NEC Neax 2400 Ipx Isdn Feature Programming Manual

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PAGING TRANSFER-PRI
STEP 2: ARTD - Assign the paging route as shown below:
STEP 3: ATRK - Assign the LENs, Paging Trunk Route Number, Trunk Number, and Tenant Number.
STEP 4: MBTK - Assign the Make Idle status to the Paging trunks.
STEP 5: ANPD - Reserve levels for trunk access and for PAGE answer and cancel codes. Assign the trunk
access level for a Connection Indexed (CI) of Normal and momentary switchhook flash
(Hooking) service. Number of Necessary Digits is Max.3. Busy Lamp Field is not
activated.
If the PAGE answer and cancel codes reside in a level reserved for features, then assign
according to a predetermined numbering plan. If the PAGE answer and cancel codes reside
in a separate level, then assign for a Connection Index (CI) of Normal only. The number of
Necessary Digits is usually two and the Busy Lamp Field is off.
STEP 6: ASPA - Assign Paging Route access code. Type of Service, SRV = OGC. Assign the proper route
number that is associated with this Paging trunk access code.  Assign for CI  = normal and
Hooking.
Assign the PAGE answer and cancel access code. Type of Service, SRV = PAGA and SRV
= PAGC. Assign the proper route number that is associated with this access code. Assign
for CI = normal.
STEP 7: ARSC - Allow RRI: 2 & 3 access to this route for the RSCs assigned to stations given access to the
paging routes. Allow RRI: 0 & 1 on the incoming route to be transferred to the RSCs given
access to the page answer. 
STEP 8: ASFC - Assign station to receive PAGING TRANSFER a Service Feature Class that allows SFI =
38. This allows a station to dial PAGE answer codes.  RT  :  1
1-OSGS : 2 2-ONSG : 3 5-TF : 1 6-TCL : 8 7-L/T : 1
8-RLP : 2 15-LSG : 0
Data other than the above should be set “0” (default data). 
						

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PRI FAILSAFE ROUTING
P-49 PRI FAILSAFE ROUTING
1. General Description
When call origination via ISDN network is not available due to failure, etc., this feature allows the call to be
placed via alternative route (Public Switched Network.)
2. Operating Procedure
No manual operation is required.
3. Programming
STEP 1: ARTD - Assign the expansion route class data for dummy route. The expansion route class data of
the dummy routed is ADVPRA (CDN : 111) = 1. 
						

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RESTRICTION FROM OUTGOING CALLS-PRI
R-35 RESTRICTION FROM OUTGOING CALLS-PRI
1. General Description
This feature automatically denies preselected station lines within the system the ability to place outgoing ISDN
calls without Attendant assistance.
2. Operating Procedure
Operation is fully automatic in that restricted stations; will receive Reorder Tone upon attempting to place a
restricted call.
3. Programming
STEP 1: ASYD - System Data 1, Index 75: Should the following commands be developed for Day/
Night? 0/1:No/Yes.
Bit 0-Develop ARSC command for Day/Night?
Bit 3-Develop ATDP command for Day/Night?
System Data 2, Index 1, bits 4&5: Should a Toll-Restricted station be routed to the
Attendant Console or receive Reorder Tone?
Reorder Tone: bit 4 = “0”, bit 5 = “0”.
Attendant Console: bit 4 = “0”, bit 5 = “0”.
ROUTE RESTRICTION CLASS
STEP 2: ARSC - Sixteen different Route Restriction Classes may be constructed to either allow, deny, or toll
restrict access to the various routes of the system. Assign the RSC using Route Restriction
Indexes 2 (outgoing via the Attendant Console) and 3 (Outgoing Direct).
STEP 3: ASDT - Assign Tenant No., Station No., LENs, and the Telephone Equipment Class (TEC) to the
station. This is used in regular Business systems. The Service Feature Class (SFC) and
Route Restriction Class (RSC) are also assigned to the telephone.
TN: Tenant Number
STN: Station Number
LEN: Line Equipment Number (6 digits)
TEC: Telephone class (1-31)
1 - DP (10pps)
2 - BP
3 - DP/PB
4 - DP (20pps)
12 - D
term
13 - Data terminal Via Dterm
14 - Hot Line
15 - CAS Line
18 - Virtual Circuit
23 - ISDN Terminal
27 - 8 Conference Equipment
RSC: Route Restriction Class (0-15) For assignment of RSC, ARSC command.
SFC: Service Feature Class (0-15) For assignment of SFC, ASFC command. 
						

