NEC Neax 2400 Ipx Isdn Feature Programming Manual
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NDA-24305 CHAPTER 6 Page 163 Revision 1.0 SUPPLEMENTARY SERVICE 1. ISDN TERMINAL (5 ESS) STEP 1: ASYD - Assign the protocol type of ISDN Terminal. SYS 1 Index 220 bit 0-bit 3: 1 (5 ESS) STEP 2: ANPD - Reserve a number level for a station number. STEP 3: ASPA - Assign Access Code for a station. STEP 4: ASDT - Assign a station number to B1 and B2 channel. TEC:23 (ISDN Terminal) 2. ISDN TERMINAL (NATIONAL ISDN1) STEP 1: ASYD - Assign the protocol type of ISDN terminal. SYS 1 Index 220 bit 0-bit 3=5 (N-ISDN) STEP 2: ANPD - Reserve a number level for a station number. STEP 3: ASPA - Assign Access Code for a station. STEP 4: ASDT - Assign a station number to B1 and B2 channel. TEC: 23 (ISDN terminal) STEP 5: AITD - Assign ISDN terminal data and FID to only B1 channel . Note 2 Note 1 FUNC: 1 (Terminal Data) TN: ISDN Term. ILC N-ISDN1ILC
CHAPTER 6 NDA-24305 Pag e 1 64 Revision 1.0 SUPPLEMENTARY SERVICE STN: TYPE: 1 (N-ISDN1) FIDP: 1-31 (FID Pattern) FUNC: 2 (Feature Identifier Data) FIDP: 1-31 (FID Pattern) 1 Transfer: Note 3 Note 1: A PBX may send EPID (Endpoint Identification), for the terminal initialization, by receiving SPID (Service Profile Identification) from N-ISDN terminal, and may perform the supplementary service (Transfer) by FID (Feature Identifier) which has been set to each terminal. Note 2:If you assign (AITD) data to B2 channel, this feature will not work. Note 3:Assign “FID number” (Maximum two digits). Terminal Initial (1) A PBX receives INFO including SPID which was set by the terminal. SPID allows the user to be executed an automatic allocation by USID (User Service Identifier) and TID (Terminal Identifier). 2. After creating EPID, the PBX sends INFO including EPID. EPID including USID and TID is necessary for the identification of the terminal. N-ISDN1(1) INFO including SPID ILC(2) INFO including EPID
NDA-24305 CHAPTER 6 Page 165 Revision 1.0 SUPPLEMENTARY SERVICE 3. PRI STATION (H0) STEP 1: Assign the numbering (LCR) data to access to H0 terminal. STEP 2: ARTD - Assign the same route data as the data for Chapter 3, and arrange the following specific data to Bch and Dch route. CDN64 (NET)= 1 CDN65 (INT)= 5 (AT&T)/7 (NT) CDN66 (DC)= 15 CDN118(BOB)= 1 STEP 3: ATRK - Assign the trunk data for Bch. Note that the data setting for Dch is performed after STEP 6: ACIC1 command assignment. (Refer to Chapter 3.) STEP 4: ADPC - Assign PC (Point Code) to Bch route and Dch route. (Refer to the following example) RT=15 (Bch) PC=11 RT=16 (Dch) PC=11 H023B+D Bch:RT15 Dch:RT16PRT
CHAPTER 6 NDA-24305 Pag e 1 66 Revision 1.0 SUPPLEMENTARY SERVICE STEP 5: ACSC - Assign the location of DCH (Dch handler) and Bch. (Refer to the following example) STEP 6: ACIC1 - Assign CSCG corresponding to PC (Point Code). (Refer to the following example) PC=11 CSCG=132 STEP 7: ATRK - Assign the trunk data for Dch. STEP 8: ARTI - Assign the Trunk Application data. If the H0 terminal does not provide the initial setup procedure conforming to Q931 protocol, assign the following data. CDN 2 (RST)=3 Assignment of Restart 0: Restart Send per Individual Channel 1: – 2: – 3: Restart not Send Note:Circuit Card must be initialized after these assignment. PIM024 P R T Group No.09 11 08 10Dch Bch CSCG CICG DCH/CCH CSCG=132 0 00008 1 00008 2 00008 3 00008 4 00008 5 00008 6 00008 7 00008 CSCG=133 0 00008 1 00008 2 00008 3 00008 4 00008 5 00008 6 00008 7 0008
NDA-24305 CHAPTER 6 Page 167 Revision 1.0 SUPPLEMENTARY SERVICE 4. PRI STATION (H11) STEP 1: Assign the numbering (LCR) data to access to H11 terminal. STEP 2: ARTD - Assign the same route data as the data for Chapter 3, and arrange the following specific data to Bch and Dch route. CDN64 (NET)= 1 CDN65 (INT)= 5 (AT & T)/7 (NT) CDN66 (DC)= 15 CDN96 (H1)= 1 CDN118 (BOB)= 1 Note:Give the separate RT NO. to Bch of PRT and ILC respectively. STEP 3: ATRK - Assign the trunk data for Bch referring to the example below. Note that the trunk data for Dch is assigned after Step 6: ACIC1 command assignment. H112B+DBch:RT10 Dch:RT12 Bch:RT11ILC24B PRTNote Note:PA-ILCG is necessary for H11 (2B+D). PIM0I L C G24 P R T Group No.03 05 07 02 04 06 LENS ILCG (2B+D) B1 =000030 RT10 TK1 B2 =000031 RT10 TK2 Dch =000020 RT12 TK1 PRT (24B) B1 =000050 RT11 TK1 B24 =000077 RT11 TK24
