NEC Neax 2400 Ipx Feature Programming Manual
Have a look at the manual NEC Neax 2400 Ipx Feature Programming Manual online for free. It’s possible to download the document as PDF or print. UserManuals.tech offer 1168 NEC manuals and user’s guides for free. Share the user manual or guide on Facebook, Twitter or Google+.
![Page 576
NEAX2400 IPX Feature Programming Manual
NDA-24297, Issue 1Page 533
MF Signaling - DID M-84
Service Conditions (cont’d)
4. Connection patterns to which MF signaling system can be applied are as follows:
a.) Individual call origination by station
b.) Attendant-to-Attendant connection
c.) Individual call origination by Attendant
d.) Call origination by Attendant via station/trunk
e.) MF line connection from CONSULTATION HOLD [C-17]
f.) Call transfer to MF line via Call Forwarding.
5. Connection to the...](http://img.usermanuals.tech/thumb/54/84273/w64_nec-neax2400-ipx-feature-programming-manual_d-575.png "Page 576
NEAX2400 IPX Feature Programming Manual
NDA-24297, Issue 1Page 533
MF Signaling - DID M-84
Service Conditions (cont’d)
4. Connection patterns to which MF signaling system can be applied are as follows:
a.) Individual call origination by station
b.) Attendant-to-Attendant connection
c.) Individual call origination by Attendant
d.) Call origination by Attendant via station/trunk
e.) MF line connection from CONSULTATION HOLD [C-17]
f.) Call transfer to MF line via Call Forwarding.
5. Connection to the...")
NEAX2400 IPX Feature Programming ManualPage 528NDA-24297, Issue 1 M-48 Multi Channel Recording - DAT Operating Procedure (cont’d) c.) Press # and enter the message number that has been assigned in the AAST command; receive service set tone. The service set tone continues for 3 seconds. d.) Start your recording when the service set tone is stopped. e.) Replace the handset to finish recording. Note:The recording length is a multiple of 2 (= 2n sec). 8. Playback of a message for ACD a.) Lift a handset; receive dial tone. b.) Dial the MULTI CHANNEL RECORDING (REPLAY) access code from the station; receive special dial tone. c.) Press # and enter the Message Number that has been assigned in the AADT command.REC 15 Message Number RECORDING START DDD 1 Recording Time Note RECORDING END In 5 seconds (Time Display) REPLAY (Time Display) REPLAY 15 Message Number
NEAX2400 IPX Feature Programming Manual NDA-24297, Issue 1Page 529 Multi Channel Recording - DAT M-48 Operating Procedure (cont’d) d.) A recorded message of the designated Message Number for ACD is automatically played back. e.) Replace the handset to finish playback of the recorded message. Note:Even though the recording of a message has been finished, playback of the trunk cannot be accepted until dubbing of the message to the remaining trunks is complete. Service Conditions 1. Any entry of RT, TK, UCD Controlling Station, and Message Number that has not been assigned results in reorder tone (ROT) connection. The values that each parameter can take fall into the ranges: RT: 001 - 999 TK: 000 - 255 Message Number: 01 - 58 2. The maximum recording length is 60 sec (30 sec in the case of UCD). 3. This feature is not effective for trunks being dubbed or placed in busy. 4. A user cannot record a message to a trunk in which a recording/dubbing is being made. 5. When a user encounters Digital Announcement Trunk-All Busy, after dialing RT/TK/UCD Controlling telephone number/Message Number from the terminal, the user hears a busy tone. 6. After completion of dialing RT/TK/UCD Controlling telephone number/Message Number, a user hears the service set tone. In this instance, if the designated trunk is making a dub or being dubbed, the dubbing is stopped. When the user goes on-hook during the service set tone, the dubbing is also stopped. 7. A message is recorded in the following sequence. As illustrated below, 1.5 sec after the service set tone and 1 sec before going on-hook are not recorded.REPLAY START In 5 seconds DDD 1 Replay Time (Time Display) SST REC STARTS SST NO TONE MESSAGEREC ENDS 1.5 sec1.5 sec NO TONEON-HOOK
