NEC Neax 2400 Imx Feature Programming Manual

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 597
Radio Paging R-16
Programming (cont’d)
If the paged party doesn’t respond by the same period of time after the second page, the page is
cancelled. 
System Data 1, Index 244, bit 0. Answer by Radio Paging answer code. 0/1: Out/In Service. Note that
this bit is valid when System Data 1, Index 73, bit 4 is 1 (Station Number/Individual ATT Number is
automatically sent).
STEP 2:ARTD - Assign the Radio Paging route as shown below:
RT:  1
1-OSGS : 2 2-ONSG : 3 5-TF : 1 6-TCL : 12 7-L/T : 1
8-RLP : 2 9-TQ : 1 15-LSG : 0/1
STEP 3:AT R K - 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 a level for trunk access. Assign for Normal (N) and Hooking (H) services. Number of
Necessary Digits is usually 1 or 2. Busy Lamp Field is not activated. Reserve a level for RADIO PAGE
answer and cancel codes. Assign for Normal (N) service. Number of Necessary Digits is usually 2.
Busy Lamp Field is not activated.
STEP 6:ASPA - Assign the RADIO PAGE access code. Type of Service, SRV = OGC (Outgoing Call) or
SRV=LCR (Least Cost Route Selection) / LCRS (Register Sender LCR) (available only when ASYD,
System Data 1, Index 73, bit 4 is “1”). Assign the proper route number that is associated with this
access code. Assign for Normal (N) and Hooking (H).
Assign the access code in the level reserved in ANPD above. Type of Service, SRV = PAGA (Paging
Answer) and SRV = PAGC (Paging Cancel). Assign the proper route number that is associated with
this route. Assign for a Connection Index of Normal (N).
STEP 7:ARSC - Allow RRI: 2 & 3 access to this route for the RSCs assigned to the stations that will be given
access to the paging routes. 
STEP 8:ASFC - Assign a Service Feature Class that allows SFI 37 to stations that will have RADIO PAGING
answer capability.
STEP 9:ASAT - Assign the Individual Attendant Number, if necessary.
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 1)
STEP 1:ALRTN - This data must be assigned to the NCN. Assign the logical route number to the physical
route.
STEP 2:ANPDN - This data must be assigned to the NCN. Reserve a number level for service feature access
and cancel.
STEP 3:ASPAN - This data must be assigned to the NCN. Assign the access code for Paging Transfer.
STEP 4:ARSCN - This data must be assigned to the NCN. Release the restriction between the announcement
trunk and the station.
STEP 5:ARRCN - This data must be assigned to the NCN. Release the restriction between the terminating
trunk and the announcement trunk.
Note 1:
When using ASYDL or ASYDN to program an FCCS feature, the basic programming of ASYD is required in addition
to ASYDL or ASYDN.
Note 2:
The current command data shown is set to all nodes using the service: ASTD, ARTD, ATRK, ASFC 
						

							NEAX2400 IMX Feature Programming Manual
Page 598ND-70184 (E), Issue 3
R-27 Route Restriction - Announcement
R-27  Route Restriction - Announcement
General Description
This feature permits a station-originated call, dialed to a restricted outgoing number, to be automatically routed to a
recorded announcement informing the caller that the dialed number is restricted. (TOLL RESTRICTION [T-7])
Operating Procedure
No manual operation is required after this feature has been programmed in System Data.
Service Conditions
1. This service feature is available when a station-originated call encounters a restriction.
2. Access to the announcement of this service feature is restricted by MISCELLANEOUS TRUNK
RESTRICTION [M-3].
3. The announcement machine can be provided on a per-tenant basis.
4. The availability of this service cannot be determined for each originating route.
5. TOLL DIVERSION [T-6] takes precedence over this feature.
6. Digital Announcement Trunk (DAT) and the calling station must be accommodated in the same node
within the FCCS network.
Programming
STEP 1:ASYD - System Data 2, Index 1, Bit 4, 5. Toll Restriction (disposition of Restricted Call) Assign Bits
4 and 5 as “0”.
STEP 2:AAED - Equipment type 7 = Outgoing Route Restriction Announcement
Also see ANNOUNCEMENT SERVICE [A-59] for programming of announcement and
MISCELLANEOUS TRUNK RESTRICTION [M-3] for trunk restriction programming. 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 599
RS-464A PAD R-37
R-37 RS-464A PAD
General Description
This service is for changing the current PAD control system for the lines and external trunks to a PAD control system
which conforms to the RS-464A specification.
