GTE Omni Si Database Technical Practices Manual
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5210TL-130200-1001 General Write2.3.2 The General Write (GW) command is used to change the Commandcontents in memory at up to 16 consecutive memory locations with the last change data entry followed by a period. The TTY output will show the existing data in each memory location, the new data to be entered, and a prompt when all requested changes are displayed. If the changes are correct, the user must enter Y followed by a period. If the changes displayed are not correct, the user must enter N followed by a period to terminate the input, and reenter the general write request. Input/output formats for the GW command are as follows: . . . r-----------------------------------I / G.W.,memory > < begin > < data >I Iwhere I I I I = I I < begin >= < data >=I IKEY I I 10 . ..17I I DO...D7 -----------------------------------,I lo,II,12,13,14,15,16,17,DO,DI,02,1 D3, D4, D5, D6, D7IIIAddress to be read, or the beginning address of a string of memory1 Ilocations to be read. I One hexadecimal byte of data. (This1 field can be repeated up to a maximum Iof 16 values.I ICEC instruction memory pages CEC data memory pages L------------------------------------------------------------------------The prompts and output from the GW command are as follows: If new data (nn) is correct, type Y. If not, type N. xxxx = an address aa= the old data nn= the new data zz= page identity NOTES: 1. Up to 16 addresses can be entered. 2. Data base addresses on DO, D2, D3, D4, PO-P7 can be written when security level 2 is used. All other areas on DO, Dl, D2, D3, D4, D5, D7, and all addresses on 10, 11, 12, 13, 14, 15, 16, and 17, can be written when security level 6 is open. 8187M-77
TL-130200-1001Bulk Input2.3.3 The Bulk Input (BI) command is used to change the data Commandbase data memory at up to 8 memory locations which need not be consecutive. End each address-entry (excerpt the last) with a BI GW < memory > .End the last address-data entry with aperiod. After the last address-data entry and period are entered, the TTY prints the existing data and the new data for each address specified, followed by a prompt. If correct, the user must enter Y followed by a period. If incorrect as shown, the user must enter N followed by a period to terminate the input, and must reenter the command with the correct data. Format for the BI command is as follows:I IIII BI [GW] memory >< data > . . . < address < data > .I II IIiI W’JIII1 I IIII whereI II IIII I I < memory > =Valid memory pages for the respective commands (i.e., GW or HW)iI II I II = Address to be written toIIII I iI = One hexadecimal byte of dataIIIII 81875210
TL-I 30200-l 001 Hardware Write2.3.4 The Hardware Write (HW) command is used to write Commandhardware addresses into the PEC > The list of changes can include from 1 to 16 data entries. The last data entry must be followed by a period. The HW command format is as follows: . . . ~-----------------------------------------------------------------------,IIIII l-j.W I II IIII IwhereI I II II I < memory > =PO, PI, P2, P3, P4, P5, P6, P7IIIIII =Address written to or the beginningIIaddress of a string of memory locations to !be written to.I I I =One hexadecimal byte of data. (This field ican be repeated up to a maximum of 16 !values.)I I I NOTES: 1. A security level of 6 or higher is required. 2. The valid address ranges are: PEC Hardware; 500-5FFChannel Memory 0: 400-47FChannel Memory 1: 800-87F Maintenance Request2.4 The Maintenance Request(MR) command is used to initiate Commandsthe maintenance functions. MR codes are entered into the system using a maintenance terminal. MR codes are used as part of the MR command system. The MR command input format is: r------------------------------------------------------~ MR xx.IIL------------------------------------------------------JThe output format (prompt) to a maintenance request code (xx, above) asks the user for verification that he desires to execute the command requested. 52108187M-79
TL-130200-1001. . . r--------‘-------------------------------------------------~IIIMRxxnnIIIIII xx aa (Y/N) > Y.Executed nnI II IIII whereI II III Ixx = the request code.I__I Inn = a response code.I I laa = a status command code.I II Y. is entered by the user. I I L-------------------------------------------’---------------~ Maintenance Request Codes CODEPROGRAM 09 OE OF 10 11 12 13 26Write system data base and PEC data base Force the peripheral circuit to maintenance busy set the peripheral circuit to maintenance busy when idle Release the peripheral circuit from maintenance busy Disable the alarm turn off present alarms Enable the alarms Restart system diagnostics on in-service CEC Alarm Command Codes2.4.1 The alarm codes and their functions are as follows: l Code 11 disables the alarm reporting circuits for alarms indicated by steady lighting of the ALARM LED on the Attendant Console. and