NEAX2400 IPX Feature Programming ManualPage 530NDA-24297, Issue 1 M-48 Multi Channel Recording - DAT Service Conditions (cont’d) 8. When the system encounters a busy trunk in an attempt to make a dubbing of the message to the remaining trunks, the trunk is retried after a 16 second interval. Each trunk is attempted a maximum of 16 times. If the final attempt is rejected because of busy, no further dubbing attempts will be made. 9. Only the portion in which a message has been recorded is played back. 10. The dubbing time is calculated by the following equation: (Dubbing Time) = (Recording time + 2 sec) x (Number of Trunk). Refer to the following table to obtain the approximate time for dubbing: 11. This feature is not available to access a 4-DAT trunk through FCCS link. Programming STEP 1:ANPD- Assign Number of Necessary Digits (NND) for the 1st digit of the access code of MULTI CHANNEL RECORDING. STEP 2:ASPA- Assign access codes for the following Service Code Appendix (SSCA). SRV SIDA SSCA 66 (= MULTI CHANNEL RECORDING ) 68 (= MULTI CHANNEL RECORDING ) STEP 3:ASFC- For this feature, Service Feature Restriction data must be entered on a Service Feature Class (SFC) basis. SFI 87 (= MULTI CHANNEL RECORDING ) 90 (= MULTI CHANNEL RECORDING ) STEP 4:ARTD- Assign Route Class Data for an announcement trunk. STEP 5:AT R K- Assign the announcement trunk data. STEP 6:MBTK- Assign the Make Idle status to the announcement trunk. DUBBING TIMENUMBER OF TRUNK 110152063 1 6 seconds 8 80 120 160 504 8n 16 seconds 18 180 270 360 1134 18 x 1 30 seconds 32 320 480 640 2016 32 x 1 46 seconds 48 480 720 960 3024 48 x 1 60 seconds 62 620 930 1240 3906 62 x 1 EXECUTION OF DUBBING 16 sec16 sec16 sec (BUSY) (BUSY) (BUSY) (BUSY) (BUSY) RETRY #1 RETRY #2 RETRY #16TIME
NEAX2400 IPX Feature Programming Manual NDA-24297, Issue 1Page 531 Multi Channel Recording - DAT M-48 Programming (cont’d) STEP 7:APAD- Assign the PAD control data. KIND T (= Assignment of PAD data for dubbing) S (= Assignment of PAD data for playback)
NEAX2400 IPX Feature Programming ManualPage 532NDA-24297, Issue 1 M-84 MF Signaling - DID M-84 MF Signaling - DID General Description In the Associated Channel Interoffice Signaling system, this feature allows use of selective codes of Multifrequency (MF) signals. MF - (ANSI) codes: A total of 15 codes are available by combining two out of six frequencies. (ANSI) Operating Procedure No manual operation is required. Service Conditions 1. When using MF signaling system, Least Cost Routing (LCR) or Register Sender LCR (LCRS) must be assigned. 2. Even when LCRS is assigned, digit outpulsing to the distant office is not started until all digits have been received when the signaling is MF. If there is DP or PB lines among alternate routes, an outgoing call may be originated by seizing a DP or PB line, even when the route advance sequence for that line is lower than MF lines. When the route advance sequence of MF to DP or PB is predetermined, LCR must be assigned in the numbering plan. 3. Unless otherwise specified, MP starting at termination of an incoming call will be activated upon receiving an ST signal. CODE CCITT/ BELL0 (700HZ)1 (900HZ)2 (1100HZ)4 (1300HZ)7 (1500HZ)K (1700HZ) 11XX 22X X 33 XX 44X X 55 X X 66 XX 77X X 88 X X 99 X X 10 0 X X 11C 11XX 12C 12XX 13KP 1XX 14KP 2XX 15 ST X X
NEAX2400 IPX Feature Programming Manual NDA-24297, Issue 1Page 533 MF Signaling - DID M-84 Service Conditions (cont’d) 4. Connection patterns to which MF signaling system can be applied are as follows: a.) Individual call origination by station b.) Attendant-to-Attendant connection c.) Individual call origination by Attendant d.) Call origination by Attendant via station/trunk e.) MF line connection from CONSULTATION HOLD [C-17] f.) Call transfer to MF line via Call Forwarding. 5. Connection to the following services is not available: a.) Call origination services to MF lines, such as, OUTGOING TRUNK QUEUING b.) Call termination services from MF lines, such as, UCD [U-1] c.) Call Waiting, REMOTE ACCESS TO SYSTEM [R-2]. 6. Assignment of MF signaling system or DP, PB signaling system can be determined on a per route basis. 7. A PA-8RSTK (8RST) circuit card is required for performing this service. Programming STEP 1:ASYD- System 1, Index 234, Bit 0. (0) No reverse-type connection acknowledgment STEP 2:ANPD- Assign the first digit of the MF line access code. STEP 3:ASPA- Assign the LCR or LCR (S) access code by providing a dummy route. STEP 4:AMND- Assign the maximum number of necessary digits to the Dial (Area/Office) Code. STEP 5:ARNP- Assign the access code to the route number. When multiple access codes are present by alternative routing, set one of them. STEP 6:ARTD- MF line- Assign the following data, depending on the trunk type, as shown below: Dummy route-Assign 1 at all times for CDN 13:AC. The route data of the dummy route is TCL = 1, AC=1andL/T=1. For the others, assign 0 in all cases. Assign the following route class data to the route of the MF line. TCMN = 0, TCMC = 0, MFSP: MF Sending Speed. KPST: Duration of KP sending, KPPT: Pause after KP sending, CNI: CNI Calling Number Identification format (=1) Assign CDN 22:CNI = 1. STEP 7:AT R K- MF line-Assign the LENS data of each trunk. MF Register/Sender-Assign the following data to the LENS of the PA-8RSTK circuit card. RT = 904: MF Register RT = 905: Sender TRUNK TYPE OSGS ONSG ISGS INSG LSG DISPLAY OGT 7 4 0 0 5 1 ICT 0 0 7 4 5 1 BWT 7 4 7 4 5 1
