement the CAMPS user function. Th┆
0x37100…37200 (55, 0, 1) Sector 3702ff00154141 ┆7 AAe CAMPS user function and the related requirement will be treated as a whole, i.e. the three subfunctions Preparation, Reception, and Release constituting the CAMPS user function and to each of which access must be granted by the supervisor will be ┆
0x37200…37300 (55, 0, 2) Sector 3703ff00154141 ┆7 AAtreated together in most sub-sections. For the limitations imposed if a user only possesses access rights to one or two of the subfunctions refer subsection 2.2.2.1 and 2.2.2.6. 2.2.1 Main Functions (Normal Operation) The main functions to be i┆
0x37300…37400 (55, 0, 3) Sector 3704ff00154141 ┆7 AAmplemented by VUP are: 1) Continuously display of queue status information 2) Continuously display information concerning the transaction in progress 3) The means for display of queued information 4) The means for message/comment preparation┆
0x37400…37500 (55, 0, 4) Sector 3705ff00154141 ┆7 AA 5) The means for directing requests to CAMPS and deliver responses to the user 6) Maintain and update message status files In figure 2.2-1 an overview of all transaction, which may be initiated by the user is shown, together with an indicatio┆
0x37500…37600 (55, 0, 5) Sector 37066600154141 ┆7 f AAn of whether the transaction refers to preparation/request or display of queued information. VDU User Sub-Process HDB Historical Data Base FQT Flash Queue Timeout 6.21 LOOKUP STATUS REC ............ 591 7.1 UFCO-VDIA Interfaces .......... 410┆
0x37600…37700 (55, 0, 6) Sector 3707ff00154141 ┆7 AA 1 2.2.1.1 Queue Status Display The upper 5 lines of the VDU screen is named the VDU header area, refer figure 2.2-2. The second line of the VDU header area is used for queue statu┆
0x37700…37800 (55, 0, 7) Sector 3608ff00154141 ┆6 AAs display. For each of the three queues; receive queue (DISP), response queue (RESP) and release queue (RELS) the total amount of messages queued for presentation shall be displayed. The total amount of messages for coordination queued in the rece┆
0x37800…37900 (55, 0, 8) Sector 3709ff00154141 ┆7 AAaf the services of the CAMPS user function and the sub-functions are depicted. b) The VDU user package (VUP) implements all the services of the CAMPS user function, which implies the following responsibilities: 1) Interface the user to the CAMP┆
0x37900…37a00 (55, 0, 9) Sector 370aff00154141 ┆7 AAS system, i.e. Man/Machine I/F Support and monitoring 2) Direct all user requests/commands to the relevant package within CAMPS 3) Present to the user information sent to his VDU 4) Supervise/allow the user preparing messages and comments. ┆
0x37a00…37b00 (55, 0, 10) Sector 370bff00154141 ┆7 AA c) The packages to which VUP interfaces are 1) I/O Control Software 2) CAMPS systems Functions 3) Storage and File Management 4) SS&C Software 5) Traffic Handling 6) Distribution 7) Table Management 8) Storage and Retriev┆
0x37b00…37c00 (55, 0, 11) Sector 370c3800154141 ┆7 8 AAal 9) Log and Accountability 10) Statistics ware architecture. 2) To provide user operational and development personnels with details of the ongoing analysis. 3) To define in details the interfaces with other packages and to describe the┆
0x37c00…37d00 (55, 0, 12) Sector 370d6000154141 ┆7 ` AA 1 Figure 2.1-1 architecture of the package to a level sufficient for a programmer to start detailed design with a minimum of design effort of the architecture. The VDU use┆
0x37d00…37e00 (55, 0, 13) Sector 370eff00154141 ┆7 AA 1 In figure 2.1-2 an overview of the interfaces of VUP is depicted. In figure 2.1-3 the message flow between VUP and the rest of the CAMPS system as well as the VUP internal flow a┆
0x37e00…37f00 (55, 0, 14) Sector 370fa100154141 ┆7 ! AAre depicted, highlighting the most important functional interfaces. Information flow between VUP and other CAMPS packages is depicted in figure 2.1-4. .2.5.4.6 SUBQ FOUR ACTION Module ........ 482 4.2.5.4.7 SUBQ FIVE ACTION Module ........ ┆
0x37f00…38000 (55, 0, 15) Sector 37006600154141 ┆7 f AA 1 Figures 2.1-2 to -4 PROJECT REFERENCES 1.2.1 Applicable Documents CAMPS System Requirements CPS/210/SYS/0001 User Procedures and Associated Formats CPS/230/ICD/00┆
0x38000…38100 (56, 0, 0) Sector 3801ff00154141 ┆8 AA01 CAMPS System Design Specification CPS/SDS/001 Database Design Document CPS/DBD/001 CAMPS Software Interface Control Document CPS/ICD/009 1.2.2 Reference Documents 1 D┆
0x38100…38200 (56, 0, 1) Sector 3802ff00154141 ┆8 AAOCUMENT NAME DOCUMENT NUMBER CAMPS System Functions CPS/SDS/024 Message Management CPS/SDS/025 Table Managment CPS/SDS/026 Input/Output Control CPS/SDS/028 System Status and Control CPS┆
0x38200…38300 (56, 0, 2) Sector 3803ff00154141 ┆8 AA/SDS/029 Storage and Retrieval CPS/SDS/030 Statistics CPS/SDS/031 Logging CPS/SDS/032 Traffic Handling CPS/SDS/033 Message Distribution CPS/SDS/034 Supervisor VDU CPS/SDS/035 Supervisor Printer CPS/SDS/036 MDCO VDU CPS/SDS/037 MSO VDU CP┆
0x38300…38400 (56, 0, 3) Sector 38043b00154141 ┆8 ; AAS/SDS/038 OCR CPS/SDS/040 Printer CPS/SDS/041 .6.9 INPUT COMPLETE INTA ............ 562 4.2.5.6.10 STORE INT AREA ............... 565 4.2.5.6.11 UQ ERROR ..................... 567 4.2.5.6.12 INPUT PREP AREA .............. 568 ┆
0x38400…38500 (56, 0, 4) Sector 3805ff00154141 ┆8 AA 1 1.3 TERMS AND ABBREVIATIONS 1.3.1 Terms 1.3.2 Abbreviations PDB Preparation Data Base RETR Retrieve Coroutine UFCO User Function Control Coroutine UMAM User Message Acces┆
0x38500…38600 (56, 0, 5) Sector 3806af00154141 ┆8 / AAs Monitoring VCO VDU Control Coroutine VDIA VDU Dialogue Coroutine VUP VDU User Package VUS VDU User Sub-Process HDB Historical Data Base FQT Flash Queue Timeout 6.21 LOOKUP STATUS REC ............ 591 7.1 UFCO-VDIA Interfaces .......... 410┆
0x38600…38700 (56, 0, 6) Sector 3807ff00154141 ┆8 AA 1 2 SUMMARY OF REQUIREMENTS 2.1 PACKAGE DESCRIPTION The VDU User Package (VUP) constitutes the only means by which CAMPS Personnel may gain access to the services of the CAMPS ┆
0x38700…38800 (56, 0, 7) Sector 3708ff00154141 ┆7 AAuser function. a) The CAMPS user function is made up of three subfunctions, Preparation, Reception, and Release. A VDU or user may have access rights to one or more of the subfunction services as specified by the Supervisor. In figure 2.1-1 overle┆
0x38800…38900 (56, 0, 8) Sector 3809ff00154141 ┆8 AA6.29 SEND REPORT .................. 611 4.2.5.6.30 RESERVE BUFFER ............... 614 4.2.5.6.31 UINT ERROR ................... 615 4.2.5.7 Subpackage Interfaces .............. 616 4.3 MEMORY LAYOUT .............................. 6┆
0x38900…38a00 (56, 0, 9) Sector 380a0900154141 ┆8 AA16 bpackage Interfaces .............. 436 4.2.4.7.1 RETR UMAM Interfaces ........... 436 4.2.4.7.2 RETR UFCO Interfaces ........... 436 4.2.5 User Message Access Monitoring Subpackage ............................. 436 4.2.5.┆
0x38a00…38b00 (56, 0, 10) Sector 380bff00154141 ┆8 AA 1 1 GENERAL 1.1 PURPOSE AND SCOPE a) The VDU User Package Specification for the CAMPS Project/4040 is written to fulfil the following objectives: 1) To provide a detailed de┆
0x38b00…38c00 (56, 0, 11) Sector 380cff00154141 ┆8 AAfinition of the VDU user package function and software architecture. 2) To provide user operational and development personnels with details of the ongoing analysis. 3) To define in details the interfaces with other packages and to describe the┆
0x38c00…38d00 (56, 0, 12) Sector 380dff00154141 ┆8 AAir facilities. b) The VDU user package specification defines the functions and software architecture of the package to a level sufficient for a programmer to start detailed design with a minimum of design effort of the architecture. The VDU use┆
0x38d00…38e00 (56, 0, 13) Sector 380eff00154141 ┆8 AAr package constitutes one of the building stores of the TEP package. All VDU user package internal data and interfaces are defined within this document in detail. For a detailed data description of data external to the VDU user package and interf┆
0x38e00…38f00 (56, 0, 14) Sector 380f6800154141 ┆8 h AAaces to other packages refer the data definition document and the relevant interface documents. 4.2.5.4.5 SUBQ THREE ACTION Module ....... 477 4.2.5.4.6 SUBQ FOUR ACTION Module ........ 482 4.2.5.4.7 SUBQ FIVE ACTION Module ........ ┆
0x38f00…39000 (56, 0, 15) Sector 3800ff00154141 ┆8 AA 1 1.2 APPLICABLE DOCUMENTS AND PROJECT REFERENCES 1.2.1 Applicable Documents CAMPS System Requirements CPS/210/SYS/0001 User Procedures and Associated Formats CPS/230/ICD/00┆
0x39000…39100 (57, 0, 0) Sector 3901ff00154141 ┆9 AA....... 509 4.2.5.4.13 GEN SVC STA Module ........... 516 4.2.5.4.14 DELETE REQUEST Module ........ 522 4.2.5.4.15 INCLUDE IN INTA Module ....... 528 4.2.5.4.16 SORT/STORE INTA Module ....... 532 4.2.5.4.17 INCLUDE IN PREP M┆
0x39100…39200 (57, 0, 1) Sector 3902ff00154141 ┆9 AAodule ....... 537 4.2.5.5 Common Subpackage Data ............. 541 4.2.5.6 Common Subpackage Procedures ....... 541 4.2.5.6.1 UMAM QEL DISMANTLE ............. 541 4.2.5.6.2 VDU PAGE LOOKUP ................ 545 4.2.5.6.3 SEND ┆
0x39200…39300 (57, 0, 2) Sector 3903ff00154141 ┆9 AAITEM ...................... 548 4.2.5.6.4 SEND RESPONSE .................. 551 4.2.5.6.5 CREATE/OPEN STATUS CIF ......... 553 4.2.5.6.6 CLOSE/SEND STATUS CIF .......... 556 4.2.5.6.7 Intentionally Left Blank ....... 559 4.2.┆
