NEC Neax 2400 Imx Feature Programming Manual

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 587
Restriction from Outgoing Calls R-4
Interactions (cont’d)
3. CONSULTATION HOLD [C-17]: Station A may consult with station B when Route 1 is on Soft Hold. 
4. THREE-WAY CALLING [T-2]: Station A cannot include restricted Station B in a Tree-Way Calling
connection with Route 1.
5. DAY/NIGHT CLASS OF SERVICE [D-15]: Restricted Station B may be allowed access to Route 1 when
the system is placed in the NIGHT mode. See DAY/NIGHT CLASS OF SERVICE [D-15].
6. RESTRICTION FROM OUTGOING CALLS are constructed on a per-route restriction basis. Two Route
Restriction Indexes are constructed: RRI 2, Outgoing Calls via the Attendant Console and RRI 3,
Outgoing Calls via Direct Dial Access.
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: PB
3: DP/PB 
12: D
term
13: Data terminal Via Dterm
14: Hot Line 
15: CAS Line 
16: Data Terminal Via Data Module
18: Virtual Circuit
23: ISDN Terminal
27: Eight 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. 
						

							NEAX2400 IMX Feature Programming Manual
Page 588ND-70184 (E), Issue 3
R-4 Restriction from Outgoing Calls
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:ARSCN - 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).
Note:
When using ASYDL or ASYDN to program an FCCS feature, the basic programming of ASYD is required in addition
to ASYDL or ASYDN. 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 589
Rotary Dial Calling R-5
R-5 Rotary Dial Calling
General Description
This feature permits users to originate calls over rotary or push-button lines using Rotary Dial telephones.
Operating Procedure
Users dial rotary telephones in the normal fashion.
Service Conditions
1. Rotary dial telephones installed should be industry standard 10pps instruments.
2. Pushbutton instruments may be used in conjunction with ROTARY DIAL CALLING.
3. It is possible to provide only the ATTENDANT CONSOLE [A-3] with push-button calling, while all other
stations are assigned ROTARY DIAL CALLING. Refer to PUSHBUTTON CALLING - ATTENDANT
ONLY [P-5] for further details.
4. If ROTARY DIAL CALLING is assigned to a line, only Rotary Dial sets can be used on that line.
5. POWER FAILURE TRANSFER [P-3]: Rotary dial telephones must be used as POWER FAILURE
TRANSFER [P-3] stations if the serving central office facility is not arranged for pushbutton calling. A
ground start button on the station set is required if the central office facility uses ground start signaling.
Interactions
1. Rotary-to-Pushbutton conversion may be accomplished by assigning data “2” for CDN 2:ONSG in
ARTD; or assigning data “1” in ASYD, System Data 2, Index 1, Bit 0, and assigning CDN 2:ONSG as
data “3”, DP/PB.
2. See UNIVERSAL SENDER [U-3] for sender programming
3. ROTARY DIAL CALLING may be accomplished via an extension of PUSH-BUTTON CALLING [P-4]
if a Telephone Equipment Class of 3 has been programmed. 
4. The * or # symbols cannot be used as feature activation codes with ROTARY DIAL CALLING.
5. The PBX Originating Registers Trunks (Route 902) can accept both rotary and push-button signals (a
separate register group is not required). 
Programming
STEP 1:ASYD - System Data 2, Index 2, Bit 0. Sender signal for station is DP only/PB? 0/1: DP only/PB only.
This Bit is operative only when ARTD CDN 2:ONSG is assigned as data “3”, DP/PB. Assign data “0”.
STEP 2:ASDT - Assign single-line stations a Telephone Equipment Class (TEC) as rotary (DP) TEC = 1; or
dial pulse/push-button (DP/PB), TEC = 3. D
term sets are always push-button.
STEP 3:AT R K - Assign Originating Register Trunks (ORT) to the system in a quantity calculated from
expected traffic. Registers are located on levels 0-3 of any 8RST circuit card. 
Also, senders must be assigned to the system in a quantity calculated from expected traffic. Senders are
located on levels 4-7 of any 8RST circuit card.
RT: R o u t e  N u m b e r
Trunk Route Number 
Intra-office Route Number (901-931) 
901 - ATT 912 - ORT for ATT  
						

