NEC Neax 2400 Ipx Office Data Specification
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NDA-24298 CHAPTER 4 Page 187 Issue 1 ASYDL : Assignment of System Data into Local DM (LDM) 1805 b0 (For IPX-UMG system) Periodic Refresh for office data copyNote 1 0/1 = Execute/Stop b1 (For IPX-UMG system) Partial copy every time office data is assigned 0 = ExecuteNote 1 1 = Not execute (data copy is executed by CBCD command b2 (For IPX-UMG system) Information of office data copy conditionNote 1 0/1 = -/Output System Message 0 b3 ~ b7Not used 806-831 Not used 832Fusion Point Code (FPC) of the node connected with Message Center (MC) in the same MC group FPC: 1 ~ 253 (01 Hex. ~ FD Hex) Note:Valid for software version 2 or later. 833 b0Interface type for MCI (Message Center Interface) 0/1 = RS-232C interface/LAN interfaceNote 2 b1MCI output text format 0/1 = IMS (ICS) format/IPX formatNote 2 b2 The way to output the call information of LAN Interface for MCI (when Max. 2 MCs are normally connected). 0/1 = Dual Output/Single Output b3 Output the System Message related to connection down when the system changeover occurs on LAN Interface for MCI. 0/1 = Invalid/Valid b4 ~ b7Not used Note 1:When office data is assigned by the MAT during IPX-UMG system is in operation, office data (DM/LDM/NDM) copy is executed from ACT side SP to ST-BY side SP/LP. Every time office data is assigned by the MAT, the part of the data is copied to ST-BY side SP and each LP when ASYDL, INDEX805, b1=0. Also office data copy is to be executed when the following operation is performed: System Initialization Initialization for each Processor Execution of the CBCD command Note 2:When ASYDL SYS1 INDEX833 b0 = 0 (RS-232C interface for MCI) is assigned, either ICS or IPX text format for MCI output can be selected in b1. When b0 = 1 (LAN interface for MCI) is assigned, b1 data must be fixed to data “1 = IPX format.” SYSTEM DATA TYPE (SYS)SYSTEM DATA INDEX (INDEX) 512 - 1535DATA (DATA) 00 - FF (Hex)BIT CORRESPONDING DATA SYSTEM DATA CONTENTS DATA 0/1BIT
CHAPTER 4 NDA-24298 Page 188 Issue 1 ASYDL : Assignment of System Data into Local DM (LDM) 1834 b00/1 = -/MC0 with LAN interface is used b10/1 = -/MC1 with LAN interface is used b3 ~ b7Not used 835 ~ 863 Not used 864 b00/1 = Built-in IP, ACDP is not used/used b1 Output the system message when TCP-IP connection is disconnected. 0/1 = Effective/Ineffective b2 AGENT ANYWHERE 0/1=Out of Service/In Service Note:This data is effective only when Multiple ACDP Service is used. b3Multiple ACDP 0/1 = Out of service/In service b4, b5 Maximum number of SMFN port 00 = 2 port (standard) 01 = 8 port b6FLF error detail indication 0/1 = Out of service/In service b7Not used 865 b0 Fusion Point Code (FPC) of the node providing IP. (Assign 0 when the ACD service is activated in the self node only) FPC: 1 ~ 253 (01 Hex. - FD Hex) Note:This data is necessary at all nodes. Assign the self FPC at the terminating node.b1 b2 b3 b4 b5 b6 b7 866 b0 Fusion Point Code for Centralized ACDP Valid entries 1 - 253 (1h - FDh) This index assigns the Centralized Fusion Point Code for ACDP. (For non-Fusion ACDP, assign 00.) Note 1, Note 2b1 b2 b3 b4 b5 b6 b7 Note 1:This data is necessary at all nodes. Assign the self FPC at the terminating node. Note 2:When OAI and ACD functions are used together in a Netfusing network, enter the same FPC value in INDEXes 865 and 866. SYSTEM DATA TYPE (SYS)SYSTEM DATA INDEX (INDEX) 512 - 1535DATA (DATA) 00 - FF (Hex)BIT CORRESPONDING DATA SYSTEM DATA CONTENTS DATA 0/1BIT
NDA-24298 CHAPTER 4 Page 189 Issue 1 ASYDL : Assignment of System Data into Local DM (LDM) 1867 ~ 927 Not used 928(For IPX-U system) Fusion Point Code (FPC) of the connecting ISW. (For IPX-UMG system) Fixed to “0”. Note 929 b0 ~ b3 TSW card accommodation on ISW in IPX-U system or on ISWR in IPX-UMG system. 0/1 = Not accommodated/Accommodated b0: TSW0 b2: TSW2 b1: TSW1b3: TSW3 Note b4 ~ b7Not used 930 ~ 933FPC of the LN connected to TSW0 in the ISW. (For IPX-UMG system) Logical PBI Number of LMG connected to TSW0 in the ISWR. Note 1:This data is available when SYS1, INDEX929, b0=1 is assigned. Note 2:The different FPC can be assigned for 2 Kbps PCM data transmission at each INDEX. 934 ~ 937FPC of the LN connected to TSW1 in the ISW. (For IPX-UMG system) Logical PBI Number of LMG connected to TSW1 in the ISWR. Note 1:This data is available when SYS1, INDEX929, b1=1 is assigned. Note 2:The different FPC can be assigned for 2 Kbps PCM data transmission at each INDEX. Note: This data is necessary for the IPX-U (16-IMG type) or IPX-UMG system. SYSTEM DATA TYPE (SYS)SYSTEM DATA INDEX (INDEX) 512 - 1535DATA (DATA) 00 - FF (Hex)BIT CORRESPONDING DATA SYSTEM DATA CONTENTS DATA 0/1BIT