0x39300…39400 (57, 0, 3) Sector 3904ff00154141 ┆9 AA5.6.8 STORE PREP AREA ................ 560 4.2.5.6.9 INPUT COMPLETE INTA ............ 562 4.2.5.6.10 STORE INT AREA ............... 565 4.2.5.6.11 UQ ERROR ..................... 567 4.2.5.6.12 INPUT PREP AREA .............. 568 ┆
0x39400…39500 (57, 0, 4) Sector 3905ff00154141 ┆9 AA 4.2.5.6.13 LOOKUP STATUS CIF ............ 571 4.2.5.6.14 STORE SORTED DATA ............ 573 4.2.5.6.15 CONVERT STORE LTD ............ 575 4.2.5.6.16 INPUT FILE DIRECTORY ......... 577 4.2.5.6.17 INPUT PREP RECORDS ...........┆
0x39500…39600 (57, 0, 5) Sector 3906d700154141 ┆9 W AA 581 4.2.5.6.18 STORE FILE DIRECTORY ......... 584 4.2.5.6.19 CLOSE/SEND MIDNIGHT STATUS ... 586 4.2.5.6.20 SEND CIF TO MDCO ............. 588 4.2.5.6.21 LOOKUP STATUS REC ............ 591 7.1 UFCO-VDIA Interfaces .......... 410┆
0x39600…39700 (57, 0, 6) Sector 3907ff00154141 ┆9 AA 1 4.2.5.6.22 INPUT INT AREA ............... 595 4.2.5.6.23 INPUT EXPAND AREA ............ 598 4.2.5.6.24 S┆
0x39700…39800 (57, 0, 7) Sector 3808ff00154141 ┆8 AATORE EXPAND AREA ............ 600 4.2.5.6.25 THRESHOLD WARNING ............ 602 4.2.5.6.26 LOOKUP EMPTY PREP REC ........ 604 4.2.5.6.27 EXCLUDE FROM PREP ............ 607 4.2.5.6.28 UNLOCK PASSIVE CIFS .......... 609 4.2.5.┆
0x39800…39900 (57, 0, 8) Sector 3909ff00154141 ┆9 AAodule ............... 421 4.2.4.4.2 RETR QEL INVEST Module ......... 426 4.2.4.5 Common Subpackage Data ............. 433 4.2.4.6 Common Subpackage Procedures ....... 433 4.2.4.6.1 DISMANTLE RETR QEL ............. 433 4.2.4.7┆
0x39900…39a00 (57, 0, 9) Sector 390aff00154141 ┆9 AA Subpackage Interfaces .............. 436 4.2.4.7.1 RETR UMAM Interfaces ........... 436 4.2.4.7.2 RETR UFCO Interfaces ........... 436 4.2.5 User Message Access Monitoring Subpackage ............................. 436 4.2.5.┆
0x39a00…39b00 (57, 0, 10) Sector 390bff00154141 ┆9 AA1 Functional Specification ........... 436 4.2.5.1.1 Collect Status ................. 438 4.2.5.1.2 Generate Status ................ 438 4.2.5.1.2.1 User Requested Status ...... 438 4.2.5.1.2.2 Periodic Generated Status .. 438 ┆
0x39b00…39c00 (57, 0, 11) Sector 390cda00154141 ┆9 Z AA 4.2.5.1.3 Message Access Control ......... 439 4.2.5.2 Software Structure ................. 439 4.2.5.2.1 Command Queue Items ............ 442 4.2.5.2.2 Collect Queue Items ............ 442 .6.3 RESET CURSOR ON COMMAND LINE ..┆
0x39c00…39d00 (57, 0, 12) Sector 390dff00154141 ┆9 AA 1 4.2.5.3 Data Flow and Control Logic Within UMAM ............................... 443 4.2.5.3.1 Data ┆
0x39d00…39e00 (57, 0, 13) Sector 390eff00154141 ┆9 AAFlow ...................... 443 4.2.5.3.2 Control Logic .................. 443 4.2.5.4 Module Specification ............... 453 4.2.5.4.1 UMAM MAIN Module ............... 453 4.2.5.4.2 EXECUTE START FUNCTION Module .. 459 4.┆
0x39e00…39f00 (57, 0, 14) Sector 390fff00154141 ┆9 AA2.5.4.3 SUBQ ONE ACTION Module ......... 459 4.2.5.4.4 SUBQ TWO ACTION Module ......... 468 4.2.5.4.5 SUBQ THREE ACTION Module ....... 477 4.2.5.4.6 SUBQ FOUR ACTION Module ........ 482 4.2.5.4.7 SUBQ FIVE ACTION Module ........ ┆
0x39f00…3a000 (57, 0, 15) Sector 3900ff00154141 ┆9 AA485 4.2.5.4.8 PERIODIC STATUS Module ......... 489 4.2.5.4.9 GEN REL STA Module ............. 493 4.2.5.4.10 GEN DEL STA Module ........... 498 4.2.5.4.11 GEN OUT STA Module ........... 503 4.2.5.4.12 SORT RECORDS Module ...┆
0x3a000…3a100 (58, 0, 0) Sector 3a01ff00154141 ┆: AArol Logic within VDIA ....................... 336 4.2.3.3.1 Data Flow ...................... 336 4.2.3.3.2 Control Logic .................. 337 4.2.3.4 Module Specification ............... 342 4.2.3.4.1 VDU MAIN MOD┆
0x3a100…3a200 (58, 0, 1) Sector 3a02ff00154141 ┆: AAULE ................ 342 4.2.3.4.2 START VDU OUTPUT FORMAT ........ 353 4.2.3.4.3 START VDU OUTPUT MESSAGE ....... 358 4.2.3.4.4 START APPEND ................... 365 4.2.3.4.5 VDU DATA OUTPUT ................ 370 4.2.3.4┆
0x3a200…3a300 (58, 0, 2) Sector 3a03ff00154141 ┆: AA.6 BUILD MMON RECORD .............. 374 4.2.3.4.7 BUILD FIELD AND BUFFER LIST .... 377 4.2.3.4.8 START VDU INPUT ................ 380 4.2.3.4.9 VDU DATA INPUT ................. 383 4.2.3.4.10 VALIDATION ..................... ┆
0x3a300…3a400 (58, 0, 3) Sector 3a049c00154141 ┆: AA388 4.2.3.4.11 DISPLAY ERROR CODE TABLE ....... 391 4.2.3.4.12 SEMANTIC VALIDATION OF FORMAT A AND FORMAT C ................ 396 O Interfaces ............ 189 4.2.2 User Function Control Subpackage ....... 190 4.2.2.1 ┆
0x3a400…3a500 (58, 0, 4) Sector 3a05ff00154141 ┆: AA 1 4.2.3.4.13 SEMANTIC VALIDATION OF FORMAT G 397 4.2.3.4.14 SEMANTIC VALIDATION OF FORMAT H 398 4.2.3.5 C┆
0x3a500…3a600 (58, 0, 5) Sector 3a06ff00154141 ┆: AAommon Subpackage Data ............ 399 4.2.3.6 Common Subpackage Procedures ...... 407 4.2.3.6.1 MESSAGE HANDLING INSTRUCTION .. 407 4.2.3.7 Subpackage Interfaces ............. 410 4.2.3.7.1 UFCO-VDIA Interfaces .......... 410┆
0x3a600…3a700 (58, 0, 6) Sector 3a07ff00154141 ┆: AA 4.2.3.7.2 VDIA-UFCO Interface ........... 410 4.2.4 Retrieve Subpackage .................... 411 4.2.4.1 Functional Specification ........... 411 4.2.4.2 Software Structure ................. 413 4.2.4.3 Data Flow and Control L┆
0x3a700…3a800 (58, 0, 7) Sector 3908ff00154141 ┆9 AAogic Within RETR ............................... 415 4.2.4.3.1 Data Flow ...................... 415 4.2.4.3.2 Control Logic .................. 415 4.2.4.4 Module Specification ............... 421 4.2.4.4.1 RETR MAIN M┆
0x3a800…3a900 (58, 0, 8) Sector 3a09ff00154141 ┆: AA2.2.4.4 VUS F/C KEY PROCESSING ......... 260 4.2.2.4.5 VCO CMO PROCESSING ............. 269 4.2.2.4.6 VDIA CC PROCESSING ............. 272 4.2.2.4.7 RETR OP PROCESSING ............. 276 4.2.2.4.8 VUS IN/OUT LINE ............┆
0x3a900…3aa00 (58, 0, 9) Sector 3a0a4400154141 ┆: D AA.... 279 4.2.2.4.9 VUS CMD PENDING ................ 282 ble Management Package I/F .. 128 4.1.7.3 Sub-Package Interfaces ............ 128 4.1.7.3.1 Process Interfaces ............ 128 4.1.7.3.2 Coroutine Interfaces .......┆
0x3aa00…3ab00 (58, 0, 10) Sector 3a0bff00154141 ┆: AA 1 4.2.2.4.10 VUS DISPLAY RESP MSG ........... 290 4.2.2.4.11 VUS SEQUENCE ................... 294 4.2.2.5 ┆
0x3ab00…3ac00 (58, 0, 11) Sector 3a0cff00154141 ┆: AA Common Subpackage Data ............. 307 4.2.2.6 Common Subpackage Procedures ....... 308 4.2.2.6.1 VDU INIT ....................... 308 4.2.2.6.2 RESET CURSOR ................... 311 4.2.2.6.3 RESET CURSOR ON COMMAND LINE ..┆
0x3ac00…3ad00 (58, 0, 12) Sector 3a0dff00154141 ┆: AA. 314 4.2.2.6.4 DISPLAY ERROR MESSAGE .......... 316 4.2.2.7 Subpackage Interfaces .............. 319 4.2.2.7.1 UFCO-VDIA Interfaces ........... 319 4.2.2.7.2 VCO-UFCO Interfaces ............ 319 4.2.2.7.3 RETR-UFCO Int┆
0x3ad00…3ae00 (58, 0, 13) Sector 3a0eff00154141 ┆: AAerfaces ........... 319 4.2.2.7.4 VDIA-UFCO Interfaces ........... 320 4.2.2.7.5 UFCO-VCO Interfaces ............ 320 4.2.2.7.6 UFCO-UMAM Interfaces ........... 320 4.2.2.7.7 UMAM-UFCO Interfaces ........... 320 4.2.3 Di┆
0x3ae00…3af00 (58, 0, 14) Sector 3a0fff00154141 ┆: AAalogue Subpackage .................... 321 4.2.3.1 Functional Specification ........... 321 4.2.3.1.1 Output of Data ................. 330 4.2.3.1.2 Input of Data .................. 330 4.2.3.1.3 Validate Data ................┆
0x3af00…3b000 (58, 0, 15) Sector 3a00ff00154141 ┆: AA.. 331 4.2.3.1.3.1 Syntax Validation .......... 331 4.2.3.1.3.2 Semantic Validation ........ 332 4.2.3.1.3.3 Display of Error Codes ..... 332 4.2.3.2 Software Structure ................. 332 4.2.3.3 Data Flow and Cont┆
0x3b000…3b100 (59, 0, 0) Sector 3b01ff00154141 ┆; AA 1 4.2.1.6.3 QUEUE FIELDS UPDATE ............ 171 4.2.1.6.4 DISPLAY VDU HEADER ............. 174 4.2.1.6.┆
0x3b100…3b200 (59, 0, 1) Sector 3b02ff00154141 ┆; AA5 SEARCH FLASH QUEUES ............ 175 4.2.1.6.6 GET FQT ........................ 176 4.2.1.6.7 REQUEST TIME OUT ............... 178 4.2.1.6.8 CANCEL TIMEOUT ................. 179 4.2.1.6.9 GET DATE TIME .................. 1┆
0x3b200…3b300 (59, 0, 2) Sector 3b03ff00154141 ┆; AA80 4.2.1.6.10 DISM QEL ....................... 182 4.2.1.6.11 INVERT AND BELL ................ 183 4.2.1.6.12 REMOVE FLASH ITEM .............. 185 4.2.1.6.13 GET QUEUE LENGTH ............... 186 4.2.1.6.14 EXTRACT NO OF COOR┆
0x3b300…3b400 (59, 0, 3) Sector 3b04ff00154141 ┆; AA MSG ......... 187 4.2.1.7 Subpackage Interfaces .............. 189 4.2.1.7.1 VCO-UFCO Interfaces ............ 189 4.2.1.7.2 UFCO-VCO Interfaces ............ 189 4.2.2 User Function Control Subpackage ....... 190 4.2.2.1 ┆
0x3b400…3b500 (59, 0, 4) Sector 3b05ff00154141 ┆; AAFunctional Specification ........... 190 4.2.2.1.1 System Control ................. 196 4.2.2.1.2 Transaction Accounting ......... 197 4.2.2.1.3 Transaction Creation ........... 197 4.2.2.1.4 Format Sequence Function ....... ┆
0x3b500…3b600 (59, 0, 5) Sector 3b06ff00154141 ┆; AA198 4.2.2.1.4.1 Start Execution ............ 199 4.2.2.1.4.2 Stop Execution ............. 200 4.2.2.1.4.3 Queue Request .............. 201 4.2.2.1.4.4 Request to CAMPS System .... 201 4.2.2.1.5 Error Handling .....┆
0x3b600…3b700 (59, 0, 6) Sector 3b07ff00154141 ┆; AA............ 203 4.2.2.2 Software Structure ................. 203 4.2.2.3 Data Flow and Control Logic Within UFCO ............................... 206 4.2.2.3.1 Data Flow ...................... 206 4.2.2.3.2 Control L┆