CHAPTER 6 NDA-24305 Pag e 1 68 Revision 1.0 SUPPLEMENTARY SERVICE STEP 4: ADPC - Assign PC (Point Code) to Bch route and Dch route. (Refer to the following example)RT=10 (Bch) PC=10 RT=11 (Bch) PC=10 RT=12 (Dch) PC=10 STEP 5: ACSC - Assign the location of DCH (Dch handler) and Bch. (Refer to the following example) STEP 6: ACIC1 - Assign CSCG corresponding to PC (Point Code). (Refer to the following example) PC=10 CSCG=130 STEP 7: ATRK - Assign the Trunk data for Dch. S TEP 8: ARTI - As sign the T runk Appl ic ation data . N ote If the H11 terminal does not provide the initial setup procedure conforming to Q931 protocol, assign the following data. CDN 2 (RST)=3 Assignment of Restart 0: Restart Send per Individual Channel 1: – 2: – 3: Restart not Send Note:Circuit Card must be initialized after this assignment. Dch (ILCG) Bch (ILCG) PIM0 I L C G 24 P R T Group No. 03 05 07 02 04 06 Bch (PRT) Bch (ILCG) CSCGCICGDCH/CCH CSCG=130 0 00002 1 00002 2 00002 3 00002 4 00002 5 00002 6 00002 7 00002 CSCG=131 0 00003 1 00004 2 00003 3 00003 4 00003 5 00003 6 00003 7 00003
NDA-24305 CHAPTER 6 Page 169 Revision 1.0 CALLING PARTY RECOGNITION SERVICE (CALL FORWARDING-ALL CALLS/BUSY LINE/DON’T ANSWER) C-103 CALLING PARTY RECOGNITION SERVICE (CALL FORWARDING-ALL CALLS/BUSY LINE/DON’T ANSWER) 1. General Description This feature enables the PBX to transfer a direct incoming call from the ISDN network, when the called party has been set CALL FORWARDING-ALL CALLS/BUSY LINE/DON’T ANSWER, to the designated destination by identifying the calling subscriber number. For this feature, the calling subscriber number and the transfer destination must be assigned in advance. This feature is available for the analog station, D term and ISDN terminal. Note:The available CALL FORWARDING types are: CALL FORWARDING-ALL CALLS/BUSY LINE/ DON’T ANSWER. The CALL FORWARDING destination can be determined according to the BC (Bearer Capability). Bearer Capability Unrestricted Digital Data is not available. 2. Operating Procedure To set/cancel CALL FORWARDING from a station. 1. Lift a handset. 2. The station receives DT (Dial Tone). 3. Dial the access code of CALL FORWARDING-ALL CALLS/BUSY LINE/DON’T ANSWER. 4. The station receives SPDT (Special Dial Tone). 5. Dial its own station number. 6. The station receives SST (Service Set Tone). To set/cancel CALL FORWARDING from an ATT console. 1. Press a loop key on the console. 2. Enter the CALL FORWARDING access code. 3. Enter the tenant number of the station. 4. Enter the transferring station number. 5. Enter the transferring station number again. 6. Press the Release key. 3. Programming STEP 1: Assign the Basic Data for ISDN. (Refer to Chapter 3.) STEP 2: ASYD - System Data 1, Index 76, bit 0: Day/Night Table Development for CALLING PARTY RECOGNITION SERVICE. 0: Not Required (Common) 1: Required (Separate) STEP 3: ANPD - Assign the minimum necessary number of digits for the first number of the access code for CALL FORWARDING-ALL CALLS/BUSY LINE/DON’T ANSWER.Speech 3.1 kHz audio
CHAPTER 6 NDA-24305 Pag e 1 70 Revision 1.0 CALLING PARTY RECOGNITION SERVICE (CALL FORWARDING-ALL CALLS/BUSY LINE/DON’T ANSWER) STEP 4: ASPA - Assign an access code for CALL FORWARDING. CI: Common Status Index (N) SRV: Kind of Service (Type in SSC) SID: Service Feature Index 8- CALL FORWARDING-ALL CALLS (ENTRY) 9- CALL FORWARDING-ALL CALLS (CANCEL) 10- CALL FORWARDING-BUSY LINE (ENTRY) 11- CALL FORWARDING-BUSY LINE (CANCEL) 12- CALL FORWARDING-DON’T ANSWER (ENTRY) 13- CALL FORWARDING-DON’T ANSWER (CANCEL) STEP 5: ACNP - Assign Calling Party Number Pattern Information OG-IG: Outgoing/Incoming (Type in I = Incoming) RT: Route Number CNP: Calling Number Pattern (1~255) STEP 6: ACND - Assign the Digit Code of the Additional Number. CNP: Calling Number Pattern (1~255) Enter the same value which has been assigned in the ACNP command. SKIP: