NEC Telephone ND 71762E User Manual

ND-71762(E)  
ISSUE 2  
No.7 CCIS System Manual  
AUGUST, 2002  
NEC Corporation  
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PRODUCT LIABILITY  
BEFORE THE USE OF THIS MANUAL  
1. FOR SAFETY USE  
Here explains the safety use for the customer, which prevents danger to the life and damage to the property ac-  
cidentally. The following are symbols and their meanings. Please read the following carefully before using this  
manual.  
DESCRIPTION  
SYMBOLS  
DANGER  
This symbol indicates danger. You might be involved in a situation that  
could cause deadly and bodily injury if you take wrong action.  
WARNING  
This symbol indicates warning. You might be involved in a situation that  
could cause bodily injury and serious system fault if you take wrong ac-  
tion.  
ATTENTION  
This symbol indicates attention. The system might not acheive its perfor-  
mance or lead to the system stall if you take wrong action.  
This telephone system is designed for use in the country NEC provides and can not be used in any other country.  
If system-down, malfunction, defects, and external factors (such as electricity failure) cause profit loss indirectly, NEC does  
not take any responsibilities for the profit loss.  
We pay careful attention to making this manual, however, when you find mistakes on this manual, notify to NEC.  
Contact the supplier or the service technician if the system needs repairs and installation.  
Please read all the manuals related to your system carefully.  
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2. NOTICE WHEN USED  
2.1 Consideration of PBX, Power-related Equipment and Peripheral Equipment  
This item describes the consideration before using PBX, the power-related equipment, and the peripheral equip-  
ment (such as console, MDF, DAU, telephone, PC, printer, etc).  
Preserve the following:  
DANGER  
When the system gives off smoke or burning smell, it might cause a fire, an electric  
shock, or a failure if the system keeps operating. Turn off the power and confirm the  
smoke disappears, and then contact supplier.  
If equipment (such as PBX, Main Power, cabinet, and peripheral equipment) fall down  
and be broken, turn off the power, and then contact the supplier.  
If the inside of PBX or Main Power is wet by liquid such as water, turn off the power.  
It might cause a fire, an electric shock, or a failure if the system keeps operating.  
Do not touch the internal parts of Main Power for the purpose of disassembly and re-  
modeling. It might cause a fire, an electric shock, or a failure.  
(NEC does not take any responsibilities if the system or the equipment is disassembled  
or remodeled.)  
PWR  
Do not put any container (such as vase, cup, and cosmetics) on Main Power and periph-  
eral equipment. It might cause a fire, an electric shock, or a failure.  
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DANGER  
Do not damage, remake, forcefully bend, forcefully extract, nor forcefully twist an elec-  
tric code and a wiring to/from PBX, Main Power and peripheral equipment. It might  
cause a fire, an electric shock, or a failure. If the wiring is damaged, ask the supplier to  
fix it.  
Insert the electric plug into the outlet properly. Confirm no dust is on the blade of plug;  
it might cause a fire.  
dust  
Do not use other than the power designated when installed.  
Do not try to fix or move Main Power by yourselves without the supplier or service tech-  
nician’s help. Please ask them when the repair or the movement is necessary.  
Do not put any metal or combustible object into a vent of PBX, Main Power, and the  
peripheral equipment. If the object is in those equipment, turn off the power and ask the  
supplier. It might cause a fire, an electric shock, or a failure if the system keeps operat-  
ing.  
Be careful of using the display part which the peripheral equipment has. In the case of  
liquid crystal, the liquid is leaked and causes harm to human body and systems.  
Before connecting customer-provided equipment (such as the other company products)  
with NEC products such as PBX and peripheral equipment, ask the supplier and make  
sure your equipment is compatible with NEC product. If it is not confirmed, do not con-  
nect them. It might cause a fire or an electric shock.  
?
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WARNING  
Fix the equipment. Do not put any object on PBX and Main Power; it might be danger-  
ous if the object should fall down.  
When plugging off a plug, be sure to grip the plug and extract it. If you grip the code  
and extract it, it might cause a fire and an electric shock.  
If a fault is considered as the lightening cause, ask the supplier.  
Other than fulfilling the appropriate humidity and temperature, it is necessary to consid-  
er the maintenance operation and the all-time ventilation in non-loading operation dur-  
ing day-off and night. For example, when the height above floor is 1 m (3.281 feet), the  
temperature should be from 20 to 25 °C (68 to 77 °F ) and the humidity should be more  
or less 50 %.  
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WARNING  
Be careful of using a battery as following:  
Rechargeable lead battery is used as the emergency battery of PBX. Check the back-  
up for an electricity failure.  
Battery electrolyte is harmful to human body. If the battery electrolyte is put on the  
cloth, clean it using enough amount of water.  
Do not cause the battery short intentionally. Do not put it near fire or put it into fire.  
Do not damage it, such as disassembly, falling, and impact.  
The battery life varies depending on the surroundings. The battery life is approxi-  
mately three years. If the battery is used outside with high temperature, the battery  
life is shortened to approximately one year.  
If not replacing terminal or dead battery, the PBX system will not work in case such as  
power failure. Besides it might cause smoking or fire due to leaking battery electrolyte.  
Perform the periodic diagnosis surely. Note that the battery is one of periodic replace-  
ment parts whose cost are charged to the customer. We recommend you to make a con-  
tract with supplier or service technician about the routine maintenance.  
Do not touch the peripheral equipment by wet hand. Do not wet the peripheral equip-  
ment.  
Snd: PWR:  
Rcv:  
1
5
5
5
3
1
3
1
2
3
TCP  
UDP  
Connecction:  
1
4
7
2
3
5
8
0
6
9
#
ENT  
*
Do not touch the ink head and the internal of the printer. When replacing the ink ribbon  
or the paper, make sure it is cool enough.  
Do not drop nor impact the peripheral equipment. It might cause a failure.  
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ATTENTION  
Do not use benzine, thinner, and alcohol for cleaning. When it is difficult to clean dust  
and dirt, put weaken neutral detergent onto a cloth, and give the cloth a wiring. Clean  
dust and dirt with the cloth, and rub them with a dry cloth.  
Thinner  
Do not place equipment in the following:  
Locations which receive direct sunlight  
Locations where the moisture exceeds the allowed level  
Locations which might be wet with water, oil, and chemicals  
Locations which is particularly low in temperature (such as an ice compartment)  
Locations which receive the electric wave or the magnetism from TV and (two-way)  
radio  
Locations which receive the illegal electric wave  
Note that the life of PBX and Main Power is shorten if placed in the location affected  
by much of hydrogen sulfide or salt, such as seaside area.  
