NEC Neax 2400 Ipx Feature Programming Manual

							NEAX2400 IPX Feature Programming ManualPage 938NDA-24297, Issue 1
M-34D Message Reminder - Dterm- CCIS
Service Conditions
1. This feature is only available between two Dtermsets that both have the MESSAGE feature key. If a
messageisdirectedtoasinglelineoraDtermthat does not have the MESSAGE REMINDER feature, the
calling stations LCD displays:
2. Messages cannot be sent while engaged in calling or recall from CALL TRANSFER - ALL CALLS [C-
11] [C-50] or from CONSULTATION HOLD - ALL CALLS [C-17] [C-58].
3. A maximum of four messages may be received at any one D
term. If a fifth message is attempted, the LCD
will display:
4. Messages can only be displayed when the D
termstation is idle.
5. A message may be cleared by pressing the MSG key on the D
termand pressing the“*”or“#”key on the
key pad. (“*”or“#”key is selected via system data.)
6. A message is automatically cleared when it is returned using the MSG key.
7. Once a message has been sent, it cannot be cleared by the sender.
8. After the first message, all subsequent messages sent by the same station are regarded as individual
messages.
9. When a user sets MESSAGE REMINDER - CCIS to the station setting CALL FORWARDING - ALL
CALLS [C-5] [C-45], BUSY LINE [C-2] [C-46] while hearing ringback tone, MESSAGE REMINDER
is set to the dialed station (not the forwarding destination).
10. If the called D
termanswers the call while the calling station is dialing the MESSAGE REMINDER - CCIS
access code, the calling and called stations will be connected.
11. Messages can be sent only if the called station is in the idle, busy, or VOICE CALL [V-2] condition.
12. When this service is restricted and the calling station receives busy tone, the calling station can activate
busy services.
13. This service is available when the calling station receives busy tone upon encountering all trunks busy.
Interactions
If CALL WAITING - ORIGINATE [C-31] Automatic operation is in service, it will supersede MESSAGE
REMINDER. If a third station calls and receives busy tone, MESSAGE REMINDER can be set.
Programming
For Single Line Sets
STEP 1:ASYD- SYS1, Index 17, bit 0. Is SHF and Access Code service Allowed? 0/1: No/Yes. For
MESSAGE REMINDER and VOICE CALL from a Single-Line Set.
STEP 2:ANPD- Reserve a number level for service feature access. Assign for Normal (N), Hooking (H), and
Busy (B). Assign NND in accordance with a predetermined numbering plan.
MESSAGE  REST 
(Time Display) 
MESSAGE  BUSY 
(Time Display)  
						

							NEAX2400 IPX Feature Programming Manual
NDA-24297, Issue 1Page 939
Message Reminder - Dterm- CCIS M-34D
Programming (cont’d)
STEP 3:ASPA- Assign an access code to MESSAGE REMINDER; assign SRV = SSCA (Service Code
Appendix), SIDA = 42. Assign a Connection Index of Normal (N) and Busy (B).
STEP 4:ASFC- Assign to the single-line stations that will have MESSAGE REMINDER a Service Feature
Class that allows SFI 53.
 Note
STEP 5:AKYD- Assign the station according to the following parameters:
TN: 1
STN: Station Number
TP: Type of D
term0/1:
RING:
0: No Ringing
1: Ringing All Lines
2: Ringing on Prime Line Only
3: Flexible Ring Assignment, enables RG parameter.
KYN: Key Number (1 - 40) For the 4-button D
term, use keys 13-16 only.
KYI: Service Index
0: Key Not Used
1: Feature Key
2: Multi-line Key
KD: Not assigned for Feature Key
FKY: Feature Key Number
FKY= 6, MESSAGE REMINDER
RG: Ringing Assignment per Multi-line Appearance
0: No Ringing.
1: Ringing in Night Mode Only.
2: Ringing in Night Mode Only.
3: Ringing Day and Night.
Note:Dterms with a MESSAGE REMINDER key do not require the Service Feature Class assignment. Only single-
line sets require the ASFC assignment. 
						