The following table outlines the comparison between the current PAD control and the RS-464A PAD control. 
Note:
ONS: Line interface to On-Premises Line (General Telephone)
OPS: Line interface to Off-Premises Line (Log Line Telephone)
When using the 24DTR/24CCT/24PRT, APAD and ARTD, PAD 2 are ignored when switch settings are set to
ARTD fixed, and PAD patterns 1 and 2 are selectable by switch settings.
Note:
In the following tables, -db indicates a decrease in volume level; +db indicates an increase in volume. Calling Terminal Called Terminal RS-464A PAD Control The Current PAD Control
ONS ONS 6dB PAD ON 5dB PAD ON
ONS OPS 3dB PAD ON PAD OFF (0dB)
OPS ONS 3dB PAD ON PAD OFF (0dB)
OPS OPS PAD OFF (0dB) PAD OFF (0dB)
ONS ATT 6dB PAD ON PAD OFF (0dB)
OPS ATT 3dB PAD ON PAD OFF (0dB)
ONS Trunk Data assigned to ARTD, PAD Data assigned to ARTD, PAD
OPS Trunk Data assigned to ARTD, PAD2 Data assigned to ARTD, PAD
ATT Trunk Data assigned to ARTD, PAD Data assigned to ARTD, PAD
PAD PATTERN 1 PAD PATTERN 1 PAD PATTERN 1
24 DTR with SFI 50 = 0 24 DTR with SFI 50 = 1 24 DTR with APAD Setting
ARTD 
PA D  
SettingTr a n s m i t  
PA DReceive 
PA DARTD 
PA D  2  
SettingTransmit 
PA DReceive 
PA DAPAD 
SettingTr a n s m i t  
PA DReceive 
PA D
0-8db-8db 0ARTD, 
PA DARTD, 
PA D1 -2db -2db
1 -2db -2db 1 -2db -2db 2 -4db -4db
2 -4db -4db 2 -4db -4db 3 -6db -6db
3 -6db -6db 3 -6db -6db 4 -8db -8db
4 -8db -8db 4 -8db -8db 5 Unused Unused
5 0db 0db 5 0db 0db 15 Pad Off Pad Off
6 Unused Unused 6 Unused Unused
7 0db 0db 7 0db 0db 
						

							NEAX2400 IMX Feature Programming Manual
Page 600ND-70184 (E), Issue 3
R-37 RS-464A PAD
General Description (cont’d)
PAD PATTERN 2 PAD PATTERN 2 PAD PATTERN 2
24 DTR with SFI 50 = 0 24 DTR with SFI 50 = 1 24DTR with APAD Setting
ARTD 
PA D  
SettingTr a n s m i t  
PA DReceive 
PA DARTD 
PA D  2Transmit 
PA DReceive 
PA DAPAD 
SettingTr a n s m i t  
PA DReceive 
PA D
0-9db-3db 0ARTD, 
PA DARTD, 
PA D1 -3db +3db
1 -3db +3db 1 -3db +3db 2 -3db -3db
2 -3db -3db 2 -3db -3db 3 -6db 0db
3 -6db 0db 3 -6db 0db 4 -9db -3db
4 -9db -3db 4 -9db -3db 5 Unused Unused
5 0db 0db 5 0db 0db 15 Pad Off Pad Off
6 Unused Unused 6 Unused Unused
7 0db 0db 7 0db 0db
16 COTBE with SFI 50 = 0 16 COTBE with SFI 50 = 1 16 COTBE with APAD Setting
ARTD 
PA D  Tr a n s m i t  
PA DReceive 
PA DARTD 
PA D  2Transmit 
PA DReceive 
PA DAPAD 
SettingTr a n s m i t  
PA DReceive 
PA D
0 0db 0db 0 ARTD PAD 1 0db 0db
1 0db 0db 1 0db 0db 2 -3db -3db
2 -3db -3db 2 -3db -3db 3 -6db -6db
3 -6db -6db 3 -6db -6db 4 0db +6db
4 0db +6db 4 0db +6db 5 Unused Unused
5 0db 0db 5 0db 0db 15 Pad Off Pad Off
6 Unused Unused 6 Unused Unused
7 0db 0db 7 0db 0db
8TLTR (DID) with SFI 50 = 0 8TLTR (DID) with SFI 50 = 1 8TLTR (DID) with APAD Setting
ARTD 
PA DTr a n s m i t  
PA DReceive 
PA DARTD 
PA D  2Transmit 
PA DReceive 
PA DAPAD 
SettingTr a n s m i t  
PA DReceive 
PA D
0 0db 0db 0 ARTD PAD 1 -3db -3db
1 -3db -3db 1 -3db -3db 2 -6db -6db
2 -6db -6db 2 -6db -6db 3 -6db +6db
3 -6db +6db 3 -6db +6db 4 0db +6db
4 0db +6db 4 0db +6db 5 Unused Unused
5 0db 0db 5 0db 0db 15 Pad Off Pad Off
6 Unused Unused 6 Unused Unused
7 0db 0db 7 0db 0db 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 601
RS-464A PAD R-37
General Description (cont’d)
In 4 Wire E+M Mode, the 8TLTR can set PAD values using switch settings and ARTD and APAD values. 
