NEC America, Inc. reserves the right to change the specifications,
functions, or features, at any time, without notice.
NEC America, Inc. has prepared this document for use by its
employees and custome rs. The information contained herein is
the property of NEC America, Inc. and shall not be reproduced
without prior written approval from NEC America, Inc.
This manual explains the installation and programming procedure for providing No. 7 Common
Channel Inter-Office Signaling (No. 7 CCIS) system to the NEAX2000 IVS2/NEAX7400 ICS
M100MX/NEAX2000 INTEGRATED VOICE SERVER.
OUTLINE OF THIS MANUAL
This manual consists of five chapters. The contents of CHAPTER 1 through 5 are outlined below.
CHAPTER 1GENERAL INFORMATION
This chapter explains the system outline, the name and functions of circuit cards required,
system capacity, time slot assignment condition, system specifications, av ailable service featur es
with No. 7 CCIS, and network structure conditions for CCIS system.
CHAPTER 2INSTALLATION
This chapter explains the required equipment and installation procedure.
CHAPTER 3SYSTEM DATA PROGRAMMING
This chapter explains the programming procedure for providing CCIS system, and also explains
the general description, programming procedure, operating procedure, and hardware
requirement of each service feature.
CHAPTER 4CIRCUIT CARD INFORMATION
This chapter e xpla ins the mou nting loca tion, the m eaning of l amp indi cations , and the method o f
switch settings of ea ch circuit card f o r the No. 7 CCIS system.
CHAPTER 5OPERATION TEST
This chapter explains inter-office test procedure relating to the basic DTI functions.
NEAX2000 IVS2 Maintenance Manual
ND-70926 (E), Issue 1.0Pa ge 1
Introduction
Terms in This Manu al
TERMS IN THIS MANUAL
Usually, PBX system is designated as “PBX” or “system”.
When we must distinguish between the PBX systems, th ey are designated as follows.
IVS: NEAX2000 IVS2/NEAX7400 ICS M100MX/NEAX2000 INTEGRATED VOICE SERVER
IMX: NEAX2400 IMS (IMX)/NEAX7400 ICS M140MX or more/NEAX7400 IMX M240 or more
REFERENCE MANUAL
During installation, refer also to the manuals below:
operation, command function and setting data required for
programming the system, and Resident System Program.
Office Data Programming ManualContains the Customer Specification Sheet and Office Data
Programming Sheet.
MATWorX Studio User’s GuideDescribes the Maintenance Administration Terminal
(MATWorX Studio) program operation.
Maintenance ManualDescribes maintenance service features and the
recommended trouble shooting procedure.
Installation Procedure ManualDescribes the installation procedure for the PBX system.
Page 2ND-70926 (E), Issue 1.0
NEAX2000 IVS2 Maintenance Manual
CHAPTER 1
GENERAL INFORMATION
This chapter explains the system outline, the name and functions of
circuit cards required, system capacity, time slot assignment
condition, system specifications, available service features with No. 7
CCIS, and network structure considerations for CCIS system.
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 3
CHAPTER 1 GENERAL INFORMATION
System Outline
SYSTEM OUTLINE
The PBX can be interfaced with a Public Network or Tie Line Network by No. 7 CCIS Signaling.
For adding No. 7 CCIS to the system, it is necessary to install the 24/30 channel Digital Trunk
Interface (DTI) for a digital network or LDT (Loop Dial Trunk)/ODT (2 wire E&M or 4 wire E&M
Tr unk) for an analog network via a MODEM, and a Phase Locked Oscillator (PLO) for network
synchronization. Also, it is necessary to install a Common Channel Handler (CCH).
The CCH receives/transmits common signaling data from/to the distant office. In each local
office, the PBX can provide Centralized Billing function in addition to a variety of inter-office
service features.
NOTE: Centralized Day/Night Mode Change, Centralized MAT and Number Portability feature
require CCIS No. 7 networking with the IMX.
For addition of the C ent ralized Billing func tio n, an Appli catio n Pr oces sor (A P) o r Built -in SMDR
of MP card (for Local Office only) is required. Figure 1-1 shows the system outline of No . 7 CCIS
for the PBX.
Figure 1-1 No. 7 CCIS System Outline
PBX
MP
(PLO)
24/30 CH
DTI
CCH
AP
24/30 CHANNEL PCM
DIGITAL LINE
CLOCK SIGNAL
DTI
DIGITAL
PBX
CCH
MP
(PLO)
AP : Application Processor for Centralized Billing
CCH: Common Channel Handler
DTI : 24/30 Channel Digital Trunk Interface
PLO: Phase Locked Oscillator
Page 4ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 1 GENERAL INFORMATION
System Outline
DTI
The Digital Trunk Interface (DTI) interfaces the PBX directly to a 24/30 channel PCM
transmission line. The DTI has the following functions.
For 24-DTI:
• Unipolar/Bipol ar Conversion (AMI Format/B8ZS Format)
• Signaling Insertion/Extraction
• Alarm Detection/Insertion
• Digital PAD on Voice Signal Transmission
• Loop-Back Test (Local/Remote Loop Back)
• Cyclic Redundancy Checking (based on ITU-T Rec. G704)
For 30-DTI:
• Unipolar/Bipolar Conversion (HDB3 Format)
• Signaling Insertion/Extraction
• Alarm Detection/Insertion
• Digital PAD on Voice Signal Transmission
• Cyclic Redundancy Checking (based on ITU-T Rec. G704)
• Channel Associated Signaling (based on ITU-T Rec. 0421 Digital R2 Signaling Code)
For connection of a 24-DTI and transmission line, twisted-pair cables are used, and for
connection of a 30-DTI and transmission line, twisted-pair cables or coaxial cables are used.
CCH
The Common Channel Handler (CCH) card provides a common channel signal through the DTI
to a No . 7 CCIS netw ork, and i t is resp onsib le f or sign aling b etween the PBX and th e No. 7 CCIS
network under control of the MP.
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CHAPTER 1 GENERAL INFORMATION
System Outline
PLO
The Phase Locked Oscillator (PLO) is responsible for providing synchronization between the
TDSW and another office. In this system, the internal PLO equipped with the MP card is used.
The PLO generates a synchronized clock signal according to the source clock signals supplied
from the source office withi n t he n etwork, and supplies the generated cl ock signal to the TDSW.
The PLO is supplied with clock signals extracted from the DTI. The PLO can be equipped with
two clock supply routes; one is the route from the source office, and the other is a standby route
from a sub-source office. When no cloc k signals from the source and the sub-source of fice arrive
due to a transmission line failure, the PLO keeps generating the clock signals in phase with the
previous source clock.
Figure 1-2 shows an example of clock supply route configuration.
Figure 1-2 Clock Supply Route
SOURCE OFFICE
SOURCE
CLOCK
~
TDSW
PLO
DTI
DTI
SUB-SOURCE OFFICE
TDSW
DTI
PLO
RECEIVER OFFICE
TDSW
DTI
PLO
DTI
DTI
DTI
DTI
RECEIVER/LOCAL-RECEIVER OFFICE
TDSW
DTI
DTI
PLO
PBX
DIRECTION OF CLOCK
:
SIGNAL SUPPLY
Page 6ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 1 GENERAL INFORMATION
System Outline
No. 7 CCIS
The PBX can provide No. 7 CCIS via either a digital network or an analog netw ork. Regardless
of the relevant network being a digital network or an analo g network, CCH (Common Cha nnel
Handler) to co ntr ol t he com m on sig naling channel is requi re d.
DIGITAL NETWORK
When No. 7 CCIS is prov ided via a digital network, the CCH is connecte d to the DTI by a fixed
path in the TDSW and transmits/receives common signaling data to/from the distant office
through a predetermined channel. Voice signals are transmitted/received on each line basis
through other channel s.
Figure 1-3 shows the system configuration of No. 7 CCIS provided via a digital network.