CHAPTER 4 NDA-24298 Page 190 Issue 1 ASYDL : Assignment of System Data into Local DM (LDM) 1938 ~ 941FPC of the LN connected to TSW2 in the ISW. (For IPX-UMG system) Logical PBI Number of LMG connected to TSW2 in the ISWR. Note 1:This data is available when SYS1, INDEX929, b2=1 is assigned. Note 2:The different FPC can be assigned for 2 Kbps PCM data transmission at each INDEX. 942 ~ 945FPC of the LN connected to TSW3 in the ISW. (For IPX-UMG system) Logical PBI Number of LMG connected to TSW3 in the ISWR. Note 1:This data is available when SYS1, INDEX929, b3=1 is assigned. Note 2:The different FPC can be assigned for 2 Kbps PCM data transmission at each INDEX. 946(For IPX-U system) FPC of the LN on which DLMX card is mounted. (For IPX-UMG system) LP PBI No. of the LMG where DLMX card is mounted. 947 ~ 960 Not used 961 b0 ~ b3 Message sending cycle to request the state of each IMG. 0 = 2 sec. 1 = 5 sec. 2 = 10 sec. 3 = 30 sec. 4 = 1 min. 5 = 3 min. 6 = 5 min. 7 = 10 min. 8-15 = 2 sec. b4 ~ b7Not used 962 ~ 1535 Not used SYSTEM DATA TYPE (SYS)SYSTEM DATA INDEX (INDEX) 512 - 1535DATA (DATA) 00 - FF (Hex)BIT CORRESPONDING DATA SYSTEM DATA CONTENTS DATA 0/1BIT
NDA-24298 CHAPTER 4 Page 191 Issue 1 AUNT : Assignment of Unit Data AUNT: Assignment of Unit Data 1. General This command assigns the Unit data. It also assigns miscellaneous circuit cards to be mounted in LPM. 2. Precautions Prior to assigning the number of the unit data using this command, the ASYD command should be properly assigned. The applicable data range in the Module Group Number (MG) parameter is designated by the ASYD command, SYS1, INDEX 0. Since the PFT is a mechanical action circuit, the PFT operates properly without any data assignment. However, if the “PFT control by external key” is required, the following data assignments are needed: (a) AUNT command, TYPE=2 (PFT) (b) AEKD command (c) ANCD command If the number of the unit’s data deletion is required, you should clear all the station/trunk data within the unit using the ASDT/ATRK commands.
CHAPTER 4 NDA-24298 Page 192 Issue 1 AUNT : Assignment of Unit Data 3. Data Entry Instructions 1 = Port Interface Module (PIM) 2 = Power Failure Transfer (PFT) Circuit Card 3 = Not used 4 = Line Test Circuit CardTYPE UNIT TYPE INDICATION (TYPE) 1-4 MODULE GROUP NUMBER (MG)DATA OF UNIT (UNIT) 1/2DATA OF CIRCUIT CARD (PKG) 1/2DATA OF LINE TEST (ON/OFF) 1/2 This parameter appears when TYPE = 1. 1 = Mounted 2 = Not mountedUNIT This parameter appears when TYPE = 2-4 1 = Mounted 2 = Not mounted 0 1 2 011 1 10 1 2 PKG Enter the MG number to be accommodated in the PIM (or the circuit card)MG This parameter appears when TYPE = 4 1 = ON 2 = OFFON/OFF No. DATA No. DATA
NDA-24298 CHAPTER 4 Page 193 Issue 1 AUNT : Assignment of Unit Data 4. Data Sheet (a) Port Interface Module (PIM) (TYPE = 1) (b) Power Failure Transfer Circuit Card (PFT) (TYPE = 2) (c) Line Test Circuit Card (TYPE = 4) MODULE GROUP NUMBER (MG)UNIT TYPE INDICATION (TYPE) 1 – 4DATA OF UNIT 1/2 NO. DATA 10 1 2 3 MODULE GROUP NUMBER (MG)UNIT TYPE INDICATION (TYPE) 1 – 4DATA OF CIRCUIT CARD (PKG) 1/2 NO. DATA 0 21 2 3 MODULE GROUP NUMBER (MG)UNIT TYPE INDICATION (TYPE) 1 – 4REMARKS Mounted/Not Mounted 4
CHAPTER 4 NDA-24298 Page 194 Issue 1 AIOC : Assignment of IOC Port Data AIOC: Assignment of IOC Port Data 1. General This command assigns the I/O port attribution data. 2. Precautions 1. When the I/O port attribution is changed, the IOC card is initialized. 2. Various parameters appear on the display according to the data in the TERMINAL parameter.