0x3b700…3b800 (59, 0, 7) Sector 3a08ff00154141 ┆: AAogic .................. 206 4.2.2.4 Module Specification ............... 234 4.2.2.4.1 UFCO MAIN ...................... 234 4.2.2.4.2 RESTART UFCO ................... 242 4.2.2.4.3 VUS ANSWER QUEUE PROCESSING .... 248 4.┆
0x3b800…3b900 (59, 0, 8) Sector 3b09ff00154141 ┆; AA.2 Distribution (MDP) I/F ........ 127 4.1.7.2.3 Storage and Retrieval (SAR) I/F 127 4.1.7.2.4 LOG and Accountability (LOG) I/F ........................... 127 4.1.7.2.5 Statistics (STP) I/F .......... 128 4.1.┆
0x3b900…3ba00 (59, 0, 9) Sector 3b0aff00154141 ┆; AA7.2.6 SSC Software I/F .............. 128 4.1.7.2.7 Table Management Package I/F .. 128 4.1.7.3 Sub-Package Interfaces ............ 128 4.1.7.3.1 Process Interfaces ............ 128 4.1.7.3.2 Coroutine Interfaces .......┆
0x3ba00…3bb00 (59, 0, 10) Sector 3b0bff00154141 ┆; AA... 129 4.2 SUBPACKAGE SPECIFICATIONS ................. 131 4.2.1 VDU Control Subpackage ................ 131 4.2.1.1 Functional Specification .......... 131 4.2.1.1.1 Initialization ................ 133 4.2.1.1.2 TEMC┆
0x3bb00…3bc00 (59, 0, 11) Sector 3b0cff00154141 ┆; AAO Command Processing ...... 133 4.2.1.1.3 Flash Item Control ............ 134 4.2.1.1.4 Timer Event Processing ........ 134 4.2.1.1.5 VDU Header Control ............ 134 4.2.1.1.6 UFCO Control .................. 134 ┆
0x3bc00…3bd00 (59, 0, 12) Sector 3b0dff00154141 ┆; AA 4.2.1.1.7 Error Reporting ............... 135 4.2.1.2 Software Structure ................ 135 4.2.1.2.1 VCO Control ................... 135 4.2.1.2.2 TEMCO Command Processing ...... 136 4.2.1.2.3 Flash Queue Monitoring┆
0x3bd00…3be00 (59, 0, 13) Sector 3b0eff00154141 ┆; AA ........ 137 4.2.1.2.4 Timer Event Processing ........ 138 4.2.1.2.5 Common Procedures ............. 138 4.2.1.3 Dataflow and Control Logic within VCO ....................... 140 4.2.1.4 VCO Module Specification┆
0x3be00…3bf00 (59, 0, 14) Sector 3b0fff00154141 ┆; AA .......... 146 4.2.1.4.1 VCO CONTROL Specification ..... 146 4.2.1.4.2 TEMCO CMD. PROCESSING .......... 155 4.2.1.4.3 FLASH QUEUE MONITORING ......... 159 4.2.1.4.4 TIMER EVENT PROCESSING ........ 164 4.2.1.5 Commo┆
0x3bf00…3c000 (59, 0, 15) Sector 3b00ca00154141 ┆; J AAn Subpackage Data ............. 167 4.2.1.6 Common Subpackage Procedures ....... 167 4.2.1.6.1 SIGNAL UFCO .................... 167 4.2.1.6.2 SET PRECEDENCE FIELDS .......... 170 1.4.2 Message/Comment Status Maintenance ┆
0x3c000…3c100 (60, 0, 0) Sector 3c01ff00154141 ┆< AA................... 83 4.1.2 Software Specification ................ 87 4.1.2.1 VUS Process ....................... 87 4.1.2.1.1 VUS Coroutines ................ 90 4.1.2.1.1.1 VDU Control Coroutine ..... 90 4.1┆
0x3c100…3c200 (60, 0, 1) Sector 3c02ff00154141 ┆< AA.2.1.1.2 User Function Control Coroutine ................. 90 4.1.2.1.1.3 VDU Dialogue Coroutine .... 91 4.1.2.1.1.4 Retrieve Coroutine ........ 91 4.1.2.2 UMAM Process ...................... 92 4.1.2.3┆
0x3c200…3c300 (60, 0, 2) Sector 3c03ff00154141 ┆< AA Software Structure ................ 92 4.1.2.3.1 VCO Coroutine Software Structure ..................... 94 4.1.2.3.2 UFCO Coroutine Software Structure ..................... 100 4.1.2.3.3 VDIA Coroutine ┆
0x3c300…3c400 (60, 0, 3) Sector 3c04ff00154141 ┆< AASoftware Structure ..................... 104 4.1.2.3.4 RETR Coroutine Software Structure ..................... 106 4.1.2.3.5 UMAM Software Structure ....... 108 4.1.3 Data Flow and Control Logic ........... ┆
0x3c400…3c500 (60, 0, 4) Sector 3c05ff00154141 ┆< AA 110 4.1.3.1 Process Data Flow and Process Synchronization ................... 110 4.1.3.2 VUS Internal Data Flow and Coroutine Synchronization ......... 112 4.1.3.3 UMAM Internal Data Flow ........... 116 4.┆
0x3c500…3c600 (60, 0, 5) Sector 3c06ff00154141 ┆< AA1.4 Common Package Data ................... 118 4.1.5 Common Package Procedures ............. 124 4.1.5.1 VUS QUEUE ERROR ................... 124 4.1.5.2 VUS INTERNAL ERROR ................ 125 4.1.6 Global Data .............┆
0x3c600…3c700 (60, 0, 6) Sector 3c078700154141 ┆< AA.............. 126 4.1.7 Interfaces ............................ 126 4.1.7.1 External Interfaces ............... 127 3.1 EQUIPMENT ................................. 43 3.2 SOFTWARE .................................. 43 3.2.1┆
0x3c700…3c800 (60, 0, 7) Sector 3b08ff00154141 ┆; AA 1 4.1.7.2 Package Interfaces ................ 127 4.1.7.2.1 Traffic Handling (THP) I/F .... 127 4.1.7.2┆
0x3c800…3c900 (60, 0, 8) Sector 3c09ff00154141 ┆< AA.............. 44 3.3.2.1 Traffic Handling (THP) I/F ........ 44 3.3.2.2 Distribution (MDP) I/F ............ 44 3.3.2.3 Storage and Retrieval (SAR) I/F ... 44 3.3.2.4 Log and Accountability (LOG) I/F .. 45 3.3.2.5 ┆
0x3c900…3ca00 (60, 0, 9) Sector 3c0aff00154141 ┆< AAStatistics (STP) I/F .............. 45 3.3.2.6 SSC Software I/F .................. 45 3.3.2.7 Table Management Package (TMP) I/F 45 3.4 FUNCTIONS MAINTAINED BY OTHER PACKAGES .... 46 4 PACKAGE DESIGN .......................┆
0x3ca00…3cb00 (60, 0, 10) Sector 3c0bff00154141 ┆< AA......... 47 4.1 PACKAGE OVERVIEW .......................... 47 4.1.1 Functional Specification .............. 49 4.1.1.1 TEMCO Control Functions ........... 51 4.1.1.2 Queue Status Maintenance .......... 53 4.1.1.3 U┆
0x3cb00…3cc00 (60, 0, 11) Sector 3c0cff00154141 ┆< AAser Transaction Control .......... 56 4.1.1.3.1 Transaction Accounting ........ 56 4.1.1.3.2 Transaction Interruption ...... 61 4.1.1.3.3 Command Interpretation ........ 63 4.1.1.3.4 Command Execution ............. ┆
0x3cc00…3cd00 (60, 0, 12) Sector 3c0dff00154141 ┆< AA65 4.1.1.3.5 Start/Stop Transaction Execution ..................... 67 4.1.1.3.6 Preparation of Messages/ Comments ...................... 69 4.1.1.3.7 Presentation of Queued Infor- mation ......┆
0x3cd00…3ce00 (60, 0, 13) Sector 3c0e1e00154141 ┆< AA.................. 71 Reference Documents ................... 13 1.3 TERMS AND ABBREVIATIONS ................... 14 1.3.1 Terms ................................. 14 1.3.2 Abbreviations ......................... 14 2 SUMMAR┆
0x3ce00…3cf00 (60, 0, 14) Sector 3c0fff00154141 ┆< AA 1 4.1.1.3.8 Requests to CAMPS System ...... 73 4.1.1.3.9 Dialogue Formatting ........... 75 4.1.1.3.┆
0x3cf00…3d000 (60, 0, 15) Sector 3c00ff00154141 ┆< AA10 Format Validation ............. 77 4.1.1.4 User Message Access Monitoring .... 79 4.1.1.4.1 Preparation Database Access Control ....................... 80 4.1.1.4.2 Message/Comment Status Maintenance ┆
0x3d000…3d100 (61, 0, 0) Sector 3d01ff00154141 ┆= AAnse Queue ............ 26 2.2.1.3.3 The Release Queue ............. 26 2.2.1.4 Message/Comment Preparation ....... 27 2.2.1.5 Treatment of User Request ......... 31 2.2.1.6 Maintenance of Message Status Files 31 ┆
0x3d100…3d200 (61, 0, 1) Sector 3d02ff00154141 ┆= AA2.2.1.6.1 Outgoing Message Status ....... 31 2.2.1.6.2 Delivery Status ............... 31 2.2.1.6.3 Release Status ................ 33 2.2.2 Functional Responsibilities ........... 33 2.2.2.1 Initialization, Close Down┆
0x3d200…3d300 (61, 0, 2) Sector 3d03ff00154141 ┆= AA and Restart ........................... 33 2.2.2.1.1 Initialization ................ 33 2.2.2.1.2 Close Down .................... 33 2.2.2.1.3 Restart ....................... 34 2.2.2.2 Checkpointing and Rec┆
0x3d300…3d400 (61, 0, 3) Sector 3d04f100154141 ┆= q AAovery ........ 34 2.2.2.3 Error Detecting and Error Handling 34 2.2.2.4 Integrity of Operation ............ 35 2.2.2.5 Data Collection ................... 35 2.2.2.5.1 Log Collection ................ 35 lket? ┆
0x3d400…3d500 (61, 0, 4) Sector 3d05ff00154141 ┆= AA 1 2.2.2.5.2 Statistics Information ........ 35 2.2.2.5.3 Reports ....................... 35 2.2.2.6 ┆
0x3d500…3d600 (61, 0, 5) Sector 3d06ff00154141 ┆= AA Security .......................... 38 2.3 CHARACTERISTICS ........................... 40 2.3.1 Timing ................................ 40 2.3.2 Throughput ............................ 41 2.3.3 Flexibility ..................┆
0x3d600…3d700 (61, 0, 6) Sector 3d07ff00154141 ┆= AA......... 42 2.3.4 Accuracy .............................. 42 3 ENVIRONMENT ................................... 43 3.1 EQUIPMENT ................................. 43 3.2 SOFTWARE .................................. 43 3.2.1┆
0x3d700…3d800 (61, 0, 7) Sector 3c08ff00154141 ┆< AA System Software ....................... 43 3.2.2 Development Support Software .......... 43 3.3 INTERFACES ................................ 43 3.3.1 External Interfaces ................... 43 3.3.2 Package Interfaces ......┆
0x3d800…3d900 (61, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(61,0, 9), len=0xff, h3=41154141}, f00=»1541A «, f01=»CPS/SDS/039 «, f02=»pn «, f03=»JBS «, f04=»Fra kap. 1. «, f05=22-12-81 10:35, f06=» 5 «, f07=»49 «, f08=» 10993 «, f09=07-01-82 09:19, f10=» «, f11=»52 «, f12=» 1012 «, f13=07-01-82 11:47, f14=07-01-82 15:26, f15=»0110A «, f16=» 82 «, f17=» 8 «, f18=»02 «, f19=» 1080 «, f20=» 16549 «, f21=» «, f22=» P «, f99=350010000110066610110480aaca15050000000000000137034b01df}
0x3d900…3da00 (61, 0, 9) Sector 3d0a5200154141 ┆= R AAJ = = = < < ; : : 9 9 8 8 8 8 7 7 7 7 7 6 6 6 6 5 5 5 5 5 4 4 4 3 3 3 3 2 2 2 1 1 1 0 0 0 0 / / / . . . - - - - - , , , , , , , , + + + + + + + + + + * * * * * * ) ) ) DATO TID ANV.TID ANSLAG Oprettet ┆