							NEAX2400 IMX Feature Programming Manual
Page 590ND-70184 (E), Issue 3
R-5 Rotary Dial Calling
Programming (cont’d)
902 - ORT 913 - TCFT for ATT
903 - IRT 915 - Night ATT
905 - Sender 916 - MFCR 
909 - DCFT 917 - MFCS 
919 to 926 - Modem 
TK: Trunk Number 
TN: Tenant number 
RSC: Route Restriction Class 
SFC: Service Feature Class
STEP 4:ARTD - Routes must be assigned as either PB, DP, or DP/PB. Flag CDN 2:ONSG as data “1”, DP, or
data “3”, DP/PB. 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 591
Route Advance R-6
R-6 Route Advance
General Description
This feature automatically routes outgoing calls over alternate facilities when the first-choice trunk group is busy.
User selects the first-choice route by dialing the corresponding access code, and the equipment then advances
through alternate trunk groups only if the first choice is busy.
Operating Procedure
No manual operation is required.
Service Conditions
1. No indication is provided to a user as to whether the call is routed over first-choice or subsequent choice
facilities.
2. STATION MESSAGE DETAIL RECORDING SYSTEM [S-10] may be used in conjunction with this
feature.
3. Only trunks of the same type may be programmed for ROUTE ADVANCE.
4. Careful consideration should be given to the use of FX trunks as an alternate facility. These lines require
outpulsing of digits for long distance which the user may not dial, because he will not know he is
connected to such a facility.
5. The maximum number of routes to be included in a single ROUTE ADVANCE group is 15.
6. The total number of routes that can be contained in all ROUTE ADVANCE groups is 31.
7. The same route can be included in two or more alternative groups.
8. The maximum number of trunks to be included in a route is 255.
9. No code conversion capability is provided with ROUTE ADVANCE; therefore, the exact digits (after the
access code) the user dials will be sent over the selected trunk, regardless of the trunk group used. The user
will not know what trunk group is selected; therefore, only those trunk groups that accept the same dialing
format may be assigned to a given ROUTE ADVANCE group.
10. ROUTE ADVANCE occurs only when the dialed code accesses the first-choice trunk group in the
ROUTE ADVANCE list.
11. In most cases, FX trunk groups to a Foreign Numbering Plan Area do not require the dialing of the FNPA
area code. Therefore, these FX trunks may not be used in the same ROUTE ADVANCE list with local
exchange or WATS trunks.
12. TIE Lines cannot be assigned to a ROUTE ADVANCE list that includes CO, FX, or WATS trunk groups.
13. The dialing party may be either a station line, ATTENDANT CONSOLE [A-3], or a TIE trunk line.
14. When using the FCCS network, the outgoing call using a trunk in the remote node is available. Therefore,
Route Restriction class data must be identical in the FCCS network. For more detailed information, see
the NEAX2400 IMX Fusion Network System Manual.
Interactions
1. When OUTGOING TRUNK QUEUING [O-2] is assigned with the ROUTE ADVANCE feature, if all
trunk groups in one ROUTE ADVANCE list are busy, the call queues on the first-choice trunk group.
Each time the system checks for an available trunk, only the first-choice trunk group is scanned; if a trunk
is not available, the call remains in queue. 
						