2.2 Notice Regarding Lightenning Strikes  
It is necessary to take proper procedures to avoid damage to the PBX caused by local lightening strikes  
and other electrical surges.  
WARNING  
As for grounding conductors, there needs to be two-type grounding conductors; one is below 10  
(Type 1) and the other is below 100 (Type 2). In particular, the Type 1 is used for the electronics  
circuit installment, therefore, it must be used as isolated system to keep from electricity difference  
caused by lightening strikes.  
The Type 1 is used when connecting the FE of PBX, the PE of Main Power, MDF, etc.  
Extract the ground terminal (grounding electrode of three terminals) from the earth board same with  
that of the main equipment. The ground terminal attached with AC100V plug outlet is used for MAT,  
printer, MODEM, and measurement machine for maintenance.  
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2.3 Periodic Repair Parts and Disposables  
ATTENTION  
Replace the periodic repair parts such as fan, battery, backup battery, HD, fuse, and display. If not  
change the parts and past the periodic term, sudden traffic fault might lead to the whole system failure  
and damaging. Replace the disposables such as ink ribbon, FD, recording paper, and headset.  
We recommend you to make a contract for the maintenance service.  
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ND-71762 (E)  
ISSUE 2  
AUGUST, 2002  
NEAX2400 IPX  
Internet Protocol eXchange  
No.7 CCIS System Manual  
1.GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.HOW TO FOLLOW THE MANUAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
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2.DESCRIPTION OF CCIS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.1 Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.NETWORK CONFIGURATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.1 Types of Network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.2 Examples of Network Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.2.1 Main-Satellite Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.2.2 Campus Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.2.3 Main-Remote Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.3 CCIS Network Modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.3.1 Associated Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.4 CCIS Network Redundancy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.DIGITAL NETWORK AND NETWORK SYNCHRONIZATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.1 Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.2 Office Rank . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.2.1 Source Office . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.2.3 Receiver Office and Local Receiver Office . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.3 Clock Pulses from M-OSC/EXT. OSC and Connection with PLO/OSC . . . . . . . . . . . . . . . . . . .  
5.5.2 Automatic Route Changeover on Fault to DTI of Input Clock Route . . . . . . . . . . . . . . . .  
6.NETWORK THROUGH FCCS GROUPS AND NEAX2000 IPS Internet Protocol Server . . . . . . . . . . .  
6.1 Network Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
6.2 Conditions for Network Establishment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
6.3 FCCS Group (FUG) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
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1.GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.LIST OF CIRCUIT CARDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
29  
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TABLE OF CONTENTS (CONTINUED)  
2.PRECAUTIONS ON INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.INSTALLATION PROCEDURE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.2 Setting of Switch Positions and Mounting of the Circuit Cards . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.3 Cable Termination and Cross Connection from the MDF to the DSU . . . . . . . . . . . . . . . . . . . . .  
3.4 Front Cable Connection between DTI and CCH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
30  
32  
32  
33  
35  
43  
1.GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.INSTALLATION TEST PROCEDURE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1 Overall Test for CCIS Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1.1 Overall Test of CCIS Tie Line Outgoing Call . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1.2 Overall Test of CCIS Tie Line Incoming Call . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1.3 Test of Connection and Alternate Routing to All Tie Lines . . . . . . . . . . . . . . . . . . . . . . . .  
2.1.4 Test of Tandem Connection to Tie Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1.5 PAD Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2 CCIS Service Feature Functional Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2.1 Test of Interoffice Station to Station Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2.2 Test of Outgoing Call Connection to Tie Line Trunk . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2.3 Test of Transfer Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2.5 Test of other Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.TEST RESULT REPORT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.1 CCIS Service Feature Functional Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.1.1 Test of Interoffice Station to Station Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.1.2 Test of Outgoing Call Connection to Tie Line Trunk . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.1.3 Test of Transfer Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.1.4 Test of Services from ATTCON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
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1.GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.DATA ASSIGNMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1 Port Allocation and Related Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2 Basic Data Assignment Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
66  
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68  
CHAPTER 7 CCIS SERVICE FEATURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
81  
2.SYSTEM MESSAGES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1 The Relationship between System Messages and Lamp Indications . . . . . . . . . . . . . . . . . . . . .  
84  
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TABLE OF CONTENTS (CONTINUED)  
Page  
2.2 Technical Terms for Explaining Message Detail Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2.1 Circuit Card Mounting Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.4 System Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
86  
87  
91  
3.CCIS (Common Channel Interoffice Signaling) Line Fault . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114  
3.1 Check Point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114  
3.2 CCIS Line Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114  
4.CCIS LINE OPERATING MODE CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 118  
5.INSERTION/EXTRACTION OF CIRCUIT CARDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119  
5.1 CCH Circuit Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119  
5.2 DTI Circuit Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120  
5.3 CCT Circuit Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 121  
5.4 PLO/OSC Circuit Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122  
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INTRODUCTION  
CHAPTER 1  
1. GENERAL  
INTRODUCTION  
This manual describes the installation procedures, maintenance, etc. for connecting No. 7 CCIS (Common Channel  
Interoffice Signaling) lines to the PBX.  
The configuration of this manual is described in Section 2: “HOW TO FOLLOW THE MANUAL” of this chapter.  
2. HOW TO FOLLOW THE MANUAL  
2.1 Configuration of the No. 7 CCIS System Manual  
Table 1-1 Configuration of the No. 7 CCIS System Manual  
CHAPTER  
TITLE  
INTRODUCTION  
DESCRIPTION  
1
Describes the No. 7 CCIS System Manual and how to use it.  
Describes the specification and configuration of the PBX.  
GENERAL INFORMATION FOR  
CCIS  
2
3
4
SWITCH SETTING SHEETS  
INSTALLATION PROCEDURE  
Describes the switch setting for each circuit card.  
Describes how to connect CCIS lines to the PBX.  
Describes the PBX installation test procedure for CCIS.  
INSTALLATION TEST  
PROCEDURE  
5
6
7
8
BASIC DATA ASSIGNMENT  
CCIS SERVICE FEATURES  
Describes the basic data assignment for establishing CCIS link.  
Describes the functions, operating procedure, and office data as-  
signment procedure for each CCIS service feature.  
MAINTENANCE PROCEDURE  
Describes the PBX maintenance procedure for CCIS.  
Note: Because the system name varies depending on the country to be provided, each system is described as fol-  
lows in this manual.  
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GENERAL INFORMATION FOR CCIS  
CHAPTER 2  
1. GENERAL  
GENERAL INFORMATION FOR CCIS  
This chapter describes the functional outline of CCIS, hardware required for CCIS, and service features which can  
be provided by CCIS.  