0x3da00…3db00 (61, 0, 10) Sector 3d0b9c00154141 ┆= AA 1 CPS/SDS/039 820104 USER VDU DETAILED DESIGN SPECIFICATION CAMPS !/=6WC*-!/=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x3db00…3dc00 (61, 0, 11) Sector 3d0cff00154141 ┆= AA 1 1 TABLE OF CONTENTS 1 ┆
0x3dc00…3dd00 (61, 0, 12) Sector 3d0dff00154141 ┆= AA 1 GENERAL ....................................... 12 1.1 PURPOSE AND SCOPE ......................... 12 1.2 APPLICABLE DOCUMENTS AND PROJECT REFERENCES 13 1.2.1 Applicable Documents ........┆
0x3dd00…3de00 (61, 0, 13) Sector 3d0eff00154141 ┆= AA.......... 13 1.2.2 Reference Documents ................... 13 1.3 TERMS AND ABBREVIATIONS ................... 14 1.3.1 Terms ................................. 14 1.3.2 Abbreviations ......................... 14 2 SUMMAR┆
0x3de00…3df00 (61, 0, 14) Sector 3d0fff00154141 ┆= AAY OF REQUIREMENTS ....................... 15 2.1 PACKAGE DESCRIPTION ....................... 15 2.2 PACKAGE FUNCTIONS ......................... 21 2.2.1 Main Functions ........................ 21 2.2.1.1 Queue Status Display ┆
0x3df00…3e000 (61, 0, 15) Sector 3d00ff00154141 ┆= AA.............. 22 2.2.1.2 Information Concerning the Trans- action in Progress ................ 25 2.2.1.3 Display of Queued Information ..... 25 2.2.1.3.1 The Receive Queue ............. 25 2.2.1.3.2 The Respo┆
0x3e000…3e100 (62, 0, 0) Sector 3e018700157041 ┆> pASEQUENCE, DO #page.displacement BEGIN DEFINE (1, THE QUICK BROWN FOX JUMPS OVER THE LAZY DOGS BACK 0123456789(:13:)(:10:) ) four drops. Step 2 - Repeat Step 1, with the test item resting on other faces until it has been dropped for a total of┆
0x3e100…3e200 (62, 0, 1) Sector 3e02ff00157041 ┆> pA 1 DEFINE (2,#520E #6D0E) "Clear VDU, BTTY mode" DEFINE (3,#440E #630E #0E0B #0063) "Home cursor in page 1, select BLOCK DEFINE, cursor one line down, deselect BLOCK DEFINE"┆
0x3e200…3e300 (62, 0, 2) Sector 3e03ff00157041 ┆> pA DEFINE (4,#630E #0E0B #0063) "Select BLOCK DEFINE, cursor one line down, deselect BLOCK DEFINE" DEFINE (5,#3B0E) "Transmit" GENERATE (1,1,31) GENERATE (2,2,2) GENERATE (3,3,4) GENERATE (4,4,3) GENERATE (5,5,1) LTU.INITIALIZE (#1007┆
0x3e300…3e400 (62, 0, 3) Sector 3e04ff00157041 ┆> pA,#400) LTU.OPEN SUBDEVICE (#1007,0,LTU,0) LTU.STATUS (#1007) LTU.WRITE (LTU,2,4) REPEAT 24 LTU.WRITE (LTU,1,62) CLEAR (6) LTU.WRITE (LTU,3,7) LTU.WRITE (LTU,5,2) LTU.READ (LTU,6,63) COMPARE (1,6,31) CLEAR (6) REPEAT 23 BEGIN ┆
0x3e400…3e500 (62, 0, 4) Sector 3e05be00157041 ┆> > pA LTU.WRITE (LTU,4,5) LTU.WRITE (LTU,5,2) LTU.READ (LTU,6,63) COMPARE (1,6,31) CLEAR (6) END LTU.STATUS (#1007) LTU.CLOSE SUBDEVICE(LTU) LTU.SHUTDOWN (#1007) END ated testsequence has finished, commandinputs are again taken fro┆
0x3e500…3e600 (62, 0, 5) Sector 3e06ff00157041 ┆> pA 1 3.2 LTU #2, CHANNEL 1 TESTSEQUENCE, DO #page.displacement BEGIN DEFINE (1, THE QUICK BROWN FOX JUMPS OVER THE LAZY DOGS BACK 0123456789(:13:)(:10:) ) DEFINE (2,#520E #6D0E) "┆
0x3e600…3e700 (62, 0, 6) Sector 3e07ff00157041 ┆> pAClear VDU, BTTY mode" DEFINE (3,#440E #630E #0E0B #0063) "Home cursor in page 1, select BLOCK DEFINE, cursor one line down, deselect BLOCK DEFINE" DEFINE (4,#630E #0E0B #0063) "Select BLOCK DEFINE, cursor one line down, deselect BLOCK DEF┆
0x3e700…3e800 (62, 0, 7) Sector 2808ff00157041 ┆( pAINE" DEFINE (5,#3B0E) "Transmit" GENERATE (1,1,31) GENERATE (2,2,2) GENERATE (3,3,4) GENERATE (4,4,3) GENERATE (5,5,1) LTU.INITIALIZE (#1008,#410) LTU.OPEN SUBDEVICE (#1008,0,LTU,0) LTU.STATUS (#1008) LTU.WRITE (LTU,2,4) REPEA┆
0x3e800…3e900 (62, 0, 8) Sector 3e09ff00157041 ┆> pA 1 DISK.MARK AND PROTECT (#1025,#540,SMD80,0,0,#1FFFF, #200FE) DISK.MARK AND PROTECT (#1026,#580,MMD82,0,0,#1FFFF, #200FE) DISK.INITIALIZE (#1023,#500) DISK.INCLUDE┆
0x3e900…3ea00 (62, 0, 9) Sector 3e0aff00157041 ┆> pA (#1023,MMD00,0,0,MMD82) DISK.INCLUDE (#1023,MMD01,0,1,MMD82) DISK.INCLUDE (#1025,SMD0,0,0,SMD80) DISK.INCLUDE (#1026,MMD10,0,0,MMD82) DISK.INCLUDE (#1026,MMD11,0,1,MMD82) DISK.WRITE (MMD00,1,#100,0) DISK.WRITE (MMD01,1,#500,0) DISK.WR┆
0x3ea00…3eb00 (62, 0, 10) Sector 3e0bff00157041 ┆> pAITE (SMD0,1,#100,0) DISK.WRITE (MMD10,1,#100,0) DISK.WRITE (MMD11,1,#500,0) CLEAR (1) DISK.READ (MMD00,1,#100,1) COMPARE (0,1,32) CLEAR (1) DISK.READ (MMD01,1,#500,1) COMPARE (0,1,32) CLEAR (1) DISK.READ (SMD0,1,#100,1) COMPARE┆
0x3eb00…3ec00 (62, 0, 11) Sector 3e0cff00157041 ┆> pA (0,1,32) CLEAR (1) DISK.READ (MMD10,1,#100,1) COMPARE (0,1,32) CLEAR (1) DISK.READ (MMD11,1,#500,1) COMPARE (0,1,32) CLEAR (1) DISK.EXCLUDE (MMD00) DISK.EXCLUDE (MMD01) DISK.EXCLUDE (SMD0) DISK.EXCLUDE (MMD10) DISK.EXCLUDE (┆
0x3ec00…3ed00 (62, 0, 12) Sector 3e0d5a00157041 ┆> Z pAMMD11) DISK.SHUTDOWN (#1023) DISK.SHUTDOWN (#1025) DISK.SHUTDOWN (#1026) END ing. The chassis and front panel assembly shall be removed from its enclosure, as for servicing, and placed in a suitable position for servicing on a horizontal soli┆
0x3ed00…3ee00 (62, 0, 13) Sector 3e0eff00157041 ┆> pA 1 2.2 FLOPPY DISK TESTSEQUENCE, DO #page.displacement BEGIN DEFINE (1, THE QUICK BROWN FOX JUMPS OVER THE LAZY DOGS BACK 0123456789 ) GENERATE (1,0,32) FD.BUF RAM TEST (#1001┆
0x3ee00…3ef00 (62, 0, 14) Sector 3e0fff00157041 ┆> pA) FD.WRITE VERIFY TEST (#1001,FD500,0) FD.WRITE VERIFY TEST (#1001,FD500,1) FD.INITIALIZE (#1001) FD.INCLUDE (#1001,FD0,0,FD500) FD.INCLUDE (#1001,FD1,1,FD500) FD.STATUS (FD0) FD.STATUS (FD1) FD.WRITE (FD0,1,#400,0) FD.WRITE (FD1,1┆
0x3ef00…3f000 (62, 0, 15) Sector 3e00ff00157041 ┆> pA,#400,0) CLEAR (1) FD.READ (FD0,1,#400,1) COMPARE (0,1,32) CLEAR (1) FD.READ (FD1,1,#400,1) COMPARE (0,1,32) CLEAR (1) FD.EXCLUDE (FD0) FD.EXCLUDE (FD1) FD.SHUTDOWN (#1001) END 3 LTU TESTSEQUENCES 3.1 LTU #1, CHANNEL 1 TEST┆
0x3f000…3f100 (63, 0, 0) Sector 3f01ff00157041 ┆? pAeely to the horizontal bench top. Repeat, using other practical edges of the same horizontal face as pivot points, for a total of four drops. Step 2 - Repeat Step 1, with the test item resting on other faces until it has been dropped for a total of┆
0x3f100…3f200 (63, 0, 1) Sector 3f02ff00157041 ┆? pA four times on each face on which the test could be placed practicably during servicing. The test item shall not be operating during the test. At the conclusion of the test, the test item shall be operated and the results compared with the data obta┆
0x3f200…3f300 (63, 0, 2) Sector 3f038b00157041 ┆? pAined in accordance with Section 3, paragraph 3.2.1. The test item shall then be inspected as specified in Section 3, paragraph 3.2.4. ID# 711 J 9 LSM #71 712 J 10 LSM #71 713 J 11 LSM #71 714 J 12 LSM #71 811 J 13 LS┆
0x3f300…3f400 (63, 0, 3) Sector 3f04ff00157041 ┆? pA 1 A P P E N D I X C ******************************** 1 GENERAL During the DSMT H/W test a number of inputcommands of the type: DO #page.displacement are used. Thi┆
0x3f400…3f500 (63, 0, 4) Sector 3f05ff00157041 ┆? pAs commandtype is used to activate a testsequence resident in main memory, i.e the actual testprogram now accepts testcommands from this testsequence and not from the OC. When the activated testsequence has finished, commandinputs are again taken fro┆
0x3f500…3f600 (63, 0, 5) Sector 3f06ff00157041 ┆? pAm the OC. Testsequences used in the testprocedures are explained in the following. The Device Handler commands used to implement the sequences are all explained in ref (6) of sec. 3.7 in the testspecification. 2 DISK TEST SEQUENCES 2.1 DISK TES┆
0x3f600…3f700 (63, 0, 6) Sector 3f07ff00157041 ┆? pATSEQUENCE, DO #page.displacement BEGIN DEFINE (1, THE QUICK BROWN FOX JUMPS OVER THE LAZY DOGS BACK 0123456789 ) GENERATE (1,0,32) DISK.DRIVE STATUS (#1023,#500,0,0) DISK.DRIVE STATUS (#1023,#500,0,1) DISK.DRIVE STATUS (#1025,#540,0,0) ┆
0x3f700…3f800 (63, 0, 7) Sector 3e089400157041 ┆> pA DISK.DRIVE STATUS (#1026,#580,0,0) DISK.DRIVE STATUS (#1026,#580,0,1) DISK.MARK AND PROTECT (#1023,#500,MMD82,0,0,#1FFFF, #200FE) ce with required performance. These data shall provide the criteria for checking satisfactory performance o┆
0x3f800…3f900 (63, 0, 8) Sector 3f09ff00157041 ┆? pAf the test item either during, or at the conclusion of the test, or both as required. Certification by signature and date block is required as specified in 3.4. 3.2.4 Visual inspection and failure criteria When specified herein, the test item s┆
0x3f900…3fa00 (63, 0, 9) Sector 3f0aff00157041 ┆? pAhall be visually inspected and a record made of any damage or deterioration resulting from the test. If a test chamber is used for the test, perform a visual inspection of the test item within the chamber at test conditions, when possible. Upon comp┆
0x3fa00…3fb00 (63, 0, 10) Sector 3f0bff00157041 ┆? pAletion of the test, visually inspect the test item again after the test item has been returned to standard ambient conditions. Deterioration, corrosion or change in tolerance limits of any internal or external parts which could in any manner preven┆
0x3fb00…3fc00 (63, 0, 11) Sector 3f0cff00157041 ┆? pAt the test item from meeting operational service or maintenance requirements shall provide reason to consider the test item as having failed to withstand the conditions of the test. 3.7 Procedure V. Bench handling test This test is conducted to┆
0x3fc00…3fd00 (63, 0, 12) Sector 3f0dff00157041 ┆? pA determine the ability of equipment to withstand the shock encountered during servicing. The chassis and front panel assembly shall be removed from its enclosure, as for servicing, and placed in a suitable position for servicing on a horizontal soli┆