Figure 1-3 No. 7 CCIS with DTI
PBX
TDSW
MP
(PLO)
24/30 CHANNEL PCM
DIGITAL LINE
DTI
CCH
DTI : 24/30 Channel Digital Trunk Interface
CCH : Common Channel Handler
PLO : Phase Locked Oscillator
DTI
CCH
DIGITAL PBX
TDSW
MP
(PLO)
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Page 7
CHAPTER 1 GENERAL INFORMATION
System Outline
ANALOG NETWORK
When No. 7 CCIS is provided via an analog network, the CCH is connected to the Common
Signaling Channel Controller in the distant office via MODEMs, directly. Voice signals are
transmitted/rece ived through analog trunks (LDT/ODT).
Figure 1-4 shows the system configuration of No. 7 CCIS provided via analog network.
Figure 1-4 No. 7 CCIS with LDT/ODT
• Common Signaling Data Link via MODEM
PBX
LDT/ODT
LDT/ODTLDT/ODT
CCH
TDSW
MP
• Common Signaling Data Link via LDT/ODT
PBX
LDT/ODT
LDT/ODTLDT/ODT
LDT/ODTLDT/ODT
DIGITAL PBX
LDT/ODT
MCCHM
M: Modem
TDSW
MP
DIGITAL PBX
LDT/ODT
CCH
TDSW
MP
MCCHM
M: Modem
NEAX2000 IVS2 CCIS System Manual
TDSW
MP
Page 8ND-70918 (E), Issue 1.0
CHAPTER 1 GENERAL INFORMATION
System Outline
CENTRALIZED BILLING
Centralized Billing is a function that transmits billing information at each associated office to the
central office wi thin the same ne twork through th e common sign aling chan nels of No. 7 CCIS. In
the No. 7 CCIS of the PBX, the system can transmit, as a local office, its own billing information
to the centralized office or transfer the billing infor mation from other offices to the centralized
office.
For transmitting the billing information of the local office to the centralized office, an Application
Processor (AP) or Built-in SMDR of MP card is required for each office. Built-in SMDR can not
be used for Centralized Billing in centralized office.
The AP in a centralized office can send out the billing information to two SMDR terminals
(SMDR0/SMDR1). Figure 1-5 shows an example of the centralized billing system configuration.
Figure 1-5 Centralized Billing
TDSW
MP
PBX
DTI
PLO
CCH
AP
Local Office B
(Tandem Office)
Local Office C
Billing Information
CCH
SMDR0
Center OfficeLocal Office A
DTI
PLO
AP
TDSW
MP
SMDR1
PBX
NEAX2000 IVS2 CCIS System Manual
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Page 9
CHAPTER 1 GENERAL INFORMATION
System Outline
Service Conditions for Centralized Billing
If all the PBXs within the network are the IVS, the PBX can be a centralized billing office. In that
case, there are the following conditions:
For Center Office;
• Built-in SMDR cannot be used.
• The output format of the billing information s ent to SMDR is the NEA X 2400IMS format.
• The RS port of AP00 can be used to send a billing information to SMDR.
(The RS port of Built- in SMDR can not be used.)
• Billing information of Center Office can be sent to the SMDR.
• Maximum number of Center Office is 1 within a network.
• Maximum number of Local Office which is connected to a Center Office is 8.
• Maximum nu mber of call records w hich can be receiv ed f rom Loca l Office is 36 00 per ho ur.
• If exceeds 3600 calls per hour, the call records are stored in the memory buffer on the Local
Office’s MP or AP00.
• If the AP00 cannot send the call records to the SMDR, due to such as a failure of SMDR,
the call records are stored in the memory buffer on the AP. Moreover, if the memory buffer
is filled, the call records are stored in the memory buffer on the Local Office’ s MP or AP00.
• The memory capacity of AP00 to store the call record from Local Office/Tande m Office is
512 calls.
For Local Office using Built-in SMDR;
• Built-in SMDR cannot be used when AP00 is provided in the own office
(CM05 Y=0>>04).
04~15
20~31
• Billing information of local office cannot be sent to the SMDR of the local office.
• Maximum number of call records which can be sent to Center Office is 3600 per hour.
• If the link betw een Local Office and Center Of fice is down, due to such as a failur e of Center
Office, the call records are stored in the memor y buffer on the MP. The call records will be
cleared by MP reset.
• The memory capacity of MP as follows.
Basic Memory: 256 calls
Basic Memory + Expansion Memory (PZ-M537): 1024 calls
• If local office has outgoing trunks other than CCIS, Built-in SMDR cannot be used.
Page 10ND-70918 (E), Issue 1.0
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CHAPTER 1 GENERAL INFORMATION
System Outline
For Lo cal Office using AP00;
• AP00 cannot be use d wh en Bui lt - i n SMDR is provided in the loca l office (CM08>800: 0).
• Billing information of local office cannot be sent to the SMDR of the local office.
• Maximum number of call records which can be sent to Center Office is 3600 per hour.
• When the link between Loca l Of fi ce and Center Offi ce is do w n, du e to such as a failure of
Center Office, the call reco rds are stored in the memory buffer on the AP00. The call reco rd
will not be cleared by MP reset or power off.
• The memory capacity of AP00 is as follows.
Basic Memory: 1600 calls
Basic Memory + Expansion Mem ory (PZ-M537):
27000 calls (When CMD003>28 is set to 0)
26000 calls (When CMD003>28 is set to other than 0)
For Tandem Office;
• Maximum number of Local Office which is connected to Tandem Office is 7.
• Maximum nu mber of call records w hich can be receiv ed f rom Loca l Office is 36 00 per ho ur.
If exceeds 3600 calls per hour, the call records are stored in the memory buffer on the Local
Office’s MP or AP00.
Other service conditions are the same as Local Office.
NEAX2000 IVS2 CCIS System Manual
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Page 11
CHAPTER 1 GENERAL INFORMATION
System Outline
Inter-Office Digital Data Transmission through No. 7 CCIS
The PBX can provide Inter-Office Digital Data Transmission through No. 7 CCIS.
When the PBX is an end office in the Inter-Office Digital Data Transmission through No. 7 CCIS
with Digital Interface, the digital signal is transmitted directly. A maximum of 64 Kbps digital data
transmission is available for the direct digital transmission .
When the PBX is a tandem office in the Inter-Office Digital Data Transmission through No. 7
CCIS, data transparency is provided, and a maximum of 64 Kbps digital data transmission is
available.
For details, refer to the Data Interface System Manual.
Page 12ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 1 GENERAL INFORMATION
CARD NAME AND FUNCTION
Table 1-1 shows the circuit card name and function for No. 7 CCIS.
Table 1-1 Card Name and Function
CARD NAME AND FUNCTION
EQUIPMENT
NAME
FUNCTIONAL
NAME
FUNCTION
PN-AP00-BAP00Application Processor Card
Provides four RS-232C ports, and is used for SMDR,
Hotel Printer, CIS, PMS, MCI, CS report functions.
One card per system.
PN-CP14MPMain Processor Card
Provides Memory, TDSW (1024CH × 1024CH), 16-line
CFT, PB sender, Clock, PLO 2 ports (receiver mode/
source mode), two RS-232C ports, 2-line DAT
(Recording duration: Max. 128sec.), DK, 4-line PB
receiver, Modem for remote maintenance (19.2kbps),
internal Music-on-Hold tone source and BUS interface.
BUS interface functions as a driver/receiver of various
signals, adjusts gate delay timing and cable delay
timing, monitors I/O Bus and PCM BUS.
One card is required per system.
Line resistance: Max. 2500 ohms (including internal
resistance of the distant office equipment)
Equipped with –4 8V DC - D C on -board po wer supply.
Countries]
PN-M03M03V.35 Data Terminal Equipment Interface Card
Used together with the PN-2DPCB card to provide the
V.35 interface.
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 13
CHAPTER 1 GENERAL INFORMATION
CARD NAME AND FUNCTION
Table 1-1 Card Name and Function (Continued)
EQUIPMENT
NAME
FUNCTIONAL
NAME
FUNCTION
PN-M10M10Optical Interface Card
Provides internal optical modem for digital network or
Remote PIM.