							NEAX2400 IPX Feature Programming ManualPage 940NDA-24297, Issue 1
M-35 Message Waiting Lamp Setting - Attendant - CCIS
M-35  Message Waiting Lamp Setting - Attendant - 
CCIS
General Description
This service feature allows the MESSAGE WAITING (MW) lamp on the Dtermor telephone set, equipped with MW
lamp accommodated in the Satellite Offices, to be controlled from the Attendant Console in the CCIS network.
Operating Procedure
To set MW Indication
1. The Attendant in Node A presses an idle loop key.
2. The Attendant enters the MW set code (maximum 3 digits); receives special dial tone.
3. The Attendant dials Station (B), which is equipped with an MW lamp. The Attendant receives service set
tone. The MW lamp on Station B illuminates.
4. The Attendant presses the RELEASE key and returns to an idle state.
To cancel MW Indication
1. The Attendant presses an idle loop key, then enters the MW cancel code (maximum 3 digits); receives
special dial tone.
2. The Attendant dials Station B, which is equipped with an MW lamp. The Attendant receives service set
tone. The MW lamp on Station B goes out.
3. The Attendant presses the RELEASE key and returns to an idle state.
Service Conditions
1. The MW lamp on a Dtermor single line telephone will be lit when this feature is activated.
2. MW cannot be set when the Attendant is in a consultation condition with a station or trunk.
3. An Attendant attempting to set MW to a station where MW has previously been set, will receive busy tone.
4. In a MULTIPLE CONSOLE OPERATION [M-4], if MW is set by one ATTENDANT CONSOLE [A-3],
it can be cancelled by another.
ATT
[Node A][Node B]STN (b) CCIS
MW Lamp SPDT
S
PD
T
ATT
[Node A][Node B]STN (b) CCISMW Lamp is ON
SST
SS
T 
						

							NEAX2400 IPX Feature Programming Manual
NDA-24297, Issue 1Page 941
Message Waiting Lamp Setting - Attendant - CCIS M-35
Programming
STEP 1:ANPD- Assign minimum necessary number of digits for the first number of the access code and
connection index for MW service.
STEP 2:ASPA- Assign the access code and connection index for MW service.
To Set: CI = N (Normal), SRV = SSCA (Service Code Appendix), SIDA = 54
To Cancel: CI = N (Normal), SRV = SSCA (Service Code Appendix), SIDA = 55
STEP 3:ASFC- Allow MW Lamp Control (SFI = 74) to the SFC of the station. 
						

							NEAX2400 IPX Feature Programming ManualPage 942NDA-24297, Issue 1
M-36 Message Waiting Lamp Setting - Station - CCIS
M-36  Message Waiting Lamp Setting - Station - CCIS 
General Description
This feature allows any Dtermor single line telephone to set/cancel a MESSAGE WAITING indication or lamp at
any other station equipped with this feature in the CCIS network.
Operating Procedure
To set from a single line telephone
1. Lift the handset; receive dial tone.
2. Dial the MESSAGE WAITING LAMP SETTING (SET) access code (up to 3 digits); receive special dial
tone.
3. Dial the desired telephone number; receive service set tone.
4. MESSAGE WAITING indication is set.
To cancel from a single line telephone
1. Lift the handset; receive dial tone.
2. Dial the MESSAGE WAITING LAMP SETTING (CANCEL) access code (up to 3 digits); receive special
dial tone.
3. Dial the desired telephone number; receive service set tone.
4. MESSAGE WAITING indication is cancelled.
To set from a Dterm
1. Lift the handset or press the Speaker key; receive dial tone.
2. Press the MESSAGE WAITING LAMP SETTING (SET) line/feature key; receive special dial tone.
3. Dial the desired telephone number; receive service set tone.
4. MESSAGE WAITING indication is set.
To cancel from a Dterm
1. Lift the handset or press the Speaker button; receive dial tone.
2. Press the MESSAGE WAITING LAMP SETTING (CANCEL) line/feature key; receive special dial tone.
3. Dial the desired telephone number; receive service set tone.
4. MESSAGE WAITING indication is cancelled.
Service Conditions
1. Single Line telephones must be equipped with a 90-volt neon light for MESSAGE WAITING indication.
2. An external + 80-volt Booster Power Unit is required at each node for lighting single line telephones.
3. 16LCBE, 16LCBJ and 16LCBK can be used to for stutter dial tone instead of Message Waiting lamp
indication.
4. The MESSAGE WAITING lamp on a single line telephone and 8-button D
termlights when MESSAGE
WAITING LAMP SETTING-STATION - CCIS is activated.
5. When MESSAGE WAITING LAMP SETTING-STATION - CCIS is set to a D
termphone, the display is:
This display appears in place of the time display.(Time Display)MW 
						