NEAX2400 IPX Feature Programming ManualPage 534NDA-24297, Issue 1 M-84 MF Signaling - DID Programming (cont’d) STEP 8:AFRS- Assign the number Pattern Code (NPC) and Outgoing route selection pattern (OPR) to the dummy route. STEP 9:AO PR- Assign the route number, including the alternative route to the outgoing route selection pattern (OPR). Assigns the number of skipped digits and pattern number location (PNL) to each route. STEP 10:ARSC- Release the dummy route and station connection restriction. Release the connection restriction on the route of the MF line and station. FCCS Programming This data setting describes only the additional or replacement commands used to activate FCCS services. When used as an FCCS feature, these commands replace the non-network commands (for example, AAED is replaced by AAEDN). Note that the data setting for FCCS service varies depending on the node. Note STEP 1:ANPDL- Assign the first digit of the MF line access code. STEP 2:ASPAL- Assign the LCR or LCR (S) access code by providing a dummy route. STEP 3:ARNPL- Assign the access code to the route number. When multiple access codes are present by alternative routing, set one of them. STEP 4:ARTDN- MF line- Assign the following data, depending on the trunk type, as shown below: Dummy route-Assign 1 at all times for CDN 13:AC. The route data of the dummy route is TCL = 1, AC=1andL/T=1. For the others, assign 0 in all cases. Assign the following route class data to the route of the MF line. TCMN = 0, TCMC = 0, MFSP: MF Sending Speed. KPST: Duration of KP sending, KPPT: Pause after KP sending, CNI: CNI Calling Number Identification format (=1) Assign CDN 22:CNI = 1. STEP 5:AFRSL- Assign the number Pattern Code (NPC) and Outgoing route selection pattern (OPR) to the dummy route. STEP 6:AO PRL- Assign the route number, including the alternative route to the outgoing route selection pattern (OPR). Assigns the number of skipped digits and pattern number location (PNL) to each route. STEP 7:ARSCN- Release the dummy route and station connection restriction. Release the connection restriction on the route of the MF line and station. Note:When using ASYDL or ASYDN to program an FCCS feature, the basic programming of ASYD is required in addition to ASYDL or ASYDN. TRUNK TYPE OSGS ONSG ISGS INSG LSG DISPLAY OGT 7 4 0 0 5 1 ICT 0 0 7 4 5 1 BWT 7 4 7 4 5 1
NEAX2400 IPX Feature Programming Manual NDA-24297, Issue 1Page 535 Message Waiting Indication - DtermM-85D M-85D Message Waiting Indication - Dterm General Description This feature allows Message Waiting (MW) information to be displayed on the middle line (24 digits) of the LCD. Operating Procedure No manual operation is required. Service Conditions 1. The LCD displays the following information, when MESSAGE WAITING INDICATION - Dtermis activated: 2. When this service is assigned to a D termwith a 1-line LCD, the service is not available, and the display remains unchanged. 3. This service can be controlled via MAT command program. 4. This service is available only when OAI service is not available (SYS1, Index=79, b6=1). When OAI service is available (SYS1, Index=79, b6=0), the information cannot be displayed on the lower line of LCD, but will be displayed on the upper line. 5. While Message Waiting information control is being executed to a D termequipped with a 2-line LCD by this service, time information is not displayed on the LCD. When Message Waiting information control is cancelled, the time information display is resumed. 6. For the FCCS network, this feature is available for a telephone number having less than 7 digits. Programming STEP 1:ASYD- System Data 1, Index 79, Bit 6 = 1. STEP 2:AKYD-AssignthefollowingdatatotheD termthat executes this service. (MWD = 1: Message Waiting Indication in Service) FCCS Programming No unique programming is required for the FCCS network. Initial Display (Time Display)10:00 AM FRI 01 JAN 1999 MW When controlled by MCI, Attendant or station