2. DESCRIPTION OF CCIS  
The modular architecture and wide range of voice and data features available with the digital PBX’s have been de-  
veloped with emphasis on continued enhancement within a single PBX. In order to meet the growing demand for  
further enhancement on a network level, NEC developed a networking system employing Common Channel Inter-  
office Signaling (CCIS). The CCIS system links together individual PBX systems (nodes) to form a transparent  
voice and data network which acts as a single large PBX, even though terminals within the network are, in fact, con-  
nected to different PBX’s. Common Channel Interoffice Signaling (CCIS) derives its name from the fact that a sig-  
naling channel (link), separate from voice and data channels, is provided between nodes for the sole purpose of  
signal exchange. This signaling link is used in common by all voice and data links for exchange of information re-  
lating to addressing (e.g. dialed digits, calling/called number); supervisory functions (e.g. call setup and termina-  
tion); and network accounting and management (e.g. centralized billing and fault reporting.) This is unlike  
conventional tie line networks which exchange signaling information over the same links as are for voice transmis-  
sion (Associated Channel Interoffice Signaling.)  
The block diagrams in Figure 2-1 and 2-2 illustrate the difference between Common Channel Interoffice Signalling  
(CCIS) and Associated Channel (In-band) Interoffice Signaling (ACIS).  
Figure 2-1 Associated Channel (In-Band) Interoffice Signaling  
SIGNALING AND VOICE VIA THE SAME LINK  
TRUNK  
TRUNK  
SND  
REG  
REG  
CONTROL  
CONTROL  
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GENERAL INFORMATION FOR CCIS  
Figure 2-2 Common Channel Interoffice Signaling  
COMMUNICATION LINK  
SIGNALING LINK  
REG  
CONTROL  
CONTROL  
Some advantages of the separate signaling link provided by CCIS are:  
(a) Network Transparency  
Because CCIS allows data relating to service features and station/trunk status to be exchanged between nodes  
at a high rate of speed (64 Kbps), service is provided to all users as though the CCIS network was a single PBX.  
(b) Centralized Facilities  
Centralized Management:  
Centralized Billing:  
Fault messages from all nodes can be directed to one centralized (management)  
node.  
Billing information for all nodes in the network can be processed at one central  
location.  
Centralized Attendant Service: It is not necessary in a CCIS network to have an Attendant Console at each  
node in the network. Attendant services can be provided to multiple nodes from  
one or more central location(s).  
(c) Better Utilization of Trunking Facilities  
Because network signaling is carried over separate signaling links, more efficient use can be made for network  
trunks (reduced call holding time, reduced connection time, etc.). In another word, the number of trunk cir-  
cuits, which required to provide a specified traffic capacity, can be reduced.  
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GENERAL INFORMATION FOR CCIS  
(d) Network Reliability  
Alternate Routing provides the CCIS network with maximum reliability. If the signaling link between two  
nodes should fail, signaling is sent over an alternate route, via another node, without loss of service. Directly-  
connected redundant links can also be provided to assure the reliability of the network.  
(e) Reduction in Personnel  
Because management, cost accounting, and services, such as Attendant operation, can be centralized, the num-  
ber of people necessary to administer the network can be reduced.  
(f) Reduced Hardware  
Signaling over a common channel; better utilization of trunking facilities; and centralized management and  
services all result in a vast reduction in hardware when a CCIS network, rather than a conventional Tie line  
network, is used.  
3. SYSTEM CONFIGURATION  
3.1 Outline  
This Section describes the hardware configuration and its specification, the names of interface equipment and other  
related subjects. Figure 2-3 shows No. 7 hardware configuration, respectively. The control signal circuit used for  
CCIS is classified into the digital circuit and analog circuit. The CCH card can be used for both digital and analog  
control signal circuit and the CCT card is used for digital one. CCH sends control signals to and receives from the  
distant office. Also, for network synchronization, PLO/OSC or TSW (Phase Lock Oscillator/Oscillator or Time Di-  
vision Switch) are used.  
For the analog control signal circuit, CCH circuit card is used with MODEM.  
Table 2-1 shows the CCIS interface specifications and their applications.  
Table 2-1 CCIS Interface Specifications  
TYPE OF  
FACILITY  
SIGNALING  
RATE  
INTERFACE  
SPECIFICATION  
INTERFACE  
EQUIPMENT  
APPLICATION  
Voice Frequency  
Circuit  
4.8 kbps  
RS-232C, V. 24, V. MODEM V27  
Used for a CCIS Tie Line (4ODT) Net-  
work.  
28  
or equivalent  
T1 Channel  
E1 Channel  
1.544 Mbps  
2.048 Mbps  
AT&T IS DDS  
48-64 kbps  
64 kbps  
T1-D3  
E1  
Used with T1 (24DTI) lines.  
Used with E1 (30 DTI) lines.  
56 kbps  
V. 35,  
V. 28/V.11  
NEC DCP DSU  
or equivalent  
Used if network has extensive Tie Lines,  
with heavy traffic conditions, and AT&T  
IS Digital Data Service is available.  
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GENERAL INFORMATION FOR CCIS  
Figure 2-3 Hardware Configuration of No. 7 CCIS System  
<CCIS Digital Line>  
MDF  
CCT  
Note 1  
DTI  
No.7 CCIS  
Speech Line  
and Signalling  
Line  
Speech  
Path  
System  
CCH  
PLO  
Note 1  
<CCIS Analog Line>  
TRK  
TRK  
No.7 CCIS  
Speech Line  
No.7 CCIS  
Signalling  
Line  
MODEM  
CCH  
Note 2  
CPU  
Note 1: When using one channel of the DTI as the Control Link.  
Note 2: When using Analog MODEM as the Control Link.  
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GENERAL INFORMATION FOR CCIS  
4. NETWORK CONFIGURATION  
With application of No. 7 CCIS added to the PBX, a network of multiple functions as if it were a single PBX.  
Since calls can be freely transferred between one PBX and another, most of the existing station services can be ap-  
plied to inter-PBX call connections.  
Further, using the CENTRALIZED BILLING-CCIS service and the CENTRALIZED SYSTEM MANAGEMENT  
REPORT-CCIS service, billing information and fault information can be processed at one center point instead of  
processing at each PBX concerned.  
Figure 2-4 shows an example of PBX interoffice network for CCIS Digital Line, and Figure 2-5 shows an example  
of network configuration for CCIS Analog Line.  