							NEAX2400 IPX Feature Programming Manual
NDA-24297, Issue 1Page 943
Message Waiting Lamp Setting - Station - CCIS M-36
Service Conditions (cont’d)
6. If a user attempts to set MESSAGE WAITING to a station where MESSAGE WAITING has already been
set, busy tone will be sent to the station, and the Dtermphones will display:
7. When a station is restricted from MESSAGE WAITING LAMP SETTING-STATION - CCIS or is an
unused telephone number, and another user attempts to set/cancel MESSAGE WAITING LAMP
SETTING-STATION - CCIS, the calling station will hear reorder tone. A D
termphone will display:
8. When a D
termuser presses the MESSAGE WAITING LAMP SETTING line/feature key, the display will
indicate:
9. When a D
termuser presses the MESSAGE WAITING LAMP SETTING cancel line/feature key, the
display will indicate:
Interactions
An external power source is required to light a lamp for a single line telephone.
Programming
STEP 1:ANPD- Reserve a number level for feature access and cancel. Assign for Normal (N), Hooking (H),
and Busy (B). Assign NND in accordance with a predetermined numbering plan.
STEP 2:ASPA- Assign an access code to MESSAGE WAITING LAMP SETTING activate SRV = SSCA
(Service Code Appendix), SIDA = 54 and to MESSAGE WAITING LAMP SETTING extinguish
SRV = SSCA (Service Code Appendix), SIDA = 55. Assign Connection Status Index (CI) for Normal
(N) service.
STEP 3:ASFC- Assign a Service Feature Class that allows SFI = 74 to the stations that will receive the feature
MESSAGE WAITING LAMP SETTING. Assign a Service Feature Class that allows SFI = 82 to
stations that set the feature MESSAGE WAITING - CCIS.
STEP 4:AKYD- FKY 9: to set MW. FKY 11: to cancel MW.(Time Display)MW BUSY
(Time Display)MW REST
(Time Display)MW SET
(Time Display)MW CANCEL 
						

							NEAX2400 IPX Feature Programming ManualPage 944NDA-24297, Issue 1
M-37 Miscellaneous Trunk Access - CCIS
M-37  Miscellaneous Trunk Access - CCIS 
General Description
This feature provides access through the CCIS network to all types of external and customer provided equipment/
facilities, such as TIE LINE ACCESS [T-3], as well as DICTATION ACCESS [D-3], PAGING ACCESS - CCIS,
and CODE CALLING ACCESS [C-21].
Operating Procedure
MISCELLANEOUS TRUNK ACCESS - CCIS is programmed in system data via the Maintenance Administration
Terminal (MAT).
Service Conditions
1. Access to these trunk routes is allowed or denied in CLASS OF SERVICE-INDIVIDUAL [C-15]
programming.
2. An interface circuit must be provided for each trunk.
Interactions
If other services such as STATION MESSAGE DETAIL RECORDING[S-10], TOLL RESTRICTION - CCIS[T-
26], and/or LEAST-COST ROUTING-3/6 DIGIT[L-5]are being used, refer to these feature descriptions, as these
services may require programming steps not listed.
Programming
STEP 1:ARTD- Refer to the feature listing for the type of trunk route to be accessed.
STEP 2:AT R K- Assign the LEN, Route Number, Trunk Number, and Tenant Number.
STEP 3:MBTK- Assign the Make Idle status to the trunks.
STEP 4:ANPD- Assign a level for trunk access. Assign for a Connection Index (CI) of Normal (N) and
Hooking (H) service. Number of Necessary Digits is assigned according to a predetermined numbering
plan. Busy Lamp Field is not activated.
STEP 5:ASPA- Assign the access code as in the level assigned in ANPD above. Type of service, 6(LCR).
STEP 6:ARSC- Assign a Route Restriction Class (RSC) that is allowed in Route Restriction Index (RRI) 0, 1,
2 & 3 to the station that is allowed access to these trunks.
STEP 7:ASDT- Assign an RSC that allows access to these trunks to the stations.
STEP 8:AFRS/AOPR- Assign for flexible routing LEAST-COST ROUTING-3/6 DIGIT (LCR). 
						