0x3fd00…3fe00 (63, 0, 13) Sector 3f0ea000157041 ┆? pAd wooden bench top at least 1-5/8 inches thick. The test shall be performed, as follows, in a manner simulating shocks liable to occur during servicing: EAR CRATE onfiguration applicable for the DSMT H/W test. 7.1 RACKS The PROCESSOR RACK ASSY ┆
0x3fe00…3ff00 (63, 0, 14) Sector 3f0fff00157041 ┆? pA 1 Step 1 - Using one edge as a pivot, lift the opposite edge of the chassis until one of the following conditions occurs (whichever occurs first): (a) The chassis forms an angle of┆
0x3ff00…40000 (63, 0, 15) Sector 3f00ff00157041 ┆? pA 45 degrees with the horizontal bench top. (b) The lifted edge of the chassis has been raised 4 inches above the horizontal bench top. (c) The lifted edge of the chassis is just below the point of perfect balance. Let the chassis drop back fr┆
0x40000…40100 (64, 0, 0) Sector 4001ff00157041 ┆@ pA#51 OPTO 514 N/A MSP #51 OPTO 521 N/A VDU #52 OPTO 522 N/A VDU #52 OPTO 523 N/A VDU #52 OPTO 524 N/A MSP #52 OPTO 611 J 5 LSM #61 612 J 6 LSM #61 613 J 7 LSM #61 614 J 8 LSM #61 FIGURE 7.4-2 (sheet 2 o┆
0x40100…40200 (64, 0, 1) Sector 40024400157041 ┆@ D pAf 3) Link Identifier / Filter Box Connector Cross-Reference ical Character Reader, if the OCR is unavailable. The different terminals are connected to the DSMT system as specified in section 7.4. 7.3 External Circuits SCARSII and ACCIS will ┆
0x40200…40300 (64, 0, 2) Sector 4003ff00157041 ┆@ pA W Identifier Filter Box Connector Function DEVICE NOTES ID# 711 J 9 LSM #71 712 J 10 LSM #71 713 J 11 LSM #71 714 J 12 LSM #71 811 J 13 LS┆
0x40300…40400 (64, 0, 3) Sector 4004ff00157041 ┆@ pAM #81 812 J 14 LSM #81 813 J 15 LSM #81 814 J 16 LSM #81 911 J 17 LSM #91 912 J 18 LSM #91 913 J 19 LSM #91 914 J 20 LSM #91 921 J 21 LSM #92 922 J 22 LSM #92 923 J 23 LSM #92 924 J 24 LSM #92 ┆
0x40400…40500 (64, 0, 4) Sector 4005c000157041 ┆@ @ pAA11 J 25 PTR/PTP #A1 A12 NOT USED A13 NOT USED A14 NOT USED A21 J32 OCR #A2 FIGURE 7.4-2 Link Identifier / Filter Box Connector Cross-Reference hat the MSP is connected via link A23 to channel 3 of LTUX-S no┆
0x40500…40600 (64, 0, 5) Sector 4006bd00157041 ┆@ = pA W A P P E N D I X B ******************************** NGTS 40 Method 516 Procedure V Bench Handling nnected to LTU/LIA-N NO. 3 channel 2 and the associated V24 link i┆
0x40600…40700 (64, 0, 6) Sector 4007ff00157041 ┆@ pA 1 In the following are given the NGTS 40 sections and paragraphs relevant for Bench handling test. 3.2.1 Pretest performance record. Prior to proceeding with any of the test meth┆
0x40700…40800 (64, 0, 7) Sector 3f08ff00157041 ┆? pAods, the test item shall be operated under standard ambient conditions (see 3.1) and a record made of all data necessary to determine compliance with required performance. These data shall provide the criteria for checking satisfactory performance o┆
0x40800…40900 (64, 0, 8) Sector 4009ff00157041 ┆@ pA 1 V24 links enters/leaves the DSMT system via Filtered CANNON D-connectors in the V24 Filter Box (ref. fig. 7.4-1) situated in rack F. These connectors are numbered consecutively fro┆
0x40900…40a00 (64, 0, 9) Sector 400a7700157041 ┆@ w pAm J1 to J53. In figure 7.4-2 is given a cross-reference between filter box connectors and V24 link identifiers. FIGURE 7.1-8 CU REAR CRATE ns Switch 1 Power Distribution Panel 1 Blank Panel 1U 2 Blank Panel 2U 1 Blank Panel 3U 3 ┆
0x40a00…40b00 (64, 0, 10) Sector 400bff00157041 ┆@ pA W Identifier Filter box Connector Function DEVICE NOTES ID# 011 J 26 TARE 012 J 27 TARE 021 J 28 TARE 022 J 29 TARE 031 J 30 ACCIS 041 J 31 SCARS ┆
0x40b00…40c00 (64, 0, 11) Sector 400cff00157041 ┆@ pAII 111 N/A VDU #11 OPTO 112 N/A VDU #11 OPTO 113 N/A VDU #11 OPTO 114 N/A MSP #11 OPTO 121 N/A VDU #12 OPTO 122 N/A VDU #12 OPTO 123 N/A VDU #12 OPTO 124 N/A MSP #12 OPTO 211 N/A VDU #21 OPTO 212 N/A┆
0x40c00…40d00 (64, 0, 12) Sector 400dff00157041 ┆@ pA VDU #21 OPTO 213 N/A VDU #21 OPTO 214 N/A MSP #21 OPTO 221 N/A VDU #22 OPTO 222 N/A VDU #22 OPTO 223 N/A VDU #22 OPTO 224 N/A MSP #22 OPTO FIGURE 7.4-2 (sheet 1 of 3) Link identifier / Filter Box socket cross-re┆
0x40d00…40e00 (64, 0, 13) Sector 400e0e00157041 ┆@ pAference FIGURE 7.1-12 TU#3/#6/#7/#8 FRONT/REAR CRATE onfiguration applicable for the DSMT H/W test. 7.1 RACKS The PROCESSOR RACK ASSY ┆
0x40e00…40f00 (64, 0, 14) Sector 400fff00157041 ┆@ pA W Identifier Filter Box Connector Function DEVICE NOTES ID# 311 J 1 LSM #31 312 J 2 LSM #31 313 J 3 LSM #31 314 J 4 LSM #31 411 N/A VDU #41 OPTO 4┆
0x40f00…41000 (64, 0, 15) Sector 4000ff00157041 ┆@ pA12 N/A VDU #41 OPTO 413 N/A VDU #41 OPTO 414 N/A MSP #41 OPTO 421 N/A VDU #42 OPTO 422 N/A VDU #42 OPTO 423 N/A VDU #42 OPTO 424 N/A MSP #42 OPTO 511 N/A VDU #51 OPTO 512 N/A VDU #51 OPTO 513 N/A VDU ┆
0x41000…41100 (65, 0, 0) Sector 4101ff00157041 ┆A pA 1 7.2 Terminals A number of terminals is connected to the DSMT system. These terminals comprises: 24 Visual Display Units (VDUs) 8 Medium Speed Printers (MSPs) 1 Paper Tape┆
0x41100…41200 (65, 0, 1) Sector 4102ff00157041 ┆A pA Reader/Puncher (PTR/PTP) 1 VDU as a substitute for the Optical Character Reader, if the OCR is unavailable. The different terminals are connected to the DSMT system as specified in section 7.4. 7.3 External Circuits SCARSII and ACCIS will ┆
0x41200…41300 (65, 0, 2) Sector 4103ff00157041 ┆A pAbe simulated by a VDU. Each TARE circuit will be simulated by one of the two types of test equipment as described in sec. 3.7.1b.2 of the testspecification. 7.4 Connection of Terminals and External Circuits To ease identification of terminals┆
0x41300…41400 (65, 0, 3) Sector 4104ff00157041 ┆A pA connected to the TDX system via signal adapters and LTUX-Ss, each terminal and the link between the terminal and the signal adapter is given a three digit identifier. Each digit is a hexadecimal number. The format of the identifier is 'XYZ' and the┆
0x41400…41500 (65, 0, 4) Sector 4105ff00157041 ┆A pA terminal having this identification is connected via link (opto or V24) XYZ to channel Z (1-4) of LTUX-S Y (1-2) in TDX Unit (TU) # X (1-A). E.g.: a MSP has the identifier A23 meaning that the MSP is connected via link A23 to channel 3 of LTUX-S no┆
0x41500…41600 (65, 0, 5) Sector 4106ff00157041 ┆A pA. 2 in TDX Unit 10 (10 = #A). An external circuit is identified similar to terminals with the crate identifier being zero (identifying the Channel Unit). Thus an external circuit connected to LTU/LIA-N NO. 3 channel 2 and the associated V24 link i┆
0x41600…41700 (65, 0, 6) Sector 41071c00157041 ┆A pAs identified as 032. FIGURE 7.1-5 PU#1/#2 FRONT CRATE ng Slide for Fan Right 1 Cable Tie Assy. 1 Power Cable for Frequency Stabilizer 3m 2 Opto┆
0x41700…41800 (65, 0, 7) Sector 4008a900157041 ┆@ ) pA 1 Figure 7.4-1 V24 Filter Box, Plug locations k Panel 3U 3 Blank Panel 2U 1 Power Cable 1m 2 Power Cable 2.5m 2 Power Ca┆
0x41800…41900 (65, 0, 8) Sector 41099900157041 ┆A pA 1 FIGURE 7.1-7 CU FRONT CRATE .M.R. 1 Ground Wire Between P.M.R.s 3 Supporting Slide Right 3 Supporting Slide Left 3 ┆
0x41900…41a00 (65, 0, 9) Sector 410a9800157041 ┆A pA 1 FIGURE 7.1-8 CU REAR CRATE ns Switch 1 Power Distribution Panel 1 Blank Panel 1U 2 Blank Panel 2U 1 Blank Panel 3U 3 ┆
0x41a00…41b00 (65, 0, 10) Sector 410b9f00157041 ┆A pA 1 FIGURE 7.1-9 WDP FRONT/REAR CRATE 260 TC 25 MSP Tracor 8000 9 PTP/PTR 1 OCR 1 Channel 1 V24/V28 (L/L) Adapt┆
0x41b00…41c00 (65, 0, 11) Sector 410ca400157041 ┆A $ pA 1 FIGURE 7.1-10 ADAPTER CRATE FRONT/REAR l Cable to OCR 1 X-Net Bus Cable Between Rack D and C 4 V24 Cable Between Rack C and ┆
0x41c00…41d00 (65, 0, 12) Sector 410daa00157041 ┆A * pA 1 FIGURE 7.1-11 TU#1/#2/#4/#5 FRONT/REAR CRATE Rear 3 Mains Switch 1 X-Net Terminal Outlet 4 Power Distribution Panel 1┆
0x41d00…41e00 (65, 0, 13) Sector 410eaa00157041 ┆A * pA 1 FIGURE 7.1-12 TU#3/#6/#7/#8 FRONT/REAR CRATE onfiguration applicable for the DSMT H/W test. 7.1 RACKS The PROCESSOR RACK ASSY ┆
0x41e00…41f00 (65, 0, 14) Sector 410fa100157041 ┆A ! pA 1 FIGURE 7.1-13 TU#9 FRONT/REAR CRATE TE TARE RACK ASSY is shown in figure 7.1-4. Crate/Panel layouts are shown in figures identi┆
0x41f00…42000 (65, 0, 15) Sector 4100a200157041 ┆A " pA 1 FIGURE 7.1-14 TU#10 FRONT/REAR CRATE WDP front/rear crate : figure 7.1-9 Adapter crate front/rear crate : figure 7.1-10 TU ┆
0x42000…42100 (66, 0, 0) Sector 4201ff00157041 ┆B pA# 1 front/rear crate : figure 7.1-11 TU # 2 front/rear crate : figure 7.1-11 TU # 3 front/rear crate : figure 7.1-12 TU # 4 front/rear crate : figure 7.1-11 TU # 5 front/rear crate : figure 7.1-11 TU # 6 front/rear crate : figure 7.1┆
0x42100…42200 (66, 0, 1) Sector 4202bb00157041 ┆B ; pA-12 TU # 7 front/rear crate : figure 7.1-12 TU # 8 front/rear crate : figure 7.1-12 TU # 9 front/rear crate : figure 7.1-13 TU # 10 front/rear crate : figure 7.1-14 V24 Cable 3.6 m P/N05420-04 4 V24 Cable 3.3m P/N 5.05420-03 4 ┆
0x42200…42300 (66, 0, 2) Sector 4203a200157041 ┆B " pA 1 FIGURE 7.1-1 PROCESSOR RACK ASSEMBLY T/R 8 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel ┆
0x42300…42400 (66, 0, 3) Sector 4204a900157041 ┆B ) pA 1 FIGURE 7.1-2 LINE TERMINATION RACK ASSEMBLY X-Net Outlet P/N 5.05416-00 8 80S Power Cable 0.5m P/N 5.05409-00 4 80S Power Ca┆
0x42400…42500 (66, 0, 4) Sector 4205ad00157041 ┆B - pA 1 FIGURE 7.1-3 FREQUENCY STABILIZER RACK ASSEMBLY 00 12 80S Power Cable 0.5m P/N 5.05409-00 4 80S Power Cable 1m P/N 5.05409-01┆