Figure 2-4 Example of Network Configuration for CCIS Digital Line  
PBX  
DTI  
PBX  
DTI  
CCH  
CCT  
COT  
CCH  
DTI  
LC  
LC  
LC  
LC  
CCH  
CCT  
C.O  
ATI  
ATI  
COT  
DTI  
C.O  
CCH  
Failure, charging information  
PBX  
PBX  
DTI  
CCH  
CCT  
COT  
DTI  
LC  
LC  
LC  
CCH  
CCT  
COT  
LC  
C.O  
C.O  
ATI  
ATI  
One channel of DTI shall be used for signals.  
indicates a speech line.  
indicates a signal line.  
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GENERAL INFORMATION FOR CCIS  
Figure 2-5 Example of Network Configuration for CCIS Analog Line  
PBX  
COT  
C.O  
PBX  
TRK  
CCH  
COT  
COT  
COT  
TRK  
LC  
LC  
LC  
LC  
MODEM  
C.O  
TRK  
TRK  
ATI  
ATI  
CCH  
CCH  
CCH  
MODEM  
MODEM  
MODEM  
Failure, charging information  
PBX  
PBX  
TRK  
TRK  
CCH  
COT  
COT  
LC  
LC  
LC  
CCH  
COT  
COT  
MODEM  
C.O  
MODEM  
C.O  
LC  
ATI  
ATI  
indicates a speech line.  
indicates a signal line.  
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GENERAL INFORMATION FOR CCIS  
4.1 Types of Network  
CCIS networks can be divided into the following types, depending upon the numbering plan used:  
Main-Satellite Networks  
Main-Remote/Campus Networks  
Both networks provide uniformity of services throughout the CCIS network, and, because of numbering plan flex-  
ibility, station users are not conscious of the distance between nodes.  
Main/Satellite Network:  
In this type of network, offices are connected by means of a numbering plan consisting of a three-digit office code,  
which denotes the location, and four-digit station numbers. An example of a Main/Satellite Network is shown in  
Figure 2-6.  
Main-Remote/Campus Network:  
In these types of networks, offices are connected by means of a numbering plan consisting of four or five digit station  
numbers. The first one or two digit(s) of these station numbers are used to denote the location. An example of a  
Main-Campus Network is shown in Figure 2-7. Figure 2-8 shows an example of a Main-Remote Network. In this  
network, a part of the Main Office is installed as a Remote Office at a nearby site, either within or outside the pre-  
mises of the Main Office. An advantage of this network is that it requires far less cabling than would be necessary  
if stations were connected to a single PBX. Network numbering specifications are summarized in Table 2-2.  
Table 2-2 Network Specifications  
TYPE OF  
NETWORK:  
MAIN-REMOTE/CAMPUS  
NETWORK  
MAIN-SATELLITE NETWORK  
REMARKS  
NUMBERING  
PLAN:  
Office Code: Three digits  
Office Code: First one or two digits of  
Station Number.  
Sta. No.:Four digits  
8-XXX-XXXX  
Sta. No.: Max. five digits  
ACCESS  
METHOD  
XXXXX  
Sta. No.  
Sta. No.  
Office Code  
Office Code  
Access Code  
NETWORK  
SIZE:  
Large  
(Nationwide)  
Small (PBX Premises)/  
Medium (Local Area)  
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GENERAL INFORMATION FOR CCIS  
4.2 Examples of Network Configuration  
4.2.1 Main-Satellite Configuration  
Figure 2-6 shows an example of a Main/Satellite configuration for a nationwide corporate network. This type of net-  
work results in cost savings and increased efficiency by providing:  
Leased lines versus toll lines.  
Centralized Attendant Service.  
One central location for call accounting.  
A central MAT (Maintenance Administration Terminal) for network management, control and remote  
maintenance.  
Seven-digit on-net numbering.  
Feature transparency.  
Figure 2-6 Nationwide Corporation  
CITY  
A
222-XXXX  
CITY  
E
226-XXXX  
CORPORATE  
HEADQUARTERS  
227  
CITY  
F
CITY  
B
ALL  
CONSOLES  
223-XXXX  
CENTRALIZED  
BILLING AND  
MANAGEMENT  
CITY  
D
225-XXXX  
CITY  
C
224-XXXX  
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GENERAL INFORMATION FOR CCIS  
4.2.2 Campus Configuration  
Figure 2-7 shows an example of a Campus network. This type of network provides:  
A uniform numbering plan: the first one or two digit(s) of the station number indicate(s) the location. In  
this numbering plan, four and/or five-digit station numbering can be used.  
Network access to Common Carrier services.  
Centralized Attendant service and network maintenance.  
Figure 2-7 University/Campus Environment  
CENTRALIZED  
LOCAL  
BILLING  
TRUNKS  
ADMIN.  
BLDG.  
AND  
COMPUTER  
CENTER  
CENTRALIZED  
MANAGEMENT  
60XX  
COMMON  
CARRIER  
DORMITORY  
LIBRARY  
61XXX  
63XX  
LECTURE  
HALL  
62XXX  
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GENERAL INFORMATION FOR CCIS  
4.2.3 Main-Remote Configuration  
Figure 2-8 shows an example of a Main/Remote configuration for a manufacturing/plant environment. This type of  
network provides the following advantages:  
A central trunk location for trunking efficiency.  
Centralized management capability.  
Centralized attendant service.  
Centralized billing for inter-departmental accounting.  
Four digit inter-building and intra-city numbering.  
Feature transparency.  
Reduced calling.  
Figure 2-8 Manufacturing/Plant Environment  
TRAINING  
CENTER  
PLANT 1  
CENTRALIZED  
BILLING  
CENTRALIZED  
MANAGEMENT  
4XXX  
61XX  
MAIN  
OFFICE  
ALL  
CONSOLES  
ALL  
TRUNKS  
3XXX  
WAREHOUSE  
PLANT 2  
5XXX  
60XX  
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GENERAL INFORMATION FOR CCIS  
4.3 CCIS Network Modes  
The signaling channels of a CCIS network can be connected in one of two ways: Associated Mode or Quasi-Asso-  
ciated Mode.  
4.3.1 Associated Mode  
An Associated Mode network is configured with a signaling channel (data link) between all nodes in the network.  
Signaling functions for all inter-node calls are carried over these dedicated signaling channels. In an Associated  
Mode Network, if one of the signaling links should fail, signaling can easily be rerouted via another node. An ex-  
ample of an Associated Mode network is shown in Figure 2-9 below.  