Line length: 10 km (6.2 miles) or less
Line coding: CMI
PN-2ODTAODT2-line Out Band Dialling Trunk Card
Used as either a 2-wire E&M trunk or a 4-wire E&M
trunk. Equipped with –48 V DC-DC on-board power
supply.
Both No. 0 and No. 1 circuits must be set to the same
purpose (2-wire or 4-wire) in one card.
PN-2ODTB
[For N.Z.]
ODT2-line Out Band Dialling Trunk Card
Used as either a 2-wire E&M trunk or a 4-wire E&M
trunk. Equipped with –48 V DC-DC on-board power
supply.
Both No. 0 and No. 1 circuits must be set to the same
purpose (2-wire or 4-wire) in one card.
PN-SC00CCHCommon Channel Handler Card
Transmits/receives signals on the common signalling
channel of No. 7 CCIS.
Page 14ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 1 GENERAL INFORMATION
CARD NAME AND FUNCTION
Table 1-1 Card Name and Function (Continued)
EQUIPMENT
NAME
FUNCTIONAL
NAME
FUNCTION
PZ-M537EXPMEMMemory Expansion Card for MP/AP00 Card
The system capacity is expanded as follows:
When mounted on PN-CP14 (MP) card:
System Capacityw/o EXPMEMwith EXPMEM
Line/Trunk384768
DID dial conversion5001000
IP trunk14
Station384512
As shown in Figure 1-6, the 30-DTI/CCH cards uses the time slots on the basic highway 4.
However , t he following conditions are requir ed on the time slot assign ment.
• The total number of time slots for all 30-DTI/CCH card must be less than 128 time slots or
less including all other application processor (AP) cards, which use the highway 4.
The 24-DTI card can use the time slot on both the basic and expanded highway 4 and 6.
Therefore, the total number of time slots for all 24-DTI card must be 256 time sl ots or less.
Figure 1-6 Accommodation of DTI/CCH into TDSW
FOR L/T CARDS: MAX. 512 TIME SLOTS PER SYSTEM
FP0
FP1
FP2
FP3
DTI
TDSW (1024 TIME SLOTS)
BRT
AP00
DCH
HW4
HW6
CCH
ATI
PRT
DTI
MAX. 128 TIME SLOTS
MAX. 128 TIME SLOTS
MAX. 128 TIME SLOTS
MAX. 128 TIME SLOTS
30-DTI: MAX. 31 TIME SLOTS/CARD
MAX. 2 TIME SLOTS/CARD (BRTA)
MAX. 4 TIME SLOTS/CARD (2BRTC)
1 TIME SLOT/CARD
1 TIME SLOT/CARD
1 TIME SLOT/CARD
1 TIME SLOT/CARD
25 TIME SLOT/CARD
24-DTI: MAX. 24 TIME SLOTS/CARD
FOR BASIC HIGHWAY4: MAX. 128 TIME SLOTS PER SYSTEM
EXPANDED HIGHWAY6: MAX. 128 TIME SLOTS PER SYSTEM
FOR AP CARDS: MAX. 256 TIME SLOTS PER S YSTEM
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 17
CHAPTER 1 GENERAL INFORMATION
Time Slot Assignment Condition
Time Slot Allocation for DTI Card
On each DTI card, the system recognizes the lo west and highest channel numb ers to which trunk
numbers are assigned, and allocates time slots to all the channels between them. If trunk
numbers are assigned to nonconsecutive channels, the system also allocates time slots to
channels not assigned.
For example, as shown in Figure 1- 7 , when Channel 1 through Channel 10 have been assigned
by system data progra mming (CM07 YY=01) except Channel 5, the system allocates a total of
10 time slots for all ten ch annels. Therefore, to avoid allocation of un necessar y time slots, it is
recommended that consecuti ve channels be assigned on each DTI card.
Figure 1-7 Time Slot Allocation for DTI
CH0
10
DXXX
9
6
5
4
1
DXXX
DXXX
NONE
DXXX
DXXX
NONE
HIGHEST CHANNEL
10 TIME SLOTS ARE
ALLOCATED EVEN
WHEN CH5 IS NOT
ASSIGNED.
LOWEST CHANNEL
Page 18ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 1 GENERAL INFORMATION
Time Slot Assignment Condition
Number of Time Slots Required for DTI/CCH Card
(1)When the system is serving as a Lower Hierarchy Office within the network, 1 time slot is
allocated for se tting up a fixed path be tween the DTI/ODT and the CCH as the common
signaling channel.
(2)When the system is serving as a High Hierarchy Office within the network, 1 time slot is
allocated to the distant Main Office and distant Local O ffice for the common signaling
channel.
NOTE 1: A billing information from distant Local Office is transferred as follows.
AP00→MP→CCH
NOTE 2: When a common si gnaling data link is provided via a MO DEM, the time slot for the
common signaling channel is not required.
NEAX2000 IVS2 CCIS System Manual
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Page 19
CHAPTER 1 GENERAL INFORMATION
Time Slot Assignment Condition
Figure 1-8 sh ows the CCH time slot assignment for CCIS with Digital Interface.
Figure 1-8 CCH Time Slot Assignment (for No. 7 CCIS with Digital Interface)
•
Network Configuration:
A
B
C
•
When the System locates at A, B, or C (Low Hierarchy Office) in the above network:
TDSW
DTI
CCH
AP00
MP
•
When the System locates at D (High Hierarchy Office) in the above network:
TDSW
DTI
CCH
D
To Local Office D
(1 time slot)
To Main Office M
(1 time slot)
M
M: Main Office
D: Local Office (High Hierarchy Office)
A, B, C: Local Office (Low Hierarchy Office)
AP00
DTI
CCH
DTI
CCH
DTI
CCH
MP
To Local Office A
(1 time slot)
To Local Office B
(1 time slot)
To Local Office C
(1 time slot)
NEAX2000 IVS2 CCIS System Manual
Page 20ND-70918 (E), Issue 1.0
CHAPTER 1 GENERAL INFORMATION
Time Slot Assignment Condition
Figure 1-9 shows the CCH time slot assignment for No. 7 CCIS with Analog Interface.
Figure 1-9 CCH Time Slot Assignment (for No. 7 CCIS with Analog Interface)
• Network Configuration:
A
B
C
•
When the System locates at A, B, or C (Low Hierarchy Office) in the above network:
TDSW
LDT/ODT
LDT/ODT
CCHMODEM
(1 time slot)
•
When the System locates at D (High Hierarchy Office) in the above network:
TDSW
LDT/ODT
LDT/ODT
D
M: Main Office
D: Local Office (High Hierarchy Office)
A, B, C:Local Office (Low Hierarchy Office)
To Local
Office D
To Main
Office M
M
TDSW
LDT/ODT
LDT/ODT
LDT/ODT
CCHMODEM
(1 time slot)
TDSW
LDT/ODT
LDT/ODT
To Local
Office D
To Main
Office M
CCHMODEM
(1 time slot)
LDT/ODT
To Local
LDT/ODT
CCHMODEM
(1 time slot)
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Office
A, B or C
LDT/ODT
(1 time slot)
LDT/ODT
LDT/ODT
LDT/ODT
CCHMODEM
(1 time slot)
MODEMCCH
To Local
Office
A, B or C
Page 21
CHAPTER 1 GENERAL INFORMATION
Time Slot Assignment Condition
Table 1-4 shows the n umber of time slots f or each of the cards required for No . 7 CCIS with Digital
Interface and Table 1-5 shows the number of time slots for each of the cards required for No. 7
CCIS with Analog Interface.