							NEAX2400 IPX Feature Programming Manual
NDA-24297, Issue 1Page 945
Miscellaneous Trunk Restriction - CCIS M-38
M-38  Miscellaneous Trunk Restriction - CCIS 
General Description
This feature allows certain stations and dial-repeating TIE Line trunks to be denied access through CCIS to certain
trunk routes, such as TIE LINE ACCESS [T-3], as well as the Exchange Network, DICTATION ACCESS [D-3],
or PAGING ACCESS - CCIS [P-28].
Operating Procedure
No manual operation is required. Restricted stations will receive reorder tone.
Service Conditions
1. Restricted call attempts can be either:
a.) intercepted by the Attendant.
b.) reorder tone can be sent to the originating user.
2. Access to a particular trunk route is allowed or denied by a station’s Route Restriction Class (RSC). A
maximum of 15 RSCs can be assigned per tenant. Each RSC can restrict a station from any number of
trunk routes, to a maximum of 255 trunk routes.
3. This feature can be assigned to stations or dial-repeating TIE trunks via CLASS OF SERVICE-
INDIVIDUAL [C-15] restrictions.
4. If a station’s CLASS OF SERVICE-INDIVIDUAL [C-15] allows outgoing calls via the Attendant
Console, the user can dial“0”for Attendant-assisted trunk calls.
5. MISCELLANEOUS TRUNK RESTRICTION - CCIS can change for a particular station when the system
is in the Night mode.
6. If a restricted station calls another station, the called station cannot use CALL TRANSFER-ALL CALLS
[C-11, C-11D, C-50] to connect the calling station to a trunk route from which it is restricted.
7. If a user accesses a TIE trunk to a distant PBX, access to outside exchanges can only be controlled by the
distant PBX.
Interactions
If other services such as STATION MESSAGE DETAIL RECORDING[S-10], TOLL RESTRICTION-3/6 DIGIT
- CCIS[T-26], and/or LEAST-COST ROUTING-3/6 DIGIT[L-5]are being used, refer to these feature descriptions
for commands that may be required and are not listed.
Programming
STEP 1:ASYD- System Data 2, Index 1, Bits 4 & 5. Should a restricted station be routed to the Attendant
Console or receive reorder tone?
Reorder Tone: Bit 4 = 0, Bit 5 = 0.
Attendant Console: Bit 4 = 1, Bit 5 = 0.
STEP 2:Follow the procedure for MISCELLANEOUS TRUNK ACCESS [M-2]. Assign the ARSC command
to restrict RSCs from receiving certain routes. Then assign the restricted RSCs to stations via the
ASDT or ASCL command. When assigning the ARRC command, restrict incoming TIE Lines from
accessing certain routes. 
						