0x42500…42600 (66, 0, 5) Sector 4206a400157041 ┆B $ pA 1 FIGURE 7.1-4 REMOTE TARE RACK ASSEMBLY Cable 270cm P/N 5.05421-01 2 80S Power Cable 0.5m P/N 5.05409-00 2 80S Power Cable 1m┆
0x42600…42700 (66, 0, 6) Sector 42079e00157041 ┆B pA 1 FIGURE 7.1-5 PU#1/#2 FRONT CRATE ng Slide for Fan Right 1 Cable Tie Assy. 1 Power Cable for Frequency Stabilizer 3m 2 Opto┆
0x42700…42800 (66, 0, 7) Sector 41089d00157041 ┆A pA 1 FIGURE 7.1-6 PU#1/#2 REAR CRATE er 3 Blank Panel 3U 3 Blank Panel 2U 1 Power Cable 1m 2 Power Cable 2.5m 2 Power Ca┆
0x42800…42900 (66, 0, 8) Sector 4209fd00157041 ┆B } pAble 3m 2 Rack 35U with Front Door (700 mm Deep) 1 Ground Wire Between Stabl. and Panel Mount. R. 3 Ground Wire Between Pow. SW. Pnl. and P.M.R. 1 Ground Wire Between P.M.R.s 3 Supporting Slide Right 3 Supporting Slide Left 3 ┆
0x42900…42a00 (66, 0, 9) Sector 420aff00157041 ┆B pA 1 6.4 REMOTE TARE ASSEMBLY Qty. V24 BPJF 1 VF BPJF 1 Modem 2 Mains Switch 1 Power Distribution Panel 1 Blank Panel 1U 2 Blank Panel 2U 1 Blank Panel 3U 3 ┆
0x42a00…42b00 (66, 0, 10) Sector 420bdd00157041 ┆B ] pA Blank Panel 10U 1 V24 Cable 4 Rack 35U (550 mm Deep) 1 Ground Wire Between Panel Mounting Rails 3 6.5 PERIPHERAL EQUIPMENT VDU Delta 7260 TC 25 MSP Tracor 8000 9 PTP/PTR 1 OCR 1 Channel 1 V24/V28 (L/L) Adapt┆
0x42b00…42c00 (66, 0, 11) Sector 420cff00157041 ┆B pA 1 6.6 INTER UNIT CABLE ASSEMBLY Qty. Opto Cables 34 Signal Cable to PTP/PTR 1 Signal Cable to OCR 1 X-Net Bus Cable Between Rack D and C 4 V24 Cable Between Rack C and ┆
0x42c00…42d00 (66, 0, 12) Sector 420d8500157041 ┆B pAD 6 Power Cable Between Stabl. and Rack A 3 Ground Cable Between Stabl. and Rack A 1 CCB Cable 3.6m P/N 5.05434-00 1 Panel 2M Front 2 Blank Panel 4M Rear 3 Mains Switch 1 X-Net Terminal Outlet 4 Power Distribution Panel 1┆
0x42d00…42e00 (66, 0, 13) Sector 420eff00157041 ┆B pA 1 7 H/W CONFIGURATION DESCRIPTION This section describes the structure of the CAMPS DSMT H/W configuration applicable for the DSMT H/W test. 7.1 RACKS The PROCESSOR RACK ASSY ┆
0x42e00…42f00 (66, 0, 14) Sector 420fff00157041 ┆B pAis shown in figure 7.1-1, the LINE TERMINATION RACK ASSY is shown in figure 7.1-2, the FREQUENCY STABILIZER RACK ASSY is shown in figure 7.1-3 and the REMOTE TARE RACK ASSY is shown in figure 7.1-4. Crate/Panel layouts are shown in figures identi┆
0x42f00…43000 (66, 0, 15) Sector 4200ff00157041 ┆B pAfied below: PU #1/#2 front crate : figure 7.1-5 PU #1/#2 rear crate : figure 7.1-6 CU front crate : figure 7.1-7 CU rear crate : figure 7.1-8 WDP front/rear crate : figure 7.1-9 Adapter crate front/rear crate : figure 7.1-10 TU ┆
0x43000…43100 (67, 0, 0) Sector 43015f00157041 ┆C _ pAl 390x142x20 12 Mounting Rail 390x40x20 8 Cable Channel 7 Cable Tie Assy. 1 2M Front S 2 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel 4M Rear S 1 Intern Cable Type 1 2 S-Fan Assy 2 TDX Unit (#2) - CTX Cra┆
0x43100…43200 (67, 0, 1) Sector 4302ff00157041 ┆C pA 1 Inter Rack Cable Assembly (Rack D-E-F) Qty. CCB Cable P/N 5.05414-00 1 X-Net Bus Cable P/N 5.05402-00 8 V24 Cable 3.6 m P/N05420-04 4 V24 Cable 3.3m P/N 5.05420-03 4 ┆
0x43200…43300 (67, 0, 2) Sector 43035100157041 ┆C Q pA V24 Cable 3m P/N 5.05420-02 8 80S Power Cable 1.5m: P/N 5.05313-00 3 nit (#1) - CTX Crate 1 TDX Controller 1 BSM-X 1 LTUX-S 2 Opto T/R 8 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel ┆
0x43300…43400 (67, 0, 3) Sector 4304ff00157041 ┆C pA 1 Rack D Internal Cable Assembly Qty. TDX-Ctrl. to X-Net Outlet P/N 5.05418-00 2 BSM-X to X-Net Outlet P/N 5.05416-00 8 80S Power Cable 0.5m P/N 5.05409-00 4 80S Power Ca┆
0x43400…43500 (67, 0, 4) Sector 4305ff00157041 ┆C pAble 1m P/N 5.05409-01 4 X-Net Bus Cable P/N 5.05402-00 16 Rack E Internal Cable Assembly BSM-X to X-Net Outlet P/N 5.05416-00 8 X-Net Bus Cable P/N 5.05402-00 12 80S Power Cable 0.5m P/N 5.05409-00 4 80S Power Cable 1m P/N 5.05409-01┆
0x43500…43600 (67, 0, 5) Sector 4306ff00157041 ┆C pA 6 Rack F Internal Cable Assembly BSM-X to X-Net outlet P/N 5.05416-00 4 X-Net Bus Cable P/N 5.05402-00 4 V24 Cable 240cm P/N 5.05420-00 8 V24 Cable 270cm P/N 5.05421-01 2 80S Power Cable 0.5m P/N 5.05409-00 2 80S Power Cable 1m┆
0x43600…43700 (67, 0, 6) Sector 43071c00157041 ┆C pA P/N 5.05409-01 2 ear S 3 90x40x20 11 Stretching Slide SMD Left 1 Stretching Slide SMD Right 1 Supporting Slide for Fan Left 1 Supporting Slide for Fan Right 1 Cable Tie Assy. 1 Power Cable for Frequency Stabilizer 3m 2 Opto┆
0x43700…43800 (67, 0, 7) Sector 4208ff00157041 ┆B pA 1 6.3 FREQUENCY STABILIZER ASSEMBLY Qty. Power Switch Panel 1 Frequency Stabilizer 3 Blank Panel 3U 3 Blank Panel 2U 1 Power Cable 1m 2 Power Cable 2.5m 2 Power Ca┆
0x43800…43900 (67, 0, 8) Sector 4309ff00157041 ┆C pA BSM-X Panel 1 Blank Panel 1M Front S 11 Blank Panel 2M Front S 2 Blank Panel 4M Rear S 3 TDX Unit (#5) - CTX Crate 1 BSM-X 1 LTUX-S 2 Opto T/R 8 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 ┆
0x43900…43a00 (67, 0, 9) Sector 430ad700157041 ┆C W pA Blank Panel 1M Front S 4 Blank Panel 2M Front S 2 Blank Panel 4M Rear S 3 Mains Switch 1 X-Net Terminal Outlet 8 Power Distribution Panel 2 Power Line Filter 1 Blank Panel 3U 1 le P/N 5.05415-00 2 CCB Cable P/N 5.0┆
0x43a00…43b00 (67, 0, 10) Sector 430bff00157041 ┆C pA 1 Qty. Rack F: Right End 1 Cable Channel Assy 2 TDX Unit (#10) - CTX Crate 1 BSM-X 1 LTUX-S 2 V24/V28 (L/L) Adaptor 4 Channel 1 V24/V28 (L/L) Adapt┆
0x43b00…43c00 (67, 0, 11) Sector 430cff00157041 ┆C pAor 1 Channel 1 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel 1M Front S 9 Blank Panel 2M Front S 2 Blank Panel 4M Rear S 3 TDX Unit (#9) - CTX Crate 1 BSM-X 1 LTUX-S 2 V24/V28 (L/L)┆
0x43c00…43d00 (67, 0, 12) Sector 430dff00157041 ┆C pA Adaptor 4 Channel 2 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel 1M Front 8 Blank Panel 2M Front 2 Blank Panel 4M Rear 3 Mains Switch 1 X-Net Terminal Outlet 4 Power Distribution Panel 1┆
0x43d00…43e00 (67, 0, 13) Sector 430e7b00157041 ┆C { pA CCB Panel 1 Filter Box 1 Blank Panel 3U 1 Blank Panel 5U 1 Blank Panel 10U 1 S-Fan Assy. 1 Unit - Channel Crate 1 Power Supply CR80D 2 Disk Controller 3 Floppy Disk Controller 1 LTU 4 Blank Panel 1M┆
0x43e00…43f00 (67, 0, 14) Sector 430fff00157041 ┆C pA 1 Cabinet Assembly (Rack D-E-F) Qty. Rack D Assy. 1 Rack E Assy. 1 Rack F Assy. 1 Identification Plate 1 Ground Wire P/N 5.05419-01 6 Ground Wire P/N 5.05419-0┆
0x43f00…44000 (67, 0, 15) Sector 4300ff00157041 ┆C pA2 6 Ground Wire P/N 5.05419-03 3 Supporting Slide Left 22 Supporting Slide Right 22 Supporting Slide for Fan Left 5 Supporting Slide for Fan Right 5 Panel Mounting Rail Type 1 9 Panel Mounting Rail Type 2 9 Mounting Rai┆
0x44000…44100 (68, 0, 0) Sector 4401ff00157041 ┆D pAdaptor 4 Channel 1 Power Supply CR80S 1 Blank Panel 1M Front S 10 Blank Panel 2M Front S 2 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel 4M Rear S 1 Intern Cable Type 1 2 S-Fan Assy 2 TDX Unit (#2) - CTX Cra┆
0x44100…44200 (68, 0, 1) Sector 4402d200157041 ┆D R pAte 1 BSM-X 1 LTUX-S 2 Opto T/R 8 Power Supply CR80S 1 Adapter Power Supply 1 BSM-X Panel 1 Blank Panel 1M Front S 4 Blank Panel 2M Front S 2 Blank Panel 4M Rear S 3 M Front S 5 Blank Panel 1M Rear S 1 A┆
0x44200…44300 (68, 0, 2) Sector 4403ff00157041 ┆D pA 1 TDX Unit (#1) - CTX Crate 1 TDX Controller 1 BSM-X 1 LTUX-S 2 Opto T/R 8 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel ┆
0x44300…44400 (68, 0, 3) Sector 4404ff00157041 ┆D pA1M Front S 3 Blank Panel 2M Front S 2 Blank Panel 4M Rear S 3 BSM-X to TDX ctrl Cable 1 Mains Switch 1 X-Net Terminal Outlet 10 Power Distribution Panel 2 CCB Panel 1 Blank Panel 3U 1 Rack E: Intermediate 1 Cable┆
0x44400…44500 (68, 0, 4) Sector 4405ff00157041 ┆D pA Channel Assy. 4 TDX Unit (#8) - CTX Crate 1 BSM-X 1 LTUX-S 1 V24/V28 (L/L) Adaptor 4 Channel 1 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel 1M Front S 9 Blank Panel 2M Front S 2 ┆
0x44500…44600 (68, 0, 5) Sector 4406ff00157041 ┆D pABlank Panel 4M Rear S 3 TDX Unit (#7) - CTX Crate 1 BSM-X 1 LTUX-S 1 V24/V28 (L/L) Adaptor 4 channel 1 Power Supply CR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel 1M Front S 10 Blank Panel 2M Front S ┆
0x44600…44700 (68, 0, 6) Sector 44072600157041 ┆D & pA 2 Blank Panel 4M Rear S 3 90x40x20 11 Stretching Slide SMD Left 1 Stretching Slide SMD Right 1 Supporting Slide for Fan Left 1 Supporting Slide for Fan Right 1 Cable Tie Assy. 1 Power Cable for Frequency Stabilizer 3m 2 Opto┆
0x44700…44800 (68, 0, 7) Sector 4308ff00157041 ┆C pA 1 Qty. S-Fan Assy. 2 TDX Unit (#6) - CTX Crate 1 BSM-X 1 LTUX-S 1 V24/V28 (L/L) Adaptor 4 channel 1 Power Supply CR80S 1 Adaptor Power Supply 1 ┆
0x44800…44900 (68, 0, 8) Sector 4409ff00157041 ┆D pA.05412-00 2 X-Net Bus Cable P/N 5.05402-00 4 V24 Cable P/N 5.05422-00 2 V24 Cable P/N 5.05422-01 6 80D Power Cable 1m P/N 5.05410-01 4 80S Power Cable 2.5m P/N 5.05409-02 1 80S Power Cable 3.5m P/N 5.05409-03 1 80S Power Cable 1┆
0x44900…44a00 (68, 0, 9) Sector 440a1c00157041 ┆D pA.5m P/N 5.05313-00 3 to OCR 1 5.15 Spectrum Filtered Connector 10 poles 29 Filtered Connector 18 poles 6anel 3 Term Resistor P/N 6.44720-20 4 Term Resistor P/N 5.04258-00 2 Data Channel Cable P/N 5.05415-00 2 CCB Cable P/N 5.0┆
0x44a00…44b00 (68, 0, 10) Sector 440bff00157041 ┆D pA 1 Rack A Internal Cable Assembly Qty. TIA to X-Net Outlet Cable P/N 5.05417-00 2 80D Power Cable 0.5m P/N 5.05410-00 2 80D Power Cable 1m P/N 5.05410-01 2 80S Power Cable┆