Table 1-4 Number of Time Slots Required per DTI/CCH/AP00 Card
(for No. 7 CCIS with Digital Interface)
CARD
PN-24DTA-C
PN-30DTC-A
PN-SC00
PN-AP00-B
NUMBER OF TIME
SLOTS PER CARD
1-24• Number of CCIS channels (the number of
1-31
1• For a distant Main Office
1• For a distant Local Office
0
REMARKS
CCH) + number of trunks assigned
– Common Signaling Channel: 1 time slot
– Common Signaling Channel: 1 time slot
Page 22ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 1 GENERAL INFORMATION
Time Slot Assignment Condition
Table 1-5 Number of Time Slots Required per CCH/AP00 Card
(for No. 7 CCIS with Analog Interface)
CARD
PN-SC00
PN-AP00-B
NUMBER OF TIME
REMARKS
SLOTS PER CARD
1• For a distant Main Office
– Common Signaling Channel: 1 time slot
1• For a distant Lo cal Office
– Common Signaling Channel: 1 time slot
0
NEAX2000 IVS2 CCIS System Manual
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Page 23
CHAPTER 1 GENERAL INFORMATION
DTI Specificatio ns
DTI SPECIFICATIONS
Transmission Characteristics
Table 1-6 Transmission Characteristics
CHARACTERISTICS24-CHANNEL30-CHANNEL
(1)Output
• Line Rate1.544 Mbps ±50 ppm2.048 Mbps ±50 ppm
• Line Code AMI with ZCS/B8ZS*HDB3 (High Density Bipolar 3)
ZCS: Zero Code Suppressi on
B8ZS:Bipolar Eight Zero Substitution
Page 24ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 1 GENERAL INFORMATION
DTI Specifications
Frame Configuration of 24-DTI
According to the AT&T Specifications for 24-channel transmission, there are two types of frame
configurations: 12-Multi Frame (D4) and 24-Multi Frame (ESF).
(1)12-Multi Frame (D4)
The frame has 12-M ulti F r ames , and each M ulti fr ame has a 24- channel PCM signal (8 bi ts/
channel) and an S bit (Super Frame Bit). Figure 1-10 shows the frame configuration, and
Table 1-7 shows frame bit assignment.
Figure 1-10 Frame Configuration of 24-DTI (12-Multi Frame)
S
CH1CH2CH3CH24
12345678123456781234567812345678
FRAME 1FRAME 2FRAME 3FRAME 12
125 sm
S: SUPERFRAM E BIT
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Page 25
CHAPTER 1 GENERAL INFORMATION
DTI Specificatio ns
Table 1-7 12-Multi Frame Bit Assignment
BIT No. OF EACH
S BIT
FRAME
No.
TERMINAL
SYNCHRONIZATION
(FT)
SIGNAL
SYNCHRONIZATION
(FS)
INFORMATION
SIGNAL BIT
111-8
201-8
301-8
401-8
511-8
611-78A
701-8
CHANNEL
(CH1-CH12)
CONTROL
SIGNAL BIT
SIGNAL
CHANNEL
811-8
911-8
1011-8
1101-8
1201-78B
*The S-bit is the first bi t in ea ch frame.
*Frames are repeated in the order show n abov e.
*Frames 6 and 12 become signal frames.
Page 26ND-70918 (E), Issue 1.0
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CHAPTER 1 GENERAL INFORMATION
DTI Specifications
(2)24-Multi Frame (Extended Super Frame <ESF>)
This frame has 24-M ulti F rames and each Multi fram e has a 24-Channel PCM signal (8 bits/
channel) and an S bit (Super Frame Bit). Figure 1-11 shows the frame configuration, and
Table 1-8 shows frame bit assignment.
Figure 1-11 Frame Configuration of 24-DTI (24-Multi Frame)
TS0TS1TS2TS15TS16TS17TS30TS31
FRAME 0FRAME 1FRAME 2FRAME 3FRAME 14FRAME 15
125 secm
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
*The S-bit is the first bit in each fr a m e.
*Frames are repeated in the order show n above.
*Frames 6, 12 and 24 become signal frames.
*The letter “m” in the “4 Kb ps Data Link” column means th at the frame i s usually assign ed to 1.
NEAX2000 IVS2 CCIS System Manual
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CHAPTER 1 GENERAL INFORMATION
DTI Specificatio ns
Frame Configuration of 30-DTI
Based on 30-channel transmission method of ITU-T Specification, the frame configuration
consists of 16-multi fra m e, each frame ha ving 32 ti m e slots.
Figure 1-12 shows the frame configuration, and Table 1-9 shows the details of time slot
assignment.
Figure 1-12 Frame Configuration of 30-DTI
TS0TS1TS15TS16TS17TS30TS31TS2
FRAME 0FRAME 15FRAME 2FRAME 3FRAME 14FRAME 1
125 µsec
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CHAPTER 1 GENERAL INFORMATION
Table 1-9 Time Slot Assignment of 30-DTI
DTI Specifications
TIME SLOT
EVEN No. FRAMEODD No. FRAME
No.
TS0Frame Alignment Signal (FAS)
b
0
x1101100
CRC BIT
FAS
b
6543217
b
0
x11111x1
CRC BIT
REMOTE ALARM
0: NORMAL
1: FRAME LOSS
b
6543217
TS1-TS15Voice Channel
CH1-CH15
TS16• No. 7 CCIS:
To be used as a Common Signaling Data Channel
TS17-TS31Voice Channel
CH17-CH31
MODEM Specifications
The MODEM specifications required for No. 7 CCIS with Analog Interface are shown below.
• Synchronization: Synchronous
• Data speed: 1200 bps-9600 bps
• Transmission Mode: Full Duplex
• Line: 2/4 wire (Common Signaling Data Link via MODEM)
• Connection Type: Leased
• Interface Condition: ITU-T V24 and V28
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CHAPTER 1 GENERAL INFORMATION
Service Features
SERVICE FEATURES
Table 1-10 List of No. 7 CCIS Service Features
SERVICE FEATURESREMARKS
Attendant Camp-On wi th Tone Indication-CCIS
Attendant Controlled Conference-CCISNOTE 1
Broker ag e- H ot Li ne - CCIS
Busy Verification-CCIS
Call Back-CCISNOTE 2
Call Forwarding-All Calls-CCIS
Call Forwarding-Busy Line-CCIS
Call Forwarding-Don’t Answer-CCIS
Call Forwarding-Intercept-CCIS
Call Forwarding-Override-CCIS
Call Transfer-All Calls-CCIS
Call Transfer-Attendant-CCIS
Calling Name Display-CCIS
Calling Number Display-CCIS
Centralized Billing-CCIS
Centralized Day/Night Mode Change-CCISNOTE 3
Centralized MAT-CCISNOTE 3
Consultation Hold-All Calls-CCIS
Data Line Security-CCIS
Deluxe Traveling Class Mark-CCIS
Dial Access to Attendant-CCIS
Direct-in Termination-CCIS
Distinctive Ringing-CCIS
Do Not Disturb-CCIS
Dual Hold-CCIS
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CHAPTER 1 GENERAL INFORMATION
Table 1-10 List of No. 7 CCIS Service Features (Continued)
SERVICE FEATURESREMARKS
Elapsed Time Dis pl ay-CCIS
Flexible Numbering of Stations-CCIS
Hands-Free Answer back-CCIS
Hot Line-CCIS
House Phone-CCIS
Incoming Call Identification-CCIS
Individual Attendant Access-CCISNOTE 4
LDN Night Connection-CCIS
Link Alarm Display-CCIS
Message Waiting Lamp Setting-Attendant-CCISNOTE 3
Service Features
Message Waiting Lamp Setting-Station-CCISNOTE 3
Miscellaneous Trunk Access-CCIS
Miscellaneous Trunk Restriction-CCIS
Multiple Call Forwarding-All Calls-CCIS
Multiple Call Forwarding-Busy Line-CCIS
Multiple Call Forwarding-Don’t Answer-CCIS
Night Connection-Fixed-CCIS
Night Connection-Flexible-CCIS
Number Portability-CCISNOTE 3
Outgoing Trunk Queuing-CCIS
Paging Access-CCIS
Restriction from Outgoing Cal ls-CCIS
Single-Digit Station Calling-CCIS
Station Controlled Conference-CCISNOTE 1
Station-to-Station Calling-CCIS
Station-to-Station Calling-Oper ator Assistance-CC IS
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CHAPTER 1 GENERAL INFORMATION
Service Features
Table 1-10 List of No. 7 CCIS Service Features (Continued)
SERVICE FEATURESREMARKS
Toll Restriction-3/6 Digits-CCIS
Trunk Answer from Any Station (TAS)-CCIS
Trunk-to-Trunk Restriction-CCIS
Uniform Numbering Plan-CCIS
Voice Call-CCIS
Voice Mail Integration-CCIS
NOTE 1: An attendant/extension of th e IM X must be a conference l eade r.