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SPEED CALLING-SYSTEM-PRI
S-82 SPEED CALLING-SYSTEM-PRI
1. General Description
This feature allows a station user or ATTENDANT CONSOLE [A-3] to call frequently dialed ISDN numbers
using fewer digits (abbreviated call codes) than would normally be required.
2. Operating Procedure
To operate:
1. Dial the Speed Calling access code (one to three digits).
2. Dial the abbreviated call code (maximum four digits).
3. The call is completed.
3. Programming
STEP 1: ASYD - System Data 2, Index 1, bit 7: Does TOLL RESTRICTION [T-7] apply to SPEED
CALLING-SYSTEM? 0/1:Yes/No.
STEP 2: ANPD - Reserve a number level for feature access. Assign Connection Indexes of Normal. Assign
NND in accordance with a predetermined numbering plan.
STEP 3: ASPA - Assigning an access code to SPEED CALLING-SYSTEM, assign SRV = SSC, SID 15.
Program for normal. NND = Access code plus ADC (Abbreviated Digit Code). See ASPD.
Example: 6+010 (1 digit+3 digits) = NND = 4
STEP 4: ASFC - Assign a Service Feature Class that allows SFI 12 to stations that will have SPEED
CALLING-SYSTEM.
STEP 5: ASPD - Assign the Tenant Number, the Abbreviated Digit Code-ADC, and the CD-Telephone
Number to be sent. Include the access code of the route in the CD.
 Each abbreviated call code can store a maximum of 24 digits, including access codes.
 A maximum of 1,000 codes can be assigned per system.
 Called party subaddress may by stored by MAT. For example:
Access Code Called Party
NumberDelimiter Called Party
Subaddress
9 - 1 - 212 - 556 - 1234 -*-  2222 
						

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SPEED CALLING-SYSTEM-Dterm-PRI
S-82D SPEED CALLING-SYSTEM-Dterm-PRI
1. General Description
This feature allows a D
term station user to call frequently dialed ISDN numbers  using fewer digits (abbreviated
call codes) than would normally be required.
2. Operating Procedure
To operate (D
term):
1. Press the SPEED CALLING-SYSTEM [S-3] (SPEED-SYS) feature key.
2. Dial the abbreviated call code (two or three digits). The LCD displays:
3. The Call is completed.
4. If the D
term set does not have the SPEED CALLING SYSTEM [S-3] (SPEED-SYS) feature key, dial the
SPEED CALLING SYSTEM [S-3] access code.
To operate from a “ONE TOUCH-SPEED CALLING” key:
1. Press a “ONE TOUCH-SPEED CALLING” key, the LCD displays previously stored digits.
2. Dial the SPEED CALLING-SYSTEM [S-3] access code.
3. Press the SPEED CALLING-ONE TOUCH-D
term [S-26D] key. The LCD will display:
4. To access, press the SPEED CALLING ONE TOUCH-D
term [S-26D] key.
The abbreviated Calling Code may be stored with the access code in the SPEED CALLING-ONE TOUCH-
D
term [S-26D] key. Add a pause between access code and calling code.
3. Programming
STEP 1: ASYD - System Data 2, Index 1, bit 7: Does TOLL RESTRICTION [T-7] apply to SPEED
CALLING-SYSTEM? 0/1: Yes/No.
STEP 2: ASFC - Assign a Service Feature Class that allows SFI 12 to stations that will have SPEED
CALLING-SYSTEM.
XXXX
(Time Display)
ABBREVIATED
CALL CODE
SPD SET
(Time Display)SPEED SET
(Time Display)
Dterm Series E] [Dterm Series III] 
						