0x44b00…44c00 (68, 0, 11) Sector 440cff00157041 ┆D pA 1m P/N 5.05409-01 1 80D Power Cable 1.5m P/N 5.05317-00 1 Term Resistor P/N 6.44720-20 4 Rack B Internal Cable Assembly Floppy Disk Cable P/N 5.05411-00 1 Disk Drive Cable A 1 Disk Drive Cable B 1 80D Power Cable 1.5m P/N 5.053┆
0x44c00…44d00 (68, 0, 12) Sector 440dff00157041 ┆D pA17-00 2 80S Power Cable 0.5m P/N 5.05409-00 1 80S Power Cable 1m P/N 5.05409-01 1 Term Resistor P/N 5.04258-00 2 Rack C Internal Cable Assembly TIA to X-Net Outlet Cable P/N 5.05417-00 2 80D Power Cable 0.5m P/N 5.05410-00 2 80D┆
0x44d00…44e00 (68, 0, 13) Sector 440e7900157041 ┆D y pA Power Cable 1m P/N 505410-01 2 80D Power Cable 1.5m P/N 5.05317-00 1 80S Power Cable 0.5m P/N 5.05409-00 1 l Unit - Channel Crate 1 Power Supply CR80D 2 Disk Controller 3 Floppy Disk Controller 1 LTU 4 Blank Panel 1M┆
0x44e00…44f00 (68, 0, 14) Sector 440fff00157041 ┆D pA 1 6.2 BAY D-E-F Qty. Rack D: Left End 1 Cable Channel Assy 4 TDX Unit (#4) - CTX Crate 1 TDX Controller 1 BSM-X 1 LTUX-S 2 Opto T/R 8 Power Supply C┆
0x44f00…45000 (68, 0, 15) Sector 4400ff00157041 ┆D pAR80S 1 Adaptor Power Supply 1 BSM-X Panel 1 Blank Panel 1M Front S 3 Blank Panel 2M Front S 2 Blank Panel 4M Rear S 3 BSM-X to TDX Ctrl Cable 1 TDX Unit (#3) - CTX Crate 1 BSM-X 1 LTUX-S 2 V24/V28 (L/L) A┆
0x45000…45100 (69, 0, 0) Sector 4501ff00157041 ┆E pA 1 Rack C Qty. Right End Rack 1 Processor Unit - Processor Crate 1 Power Supply CR80D 2 MAP I/O DMA 1 STI 1 RAM 64K 1 RAM 128K 1 CPU CACHE 3 ┆
0x45100…45200 (69, 0, 1) Sector 4502ff00157041 ┆E pABlank Panel 1M Front 10 MBT 4 TIA 2 MIA 1 CCA 1 D-Fan Assy. 1 Adaptor Unit - Opto T/R 2 V24/V28 (L/L) Adaptor 1 Channel 6 Blank Panel 1M Front S 7 Blank Panel 2M Front S 5 Blank Panel 1M Rear S 1 A┆
0x45200…45300 (69, 0, 2) Sector 4503ff00157041 ┆E pAdaptor Power Supply 2 Back Panel 2 CTX Crate 1 Cable Channel Assy. 1 S-Fan Assy. 1 Disk Drive MMD 1 Mains Switch 1 X-Net Terminal Outlet 2 Power Distribution Panel 2 Blank Panel 1U 2 Blank Panel 3U 1 Ground wire f┆
0x45300…45400 (69, 0, 3) Sector 45042100157041 ┆E ! pAor BP8 2 CCB Panel 1 Qty. 5.10 Knud Wex]e Cable Channel 14 5.11 MULTIKOMPONENT V24 Cable P/N 5.05420-00 8 V24 Cable P/N 5.05420-02 8 V24 Cable P/N 5.05420-03 4 V24 Cable P/N 5.05420-0┆
0x45400…45500 (69, 0, 4) Sector 4505ff00157041 ┆E pA 1 Cabinet Assembly (Rack A-B-C) Qty. Rack A Assy. 1 Rack B Assy. 1 Rack C Assy. 1 Identification Plate 1 Ground Wire P/N 5.05419-01 6 Ground Wire P/N 5.05419-02 6 ┆
0x45500…45600 (69, 0, 5) Sector 4506ff00157041 ┆E pA Ground Wire P/N 5.05419-03 3 Supporting Slide Left 13 Supporting Slide Right 13 Stretching Slide MMD Left 2 Stretching Slide MMD Right 2 Panel Mounting Rail Type 1 9 Panel Mounting Rail Type 2 9 Cable Channel 7 Mounting Rail┆
0x45600…45700 (69, 0, 6) Sector 4507cd00157041 ┆E M pA 390x142x20 3 Mounting Rail 390x40x20 11 Stretching Slide SMD Left 1 Stretching Slide SMD Right 1 Supporting Slide for Fan Left 1 Supporting Slide for Fan Right 1 Cable Tie Assy. 1 Power Cable for Frequency Stabilizer 3m 2 Opto┆
0x45700…45800 (69, 0, 7) Sector 4408ff00157041 ┆D pA 1 Inter Rack Cable Assembly (Rack A-B-C) Qty. Data Channel Cable P/N 5.05415-00 2 CCB Cable P/N 5.05413-00 1 Disk Drive Cable A 2 Disk Drive Cable B 2 WDCC Cable P/N 5┆
0x45800…45900 (69, 0, 8) Sector 4509ff00157041 ┆E pA 1 5.14 TBD Qty. Identification Plate 2 V24 BPJF for TARE Rack 1 VF BPJF for TARE Rack 1 Modem 2 V24 Cables in TARE Rack 4 PTP/PTR 1 Signal Cable to PTP/PTR 1 OC┆
0x45900…45a00 (69, 0, 9) Sector 450a7800157041 ┆E x pAR 1 Signal Cable to OCR 1 5.15 Spectrum Filtered Connector 10 poles 29 Filtered Connector 18 poles 6anel 3 Term Resistor P/N 6.44720-20 4 Term Resistor P/N 5.04258-00 2 Data Channel Cable P/N 5.05415-00 2 CCB Cable P/N 5.0┆
0x45a00…45b00 (69, 0, 10) Sector 450bff00157041 ┆E pA 1 6. CONFIGURATION/EQUIPMENT SPECIFICATION For further information on items see CPS/SDS/017 6.1 BAY A-B-C Rack A Qty. Left End Rack 1 Processor Unit - Processor ┆
0x45b00…45c00 (69, 0, 11) Sector 450cff00157041 ┆E pACrate 1 Power Supply CR80D 2 MAP I/O DMA 1 STI 1 RAM 64K 1 RAM 128K 1 CPU CACHE 3 Blank Panel 1M Front D 10 MBT 4 TIA 2 MIA 1 CCA 1 D-Fan Assy. 1 Disk Drive MMD 1 Mains Switch 1 X-Net Terminal ┆
0x45c00…45d00 (69, 0, 12) Sector 450d8200157041 ┆E pAOutlet 2 Power Distribution Panel 1 Power Line Filter 1 Blank Panel 1U 1 Blank Panel 3U 1 Blank Panel 10U 1 able 5.05441-01 2 80 D Power Cable 0.5 m P/N 5.05410-00 4 80 D Power Cable 1.0 m P/N 5.05410-01 8 80 D Power Cable 1┆
0x45d00…45e00 (69, 0, 13) Sector 450eff00157041 ┆E pA 1 Rack B Qty. Intermediate Rack 1 Channel Unit - Channel Crate 1 Power Supply CR80D 2 Disk Controller 3 Floppy Disk Controller 1 LTU 4 Blank Panel 1M┆
0x45e00…45f00 (69, 0, 14) Sector 450fff00157041 ┆E pA Front D 6 MBT 2 CCA 1 LIA-N 4 SFA 1 DCA 3 CIA-A 1 CIA-B 1 CUCP ! D-Fan Assy. 1 Watchdog Unit - Watchdog Crate 1 LTU 1 Blank Panel 1M Front D 6 WCA 1 CCBA Panel 1 Blank Panel 8M ┆
0x45f00…46000 (69, 0, 15) Sector 4500b800157041 ┆E 8 pAFront D 1 Floppy Disk (2 units) 1 Disk Drive SMD 1 Mains Switch 1 Power Distribution Panel 1 Power Line Filter 1 Blank Panel 1U 1 Blank Panel 3U 1 EQUIPPED 23 PTP/PTR INTERFACE WIRED 1 CAPACITY EQUIPPED 1 CONNE┆
0x46000…46100 (70, 0, 0) Sector 4601ff00157041 ┆F pA 1 Qty. 5.3 ABACUS CONTROLS Frequency Stabilizer 3 5.4 DELTA DATA VDU Delta 7260 TC 25 5.5 TRACOR MSP Tracor 8000 9 5.6 ELECTRONIC E┆
0x46100…46200 (70, 0, 1) Sector 4602ff00157041 ┆F pANCLOSURES Rack Left End 2 Rack Intermediate 2 Rack Right End 2 5.7 CAPTOR CORP. Power Line Filter 3 5.8 VERSITRON INC. Opto T/R 34 Adaptor Power Supply 12 5.9 ATLANTIC RESEARCH CORP. V24/V28 (L/L) Adaptor 1 channel 7 V24/┆
0x46200…46300 (70, 0, 2) Sector 46033800157041 ┆F 8 pAV28 (L/L) Adaptor 4 channel 7 Filter Box 1 ssor Crate 2 Channel Crate 1 Watchdog Crate 1 CTX Crate 11 D-Fan Assy 3 S-Fan Assy 6 Panel Mounting Rail Type 1 18 Panel Mounting Rail Type 2┆
0x46300…46400 (70, 0, 3) Sector 4604ff00157041 ┆F pA 1 Qty. 5.10 Knud Wex]e Cable Channel 14 5.11 MULTIKOMPONENT V24 Cable P/N 5.05420-00 8 V24 Cable P/N 5.05420-02 8 V24 Cable P/N 5.05420-03 4 V24 Cable P/N 5.05420-0┆
0x46400…46500 (70, 0, 4) Sector 4605ff00157041 ┆F pA4 4 V24 Cable P/N 5.05421-01 2 V24 Cable P/N 5.05422-00 2 V24 Cable P/N 5.05422-01 6 Internal Cable Type 1 2 5.12 H.R. ELECTRONIC Ground Wire P/N 5.05419-01 12 Ground Wire P/N 5.05419-02 12 Ground Wire P/N 5.05419-03 6 Ground Wire ┆
0x46500…46600 (70, 0, 5) Sector 4606ff00157041 ┆F pAfor BP-8 2 Ground Wire between Freq. Stabl. and Panel Mounting Rails 3 Ground Wire between Freq. Stabl. Power Switch and PMR 1 Ground Wire between Freq. Stabl. Panel Mounting Rails 3 Ground Wire between TARE Rack Panel Mounting Rails ┆
0x46600…46700 (70, 0, 6) Sector 4607ff00157041 ┆F pA 3 5.13 CR/SD Cable Channel Assy. 11 Cable Tie Assy. 2 Power Switch Panel for Frequency Stabilizer 1 Power Cable for Frequency Stabilizer 1m 2 Power Cable for Frequency Stabilizer 2.5m 2 Power Cable for Frequency Stabilizer 3m 2 Opto┆
0x46700…46800 (70, 0, 7) Sector 45088000157041 ┆E pA Cable (Length TBD) 34 Power Cable between Freq. Stabl. and Rack. A 3 Ground Wire between Freq. Stabl. and Rack. A 1 sh a specification of the equipment forming the CAMPS System 0 to be used for the DSMT hardware acceptance test. 2. ┆
0x46800…46900 (70, 0, 8) Sector 4609ff00157041 ┆F pA 1 Qty. CCA 3 MBT 10 Disk Controller 3 Floppy Disk Controller 1 CUCP 1 LTU 5 LIA-N 4 SFA 1 DCA 3 CIA-A 1 CIA-B 1 WCA 1┆
0x46900…46a00 (70, 0, 9) Sector 460aff00157041 ┆F pA TDX Controller 2 BSM-X 10 LTUX-S 17 Back Panel Type 8 2 BSM-X Panel 10 CCBA Panel 1 CCB Panel 3 Term Resistor P/N 6.44720-20 4 Term Resistor P/N 5.04258-00 2 Data Channel Cable P/N 5.05415-00 2 CCB Cable P/N 5.0┆
0x46a00…46b00 (70, 0, 10) Sector 460b1200157041 ┆F pA5413-00 1 INTEGRATION AREA E WITH SYSTEM 0 INSTALLED ┆
0x46b00…46c00 (70, 0, 11) Sector 460cff00157041 ┆F pA 1 Qty. CCB Cable P/N 5.05414-00 1 CCB Cable P/N 5.05434-00 1 WDCC Cable P/N 5-05412-00 2 X-Net Bus Cable P/N 5-05402-00 44 TIA to X-Net Outlet Cable P/N 5.05417-00 ┆
0x46c00…46d00 (70, 0, 12) Sector 460dff00157041 ┆F pA4 TDX-Ctrl. to X-Net Outlet Cable P/N 5.05418-00 2 BSM-X to X-Net Outlet Cable P/N 5.05416-00 20 BSM-x to TDX Ctrl. Cable 5.05441-01 2 80 D Power Cable 0.5 m P/N 5.05410-00 4 80 D Power Cable 1.0 m P/N 5.05410-01 8 80 D Power Cable 1┆
0x46d00…46e00 (70, 0, 13) Sector 460eff00157041 ┆F pA.5 m P/N 5.05317-00 4 80 S Power Cable 0.5 m P/N 5.05409-00 12 80 S Power Cable 1.0 m P/N 5.05409-01 14 80 S Power Cable 1.5 m P/N 5.05313-00 6 80 S Power Cable 2.5 m P/N 5.05409-02 2 80 S Power Cable 3.5 m P/N 5.05409-03 1 Floppy Di┆
0x46e00…46f00 (70, 0, 14) Sector 460fff00157041 ┆F pAsk Cable P/N 5.05411-00 1 X-Net Bus Cable between Rack C and D 4 5.2 CONTROL DATA Disk Drive MMD 2 Disk Drive SMD 1 Stretching Slide MMD Left 2 Stretching Slide MMD Right 2 Stretching Slide SMD Left 1 Stretching Slide SMD Right ┆
0x46f00…47000 (70, 0, 15) Sector 46003600157041 ┆F 6 pA1 Disk Drive Cable A 3 Disk Drive Cable B 3 CAPACITY EQUIPPED 2 TARE INTERFACE WIRED 6 CAPACITY EQUIPPED 4 LOW SPEED TELE- WIRED 24 PRINTER INTERFACE CAPACITY EQUIPPED 23 PTP/PTR INTERFACE WIRED 1 CAPACITY EQUIPPED 1 CONNE┆
0x47000…47100 (71, 0, 0) Sector 47018800157041 ┆G pACTED CAPACITY 1 PTP/PTR OCR INTERFACE WIRED 2 CAPACITY EQUIPPED 1 CONNECTED CAPACITY 1 OCR TABLE 4-1 ┆