							NEAX2400 IPX Feature Programming ManualPage 946NDA-24297, Issue 1
M-39 Modem Pooling - CCIS
M-39  Modem Pooling - CCIS
General Description
This feature allows any terminal to have access to a data terminal in a different office through a concentration of
modem groups, set at different data speeds, using the Common Channel Inter-Office Signaling System.
A maximum of 8 Modem Groups are provided. One modem in the group is selected by the data station, at the time
of Modem Pool selection. Least Cost Routing and other standard PBX features can be used for optimization of long
distance data calls. Incoming Modem Pooling capabilities are also provided.
Operating Procedure
Outgoing Modem Pooling
Data Terminal connected to a Data Module
1. Key in DM CALL . READY is sent back.
2. Key in the number of the desired terminal in the distant office DIAL-XXXXXXXX .
3. CALLING is sent back.
4. The Outgoing Modem Pool is connected to the call.
5. WAITING is sent back when the called terminal is idle.
6. OPEN is sent back when the called terminal answers with Carrier Tone and both modems exchange
Carrier Tone.
7. Data transparency path is established.
8. Key in ESC DM  to disconnect.
9. ACK is sent back. Key in RLS .
10. RELEASED is sent back when the path is disconnected.
Data Terminal connected to a Dterm/Data Adapter (Key Pad Dialing)
1. Lift the handset or press the SPEAKER key and receive dial tone.
2. Dial the desired terminal number.
3. Receive remote modem Answer Tone.
4. Press the DTX key on the D
term. The Outgoing Modem Pool is transferred to the trunk.
5. WAIT D XXXXXXXX is displayed when the called terminal is idle.
6. READY D XXXXXXXX is displayed when the called terminal answers with Carrier Tone.
Service Conditions
1. Modem Pooling supports asynchronous data calls up to 1200 bps using analog trunks, depending on the
condition of the lines and modems used.
2. Up to 8 Modem Groups can be assigned total. There may be 8 Incoming or 8 Outgoing Modem Pool
Groups assigned, or 8 Bothway. Bothway groups are defined as Incoming and Outgoing.
3. One modem in the group is selected by the DTE at the time of Modem Pool connection.
4. Least Cost Routing can be used for optimization of long distance data calls.
5. Incoming Modem Pooling capabilities are also provided.
6. Modems must be compatible.
7. Acoustically Coupled Modems, Limited Distance Modems, Line Drivers and DSUs cannot be attached to
the Modem Pooling card. 
						

							NEAX2400 IPX Feature Programming Manual
NDA-24297, Issue 1Page 947
Modem Pooling - CCIS M-39
Service Conditions (cont’d)
8. Distinctive Ringing - Most modems recognize only a 2-second on, 1-second off ring. This consideration
must be taken into account when defining incoming trunk ringing.
9. The Reverse or Secondary Channel feature of modems is not implemented on the Modem Pool card.
10. Speed Select using pin 23 on the EIA RS232 connector is not implemented.
11. Intelligent or Auto Dial Modems must be strapped for manual operation (if available) to work on the
Modem Pool card.
Interactions
The assignment of MODEM POOLING also involves ASYNCHRONOUS DATA SWITCHING [A-24], DATA
INTERFACE AUTOMATIC ANSWER [D-18], DATA TRANSPARENCY [D-19], CLASS OF SERVICE -
INDIVIDUAL [C-15], LEAST COST ROUTING [L-5], and TOLL RESTRICTION - 3/6 DIGIT [T-7]. Any of
these features programmed incorrectly may cause MODEM POOLING to operate incorrectly. Take special
precautions when programming Attribute Data to the data terminal. This programming will determine which
MODEM POOLING Route will be allowed to the Data Terminal.
Programming
STEP 1:AMDD- Assign data to characterize the different Modem Route Numbers.
MDM No:
Rt: 919 Modem No: 1
Rt: 920 Modem No: 2
Rt: 921 Modem No: 3
Rt: 922 Modem No: 4
Rt: 923 Modem No: 5
Rt: 924 Modem No: 6
Rt: 925 Modem No: 7
Rt: 926 Modem No: 8
DR: Data Set Ready On
0: Check
1: Not Checked
2: Supervise
3: Not Supervised
Normally assign Data“0”
R: Ring Modem (0/1)
0: Not Used
1: Ring Modem
HDX: Half/Full Duplex
0: Half Duplex
1: Full Duplex
2W/4W:2 Wire/4 Wire
0: 2 Wire