In the following table, P0 and P1 are assigned by setting ARTD to a value of 0, CDN 30:PAD and setting values by
using Switch 1 (P0) and Switch 2 (P1). P2 and P3 are assigned by setting ARTD/APAD to a value of 5, and PAD
values are set by using Switch 3 positions 1, 2, 3 and 4 (P2) and positions 5, 6, 7 and 8 (P3). 
Operating Procedure
The following connections are performed:
STATION-TO-STATION CONNECTION 
STATION-TO-ATT CONNECTION 
CONNECTION VIA ATT
OUTGOING C.O. LINE CONNECTION FROM STATION
OUTGOING C.O. LINE CONNECTION FROM ATT
Service Conditions
1. RS-464A PAD control is performed for lines and external trunks.
2. ONS (general telephone) and OPS (long line telephone) are identified by the SFC of the station concerned.
8TLTR (2W E+M) with SFI 50 = 0 8TLTR (2W E+M) with SFI 50 = 18TLTR (2W E+M) with APAD 
Setting
ARTD 
PA DTr a n s m i t  
PA DReceive 
PA DARTD 
PA D  2Transmit 
PA DReceive 
PA DAPAD 
SettingTr a n s m i t  
PA DReceive 
PA D
0 0db 0db 0 ARTD PAD 1 -3db -3db
1 -3db -3db 1 -3db -3db 2 -6db -6db
2 -6db -6db 2 -6db -6db 3 -6db +6db
3 -6db +6db 3 -6db +6db 4 0db +6db
4 0db +6db 4 0db +6db 5 Unused Unused
5 0db 0db 5 0db 0db 15 Pad Off Pad Off
6 Unused Unused 6 Unused Unused
7 0db 0db 7 0db 0db
8TLTR (4W E+M) with SFI 50 = 0 8TLTR (4W E+M) with SFI 50 = 18TLTR (4W E+M) with APAD 
Setting
ARTD 
PA DTr a n s m i t  
PA DReceive 
PA DARTD 
PA D  2Transmit 
PA DReceive 
PA DAPAD 
SettingTr a n s m i t  
PA DReceive 
PA D
0 P0 P1 0 ARTD PAD 1 -3db -3db
1 -3db -3db 1 -3db -3db 2 -6db -6db
2 -6db -6db 2 -6db -6db 3 -12db -11db
3 -12db -11db 3 -12db -11db 4 -16db -11db
4 -16db -11db 4 -16db -11db 5 P2 P3
5 P2 P3 5 P2 P3 15 Pad Off Pad Off
6 Unused Unused 6 Unused Unused
7 0db 0db 7 0db 0db 
						

							NEAX2400 IMX Feature Programming Manual
Page 602ND-70184 (E), Issue 3
R-37 RS-464A PAD
Service Conditions (cont’d)
3. An Attendant Console is regarded as an ONS. The Attendant Console will follow the PAD values assigned
in ARTD.
4. If PAD data is assigned by APAD command, this data overrides other PAD data assigned by ARTD,
except when switch settings on the 24DTR are set to ARTD fixed.