NDA-24298 CHAPTER 4 Page 195 Issue 1 AIOC : Assignment of IOC Port Data 3. Data Entry Instructions IOC port number (#0 or #1 card is specified by IOC switch settings, #0 IOC card has port numbers 0 through 3, #1 has 4 through 7) IOC PORT NUMBER (IOC) 0-7TERMINAL KIND (TERMINAL) 0-6IOC TERMINAL (SPEED) 0-6(PARITY BIT) 0-3(STOP BIT) 0-3(CHARACTER BIT) 0/1 SPEED PARITY BIT STOP BIT CHARACTER BIT SYSTEM MESSAGE SCAN SERVICE (SYMSCAN) 0/1TYPE OF MAT INTERFACE (MTYPE) 0 (SPEED) 0-6 SYMSCANSPEEDMTYPE 0 = Not used 2 = MAT 4 = SMDR (Free wheeling) 5 = SMDR (BSC) 0 = Default (4800bps) 1 = 300 bps 3 = 1200 bps 5 = 4800 bps0 = Non Parity 1 = Odd Parity 2 = Even Parity 3 = Non Parity0 = 2 bits 1 = 1 bit0 = 8 bits 1 = 7 bits 0 = Out of service 1 = In service0 = MS-Windows based MAT 2 = 1+1/2 bits 3 = 2 bits 2 = 600 bps 4 = 2400 bps 6 = 9600 bps 0 = Default (4800bps) 1 = 300 bps 3 = 1200 bps 5 = 4800 bps2 = 600 bps 4 = 2400 bps 6 = 9600 bps1 = Printer/MCI 3 = CMAT 6 = ATM module 7 = PMS 8 = H/M Printer 9 = ATT0 Note : 7~10 is available for Hotel System.10 = ATT1 TERMINAL=1 (Printer/MCI) TERMINAL=2 (MAT)/3 (CMAT)
CHAPTER 4 NDA-24298 Page 196 Issue 1 AIOC : Assignment of IOC Port Data PROTOCOL0 = Free WheelingPARITY BIT0 = Non Parity SPEED0 = Default (4800bps) 1 = 300 bps 3 = 1200 bps 5 = 4800 bps2 = 600 bps 4 = 2400 bps 6 = 9600 bpsSTOP BIT 0 = 2 bits 1 = 1 bit 2 = 1+1/2 bits 3 = 2 bitsCHARACTER BIT0 = 8 bits CHARACTER BIT0 = 8 bits 1 = 7 bitBUSY SIGNAL0 = (+)1 = (-) SYNC CHARACTER 0 = Bi-sync 1 = Mono-syncSYNC0 = ST1 1 = ST2 CHARACTER BIT0 = 8 bits 1 = 7 bitATM0 = #1 1 = #2 1 = #3 (SPEED) 0-6 (SPEED) 0-6 (PROTOCOL) 0-3 (PROTOCOL) 0-3(PARITY BIT) 0-3 (PARITY BIT) 0-3(STOP BIT) 0-3 (STOP BIT) 0-3(SYNC) 0/1(CHARACTER BIT) 0/1 (CHARACTER BIT) 0/1(SYNC CHAR- ACTER) 0/1(BUSY SIGNAL) 0/1 SPEED0 = Default (4800 bps) 1 = 300 bps 3 = 1200 bps 5 = 4800 bps2 = 600 bps 4 = 2400 bps 6 = 9600 bps SPEED0 = Default (4800 bps) 1 = 300 bps 3 = 1200 bps 5 = 4800 bps2 = 600 bps 4 = 2400 bps 6 = 9600 bps PARITY BIT0 = Non Parity 1 = Odd Parity 2 = Even Parity 3 = Non Parity STOP BIT 0 = 2 bits 1 = 1 bit 2 = 1+1/2 bits 3 = 2 bits PARITY BIT0 = Non Parity 1 = Odd Parity 2 = Even Parity 3 = Non ParitySTOP BIT 0 = 2 bits 1 = 1 bit 2 = 1+1/2 bits 3 = 2 bits (SPEED) 0-6(PARITY BIT) 0-3(STOP BIT) 0-3(CHARACTER BIT) 0/1ATM MODLE NUMBER (ATM) 0-2 TERMINAL=4 (SMDR FREE WHEELING) TERMINAL=5 (SMDR BSC) TERMINAL=6 (ATM Module) PROTOCOL0 = Free wheeling 1 = BSC Pooling 2 = BSC Contention