NOTE 2: This service is available by the closed numbering plan.
NOTE 3: As a Local Office, this feature is available on the IVS.
NOTE 4: This service is available when the Attendant Console is provided at the IMX on the
network.
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
NETWORK STRUCTURE CONSIDERATIONS
Determining System Configuration
The configuration of the network and the number of lines (channels) should be determined, and
is dependent on the traffic between each office (PBX). For example, when the traffic between
Office A and Office C is high (as sho wn in the network of the f ollowi ng figure), Office A and Office
C should be connected by No. 7 CCIS directly.
Figure 1-13 Network Structuring
NO. 7 CCIS
B
A
C
D
A/B/C/D: Office (PBX)
Determining Number of No. 7 CCIS Routes
When the system is a Main Office or a Tandem Office, two or more routes to other offi ces are
required.
• The maximum number of No. 7 CCIS routes is 8 per system.
Determining Typ e of Transmission Lines
The type of transmission li nes a vailable with the PBX are:
• Digital Interface (24-DTI/30-DTI)
• Analog Interface (LDT/ODT)
The Analog Interface is not suitable for a high-traffic network because the tr ansm ission speed o f
the control signal is limited to a maximum of 9.6 Kbits per second (bps). A Digital Interface can
transmit control signals at up to 56 Kbps.
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Determining Which PBX Should Be Main Office
When using No. 7 CCIS, the followi ng features requ i re establishing a clear relat io n sh ip between
the Main and Satellite offices:
• Centralized Attendant Service (CAS)
– Attendant Camp-On with Tone Indication-CCIS
– Busy Verification-CCIS
– Centralized Day/Night Mode Change-CCIS
For Centralized Day/Night Mode Change Service, the Main Office must be the IMX. This
feature can be set only from the Main Office IMX: The IVS’s Attendant Console cannot set
this feature. The IVS provides the feature when instructed by the Main Office.
• Centralized Billing-CCIS
• Centralized Fault Message
Main office: IMX only
The IVS can pass information, but cannot gener ate alarm inf o rmation and send o ver CCIS.
• Centralized MAT-CCIS
Main office: IMX only
Number Portability-CCIS
Main office: IMX only
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
For Cen traliz ed Fault Message, the PBX can not gener ate its o wn f ault me ssage. It c an only rela y
a fault message from one office to another office.
OFFICE B
NO. 7 CCIS
When Office A and Office C are IMX and Office B
is a PBX, a fault message from Office A can be
printed out at the printer locat ed in Office C.
NO. 7 CCIS
OFFICE COFFICE A
PRINTER FOR
FAULT MESSA GE
Determining Point Code
P oi nt Code s are us ed to dist ingu ish a n origin ating office and des tinat ion office in the No. 7 CCIS
network. A Point Code is assigned in each office in the No. 7 CCIS network. The following
considerations a re r eq ui r ed wh en deciding the Point Code.
(1)The same Poi nt C od e cann ot be assign ed to more than one office.
(2)A single Point Code must not be assig ned to each CCIS channel in th e same system. When
a system has two or more CCH, the same P oint Code (originating) has to be assigned to all
CCH in a system.
(3)The maximum number of Point Codes is 256. (Only 256 offices can be connected in the
same network.)
For example: Point Code Assignment
PC: 00001
CCH0
A
CCH1
PC: 00003
CCH1
C
CCH0
PC: 00002
B
A/B/C: Office (PBX)
CCH : Co mm on Channe l Handler
PC : Point Code
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
• Data Assignment of Office A
Command Code1st Data2nd DataRemarks
CMA7 YY=01
CMA7 YY=02
CMA7 YY=01
CMA7 YY=02
0
0
1
1
00001
00002
00001
00003
Assign the Originating Point Code and
the Destination Point Code for CCH0.
Assign the Originating Point Code and
the Destination Point Code for CCH1.
• Data Assignment of Office B
Command Code1st Data2nd DataRemarks
CMA7 YY=01
CMA7 YY=02
0
0
00002
00001
Assign the Originating Point Code and
the Destination Point Code for CCH0.
• Data Assignment of Office C
Command Code1st Data2nd DataRemarks
CMA7 YY=010
0
00003
00001
Assign the Originating Point Code and
the Destination Point Code for CCH0.
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Determining CCH Link to Send Messages
Each system MP must be programmed with the proper information indicating to which CCH (in
its own system) ev ery other office in the network is connected. This is required for prov iding interoffice services such as Attendant Camp-On, Call Back, and Busy Verification when using CCIS.
In each system, CMA8 is used to inform the local MP which system is connected through which
CCH. This is extremely important, not only for where two swit ches are connected to each other,
but also for networks in which tandem signaling is used.
Example 1:
PC: 00002
B
CCH0
CCH1
PC: 00003
C
CCH0
CCH0
A/B/C: Office (PBX)
CCH : Common Channel
PC : Point Code
PC: 00001
A
CCH1
CCH0
• Data Assignment of Office A
Command Code1st Data2nd DataRemarks
CMA800002
00003
00004
0
0
Assign the data to make a CCH link with
Office B via CCH0.
0
PC: 00004
D
Handler
• Data Assignment of Office B
Command Code1st Data2nd DataRemarks
CMA8
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
00001
00003
00004
1
0
0
Assign the data to make a CCH link with
Office C via CCH0, and make a CCH li nk
with Office A via CCH1.
Page 39
CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
• Data Assignment of Office C
Command Code1st Data2nd DataRemarks
CMA800001
00002
00004
• Data Assignment of Office D
Command Code1st Data2nd DataRemarks
CMA800001
00002
00003
Example 2:
1
1
0
0
0
Assign the data to make a CCH link with
Office D via CCH0, and make a CCH link
with Office B via CCH1.
Assign the data to make a CCH link with
Office C via CCH0.
0
PC: 00001PC: 00002
CCH0CCH0
AB
CCH1
CCH0
PC: 00003
CCH1
C
CCH1
CCH2CCH0
PC: 00004
D
A/B/C/D:Office (PBX)
CCH: Common Channel
Handler
PC: Point Code
In this example, there are two connection patterns from Office A to Office D, A-B-D and A-C-BD. Office A’s first choice route in the LCR (Least-Cost Routing) Route Pattern Table would be
CCH0 (whatever route the voice channel is assigned to).
The second choice would be to the voice route associated with CCH1, which is connected to
Office C. At Office C the prog r amming is set u p to call and sig nal Office B, which then routes the
call to Office D.
• Data Assignment of Office A
Command Code1st Data2nd DataRemarks
CMA800002
00003
00004
Page 40ND-70918 (E), Issue 1.0
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1
0
NEAX2000 IVS2 CCIS System Manual
Assign the data to make a CCH link with
Office B via CCH0 and make a CCH link
with Office C via CCH1.
CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
• Data Assignment of Office B
Command Code1st Data2nd DataRemarks
CMA800001
00003
00004
0
1
2
Assign the data to make a CCH link with
Office A via CCH0 make a CCH link with
Office C via CCH1 and make a CCH link
with Office D via CCH2
• Data Assignment of Office C
Command Code1st Data2nd DataRemarks
CMA800001
00002
00004
0
1
0
Assign the data to make a CCH link with
Office A via CCH0 and make a CCH link
with Office B via CCH1.