5. PAD settings for the 8TLTR can be set using ARTD/APAD or a combination of switch settings and
ARTD/APAD.
6. This service is used for each of the following connections:
STATION-TO-STATION CONNECTION 
STATION-TO-ATT CONNECTION 
CONNECTION VIA ATT
OUTGOING C.O. LINE CONNECTION FROM STATION
OUTGOING C.O. LINE CONNECTION FROM ATT
7. If the impedance of the trunk does not match the impedance setting on the trunk, the PAD values will not
match the values in the previous tables.
Programming
Assignment of Telephone:
STEP 1:ASDT - Assign the station data. 
STEP 2:ASFC - Assign either ONS or OPS to the SFC of the station.
SFI = 50, RES: 0/1 = ONS (General Telephone) /OPS (Long Line Telephone)
Stations that have SFI 50 in ASFC set to a 0, will follow the PAD setting in PAD 2 of ARTD.
Stations that have SFI 50 in ASFC set to a 1 will follow the PAD set in PAD 2. PAD 2 settings override
the values set in PAD.
STEP 3:ASYD - System 1, Index 4, Bit 6 affects Station-to-Station calls only. (0=6dB, 1=0dB)
Assignment of External Trunk:
STEP 1:ARTD - Assign route class data for the route number of the external trunk.
When assigning route class data, assign PAD control data between ONS and external trunk to CDN
30:PAD or CDN 32:PAD2.
Assign expansion route class data for the route number of the external trunk.
When assigning expansion route class data, assign PAD control data between OPS and external trunk
to PAD2 (CDN 32).
When PAD 2 is not assigned, the value assigned in PAD will be used.
STEP 2:AT R K - Assign trunk data of external trunk. 
STEP 3:MBTK - Cancel the make-busy of the external trunk assigning by ATRK.
STEP 4:APAD - Assign the PAD control data for tandem connection, station-to-trunk connections, and
outgoing/incoming connection. When assigning APAD for station-to-station connections, the OGPAD
parameter has no effect when assigned (only the ICPAD parameter is used). 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 603
Ringer Mute R-49
R-49 Ringer Mute
General Description
This feature allows a user to stop ringing by pressing the associated feature key on the Dterm.
Operating Procedure
1. The Dterm user presses the RINGER MUTE key; the ringing is muted and the LED of the key lights. RING
OFF is displayed for three seconds.
2. The D
term user presses the RINGER MUTE key again; the ringing is recovered and the LED of the key is
turned off. RING ON is displayed for three seconds.
Service Conditions
1. The feature key for Ringer Mute must be assigned to the Dterm.
2. Ringer Mute which has been set becomes ineffective upon system initialization, individual initialization
of LP or initialization of PM.
3. While this service is activated, ringing for Call Back is not provided as well.
4. This service has no effect on the status of DO NOT DISTURB [D-11] service. For example:
a.) When Do Not Disturb is set, the station is in the Do Not Disturb status.
b.) When Ringer Mute is set, the station is in the Do Not Disturb and Ringer Mute status.
c.) When Do Not Disturb is reset, the station is in the Ringer Mute status.
5. When this service is activated, ringing for any call is muted.
6. If a user presses the RINGER MUTE key while a call is terminating, ringer for this call will be muted.
Programming
STEP 1:AKYD - For Dterm sets, RINGER MUTE may be assigned to a programmable line/feature key. Assign
Type:Function:RING MUTE [117].
STEP 2:ADSL - Assign SN = 0 (Idle) and FKY = 117 (Ringer Mute: RG-OF).
This command is used for assigning the function to each soft key. 
						

							NEAX2400 IMX Feature Programming Manual
Page 604ND-70184 (E), Issue 3
R-51 Route Name Display
R-51  Route Name Display
General Description
This feature allows a user to assign a desired trunk type for a route by the system data. The assigned trunk type
(maximum of 4 or 8 digits) is displayed on the upper line of Dterm LCD.
 4-digit display
TK No.
 8-digit display
Note:
Trunk type, which can be changed by system data.
Operating Procedure
No manual operation is required.
Service Conditions
1. Trunk types are assigned a maximum of 4 or 8 digits (depending on system data) using ASCII characters.
2. The trunk type assigned by this feature is not displayed when a call terminates from the ISDN trunk or
when a station is connected to the call from/to the ISDN trunk.