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SPEED CALLING-SYSTEM-Dterm-PRI
STEP 3: ASPD - Assign the Tenant Number, the Abbreviated Digit Code-ADC, and the CD-Telephone
Number to be sent. Include the access code of the route in the CD.
 Each abbreviated call code can store a maximum of 24 digits, including access codes.
 The following is the maximum number of Speed Calling numbers that can be stored in
the system:
1000calls/system
 Called party subaddress may be stored by MAT. For example:
STEP 4: AKYD - Assign SPEED CALLING to D
term key. Assign FKY 15 to the Dterm key.
Access Code Called Party
NumberDelimiter Called Party
Subaddress
9 - 1 - 212 - 556 - 1234 -*- 2222 
						

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STATION MESSAGE DETAIL RECORDING SYSTEM-RS232C-PRI
S-83 STATION MESSAGE DETAIL RECORDING SYSTEM-RS232C-PRI
1. General Description
This feature provides a “call record” for all outgoing station-to-PRI trunk calls and incoming PRI trunk-to-
station calls. When the system is equipped with this feature an RS232C output port is provided, permitting direct
interface with a customer-owned computer system. All output is in the ASCII format, and includes the
following:
 Calling Station Number
 Called Station Number (24 digits maximum)
 Route Number
 Start of Call Time
 Disconnect Time
 Year, Month and Date
 Attendant Handled
 ACCOUNT CODE [A-18]
 FORCED ACCOUNT CODE [F-7] /AUTHORIZATION CODE [A-28]
 AUTHORIZATION CODE-EPN [A-22] (8 digits maximum)
2. Operating Procedure
No manual operation is required.
3. Programming
STEP 1: ASYD - System Data  1, Index  20, bit  7: Charging to a call transferred by CALL FORWARDING-
OUTSIDE
0=Charging is made to the caller of the transferred call.
1=Charging is made to the station which has set CALL
FORWARDING-OUTSIDE service.
Index 32, bit 1: 1=Record the tenant information
bit 2: 1=Record the route taken
bit 5: Is the Route Access code recorded? 0/1=No/Yes.
bit 6: Is the number sent or number dialed recorded in SMDR?
0/1=Number to be sent/Number to be dialed.
bit 7: 1=SMDR is in service
Index 33:
 Data 00 Hex=Split Billing
 When bit 5=1 (Total Billing for incoming calls)
and/or bit 6=1 (Total Billing for outgoing calls),
the following data can be assigned.
b4
b3
0 0 = Telephone called first
0 1 = Telephone called last
1 0 = Next Telephone receiving call from ATT/Station.
1 1 = Last Telephone receiving call form ATT/Station.
Index 34, bit 0: 1=Enables RS-232C transmission.
bit 5: Is the converted number sent? 0/1=No/Yes. 
						

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STATION MESSAGE DETAIL RECORDING SYSTEM-RS232C-PRI
System Data 1, Indexes 288-295: Designation of the attributes of the SMDR.
SMDR output port will be designated. For this
designation, the attributes of the terminal which
outputs the detail call information should have been
designated by the AIOC command.
Also for detecting a fault of the SMDR, set the SMDR
fault detect timer.
Index 288 = Charging information port of SMDR A.
Index 289 = SMDR fault detect timer of SMDR A.
Index 290 = Charging information port of SMDR B.
Index 291 = SMDR fault detect timer of SMDR B.
Index 292 = Charging information port of SMDR C.
Index 293 = SMDR fault detect timer of SMDR C.
Index 294 = Charging information port of SMDR D.
Index 295 = SMDR fault detect timer of SMDR D.
System Data 2, Index 3, bit 0: 1=SMDR registration per tenant is valid.
bit 7: 0/1=-/SMDR Output (STN-STN) is in service.
STEP 2: AIOC - Assign the function and attribute data of the IOC ports.
STEP 3: ARTD - CDN 10. Enable outgoing routes to be included for SMDR registration. CDN 16,
Determination on a per-route basis what type of connection will be registered by SMDR.
For outgoing only routes, assign data “0”. For incoming routes, assign data “2”. For
bothway trunk routes, assign data “1” only.
CDN56. Detailed billing for outgoing (tandem). CDN69. Detailed billing for incoming
(tandem). Regarding DN56 and CDN69, see Figure 5-4. 
						