• Data Assignment of Office D
Command Code1st Data2nd DataRemarks
CMA8
00001
00002
00003
0
0
0
Assign the data to make a CCH link with
Office B via CCH0.
Determining Numbering Plan
The Uniform Numberin g Plan is used for the numbering plan in the No. 7 CCIS network. The
Uniform Numb ering Plan is p rov ided b y the Le ast-Cost Routing (LCR) f eat ure , and there a re tw o
types of plans described below.
• Station Numbe r (Cl ose d Numbering)
• Office Code and Station Number (Open Numb ering)
When an outgoing ca ll is place d throug h a CCIS li nk, an originati ng stati on num ber (Off ice Code
and Station Number) and a terminating Station Number are transmitted across the link to the
destination office. The originating station number consists of the office number assigned in
CMA7 YY=06 and the station number assigned in CM10 for the station time slot. The terminating
station number consists of the dialed number and the data assigned in CM8A (any LCR changes
to the number dialed).
Figure 1-14 and Figure 1-15 show an example of the Station Number (Closed Numbering) and
Office Code and Station Number (Open Numbering) respectively.
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Figure 1-14 Example of Station Number (Closed Numbering)
Station Numbering
(Closed Numbering):
53xx
53xx
C
54xx
54xx
A
52xx
52xx
•
When originati ng a cal l from O ffice A to O ffi ce C
54xx
Station Number
Office Location Number
B
Figure 1-15 Example of Office Code and Station Number (Open Numbering)
Office Code and Station Numbe r
(Open Numbering):
B
12
A
11
xxxx
xxxx
• When originating a call from Office A to Office C
13-8-
xxxx
Station Number
Office Code
Access Code
xxxx
xxxx
C
13
xxxx
xxxx
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Limitations on developing the Uniform Numbering Plan are as follows:
(1)Station Number (Closed Num bering)
• The dialing number must be formed as follows:
XXXXXXXX
Station Number
(Max. 8 digits)
Office Location Num ber
(Max. 2 digits)
• When providing 3-digit or 4-digit station numbering within the No. 7 CCIS network, the data
assignment of the Originating Office N umber (C MA7 YY=06) is not necessary because the
Originating Office Number is included in the originating station number.
• LCR Group 3 (CM20>A129) must be used for assigning an LCR access code.
(2)Office Code and Station Number (Open Numbering)
4-digit station
LCR Group 3
Area code Development Pattern No. 7
Route Pattern 000
Route 10 access by dialing 52XX
No digit addition
No digit deletion
Originating station number
No originating office number
Maximum number of digits dialed “4”
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
• When the office location number is distinguished by the 3rd digit of the dialed station
number:
LCR Group 3
Area Code Development Pattern No. 7
4-digit Intra-Office Station
Route Pattern 000
Route 10 access by dialing 513X
No digit addition
No digit deletion
Originating station number
No originating office number
Maximum number of digits dialed “4”
NEAX2000 IVS2 CCIS System Manual
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Example 2: Office Code and Station Number (Open Numbering)
21xx 34xx
Access Code: 8
Office Code : 50 (Office A)
51 (Office B)
52 (Office C)
B
51
A
50
31xx
C
52
• Data Assignment of Office A
Patt ern 1 (Used w hen receiving pseudo di al ton e after dialing access cod e. )
LCR Group 00
Area Code Development Pattern No. 5
Intra Office Termination
Route Pattern No. 000
Route Pattern No. 000
Route 10 access by dialing 31XX/34XX
Digit Addition Pattern No. 00
No digit deleti on
Addition of digit “ 8”
Originating office number
Originating station number
Maximum number of digits dialed “7”
Page 46ND-70918 (E), Issue 1.0
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CHAPTER 1 GENERAL INFORMATION
• Patt ern 2 (Used when not receiving pseudo dial tone.)
LCR Group 3
Area Code Development Pattern No. 7
Intra Office Te rminatio n
Route Pattern No. 000
Route Pattern No. 000
Route 10 access by dialing 851XXXX/852XXXX
No digit addition
No digit deletion
Originating office number
Originating station number
Maximum number of digits dialed “7”
Network Structure Considerations
NEAX2000 IVS2 CCIS System Manual
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Determining Route Advance
In a No. 7 CCIS network, the system can automatically route outgoing calls over an alternate
facility.
Example 1: When the number of tie line routes is two or more:
21xx 35xx
ABD
RT10
505153
RT12
C
52
CONDITIONS:
• Office Code and Station Number (Open Numb ering)
LCR Group 3
Area Code Development Pattern No. 7
Route Pattern 000
LCR Pattern 000, Route 10
LCR Pattern 000, Route 12
No digit addition
No digit deleti on
Originating office number (to Route 0)
Originating office number (to Route 1)
Originating station number
Maximum number of digits dialed “7”
CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Example 2: When route advance to C.O. is required because the desired tie lines a re all busy:
C.O.
DID (LDN: 516753-xxxx)
RT12
21xx 31xx
AB
5051
RT10
NO. 7 CCIS
CONDITIONS:
• Office Code and Station Number (Open Numb ering)
LCR Group 3
Area Code Development Pattern No. 7
Route Pattern 000
LCR Pattern 000, Route 10
LCR Pattern 001, Route 01
No digit addition
No digit deleti on
Digit Addition Pattern No. 00
Reading 3 digits deletion
Digit code to be added: 516753
Originating office number (to Route 10)
Originating station number
Maximum number of digits dialed “7”
(to Route 10)
Maximum number of digits dialed “10”
(to Route 1)
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Example 3: When route advance to one’s own office C.O. is required and the tie line route of the
tandem office connected through CCIS are all busy:
C.O.
DID (LDN: 516753-xxxx)
RT1
5051
A
NO. 7 CCIS
RT10
52
BC
NO. 7 CCIS
CONDITIONS:
• Tie Line between A and B: Idle
• Tie Line between B an d C: Busy
• The other cond itions are same as in Example 2.
Data Assignment of Office A:
Command Code1st Data2nd DataRemarks
CM083720
The other data assignments are the same as in Example 2.
Page 50ND-70918 (E), Issue 1.0
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CHAPTER 1 GENERAL INFORMATION
Network Structure Considerations
Network Construction with IMX
The Tenant Number and the Trunk Restriction Class are diff e r ent between the PBX an d t he IMX
as indicated below.
PBXIMX
• Tenant No.00-6301-255
(CM12 YY=04, CM30 YY=01)
• Trunk Restriction class1-81-15
(CM12 YY=01)
Based on these dif ference s, care m ust be tak en to ensure that proper prog ramming is co mpleted
to accommodate the differences between the PBX and the IMX.
(1)In the PBX, station and trunk assignment to tenants must be to a tenant number equal to
01 or higher. (Do not use Tenant 00.)
(2)For Attendant Consol e calls, th e tenant nu mber transm itted to the desti nation PBX is eq ual
to the Attendant G roup (0-3) to which the att endant is assigned in C M60 YY=00. Remember
that Tenant 00 is not available in the IMX, so an Attendant Group of 1-3 must be used.
(3)For ensuring proper restriction classes throughout the network, prog ramming in the PBX
allows equating the restriction classes of the PBX with the restriction classes available in
the IMX. Fo r det ails, ref er to "Deluxe Traveling Class Mark-CCIS" on Page 188.
When an Attendant Console operator in the PBX originates a call through the CCIS
network, the PBX transmits a restriction class of zero (RSC=0) to the distant off i ce.
NEAX2000 IVS2 CCIS System Manual
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This page is for your notes.
Page 52ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 2
INSTALLATION
This chapter explains the required equipment and installation
procedure.
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CHAPTER 2 INSTALLATION
Precautions
PRECAUTIONS
Static Electricity Guard
You must wear a ground ed wrist strap to protect circuit cards from static electricity.