NEAX2400 IPX Feature Programming ManualPage 536NDA-24297, Issue 1 M-101 MF ANI to SMDR M-101 MF ANI to SMDR General Description This feature allows an office receiving ANI information by means of MF signal to output the information to the expanded SMDR area. Operating Procedure No manual operation is required. Service Conditions 1. Output conditions are same as current conditions of MF ANI. (i.e., charging information for incoming calls is output only). 2. About the expanded output format, refer to SMDR OUTPUT EXPANSION-ANI/CPN[S-129]. 3. When the tandem connection is established through CCIS, the maximum digits of ANI information output to the SMDR port are 16. Programming Also see TRUNK LINE APPEARANCE[T-23]for information on how to accommodate C.O. line on aDtermline/feature key. STEP 1:ASYD- System Data 1, Index 241, Bit 4. 0/1 = No ANI output to SMDR/ANI output to SMDR. System Data 1, Index 241, Bit 6. 0/1 = When the length of Caller ID exceeds the limit, only the former/ latter part of data appears on the LCD. System Data 1, Index 390, Bit 0. Caller ID display pattern on the LCD. 0/1 = Calling Number/Calling Name has priority. System Data 1, Index 390, Bit 2. when using D term2-line LCD, the lower LCD can be used for displaying Caller ID. 0/1 = Out/In service. When Calling Number is output to SMDR, the following expanded format is used. H = Origination I = Termination J = Station-to-Station S T XOKH / I / J ! OFFICE CODE OF CALLED PARTY (FOR CCIS)AUTH CODE Identifier: 0 = Output is not available 1 = Displayed 2 = Display denied 3 = Service is not available 4 = Origination from public pay phone Note: For 0, 2 and 3, the ANI number is not output. AANI NO.ZE T X A = ANI Information Z = End of SMDR Information 1 96 104 129 130 131 1622
NEAX2400 IPX Feature Programming Manual NDA-24297, Issue 1Page 537 MF ANI to SMDR M-101 Programming (cont’d) System Data 1, Index 288, Bit 5. Expanded SMDR Output for SMDR A Apparatus. 0/1 = Out/In Service. System Data 1, Index 290, Bit 5. Expanded SMDR Output for SMDR B Apparatus. 0/1 = Out/In Service. System Data 1, Index 292, Bit 5. Expanded SMDR Output for SMDR C Apparatus. 0/1 = Out/In Service. System Data 1, Index 294, Bit 5. Expanded SMDR Output for SMDR D Apparatus. 0/1 = Out/In Service. System Data 1, Index 296, Bit 0. Output of Calling Number (ANI Information). 0/1 = Out/In Service. Assign data“1”. System Data 1, Index 300, Bit 0. 0/1 = Billing information is sent to the Main Node in Expanded SMDR format if CENTRALIZED BILLING - CCIS [C-55]. STEP 2:ASFC- Assign a Service Feature Class that allows SFI 14 to stations allowed STATION MESSAGE DETAIL RECORDING [S-10]. STEP 3:ARTD- Assign route class data for the C.O. trunk. RT: 1 15-LSG :3 50-DPLY :1 When Calling Number is output to SMDR: RT: 1 10-SMDR :1 Assign Route Class Expansion Data: CNI - 1. SVI: 1645 = 1 When My Line is Prime Line, Call Id Change Display Key is effective while terminating or in conversation. When My Line is not Prime Line, Call Id Change Display Key is effective while in conversation. However, display pattern returns to the original setting when answering, holding, or transferring the call. STEP 4:AT R K- Assign trunk data for the C.O. trunk. STEP 5:MBTK- Cancel the make busy of the C.O. trunk. STEP 6:AKYD- Assign Call Id Change Display key. Assign Type:Function:CALL ID CHANGE DISPLAY [113]. When Call Id Change Display key is pressed, display pattern on the LCD assigned by ASYD command changes according to the conditions above. FCCS Programming This data setting describes only the additional or replacement commands used to activate FCCS services. When used as an FCCS feature, these commands replace the non-network commands (for example, AAED is replaced by AAEDN). Note that the data setting for FCCS service varies depending on the node. Note STEP 1:ASYDL- System Data 1, Index 576, Bit 0=1. Enable central SMDR polling method for fusion. System Data 1, Index 241, Bit 4. 0/1 = No ANI output to SMDR/ANI output to SMDR. System Data 1, Index 241, Bit 6. 0/1 = When the length of Caller ID exceeds the limit, only the former/ latter part of data appears on the LCD. System Data 1, Index 390, Bit 0. Caller ID display pattern on the LCD. 0/1 = Calling Number/Calling Name has priority. System Data 1, Index 390, Bit 2. when using D term2-line LCD, the lower LCD can be used for displaying Caller ID. 0/1 = Out/In service.