Skip Digit (0~24)-Number of digits for SID. ADD: Number of Digits of the Additional Number (0~24) Enter the number of digits (Number of digits for an access code to PRI) of the next parameter (= DC). DC: Digit Code of the Additional Number (0~24) Enter the access code which is used to initiate seizure of the ISDN trunk. STEP 7: AFCP - Assign the Call Forwarding Destination. (For More information, see the example on the next page). CALLING PARTY: (Max. 32 digits) Called Station Number ( Note 1) + ACC (Note 2) + Calling Party Number CFSI: CALL FORWARDING Service Feature (0~3) 0-CALL FORWARDING-ALL CALLS 1-CALL FORWARDING-BUSY LINE 2-CALL FORWARDING-DON’T ANSWER 3-DIRECT-IN TERMINATION ITC: Information Transfer Capacity (0~2) 0-Speech 1-Unrestricted (Digital Data) Note 3 2-Audio (Modem) CFD: Call Forwarding Destination (0~3) 0-Station 1-ATT 2-External 3-Not used STN: Station Number of Call Forwarding Destination (Max. 5 digits) Note 4 ADC: Abbreviated Digit Code (Max. 3 digits) Note 5
NDA-24305 CHAPTER 6 Page 171 Revision 1.0 CALLING PARTY RECOGNITION SERVICE (CALL FORWARDING-ALL CALLS/BUSY LINE/DON’T ANSWER) STEP 8: ASFC - Enter Service Feature Restriction Data SFI: Service Feature Index (1~127) 7-CALL FORWARDING ALL CALLS 8-CALL FORWARDING DON’T ANSWER 9-CALL FORWARDING BUSY LINE RES: Restriction Data 0/1 = Restricted/Allowed. STEP 9: ATNR - Enter Tenant Restriction Data between the transferring station and the transferred station. TRI: Tenant Restriction Index (0~15) 1-Assignment of CALL FORWARDING-ALL CALLS from a station RES: Restriction Data 0/1 = Restricted/Allowed. Note 1:Assign Called Station Number by the physical station number. PCS terminal’s number cannot be assigned here. Note 2:Enter the Access Code assigned in the ACND command (DC). Note 3:This data (=1) can be assigned when the CFSI is DIT (=3). Note 4:This parameter appears when the input data in the CFD is 0. Note 5:This parameter appears when the input data in the CFD is 2. Example: AFCP DAY/NIGHT: D TN: 1 CALLING PARTY 3511 + ACC 0471-82-4212 CFSI: 1 ITC: 0 CFD: 0 STN: 3611 *In this example, this feature is executed as follows: When the calling subscriber places call to station B, his/ her call will be transferred to station C if station B is BUSY.SID PBX ICT C A B 3611 3511I S D N (BUSY) SID: 0471-82-4212
CHAPTER 6 NDA-24305 Pag e 1 72 Revision 1.0 CALLING PARTY RECOGNITION SERVICE [DIRECT-IN TERMINATION (DIT) ] C-104 CALLING PARTY RECOGNITION SERVICE [DIRECT-IN TERMINATION (DIT) ] 1. General Description An Incoming Call from the ISDN network can be connected to the specific station, which can be assigned as a destination in advance, on a calling subscriber number basis without any assistance of an operator. This feature is automatically executed when no information has been received from the calling subscriber for addressing a specific terminal in the PBX. Note:The destination can be determined according to the BC (Bearer Capability). This feature is available for the analog station, Dterm and ISDN terminal 2. Operating Procedure No manual operation is required once feature has been programmed. 3. Programming STEP 1: Assign the Basic Data for ISDN. (Refer to Chapter 3.) STEP 2: ASYD - System Data 1, Index 76, b2: Day/Night Table Development for Call Forwarding Service by Calling Number Data 0: Not required (Common) 1: Required (Separate) STEP 3: ACOC - Assign the Central Office Code RT: Route Number TK: Trunk Number DC: Digit Code (4 digits) STEP 4: ACNP - Assign the Calling Number Pattern (CNP) OG/IC: Outgoing/Incoming (Enter = Incoming) RT: Route Number CNP: Calling Number Pattern (1~255) STEP 5: ACND - Assign the Digit Code of the Additional Number CNP: Calling Number Pattern (1~255) Enter same value which has been assigned in the ACNP command. SKIP: Skip Digit (0~24)-Number of digits for SID. ADD: Number of Digits of the Additional Number (0~24) Enter the number of digits (Number of digits for an access code to PRI) of the next parameter (=DC). DC: Digit Code of the Additional Number (0~24) Enter the access code which is used to initiate seizure of the ISDN trunk.