Figure 2-1 Static Electricity Guard
• WHEN PLUGGING/UNPLUGGING A CIRCUIT CARD
PBX
WRIST STRAP
• WHEN HOLDING A CIRCUIT CARD
FRAME GROUND SCREW
NEVER TOUCH THE COMPONENTS OR
SOLDERED SURFACE WITH BARE HANDS.
CARD FRONT
Page 54ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
Figure 2-2 Static Electricity Guard
• WHEN MAKING A SWITCH SETTING ON A CIRCUIT CARD
CIRCUIT
CARD
WEAR A WRIST STRAP AND PERFORM
THE WORK ON A GROUNDED
CONDUCTIVE WORK SURFACE.
• WHEN CARRYING A CIRCUIT CARD
CHAPTER 2 INSTALLATION
Precautions
CIRCUIT
CARD
CONDUCTIVE
POLYETHYLENE
BAG
WHEN CARRYING A CIRCUIT CARD
AROUND, KEEP THE CARD IN A
CONDUCTIVE POLYETHYLENE BAG.
The mark shown below is attached to the sheet for the work in which circuit cards are handled.
When engaging in such work, the installer must be careful not to cause damage by static
electricity.
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CHAPTER 2 INSTALLATION
Precautions
CAUTION
You must hold the edge of a circuit card when plugging or unplugging the circuit card. If you
touch another area, you may be exposed to hazard voltages.
PBX
NEVER TOUCH THE COMPONENTS
OR SOLDERED SURFACE WITH BARE
.
HANDS
CARD FRONT
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CHAPTER 2 INSTALLATION
Required Equipment
REQUIRED EQUIPMENT
Table 2-1 shows the equi pment requ ired whe n providing No. 7 CCIS with digital interface to the
system.
Table 2-1 Required Equipment for No. 7 CCIS with Digital Interface
EQUIPMENTDESCRIPTIONQUANTITYREMARKS
• PN-24DTA-C24 Channels DTI Card1-8
• PN-30DTC-A30 Channels DTI Card1-4
• PZ-M542/557Co nne cti on Card fo r Coaxial Cab le1-42 cards/PIM
• PN-M10Optical Interface Card1-42 DTIs/card
• PN-SC00Common Channel Handler Card1-8
1-4
• PN-AP00-BApplication Processor Card for
1
Centralized Billing
• PZ-M537Expansion Memory Card1
When using 24DTA
When using 30DTC
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CHAPTER 2 INSTALLATION
Required Equipment
Ta b le 2 -2 shows the equipment and cables required when providing No. 7 CCIS with analog
interface.
Table 2-2 Required Equipment and Cable for No. 7 CCIS with Analog Interface
EQUIPMENT/
CABLE
• PN-2LDT or
PN-2ODT
• PN-SC00Common Channel Handler Card1-8
• PN-AP00-BApplication Processor Card for
• PZ-M537Expansion Memory Card1
• MODEMFor Common Signaling Channel NN: Number of PN-
• RS NORM4 CA-A/RS
NORM-4S CA-A
• LINE CableConnecting cable between
Loop Dial Trunk or
2-wire E&M/4-wire E&M Trunk
Centralized Billing
Connecting cables between PNSC00 and MODEM
MODEMs
DESCRIPTIONQUANTITYREMARKS
1-128
1
SC00 cards
(Should be provided
with customer.)
NN: Number of PN-
SC00 cards
Length: 4 m
(13.1 ft.)
NN: Number of PN-
SC00 cards
(Should be provided
with customer.)
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CHAPTER 2 INSTALLATION
INSTALLATION PROCEDURE
No. 7 CCIS with Digital Interface
Install the equipment according to the procedures shown in Figure 2-3.
For installation of the PBX, refer to the Installation Procedure Manual.
Figure 2-3 Installation Procedure for No. 7 CCIS with Digital Interface
START
MOUNTING DTI CARD
MOUNTING CCH CARD
Page 60
Page 61
Installation Procedure
NOTE:This procedure is not required
when using Built-in SMDR of
MP card in Local Office.
MOUNTING EXPMEM CARD
MOUNTING AP00 CARD
MOUNTING CONN CARD
MOUNTING M10 CARD
SELECTION OF PLO IN
MP CARD
CABLE CONNECTION
VIA MDF
CABLE CONNECTION
VIA CONN CARD
OPTICAL CABLE
CONNECTION
Page 62
This procedure is required when
expanding the capacity of call
information store memory.
Page 63
This procedure is required when
providing Centralized Billing. NOTE
Page 64
This procedure is required when
providing PZ-M542/PZ-M557 card
to connect a coaxial cable for
30-DTI card.
Page 65
This procedure is required when
providing PN-M10 card to connect a
optical interface.
Page 66
Page 67
Page 70
This procedure is required when
providing PZ-M542/PZ-M557 card
to connect a coaxial cable for
30-DTI card.
Page 72
This procedure is required when
providing PN-M10 card to connect a
optical interface.
END
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 59
CHAPTER 2 INSTALLATION
Installation Procedure
Mounting DTI Card
(1)Before mounting the DTI (PN-24DTA-C/PN-30DTC-A) card, set the MB
switch to U P positi on, a nd set th e other switches to appropriate position.
See CHAPTER 4 on Page 259.
(2)Mount the DTI card in the f ol l owing AP slot in PIM0 through PIM7.
PIM0: AP00-AP10
PIM1-7: AP00-AP11
NOTE: The DTI card (DTI0, DTI1) which sends a clock signal to PLO of the MP card must be
mounted in the AP slots on PIM0.
(3)After mounting the card, set the MB switch to DOWN position to put the card in service.
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 61
CHAPTER 2 INSTALLATION
Installation Procedure
Mounting EXPMEM Card
When billing information of more than 1600 calls is needed, install the
EXPMEM (PZ-M537) card as detailed below.
(1)Confirm the correct switch setting. See CHAPTER 4 on Page 259.
(2)Mount the EXPMEM card on the AP00 card.
(3)Mount the AP00 card into AP slots. (See "Mounting AP00 Card" on Page 63.)
(1)Before mount ing the AP00 (PN-AP00-B) card, set the MB switch to UP
position, and set the other switches to appropriate position.
See CHAPTER 4 on Page 259.
(2)Mount the AP00 card in any one of AP slot on each PIM.
(3)After mounting the card, set the MB switch to the DOWN position to put the card in service.
Figure 2-6 shows an e x ample of the ca ble con nection when the DTI card is m ounted in the AP05
slot of PIM0.
Figure 2-6 Example of Cable Connection via MDF
AP05
LTC1 (J)
PIM 0
RA
RB
TA
TB
JPMDFDTI
17
42
18
43
LTC1 (P )
LTC1
17
42
18
43
RECEIVE
RA
RB
TA
TB
TRANSFER
TO C SU
17
RA TA42
18
19
20
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
43
44
45
RB
TB
42
43
44
45
RB TB17
18
19
20
RA
TA
Page 69
CHAPTER 2 INSTALLATION
Installation Procedure
Cable Connection via CONN Card
When using a coaxial cable, connect the cable to a CSU via the CONN (PZ-M542/PZ-M557) card
as shown in Figure 2-7.
Figure 2-7 DTI Cable Connection via CONN Card
BWB
PBX
30-DTI
COAXIAL CABLE
CONN (PZ-M542/PZ-M557)
LTC0/LT C1/LTC2/LTC3 CONNECTOR
MAX. 6 dB loss at 1024 kHz
CSU
Page 70ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 2 INSTALLATION
Installation Procedure
Figure 2-8 shows an example of the cable connection when the 30-DTI card is mounted in the
AP05 slot of PIM0.
Figure 2-8 Example of Cable Connection via the CONN Card
PIM 0
DTI
LTC1
JP
CONN CARD
AP05
17
RA
RB
TA
TB
12
LTC1 CONNECTOR
LTC1 (J)
17
18
19
20
RA TA42
43
44
45
RB
TB
42
43
44
45
17
42
18
43
LTC1 (P)
RB TB17
18
19
20
42
18
43
1
RA
TA
RECEIVE
RCV
TO CSU
TRS
SEND
2
COAXIAL CONNECTOR
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 71
CHAPTER 2 INSTALLATION
Installation Procedure
Optical Cable Connection
When you use an optical cable for DTI, connect the cable each other to the CN1 connector of the
M10 (PN-M10) cards.