							NEAX2400 IMX Feature Programming Manual
Page 592ND-70184 (E), Issue 3
R-6 Route Advance
Interactions (cont’d)
2. TOLL RESTRICTION - 3/6 DIGIT [T-6] may be used in conjunction with ROUTE ADVANCE. Only
routes of the same type may be used in ROUTE ADVANCE. Two differently labeled C.O. trunks, such
as, DDD and WATS may be in the same group.
3. There is no digit translation available for this feature. The dialed digits must be usable by whatever route
is available.
4. This feature is available for a station activating CONSULTATION HOLD [C-17]. However, in the
following cases, ROUTE ADVANCE is not activated, and the user receives reorder tone:
a.) when either the first-choice trunk group or alternate trunk group is restricted by TOLL DENIAL
[T-6].
b.) when both the first-choice trunk group and alternate trunk group are busy or restricted by TOLL
DENIAL [T-6].
5. ROUTE ADVANCE is not activated on PAGING TRANSFER [P-10] or RADIO PAGING [R-16] routes.
Therefore, the caller receives reorder tone when the first trunk group is busy or restricted by TOLL
DENIAL [T-6].
Programming
STEP 1:ASYD - System Data 1, Index 65, Assign the number of routes that will be used in the system.
STEP 2:ANPD - Reserve a number level for trunk access. Assign for Normal (N) and Hooking (H) service.
The Number of Necessary Digits should be 1 or 2, depending on numbering plan. BLF should be Off.
STEP 3:ASPA - Assign the Service SRV = OGCA (Outgoing Call Advance), Outgoing Call Route Advance.
Assign the access code to the lead route number to be seized. In the desired order, program the routes
to be selected when the first choice route is busy. Count = the total number of routes in the route
advance group, including the first-choice route.
STEP 4:ARSC - Prepare a Route Restriction Class (RSC) that will allow access to all of the desired routes in
the Route Advance group for RRI 2 and RRI 3. Assign the RSC to the stations that are allowed to
access the Route Advance group.
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 - SYS 1, INDEX800. Assign the tenant table development.
STEP 2:ANPDL - Reserve a number level for trunk access.
STEP 3:ASPAL - Assign SRV=OGCA and the access code to the lead logical route number to be seized.
STEP 4:ARSCN - Assign the RSC to the stations that are allowed to access the Route Advance group.
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:
For more detailed information, see the NEAX2400 IMX Fusion Network System Manual. 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 593
Remote Maintenance R-7
R-7 Remote Maintenance
General Description
This feature allows office data changes or reassignments to be performed without a site visit by service personnel,
and can be used to detect fault tendencies before they affect service. One REMOTE MAINTENANCE center can
service an unlimited amount of systems, thus reducing the amount of personnel needed to maintain each site.
Operating Procedure
The operation of this feature involves the use of the MAINTENANCE ADMINISTRATION TERMINAL (MAT)
[M-18].
Service Conditions
1. The following additional equipment is required for this feature:
a.) a modem at the maintenance center, and one at each remote site,
b.) a dedicated or non-dedicated telephone line for each remote site.
2. The following operations can be executed from the REMOTE MAINTENANCE location:
a.) list of all system data (line, trunk, etc.)
b.) retrieval of fault data
c.) retrieval of traffic management information
d.) testing of system operation
e.) deletion or addition of system data (line, trunk, etc.) using a pre-programmed security password
3. The following three facility methods are available to interface with a remote test location:
a.) dedicated connection
b.) dial-up connection - TIE Line
c.) dial-up connection - CO Line
4. Maintenance testing can be performed at a remote central facility, using the MAT [M-18] to evaluate a
trouble report, prior to the dispatching of a repair person to the customer location.
5. Two MATs can access a system simultaneously, provided they are not using the same command at the
same time.
Interactions
APSW must be assigned before allowing the password function in the ASYD command. If password is allowed in
ASYD before APSW is assigned, Error Message 0550 “Password not yet assigned”, will be displayed.
Remote 
Maintenance 
Center
MAT 
						

							NEAX2400 IMX Feature Programming Manual
Page 594ND-70184 (E), Issue 3
R-7 Remote Maintenance
Programming
STEP 1:Initialization of the system will automatically provide for Maintenance Administration Terminal
capabilities in System Data 1, Index 116 for Port 0.
STEP 2:AIOC - Assign the function and attribute data of each I/O port to be used.
STEP 3:Assign Terminal Configuration data (Serial Settings/TCPIP Settings) in the PBX Administration
menu.
STEP 4:APSW - This command must be assigned to allow password protection. Assign the following:
TYPE: Data Type 
1-Password Code Data
2-Grade 2 Command Data
GRD-1: Grade 1 Password 
CDN: 1-15, against the Grade 1 Password, 15 Grade 2 Passwords may be assigned.
GRD-2: Assign the Grade 2 Passwords.
TYPE: 2-Grade 2 Command Data.
CDN: 1-16, Against each Grade 2 Passwords allow access to 16 commands.
CMND: List the 16 commands.
FCCS Programming 
No unique programming is required for the FCCS network. 
						