Figure 2-9 Associated Mode Network  
NODE  
A
NODE  
B
NODE  
C
Communication Channel  
Common Signaling Channel  
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4.3.2 Quasi-Associated Mode  
In Figure 2-10 below, nodes A and B, and A and C are connected in the Associated Mode. Nodes B and C are con-  
nected in the Quasi-Associated Mode.  
In this configuration, signaling data between nodes B and C is routed via node A, while the communication channels  
are established directly between nodes B and C. This type of network reduces the hardware necessary to establish  
the signaling links.  
Figure 2-10 Quasi-Associated Mode Network  
NODE  
A
NODE  
B
NODE  
C
Communication Channel  
Common Signaling Channel  
4.4 CCIS Network Redundancy  
To provide maximum network reliability, two levels of redundancy are provided for the signaling links.  
(1) Signaling Channel Redundancy  
Redundancy of the inter-node signaling links is provided directly between the nodes by adding one more link  
than is necessary for the signaling traffic. This is the N+1 method. If one link fails, signaling is automatically  
routed via an alternate link.  
(2) Alternate Signaling Path Redundancy  
An alternate method of providing network signaling redundancy is to configure the network so that an alternate  
path is provided between the nodes.  
In the network shown in Figure 2-9, if the signaling link(s) directly connecting nodes B and C should fail, the  
signaling would automatically be reconnected via node A without loss of service. (Node A would be designated  
as the Signaling Transfer Point [STP]).  
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GENERAL INFORMATION FOR CCIS  
5. DIGITAL NETWORK AND NETWORK SYNCHRONIZATION  
5.1 Outline  
To set up a digital network, it is necessary to establish clock level synchronization among the offices composing the  
network.  
Among various kinds of synchronizing methods, the PBX is using Receiver synchronization as the standard method.  
As for the office ranks, there are the following four kinds:  
Source Office  
Sub-Source Office  
Receiver Office  
Local Receiver Office  
Refer to Table 2-3 for synchronization method at network-level.  
For types of PBX applicable for each office hierarchy, refer to Table 2-4.  
Table 2-3 Office Ranks and Kind of Oscillator  
OSC M-OSC EXT. OSC  
PLO/OSC  
PLO/TSW  
REMARKS  
(Note 2)  
(Note 1)  
(High Precision Oscillator) (Subordinate Oscillator)  
OFFICE RANK  
Source Office  
×
×
×
×
×
Sub-Source Office  
Receiver office  
Local Receiver Office  
×
×: Applicable  
—: Not Applicable  
The clock precision is as follows.  
>
>
>
M-OSC EXT. OSC High precision - PLO/OSC Subordinate - PLO/TSW  
=
=
=
Note 1: M-OSC (Master Oscillator) and EXT. OSC (External Oscillator <for back up>) is not to be furnished by  
NEC.  
Note 2: High Precision Oscillator - PLO (PH-CK17) / OSC (PA-CK14)  
Subordinate Oscillator - PLO (PH-CK16) / TSW (PH-SW10)  
For the 1-IMG system, the OSC/TSW card is used in place of PLO.  
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Table 2-4 Office Hierarchy and PBX  
SYSTEM  
Single System  
Dual System  
REMARKS  
OFFICE RANK  
Source Office  
×
×
×
×
×
Sub-Source Office  
Receiver office  
Local Receiver Office  
×
×: Applicable  
—: Not Applicable  
S:  
SS:  
R:  
SOURCE OFFICE  
SUB-SOURCE OFFICE  
RECEIVER OFFICE  
S
LR:  
LOCAL RECEIVER OFFICE  
:
DIRECTION OF CLOCK SIGNAL  
SUPPLY  
SS  
SS  
R
R
LR  
LR  
LR  
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GENERAL INFORMATION FOR CCIS  
5.2 Office Rank  
5.2.1 Source Office  
The Source Office supplies clock pulses generated by the M-OSC in the self office to the PLO/OSC (High Precision  
Oscillator) in the self office.  
Figure 2-11 shows the clock supply routes.  
Figure 2-11 Clock Supply Routes  
This figure shows an example of the clock supply routes when the PLO0 is in ACT side.  
Two systems each  
ACT  
PLO 0  
(PH-CK17)  
/OSC 0  
(PA-CK14)  
32.768 MHz  
8 kHz (FH)  
To Switch  
System side  
M-OSC 0  
ACT  
Clock  
Change  
Synchronization  
PLO 1  
(PH-CK17)  
/OSC 1  
M-OSC 1  
(PA-CK14)  
Note: For 1-IMG system, the OSC (PA-CK14) card is used. For 4-IMG system, PLO (PH-CK17) card is  
used.  
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5.2.2 Sub-Source Office  
The Sub-Source Office extracts carrier clocks (24DTI: 1.544 MHz/30DTI: 2.048 MHz) from the DTI opposing to  
the Source Office and supplies them to the PLO/OSC (High Precision Oscillator) in the user office.  
In preparation for complete clock down from the Source Office, the Sub-Source Office is provided with external  
oscillators (EXT. OSC) for backup. Figure 2-12 shows the routes for carrier clock extraction and for backup clocks.  
Figure 2-12 Clock Extraction and Backup Routes  
This figure shows an example of the clock supply routes when the PLO0 is in ACT side.  
Two systems each  
ACT  
PLO 0  
(PH-CK17)  
/OSC 0  
Clock receiving route  
(max. 4 routes)  
(PA-CK14)  
From DTI  
32.768 MHz  
8 kHz (FH)  
To Switch  
System side  
External  
OSC 0  
ACT  
Change  
CLOCK  
Synchronization  
PLO 1  
(PH-CK17)  
/OSC 1  
External  
OSC 1  
(PA-CK14)  
For Backup  
Note: The OSC (PA-CK14) card is used for the 1-IMG system only.  
The PLO (PH-CK17) card is used for the 4-IMG system.  
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5.2.3 Receiver Office and Local Receiver Office  
For connecting the DTI (Digital Trunk Interface) of the user office to the DTI of a higher-ranking office, the user  
office must establish clock synchronization with the higher-ranking office concerned.  
A Receiver Office or a Local Receiver Office extracts carrier clocks (24DTI: 1.544 MHz/30DTI: 2.048 MHz) from  
the DTI opposing to the higher-ranking office and establishes clock synchronization with the higher-ranking office  
by supplying the extracted carrier clocks to the PLO/TSW (Subordinate oscillator) in the user office.  
Figure 2-13 shows the routes for clock extraction.  
Figure 2-13 Routes for Extracted Clocks  
This figure shows an example of the clock supply routes when PLO0/TSW0 is in ACT side.  