M10 card and DTI cards are connected via MDF through LTC connector on the BWB.
Figure 2-9 and Figure 2-10 show the outline of connection and example of M10 MDF cross
connection.
Figure 2-9 Outline of Optical Cable Connection
24DTI/
30DTI
24DTI/
30DTI
MDF
M10
CN1
OPTICAL
CABLE
MAX. 10 km
(6.2 miles)
CN1
MDF
24DTI/
30DTI
M10
24DTI/
30DTI
Page 72ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 2 INSTALLATION
Installation Procedure
Figure 2-10 Example of MDF Cross Connection for M10 Card (1 of 2)
PIM 0
LTC3
JPMDFDTI
AP09
[LT09]
AP10
[LT10]
No. 1
RECEIVE
RA11RA
RB2626RB
TA22TA
TB2727TB
1
LTC3
JPDTI
RA99RA
RB3434RB
TA1010TA
TB3535TB
2
LTC1
JPM10
RA1717RA
RB4242RB
TA1818TA
TB4343TB
TRANSFER
RECEIVE
TRANSFER
RECEIVE
AP05
[LT05]
RA1919RA
RB4444RB
CN1
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
No. 0
TA2020TA
TB4545TB
3
TO OPPOSITE M10 CARD
TRANSFER
RECEIVE
TRANSFER
Page 73
CHAPTER 2 INSTALLATION
Installation Procedure
Figure 2-10 Example of MDF Cross Connection for M10 Card (2 of 2)
1 LTC3 CONNECTOR
1
RA TA26
2
3
4
2 LTC3 CONNECTOR
9
10
11
12
27
28
29
LTC (J)
RA TA34
35
36
37
LTC (J)
RB
TB
RB
TB
26
27
28
29
34
35
36
37
RB TB1
(P)
RB TB9
10
11
12
(P)
RA
2
TA
3
4
RA
TA
3 LTC1 CONNECTOR
17
18
19
20
RA TA42
43
44
45
LTC (J)
RB
TB
42
RB TB17
43
44
45
(P)
NEAX2000 IVS2 CCIS System Manual
18
19
20
RA
TA
Page 74ND-70918 (E), Issue 1.0
CHAPTER 2 INSTALLATION
Installation Procedure
No. 7 CCIS with Analog Interface
Perform necessary installation works of the equipment according to the procedure shown in
Figure 2-11.
Figure 2-11 Installation Procedure for No. 7 CCIS with Analog Interface
START
MOUNTING LDT/ODT CARD
MOUNTING CCH CARD
MOUNTING EXPMEM CARD
Page 76
Page 61
Page 62
This procedure is required when
expanding the capacity of call
information store memory.
MOUNTING AP00 CARD
CABLE CONNECTION
AT CCH AND MODEM
END
Page 63
This procedure is required when
providing Centralized Billing. NOTE
Page 77
NOTE: This procedure is not required
when using Built-in SMDR of MP
card in Local Office.
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 75
CHAPTER 2 INSTALLATION
Installation Procedure
Mounting LDT/ODT Card
Mount the LDT (PN-2LDTA) an d ODT (PN-2ODTA/PN-2ODTB ) cards in LT
slots.
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 79
CHAPTER 2 INSTALLATION
Installation Procedure
Figure 2-16 shows an example of the cable connection when the CCH card is mounted in the
AP05 slot of PIM0.
Figure 2-16 Cabling of LINE Cable (for Common Signalling Data Link via LDT/ODT)
PIM 0
AP05
[LT05]
CCH
TX R
TX T
RCV R
RCV T
Not Used
LTC1
JP
17
42
18
43
19
44
20
45
17
42
18
43
19
44
20
45
MDF
(TX Ring)
(TX Tip)
(RCV Ring)
(RCV Tip)
DTE
MODEM
LINE
LTC (J)(P)
17 TXR42 TXT
18 RCV R 43 RCV T
1944
2045
MODULAR
TERMINAL
42 TXT17 TXR
43 RCV T 18 RCV R
4419
4520
Page 80ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 3
SYSTEM DATA
PROGRAMMING
This chapter explains the programming procedure for providing CCIS
system, and also explains the general description, programming
procedure, operating procedure, and hardware requirement of each
service feature.
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 81
CHAPTER 3 SYSTEM DATA PROGRAMMING
How To Read This Chapter
HOW TO READ THIS CHAPTER
This chapter explains the feature programming for each service feature about the following
Abbreviations.
(1): 1st dat a
(2): 2nd data
: Initial data; With the system data clear command (CM00, CM01), the data with this
marking is automatically set for each command.
INITIAL
AP00 INITIAL
DTI INITIAL
OFF LINE
AP OFF LINE
: A reset of the MP card is required after data setting.
Press SW1 switch on the MP card.
: A reset of the AP00 card is required after data setting.
Set the Make Bu sy switch to UP and then DOWN.
: A reset of the DTI card is required after data setting.
Set the Make Bu sy switch to UP and then DOWN.
: Command with this marking can be used only under Off-Line mode of the
MP card.
: Command with this marking can be used only under Off-Line mode of the
AP00 card.
Page 82ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 3 SYSTEM DATA PROGRAMMING
No. 7 CCIS With Digital Interface
NO. 7 CCIS WITH DIGITAL INTERFACE
Perform the programming according to the procedures shown in Figure 3-1.
Figure 3-1 Programming Procedure (for No. 7 CCIS with Digital Interface)
START
DTI ASSIGNMENT
CCH ASSIGNMENT
NUMBERING PLAN
ASSIGNMENT
INTER-TENANT CONNECTION
ASSIGNMENT
NO. 7 CCIS FEATURE
PROGRAMMING
END
Page 84
Page 89
Page 91
Page 95
Page 115
NEAX2000 IVS2 CCIS System Manual
ND-70918 (E), Issue 1.0
Page 83
CHAPTER 3 SYSTEM DATA PROGRAMMING
No. 7 CCIS With Digital Interface
DTI Assignment
START
CM05
CM07
DESCRIPTIONDATA
Assign an AP number to each DTI card.
The AP number must match the switch
settings on the DTI card.
INITIAL
Specify the AP highway channel for 24DTI card .
INITIAL
NOTE:This command is onl y applicable
for the 24 DTA-C card.
Assign a Tr unk number to each channel
number on the DTI card.
INITIAL
NOTE 1:For the 30-DTI, Channel 0
cannot be used.
NOTE 2:The system allocates time slots
to consecutive channels from
lowest to highest channel
numbers assigned. To minimize
the number of time slots
allocated, assign trunk numbers
to the consecutive channels on
each card. Never skip channels
in CM07.
•
Y=0
(1)
04-15, 20-31: AP No.
(2)
09: DTI card
•
Y=1
(1)
04-15, 20-31: AP No.
(2)
0 : Expanded Highway channel
(128 time slots)
1 : Basic Highway channel
(128 time slots)
•
YY=01
(1)
XX ZZ
XX: 04-15, 20-31: AP No. assigned by
CM05 Y=0
ZZ: Channel No. of DTI
00-23: For 24-DTI
01-15, 17-31: For 30-DTI
(2)
D000-D255: Trunk No.
Any trunk number already assigned by
CM10 cannot be used.
A
Page 84ND-70918 (E), Issue 1.0
NEAX2000 IVS2 CCIS System Manual
CHAPTER 3 SYSTEM DATA PROGRAMMING
No. 7 CCIS With Digital Interface
A
CMAA
DESCRIPTIONDATA
Assign the necessary functions to each
DTI (24-DTI) cards.
DTI INITIAL
After ent ering the data, set the MB switch
on the DTI card to UP, a nd then to DO WN,
for DTI initialization.