any audible indication from devices connected to relay 5 of the Attendant Interface (ATT12) card in the PEG. Alarm reporting by the system remains disabled until enabled by entering the proper code. Alarms will still be recorded even while the alarm circuits are disabled. The fault reporting system is not affected by the alarm codes. The ALARM LED on the ESSD card will flash when a fault occurs. l Code 12 turns off any existing alarm indications (indicated by steady lighting of the ALARM LED) and any device connected to relay 5 of the ATT12 card). However, if the cause of the alarm has not been corrected before executing this code, the alarm indications will be repeated immediately afterwards. l Code 13 resets the alarm reporting system and enables the reporting of any recent or future alarms. This code is used to enable the alarm reporting circuit after it has been disabled (inhibited) by a Code 11. M-8081875210
TL-130200-1001MR Data Base2.4.2 When executed, maintenance busy codes remove for Peripheral Circuitsindividual circuits from service so that maintenance can be performed. the system data base is used to identify system hardware and to designate its status. the characteristics of a particular system are documented on a hard copy of the system data base. the identity information needed by the system for a maintenance busy code is: @ PEC number (always 0) . . 0 Circuit type (Table 2.9) Q Software Code ID Number per circuit 5210 Table 2.8Circuit-Type Codes for Maintenance Busy Functions SOFTWARE CIRCUIT TYPE CODEIDENTIFICATION NUMBERLine Trunk 000-FF 100-3FDTMF Receiver I2I00-07I1 Conference Bridge I 3I00-01IConsoleInterface Release Link Trunk (RLT) KEDU Printer 400-01 500-OF 600-01 700-01UnequippedI I FSoftware codes (circuit ID numbers) are stored in CEC memory on data page 0, designated as Table T2241 (Table 2.10). Circuit identity information is written into specific memory locations via the CPG program prior to system installation, or via general writes or Recent Change afterwards. When a maintenance busy code is executed, the system automatically accesses the addresses listed in T2241 (Table 2.10). Therefore, the circuit information must be entered into Table T2241 before MR code is executed. Two bytes of data must be entered for each circuit (1 through 8, Table 2.10). The first half of the first byte identifies the PEC number and the second half identifies the type of circuit. The second byte must have the software identification number, which is a piece of software information which represents a specific, individual circuit. (Refer to the hard copy of the local data base.) 8187M-81
TL-130200-1001,Table 2241 )Table 2.10) has been filled in; the appropriatemaintenance busy code can be executed. the maintenance busy codes and their functions are as follows: l Code E - Forces a peripheral circuit to maintenance busy. If a call using the specified circuit is in progress at the time the maintenance request is made, the call is dropped.l Code F - Sets a peripheral circuit to maintenance busy as soon as any calls using the circuit are completed. -..l Code 10 - Sets a circuit which is maintenance busy to the in-service status.BIT POSITIONS 7 6 54 32 1 0 ADDRESS DATACIRCUIT BYTE 16322 PEC 0CIRCUIT TYPE 1BYTE 26323 SOFTWARE ID ------------------------------------------------------------------------------------------------------------------------------------------------ 6324 PEC 0CIRCUIT TYPE 26325 SOFTWARE ID 6326 6327 PEC 0CIRCUIT TYPE 3SOFTWARE ID 6328 6329 PEC 0CIRCUIT TYPE 4SOFTWARE ID 632A 632BPEC 0CIRCUIT TYPE 5SOFTWARE ID 632C 632D PEC 0CIRCUIT TYPE 6SOFTWARE ID 6323 632FPEC 0CIRCUIT TYPE 7SOFTWARE ID 6323 632FPEC 0CIRCUIT TYPE 8SOFTWARE ID 5210
a/12- SOFTWAREBbD 87YElDENTIFICATIONg8bgg 8~g-a CIRCUIT TYPECODERANGEt k d tz...c3Trunk 100-7FS/%QDTMF Receiver 200-07&.&@aConference Bridge 300-01Console Interface400-o 1“hu@, if86 $ /Release Link Trunk (RLT)500-o 1 KEDU600-04s-m/ ’Printer700-04 __UnequippedF L. . .LTable 3-3. Layout of Table T2241, Data Page 0. BIT POSITIONSBYTE 1BYTE 2 11
5210TL-130200-1001 Successfully entered combined commands such as r--------------------------------------------,II1MREIL--------------------------------------------Awill receive response output such as r---------------m-0-e-m________-__------e---e,I I MR OE EOIIL--------------------------------------------JIn summary: MR = Maintenance Request Command OE =“FORCE” the Peripheral Circuit to Maintenance Busy EO = successful Completion Disk Backup of2.4.3 The following room status dynamic data is backed onto Room Statusdisk when the command MR 2E is entered from the system maintenance terminal: l Message Waiting o Do Not Disturb o Room-to-Room Blocking l “wake-Up Calls e Room Restrictions The Room Status data is saved in disk file XVHCM.After a system cold start, the following are loaded from disk: Generic Software Data Base Saved Room Status 8187M-83
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