Two systems each  
ACT  
PLO 0  
(PH-CK16)  
/TSW 0  
Clock receiving route  
(max. 4 routes)  
(PH-SW10)  
From DTI  
32.768 MHz  
8 kHz (FH)  
To Switch  
System side  
ACT  
Change  
CLOCK  
Synchronization  
PLO 1  
(PH-CK16)  
/TSW 1  
(PH-SW10)  
Note: The TSW (PH-SW10) card is used for the 1-IMG system only.  
The PLO (PH-CK16) card is used for the 4-IMG system.  
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GENERAL INFORMATION FOR CCIS  
5.3 Clock Pulses from M-OSC/EXT. OSC and Connection with PLO/OSC  
Two clock pulses from the M-OSC/EXT. OSC can be supplied to each PLO/OSC.  
Figure 2-14 shows the diagram of connection between the M-OSC and the PLO/OSC.  
Figure 2-14 Diagram of Connections between M-OSC and PLO/OSC  
IDF/MDF for PCM  
Route 3  
Route 2  
PLO 1  
(PH-CK17)  
/OSC 1  
(PA-CK14)  
Route 1  
Route 0  
M-OSC 1  
M-OSC 0  
Backplane wiring  
1
Cross-connection of  
PLOs  
Installation Cable (25p)  
Route 3  
Multiple-connection of  
DTIs  
Route 2  
M-OSC/EXT. OSC  
Route 1  
Route 0  
PLO 0  
(PH-CK17)  
/OSC 0  
M-OSC 1  
M-OSC 0  
(PA-CK14)  
0
BWB of TSWM or ISWM/PIM  
Cable-connection  
Note: The OSC (PA-CK14) card is used for the 1-IMG system only.  
The PLO (PH-CK17) card is used for the 4-IMG system.  
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GENERAL INFORMATION FOR CCIS  
5.4 Clocks Extracted from DTI and Connection of PLO/TSW  
Extracted clocks for a maximum four routes can be supplied to the PLO/TSW. The priority among the four routes  
is Route 0, 1, 2, and 3 in an ascending order.  
To supply extracted clocks to the PLO/TSW, the Champ-connector cable extending from the DTI and the Champ-  
connector cable extending from the PLO/TSW are brought into the IDF/MDF for the PCM, where they are to be  
connected with each other.  
Figure 2-15 shows the diagram of connections between the PLO/TSW and the DTI.  
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GENERAL INFORMATION FOR CCIS  
Figure 2-15 Diagram of Connections between PLO/TSW and DTI  
IDF/MDF for PCM  
In-House Cable for PCM  
End-end grounding  
(Shielded cable)  
Champ Connector  
(LT Connector)  
BWB  
PCM  
DTI 3  
Installation cable (25p)  
DTI 2  
DTI 1  
DTI 0  
Installation cable (25p)  
Cross- Connection  
wires  
Champ Connector  
PIM  
BWB  
PIM/TSWM/ISWM  
Route 3  
Route 2  
Route 1  
Route 0  
M-OSC 1  
M-OSC 0  
PLO 1  
(PH-CK16)  
/TSW  
(PH-SW10)  
Installation cable (25p)  
Route 3  
Route 2  
Route 1  
Route 0  
M-OSC 1  
PLO 0  
(PH-CK16)  
/TSW  
(PH-SW10)  
M-OSC 0  
Note: The TSW (PH-SW10) card is used for the 1-IMG system only.  
The PLO (PH-CK16) card is used for the 4-IMG system.  
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GENERAL INFORMATION FOR CCIS  
5.5 Automatic Clock Route Changeover  
5.5.1 Automatic Route Changeover on Fault to M-OSC/EXT. OSC of Input Clock Route  
Priority order for automatic route changeover on fault occurrence to the M-OSC/EXT. OSC which are supplying  
clocks is shown in Figure 2-16.  
Figure 2-16 Route Automatic Changeover Priority Order (DCS connection)  
Changeover  
M-OSC/EXT.OSC 0  
M-OSC/EXT.OSC 1  
PLO/OSC Self Running  
sequence  
High  
Priority order  
Low  
5.5.2 Automatic Route Changeover on Fault to DTI of Input Clock Route  
Priority order for automatic route changeover on fault occurrence to the DTI which is extracting clocks is shown in  
Figure 2-17.  
Figure 2-17 Route Automatic Changeover Priority Order (DTI connection)  
Changeover  
sequence  
High  
Route 0  
Route 1  
Priority order  
Route 2  
Route 3  
PLO/TSW Self Running  
Low  
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GENERAL INFORMATION FOR CCIS  
Table 2-5 shows the algorithm for changeover of input clocks from the DTI. The Table shows how the PLO selects  
a specific route for input clocks according to the input clock status of four routes, thus establishing clock synchro-  
nization. For example, in a case where Route 1, which has been selected due to a fault occurrence to clock input  
Route 0, has also become faulty, Table 2-5 should be looked up as follows:  
STEP 1: Look at Route 1 block under “Selected Route Before changeover” (the current input clock route) column.  
STEP 2: Under “Each Route Input Clock Status” column, look for the block which shows that only Routes 0 and  
1 are faulty.  
STEP 3: Under “Route To Be Selected After Changeover” column located at the right extremity of the Table,  
Route 2 is indicated in the block corresponding to the block found in Step 2.  
If a route of which priority order is higher than the current route has been restored to normal, the route is changed  
over to that specific route.  
ND-71762 (E)  
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GENERAL INFORMATION FOR CCIS  
Table 2-5 Algorithm of Changeover of Input Clocks from DTI  
EACH ROUTE INPUT CLOCK STATUS (Note)  
ROUTE 0 ROUTE 1 ROUTE 2 ROUTE 3  
SELECTED  
ROUTE BEFORE  
CHANGEOVER  
ROUTE TO BE  
SELECTED AFTER  
CHANGEOVER  
REMARKS  
×
×
*
*
×
*
*
Route 1  
Route 2  
Route 0  
Route 1  
Route 2  
Route 3  
*
×
Route 3  
*
PLO/TSW Self Running  
Route 0  
×
*
×
*
Route 2  
*
×
Route 3  
*
PLO/TSW Self Running  
Route 0  
×
×
*
*
Route 1  
*
*
×
Route 3  
*
PLO/TSW Self Running  
Route 0  
×
*
*
Route 1  
×
*
Route 2  
PLO/TSW Self Running  
Note: Priority order is Route 0, 1, 2, and 3 in an ascending order.  
× : Normal  
— : Fault (Clock Down, etc.)  