0x47100…47200 (71, 0, 1) Sector 4702ff00157041 ┆G pA 1 5. SUPPLIER/EQUIPMENT SPECIFICATION For further information on items see CPS/SDS/017. 5.1 CR/ED Qty. 1 ┆
0x47200…47300 (71, 0, 2) Sector 4703ff00157041 ┆G pA Processor Crate 2 Channel Crate 1 Watchdog Crate 1 CTX Crate 11 D-Fan Assy 3 S-Fan Assy 6 Panel Mounting Rail Type 1 18 Panel Mounting Rail Type 2┆
0x47300…47400 (71, 0, 3) Sector 4704ff00157041 ┆G pA 18 Mounting Rail 390x142x20 15 Mounting Rail 390x40x20 19 Supporting Slide Left 35 Supporting Slide Right 35 Supporting Slide for Fan Left 6 Supporting Slide for Fan Right 6 Rack 35U with Front Door (700 mm Deep) 1 Rack 35U (550 ┆
0x47400…47500 (71, 0, 4) Sector 47059100157041 ┆G pADeep) 1 Supporting Slide for Freq. Stabl. Left 3 Supporting Slide for Freq. Stabl. Right 3 Blank Panel 1U 4 Blank Panel 2U 1 Abacus Controls 5.4 Delta Data 5.5 Tracor 5.6 Electronic Enclosures 5.7 Captor Corp. 5.8 Versitron I┆
0x47500…47600 (71, 0, 5) Sector 4706ff00157041 ┆G pA 1 CR/ED Qty. Blank Panel 1U 4 Blank Panel 3U 9 Blank Panel 10U 3 Blank Panel 1M Front S 78 Blank Panel 1M Front D 32 Blan┆
0x47600…47700 (71, 0, 6) Sector 4707ff00157041 ┆G pAk Panel 2M Front S 25 Blank Panel 8M Front D 1 Blank Panel 1M Rear S 1 Blank Panel 4M Rear S 28 Power Distribution Panel 9 Mains Switch 6 X-Net Terminal Outlet 26 Floppy Disk (2 Units) 1 Power Supply CR80S 10 Power Supply CR80┆
0x47700…47800 (71, 0, 7) Sector 46087000157041 ┆F p pAD 6 MAP I/O DMA 2 RAM 64K 2 RAM 128K 2 CPU-CACHE 6 STI 2 TIA 4 MIA 2 nt is to establish a specification of the equipment forming the CAMPS System 0 to be used for the DSMT hardware acceptance test. 2. ┆
0x47800…47900 (71, 0, 8) Sector 4709ff00157041 ┆G pABASELINE DOCUMENTATION CAMPS Hardware Assembly Breakdown/Hardware Tree CPS/SDS/017, Issue 1. 3. INTEGRATION AREA LAYOUT Integration of System 0 and the subsequent DSMT hardware acceptance test will take place in section E of the in┆
0x47900…47a00 (71, 0, 9) Sector 470aa900157041 ┆G ) pAtegration area. Overleaf is shown a layout of the system where the 25 VDUs and 9 MSPs are accommodated on three decks of shelves. (MSPs on the lower shelves). ="(=*(=N#FMC 2.=M ':>=V V u:A=!>= AH1 R^4 ]M, C 4:>=2A=Ms!:g=~ Jr4Mj2:g=~ B}4C75! ┆
0x47a00…47b00 (71, 0, 10) Sector 470ba500157041 ┆G % pA 1 INTEGRATION AREA E WITH SYSTEM 0 INSTALLED ┆
0x47b00…47c00 (71, 0, 11) Sector 470cff00157041 ┆G pA 1 4. Connectivity The connectivity illustrated by table 4-1 concerns the possibilities for connection of the different types of terminals and external circuits to the CAMPS system 0┆
0x47c00…47d00 (71, 0, 12) Sector 470dff00157041 ┆G pA. Two subsets are addressed: a) Connectivity of VDU's and Medium Speed Printers, Low Speed Teleprinters, Papertape Reader/Puncher, and OCR. b) Connectivity of CCIS, SCARS, and TARE circuitry. The numbers of terminals are given and the module┆
0x47d00…47e00 (71, 0, 13) Sector 470e6200157041 ┆G b pAs/items of the distribution equipment supplied for each data exchange channel are given. es own all connected Terminals i.e. VDUs, MSPs, OC, PTP/PTR, as applicable. g) Disconnect the OC from the leftmost V24/V28(L/L) adaptor in the Adaptor cr┆
0x47e00…47f00 (71, 0, 14) Sector 470fff00157041 ┆G pA 1 VDU INTERFACE WIRED 32 CAPACITY EQUIPPED 32 CONNECTED CAPACITY, VDUs 24 MEDIUM SPEED TELE- WIRED 16 PRINTER INTERFACE CAPACITY EQUIPPED 12 CONNECTED CAPACITY, MED. SP. ┆
0x47f00…48000 (71, 0, 15) Sector 4700ff00157041 ┆G pA 8 TELEPRINTERS CCIS/SCARS INTERFACE WIRED 2 CAPACITY EQUIPPED 2 TARE INTERFACE WIRED 6 CAPACITY EQUIPPED 4 LOW SPEED TELE- WIRED 24 PRINTER INTERFACE CAPACITY EQUIPPED 23 PTP/PTR INTERFACE WIRED 1 CAPACITY EQUIPPED 1 CONNE┆
0x48000…48100 (72, 0, 0) Sector 48017800155641 ┆H x VA the cable connected to the V24/V28(L/L) adapter in the adapter crate pos. 17 and connect the TEST VDU#2 instead. Y *%<MMY !\<6 C 3M, !\<6 : =~ B 5: = R$3C/4!e=6 !f=6 !g=6 !h=6 Ml+M;) RE3C#4: 2i=:g=~ JV3C/4!"<6 #6 MB&! =6 !,<6 :]=2'< AMD MB&!,<6 ! ┆
0x48100…48200 (72, 0, 1) Sector 4802ff00155641 ┆H VA 1 5. Disconnect the two V24 cables connected to the J1 and J2 connectors on the leftmost Back Panel 8 located in the rear of the Adapter crate. 6. Disconnect the V24 cable connec┆
0x48200…48300 (72, 0, 2) Sector 4803ff00155641 ┆H VAted to the MIA in PU#1 and connect TESTCABLE#1 between above mentioned (para. 5) J1 and the MIA. 7. Disconnect the V24 cable connected to the MIA in PU#2 and connect TESTCABLE#2 between above mentioned (para. 5) J2 and the MIA. 8. Disconnect t┆
0x48300…48400 (72, 0, 3) Sector 4804ff00155641 ┆H VAhe two V24 cables connected to J1 and J2 respectively on the WCA front panel in the rear crate of the WDP. 9. Connect TESTCABLE#3 between the above mentioned (para. 8) J1 and J2. The testequipment is now connected to the DSMT system as shown in┆
0x48400…48500 (72, 0, 4) Sector 4805ff00155641 ┆H VA fig. 3.7.4.3.1-1. Carry out/control the following: a) OC, TEST VDU#1, TEST VDU#2 and MSP set up: The communication part of the OC is set to: 1) Asynchronous communication 2) 7 bit character length 3) Even parity check/generation 4) ┆
0x48500…48600 (72, 0, 5) Sector 4806ff00155641 ┆H VA1 stop bit 5) 1200 Baud communication speed b) Switch settings in PU#1 and PU#2 front crate modules: 1) The NRM/MAIN switch on the MAP module front panel is set to NRM. 2) The EN/DIS switch on the MAP module front panel is set to EN. c) ┆
0x48600…48700 (72, 0, 6) Sector 48073b00155641 ┆H ; VASwitch settings in PU#1 and PU#2 rear crate modules: SRA Testgroup 7/3 23 12 81 15 01 03 184 19 04 82 09 13 00 2 19 04 82 08 35 22 04 82 08 31 0110A 75 8 01 1112 16234 p *J 7 c _┆
0x48700…48800 (72, 0, 7) Sector 2100b000155641 ┆! 0 VA 1 FIGURE 3.7.4.3.1-1 Connection of the testequipment ┆
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0x48900…48a00 (72, 0, 9) Sector 480a4b00155641 ┆H K VA H H H H ! ! V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.┆
0x48a00…48b00 (72, 0, 10) Sector 480bbe00155641 ┆H > VA 1 CPS/TPR/005 820419 DSMT (PROTOTYPE) HARDWARE TEST SPECIFICATION AND PROCEDURES 811218 CAMPS "(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x48b00…48c00 (72, 0, 11) Sector 480cff00155641 ┆H VA 1 3.7.4.3 Test Procedure 3 This testprocedure serves to verify the Watchdog Processor System i.e. the Watchdog Processor Unit (WDP), the Configuration Control Bus Adapter (CCBA), th┆
0x48c00…48d00 (72, 0, 12) Sector 480dff00155641 ┆H VAe Channel Unit Control Panel (CUCP), the TDX Bus Switching Modules (BSM-Xs) and the Configuration Control Adapters (CCAs). The DSMT configuration under test is given in appendix A. 3.7.4.3.1 Test Set Up One copy of the documents mentioned in se┆
0x48d00…48e00 (72, 0, 13) Sector 480eff00155641 ┆H VAc 3.7.3 must be present in the testroom. The test is performed via an Operator Console (OC) which is a printer and keyboard, a Medium Speed Printer (MSP) with OPTO interface, a TEST VDU#1, a TEST VDU#2 and a TEST VDU#3 all with V24/V28 interface.┆
0x48e00…48f00 (72, 0, 14) Sector 480fff00155641 ┆H VA The above mentioned testequipment is connected to the DSMT system as follows: 1. Substitute the leftmost OPTO transceiver in the rack C Adapter crate with a V24/V28(L/L) adapter (1 channel), and connect the OC to the V24 connector on the front┆
0x48f00…49000 (72, 0, 15) Sector 4800ff00155641 ┆H VA panel of the adaptor. 2. Connect the MSP to the remaining OPTO transceiver in the Adapter crate in rack C. 3. Remove the cable connected to the V24/V28(L/L) adapter in the adapter crate pos. 18 and connect the TEST VDU#1 instead. 4. Remove┆
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0x49100…49200 (73, 0, 1) Sector 49025e00157041 ┆I ^ pA I I I G G G G G F F F F E E E E E E D D D D C C C C C B B B B B B B B B A A A A A A A A A A @ @ @ @ @ @ ? ? > > > > ( ( ( ' ' ' ' & & & & % % % % $ $ $ $ # # # # " " " " ! ! TET DATO TID ANV.TID ANSLAG Oprettet ┆
0x49200…49300 (73, 0, 2) Sector 4903b900157041 ┆I 9 pA 1 CPS/TPR/005 820419 DSMT (PROTOTYPE) HARDWARE TEST SPECIFICATION AND PROCEDURES 811218 CAMPS 6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x49300…49400 (73, 0, 3) Sector 4904ff00157041 ┆I pA 1 A P P E N D I X A ********************************* 1 System 0 Configuration 1. Scope 2. Baseli┆
0x49400…49500 (73, 0, 4) Sector 4905ff00157041 ┆I pAne Documentation 3. Integration Area Layout 4. Connectivity 5. Supplier/Equipment Specification 5.1 CR/ED 5.2 Control Data 5.3 Abacus Controls 5.4 Delta Data 5.5 Tracor 5.6 Electronic Enclosures 5.7 Captor Corp. 5.8 Versitron I┆
0x49500…49600 (73, 0, 5) Sector 4906ff00157041 ┆I pAnc. 5.9 Atlantic Research Corp. 5.10 Knud Wex]e 5.11 Multikomponent 5.12 H.R. Electronic 5.13 CR/SD 5.14 TBD 5.15 Spectrum 6. Configuration/Equipment Specification 6.1 Bay A-B-C 6.2 Bay D-E-F 6.3 Frequency Stabilizer Assembly ┆
0x49600…49700 (73, 0, 6) Sector 4907e800157041 ┆I h pA 6.4 Remote TARE Assembly 6.5 Peripheral Equipment 6.6 Inter Unit Cable Assembly 7. H/W Configuration Description 7.1 Racks 7.2 Terminals 7.3 External Circuits 7.4 Connection of Terminals and External Circuits <!&<6$`i6 {M)(sM &M7 ┆
0x49700…49800 (73, 0, 7) Sector 4708ff00157041 ┆G pA 1 1. SCOPE The scope of this document is to establish a specification of the equipment forming the CAMPS System 0 to be used for the DSMT hardware acceptance test. 2. ┆
0x49800…49900 (73, 0, 8) Sector 00000000000000 ┆ ┆
[…0x37…]