3. The trunk type assigned by this feature is displayed only when a call terminates to a station or when a
station is connected to the call. In case of the call through a CCIS line, the assigned trunk type is not
displayed. If a station is connected to the trunk user through the CCIS, ROM data corresponding to the
Trunk Class of the route is displayed. If a station is connected to a station belonging to a different office
within the CCIS network, the telephone number of the opposite station is displayed.
4. The trunk type assigned by this feature cannot be displayed at the I-terminal and PCS.
5. This feature is not applicable to the Attendant Console.
6. The current Caller ID services and Calling Party Number - Name Assignment and Display [C-157] service
have priority over this feature.
7. When a call terminates from the trunk which has been assigned the C.O. line number, the LCD display is
as shown below:
 4-digit displayDDD
1(Note)
AT&T1(Note)
NEWYORK(Note)
   ABCD 123ABCD: trunk type assigned by 
this feature.
123: trunk number 
preassigned. 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 605
Route Name Display R-51
Service Conditions (cont’d)
 8-digit display
8. This feature is available when the D
term user presses the call terminating sub line. This feature is also
available when the user presses the held sub line after holding a call using the HOLD key.
9. For data assignment to each of NDM (Network Data Memory) and LDM (Local Data Memory), different
commands can be used. However, the data in NDM has a priority. The logical route must be assigned to
NDM, and the physical route must be assigned to LDM.
Programming / 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 1)
STEP 1:ASYDL - System Data 1, Index 512, FPC of the self-node. (Note 2)
System Data 1, Index 513, LDM usage. (Note 2)
System Data 1, Index 514, NDM usage. (Note 2)
Note 1:
When using ASYDL or ASYDN to program an FCCS feature, the basic programming of ASYD is required in addition
to ASYDL or ASYDN.
Note 2:
This data is required for the FCCS network.
STEP 2:ADRTN/ADRTL - Assign the Route Name data on a route basis. (Note 3)
LGRT/RT: Logical Route or Physical Route Number
TYPE: A maximum digit for the Route Name data
1/2 = 4 digits / 8 digits
DISP: Displayed Data
Note 3:
When the system is used within an FCCS network, assign the Logical Route Number via LGRT, ADRTN. When the
system is not used within an FCCS network, assign the Physical Route Number via RT, ADRTN. ADRTN command
data has priority over the ADRTL command data. Route Name data programmed by ADRTN is displayed at all FCCS
nodes in the network.
   ABCDEFGH
ABCDEFGH: trunk type assigned 
by this feature. 
						

							NEAX2400 IMX Feature Programming Manual
Page 606ND-70184 (E), Issue 3
S-1 Single-Digit Station Calling
S-1 Single-Digit Station Calling
General Description
This feature allows the assignment of single digits for station numbers.
Operating Procedure
1. Lift the handset; receive dial tone.
2. Dial the Single-digit (preprogrammed) telephone number.
3. The desired service station will be rung. 
Service Conditions
1. The single-digit number must be different from the first digit of trunk access codes, service feature access
codes and other telephone numbers.
2. Timing start is not available with this feature.
Interactions
For each station with single-digit access, an entire number level is eliminated. Do not plan to have more than one or
two such phones in a system.
Programming
STEP 1:ASYD - System Data 1, Index 16, Bit 0. Assign this Bit as data “1” enabling single-digit station
numbers.
STEP 2:ANPD - Reserve a number level for station access. Assign an NND = 1, and BLF is on. 
STEP 3:ASPA - For the desired station number assign SRV = STN (Station). NND is not required. Assign
Connection Indexes (CI) of Normal (N) and Hooking (H). 
STEP 4:ASDT - Assign the station number to a specific station within the system.
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:ANPDN - Reserve a number level for station access. Assign an NND = 1, and BLF is on. 
STEP 2:ASPAN - For the desired station number assign SRV = TELN (Telephone Number). NND is not
required. Assign Connection Indexes (CI) of Normal (N) and Hooking (H). 
STEP 3:ALGSN - Assign Type = 2 / UGN1
TELN = Station Number/Telephone Number
FPC = “x”
Tenant and Station assigned by ASDT
Note:
When using ASYDL or ASYDN to program an FCCS feature, the basic programming of ASYD is required in addition
to ASYDL or ASYDN.