* : Normal or Faulty  
• When power for the PLO/TSW is turned on, Route 0 is selected.  
CHAPTER 2  
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GENERAL INFORMATION FOR CCIS  
6. NETWORK THROUGH FCCS GROUPS AND NEAX2000 IPS Internet Protocol Server  
6.1 Network Configuration  
The network through multiple FCCS Networks (FCCS Groups) and NEAX2000 IPS Internet Protocol Server system  
can be realized to manage the telephone number data in those systems altogether and to centralize functions in the  
network.  
* FCCS Group: network where multiple NEAX2400 IPXs are connected via FCCS link.  
* In this section, NEAX 2400 IPX system is described as IPX and NEAX2000 IPS Internet Protocol Server system  
is described as IPS.  
This figure shows an example of centralized functions activation.  
IPS  
Node A  
;:;;::;:  
;:;::;::;:  
Number Portability - CCIS  
Telephone Number data can be carried  
to the remote FCCS Network via simple  
command operation.  
Node G  
Node C  
;:;;::;:  
;:;::;::;:  
...  
...  
...  
...  
...  
Node B  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
FCCS Network  
;:;;::;:  
;:;::;::;:  
200000  
390000  
Centralized System Manage  
-ment Report-CCIS  
Alarm information occurred at IPXs  
in FCCS Groups and IPS can be  
collected via Centralized MAT.  
Node D  
;:;;::;:  
;:;::;::;:  
390000  
200000  
Node F  
;:;;::;:  
;:;::;::;:  
Centralized MAT  
;:;;::;:  
;:;::;::;:  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
...  
FCCS Network  
Centralized Maintenance - CCIS  
IPXs in FCCS Groups and IPS can  
be managed via Centralized MAT.  
ALARM  
Node E  
: FCCS  
: CCIS  
ND-71762 (E)  
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GENERAL INFORMATION FOR CCIS  
1. The following table shows the network type classification.  
CONNECTION TYPE  
A MAXIMUM  
NUMBER OF  
TELEPHONE  
NUMBER  
SERVICE  
TYPE  
IPX - IPX  
IPS - IPX  
IPX - IPX  
IPS - IPX  
1
2
FCCS  
CCIS  
CCIS  
CCIS  
120,000  
120,000  
FCCS service  
CCIS service  
CCIS service  
CCIS service  
IPX: NEAX 2400 IPX  
IPS: NEAX 2000 IPS Internet Protocol Server  
For these network types, the following services are realized or enhanced.  
Number Portability - CCIS [N-46]  
Centralized Maintenance - CCIS [C-167]  
Centralized Billing - CCIS [C-55]  
Centralized System Management Report - CCIS [C-57]  
Message Center Interface - CCIS [C-67]  
For availability of the other services in this network, see “Feature and Specifications Manual”.  
2. There are two connection types for the network.  
a.) IPS - IPX connection  
b.) IPX - IPX connection  
6.2 Conditions for Network Establishment  
IPS - IPX  
1. Additional IPS cannot be connected to IPS that has already been connected with IPX. (Only one SPAN is  
allowed for IPX-IPS connection.)  
2. A maximum number of routes and that of nodes for the IPS system are given by subtracting the number of  
routes (LGRT) used for the IPX system from 899 (maximum number of routes in an FCCS group).  
Note: This condition is applied to the IPX side. The IPS system may accommodate up to 255 nodes (including IPX)  
because the maximum number of Point Codes (PCs) assigned at IPS system is 255.  
3. When a signal route is deleted, another signal route can be shared with multiple routes (the voice route is  
required per route). However, when the network is established using EVENT BASED-CCIS (For details,  
ISDN System Data Design Manual), the signal route is required per route.  
IPX - IPX  
1. The maximum number of nodes per FCCS group is 253.  
2. The maximum number of routes assigned in each FCCS group is 899.  
3. An individual NCN and NDM exist in each FCCS group.  
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GENERAL INFORMATION FOR CCIS  
6.3 FCCS Group (FUG)  
1. Since multiple FCCS networks are connected in the network, FCCS network group number is required to  
distinguish each FCCS network from others. An FCCS network group is called FCCS group (FUG), and a  
maximum of 4 FUGs can be connected in the network.  
2. A center FUG should be specified from among multiple FUGs in the network. It is the sole node allowed  
assigning and deleting telephone numbers within the self FUG and the others.  
3. The network consists of FUGs and NEAX2000IPS systems within the range of 2 SPANs from the center  
FUG and within the range of 4 SPANs from end to end.  
NETWORK CONFIGURATION  
FUG1  
IPX  
IPX  
;:;::;::;:  
IPX  
IPX  
;:;::;::;:  
;:;;::;:  
;:;;::;:  
;:;;::;:  
;:;::;::;:  
;:;;::;:  
;:;::;::;:  
CCIS  
CCIS  
2SPAN  
2SPAN  
1SPAN  
FUG2 (Center FUG)  
FUG4  
IPX  
IPX  
;:;::;::;:  
IPX  
IPX  
IPX  
;:;;::;: ;:;::;::;:  
IPX  
IPX  
;:;::;::;:  
;:;;::;:  
;:;;::;:  
;:;::;::;:  
;:;;::;:  
;:;::;::;:  
;:;;::;:  
;:;;::;:  
;:;::;::;:  
;:;;::;:  
;:;::;::;:  
CCIS  
CCIS  
CCIS  
IPX  
1SPAN  
2SPAN  
1SPAN  
1SPAN  
Centralized MAT  
FUG3  
IPX  
IPX  
IPX  
:
;
;:;;::;:  
;:;::;::;:  
;:;;::;:  
;:;::;::;:  
;:;;::;:  
;:;::;::;:  
CCIS  
CCIS  
IPX  
2SPAN  
2SPAN  
ND-71762 (E)  
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GENERAL INFORMATION FOR CCIS  
6.4 Interactions  
1. PS Roaming and Hand-over services cannot be activated in the network. To execute Roaming service, the  
Q.931a line should be connected exclusively.  
2. The OAI/ACD service in the network is executed on the same condition in the normal CCIS network.  
3. ISDN transmitting information (16-digit caller number service. Attribute information notification service  
(BC, LLC, HLC) and Calling sub-address transfer service) assigned by ARTD, CDN98: CI = 1 can be  
transmitted for the IPX to IPX connection only.  
4. Broad Band (N × 64kbps tranfer rate) is available for the IPX to IPX connection only.  
5. ATTENDANT CONSOLE [A-3] (see Feature Programming Manual) service is available only if the atten-  
dant console in the IPX is used.  