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STATION MESSAGE DETAIL RECORDING SYSTEM-RS232C-PRI
Figure 5-4   Example of SMDR Assignments
STEP 4: ASFC - Assign data “1” to SFI14 of a Service Feature Class whose traffic is to be registered on
SMDR (Trunk Basis). Assign data “1” to SFI58 of a Service Feature Class whose traffic is
to be registered on SMDR (STN to STN Basis).
STEP 5: ARNP - For the routes flagged for SMDR in ARTD, list the Physical route number and the LCR
access code.
STEP 6: AMND- Assign the number of digits the register is to receive for every dialing code. List the Toll
Number ID Data code for the system to distinguish the Toll Dialing patterns for SMDR
registration. 
PBX APBX BPBX C
SMDR NO SMDRSMDR
Station CStation ART2RT1

In the network shown above, PBX B functions as a tandem sw it c h.  In this e xa mple, parameters 
SMDR3 and SMDR4 for RT1 of PBX B should be assigned as 1 for the following reasons.
When Station C places a call to Station A:
      Since SMDR collects billing information on the outgoing trunk at PBX C, billing information 
      on the outgoing trunk of RT1 is not required at PBX B (SMDR3=1).
When Station A places a call to Station C: 
      At PBX B, SMDR collects billing info rmation on the outgoing trunk of RT2, and therefore 
      billing information on the incoming trunk of RT1 is not required (SMDR4=1). 
						

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SPEED CALLING-STATION-PRI
S-84 SPEED CALLING-STATION-PRI
1. General Description
This feature allows a station user to dial frequently called ISDN network numbers using fewer digits
(abbreviated call codes) than normally required. With this feature a station user can establish personal
abbreviated codes.
2. Operating Procedure
To operate:
1. Dial the speed calling access code (one or two digits).
2. Dial the abbreviated call code (one or two digits).
3. Call is completed.
3. Programming
STEP 1: ASYD - System Data 2, Index 1, bit 3: Does TOLL RESTRICTION apply to SPEED
CALLING-STATION? 0/1: Yes/No. (If yes, refer to
TOLL RESTRICTION-3/6 DIGIT [T-7]). 
STEP 2: ANPD - Reserve a number level for feature access. Assign Connection Indexes, CI = N (Normal).
Assign NND in accordance with a predetermined numbering plan. 
STEP 3: ASPA - Two access codes must be assigned for this feature.
For the individual station speed calling number entry, assign the tenant and access code
(ACC). Assign for a Connection Index of Normal. For SRV = SSC, assign SID 14.
For individual station speed calling access, assign the tenant and access code (ACC).
Assign for a Connection Index of Normal. For SRV = SSC, assign SID 21. 
STEP 4: ASFC - Assign a Service Feature Class that allows SFI 19 to the stations to receive SPEED
CALLING-STATION. 
STEP 5: AISA - Program the tenant, station, type of station, and the number of SPEED CALLING blocks
to be assigned to the Master station. 
TN: Tenant Number 
STN: Station Number 
MST/SLV: Master/Slave 
M-Master Station
S-Slave Station 
BLOCK: Number of Blocks 
STN:  When assigning Slave Station, assign the Master Station number.
STEP 6: AKYD - KYI = 1 FKY = 26 (SPEED CALLING-STATION)
STEP 7: AISD - This command is used to assign, delete and display the destination number of Individual
Speed Calling.