							NEAX2400 IMX Feature Programming Manual
ND-70184 (E), Issue 3
Page 595
Radio Paging R-16
R-16 Radio Paging
General Description
This feature allows users dialing access to customer-owned RADIO PAGING equipment and to selectively tone or
voice/tone alert individuals carrying pocket RADIO PAGING receivers. The paged party may be connected to the
paging party by going to the nearest telephone and dialing a unique answer-back code.
Operating Procedure
To page:
1. Paging user dials the RADIO PAGING access code; receives an acknowledgment tone from the radio
equipment.
2. Paging user dials the radio number of desired party; receives ringback tone from the radio equipment. 
3. Paging user hangs up and waits for an answer signal.
To answer:
 Using OGC access code, a paging station accesses Radio Paging equipment whether or not the automatic 
answer function is provided. (System Data 1, Index 73, b4 = 1 or 0.)
1. Paged party dials the RADIO PAGING answer code.
2. Paged party receives special dial tone.
3. Paged party dials his own individual radio (beeper) number. 
4. Paged station is rung; the paged party receives ringback tone. 
Note:
This operation is not available when assigning System Data 1, Index 73, b4 = 1. Only Non-Delay operation is
available.
5. Paging station is connected to the paged party.
 Using LCR/LCRS access code, a paging station accesses Radio Paging equipment providing the automatic 
answer function. (System Data 1, Index 73, b4 = 1.)
1. Paged party dials the paging station number/individual attendant number which is displayed on the radio
pager (beeper).
2. Paging station/attendant is rung; paged party receives ringback tone.
3. Paging station/attendant is connected to paged party.
Service Conditions
1. RADIO PAGING equipment is customer provided; refer to the manufacturer’s description for the
following specifications:
a.) types of tones
b.) capability of receiving individual radio numbers
c.) capability to call the addressed radio terminal 
d.) maximum number of stations that can be assigned individual radio access numbers.
2. A maximum of three digits can be assigned as access and answer codes.
3. The maximum number of digits assigned as individual radio numbers is three.
4. ATTENDANT CONSOLE [A-3] Attendants can activate this feature.
5. A station that has the CALL HOLD [C-6] feature activated cannot use RADIO PAGING.
6. The maximum number of RADIO PAGING answer zones is six.
7. The maximum number of routes that can be assigned RADIO PAGING is six. 
						

							NEAX2400 IMX Feature Programming Manual
Page 596ND-70184 (E), Issue 3
R-16 Radio Paging
Service Conditions (cont’d)
8. If the paging user has failed to hang up within a predetermined, programmable time interval (after
activation), the paging connection is forcibly released.
9. If the paged party does not answer within 30 seconds, the NEAX2400 IMX will automatically page that
party again. If the paged party does not answer the second page within 30 seconds, the paging request will
be cancelled from memory. (See VARIABLE TIMING PARAMETERS [V-1]).
10. Both the COT card and the TLT card can be used as the paging trunk.
11. Loop signaling is the recommended signaling type.
12. PAGING ACCESS [P-1], PAGING TRANSFER [P-10] and RADIO PAGING [R-16] are provided to the
paging station and the paged station in FCCS nodes.
13. When PAGING ACCESS [P-1]/PAGING TRANSFER [P-10]/RADIO PAGING [R-16] service is set to
a station in the remote node or the PAGING ACCESS [P-1]/PAGING TRANSFER [P-10]/RADIO
PAGING [R-16] call is answered from the remote node via FCCS link:
a.) the logical route number should be applied to each physical route that is provided the service.
b.) the restriction of route-to-route connection between FCCS nodes should be released.
14. The same paging route cannot be used by another station while the paged station does not answer the page
activated using the route. However, the paging activation is automatically cleared when the call is not
answered within a predetermined time.
15. A user can page one station at a time.
Interactions 
1. If the range of the radio page transmitter exceeds the physical limits of the PBX, an incoming C.O. call
acting as a response to a Radio Page cannot be connected in loop-to-loop procedures. The paging party
must disconnect, and the Attendant must extend the paged partys C. O. call.
2. RADIO PAGING and PAGING ACCESS [P-1] can be provided simultaneously in the same system.
Separate access codes for each feature are required. A RADIO PAGING answer code is required for each
Radio Paging zone. 
3. RADIO PAGING is limited to stations and Attendant Consoles. Other parties (C.O./TIE trunk calls) must
have the Attendant or user perform the paging operation.
4. The Attendant cannot dial the RADIO PAGING answer codes.
5. BUSY VERIFICATION [B-3], EXECUTIVE OVERRIDE [E-1]: These features will be denied when
connected to the Radio Paging route. 
6. Radio Page Answer will not follow any hunting on forwarding that the paging station has set.
Programming
STEP 1:ASYD - System Data 1, Index 73, Bit 2. Is the beeper number transmitted via the RADIO PAGING
equipment a two or three-digit number? 0/1: two digits/three digits.
System Data 1, Index 73, bit 4. Radio Paging - Station Number/Individual ATT Number is
automatically sent? 0/1: No/Yes.
System Data 1, Index 73, Bit 5. If the paged party doesn’t respond, should the system resend the beeper
number? 0/1: Yes/No. This also doubles the effective timing in System Data 1, Index 74, Bits 4-7.
System Data 1, Index 74, Bits 4-7. Recall timer for radio page. If the paged party does not respond by
the first time out, the paged party is called again and the time out is repeated. 
(N + 1) x 30 = Time Out 
N = a hexadecimal value set in Bits 4-7.