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SWITCH SETTING SHEETS  
CHAPTER 3  
1. GENERAL  
SWITCH SETTING SHEETS  
This chapter shows switch setting on the individual circuit cards used in the basic CCIS network (not including cir-  
cuit cards related to Network through FCCS Groups and NEAX2000 IPS). These sheets are used when setting the  
switches on the circuit cards during system installation.  
The contents of the Switch Setting for each circuit card contains of the following information.  
Mounting slot(s) in the related Module  
Location of switches and switch setting positions  
Note(s) pertaining to switch positions  
Table 3-1 is the list of Circuit Cards required for CCIS features.  
Please refer to “Circuit Card Manual” for more information.  
Table 3-1 List of Circuit Cards for CCIS  
SYMBOL  
CIRCUIT CARD  
REMARKS  
For Digital/Analog CCIS Line  
CCH  
PA-2CCHA  
PA-24CCTA  
PA-30CCTB  
For Digital CCIS Line (1.544 Mb/s)  
For Digital CCIS Line (2.048 Mb/s)  
CCT  
DTI  
PA-DTA/PA-24DTR For Digital CCIS Line (1.544 Mb/s)  
PA-30DTS  
PA-CK14  
For Digital CCIS Line (2.048 Mb/s)  
OSC  
TSW  
Oscillator (High precision oscillator for the 1-IMG system)  
Time Division Switch  
(Subordinate oscillator for the 1-IMG system)  
PH-SW10  
PH-CK16  
PH-CK17  
Subordinate Oscillator (for the 4-IMG system)  
High Precision Oscillator (for the 4-IMG system)  
PLO  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
CHAPTER 4  
1. GENERAL  
INSTALLATION PROCEDURE  
This chapter explains the installation procedure for connecting the PBX and the CCIS line. The scope of the instal-  
lation procedure explained in this manual is shown in Figure 4-1. For procedures not explained in this manual, refer  
to the Installation Manual:  
2. PRECAUTIONS ON INSTALLATION  
This manual provides “Static Caution” indicators (Figure 4-2) on pages where work involving static-sensitive com-  
ponents is described.  
Figure 4-1 Scope of the Installation Procedure  
Cable Running from PBX  
to the MODEM for Analog CCIS Line  
(See Section 3.5)  
PBX  
CCIS LINE  
(ANALOG LINE)  
CCH  
MODEM  
MDF/IDF  
Setting of Switch  
Circuit Cards  
(See Section 3.2)  
CCIS LINE  
(DIGITAL LINE)  
DSU  
DTI  
Front Cable  
Connection  
between the  
DTI and CCH  
(See Section 3.4)  
from MDF to DSU  
(See Section 3.3)  
CCH  
CCT  
PLO  
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INSTALLATION PROCEDURE  
Figure 4-2 Static Caution Indication  
The 3M Model 8012 Portable Field Service Kit (Figure 4-3) is recommended as an effective countermeasure against  
static electricity. The kit is available from NEC.  
Figure 4-3 3M Model 8012 PORTABLE FIELD SERVICE KIT  
Wrist Strap  
Place the Circuit  
Card on a  
conductive sheet.  
Connect ground wire to the Earth  
terminal of the Module Group.  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
3. INSTALLATION PROCEDURE  
3.1 General Flow of Installation Procedure  
This section describes installation procedure divided into installation procedure items shown in Figure 4-1. The  
work flow and the reference paragraphs are shown below.  
For Digital CCIS Line  
START  
Setting of switch positions and  
mounting of the circuit cards.  
Refer to paragraph 3.2: “Setting of Switch Positions and  
Mounting of the Circuit Cards”.  
Cable running from the PBX to the  
MDF.  
Refer to “Cable Running from the PBX to MDF,  
ATTCON, MAT, and SMDR” of the Installation  
Manual.  
Cable termination and cross  
connection from the MDF to the DSU.  
Refer to paragraph 3.3: “Cable Termination and Cross  
Front cable connection between DTI  
and CCH.  
Refer to Figure 4-12 “Front Cable Connections between  
DTI/CCT and CCH”.  
END  
For Analog CCIS Line  
START  
Setting of switch positions and  
mounting of the CCH card.  
Refer to paragraph 3.2: “Setting of Switch Positions and  
Cable Running from the PBX to the  
MODEM for Analog CCIS Line.  
Refer to paragraph 3.5: “Cable Running from PBX to  
the MODEM for Analog CCIS Line”.  
END  
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INSTALLATION PROCEDURE  
3.2 Setting of Switch Positions and Mounting of the Circuit Cards  
The setting of switch positions and mounting of circuit cards should be performed according to the flowchart below.  
START  
Unpack the circuit cards.  
Unpack each circuit card and remove it from the  
polyethylene bag.  
Clean the connector portion of the  
circuit cards.  
Wipe the connector portion clean using a soft cloth  
moistened with pure trichloroethylene or methanol  
(medical alcohol). Make sure that no lint or dust  
remains on the connector after cleaning.  
Circuit cards which are already mounted should be  
extracted and cleaned as per the above instructions.  
Confirm the mounting positions of the  
circuit cards.  
Confirm the mounting position of each circuit card by  
referring to the Module Face Layout of the Circuit Card  
Manual.  
Confirm that the color code of the card puller tab  
coincides with that of the card mounting slot.  
Confirm the slot number on the module. Slot numbers  
are indicated at the top of each module, and range from  
00 to 23.  
Perform switch setting.  
Mount the circuit cards.  
Set the required switches according to the Switch  
Setting Sheets in CHAPTER 3.  
After the switches have been set, insert the card in the  
module. Refer to Figure 4-4.  
END  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
Figure 4-4 Circuit Card Mounting (Partial Insertion)  
About 50 mm  
(2 inches)  
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INSTALLATION PROCEDURE  
3.3 Cable Termination and Cross Connection from the MDF to the DSU  
Cable termination and cross connection from the MDF to the DSU should be performed according to the flowchart  
below:  
Note: Provide the necessary cross connections at the MDF by using copper of 0.5 mm diameter (24AWG). Dual  
core twisted wire is used for speech path, and single-core wire is used for control. It is recommended that  
wires of different colors be used for trunks, station lines, etc., so that they can easily be distinguished.  
START  
Checkterminallocationon  
the PBX side of the MDF  
24DTI/30DTI Card  
24CCT/30CCT Card  
Referring to Figure 4-5, identify the  
lead names for those cards and the  
PLO/TSW Card  
Referring to Figure 4-6 through 4-7,  
identify the lead names for the PLO/  
TSW (Note) card and the terminal  
Cross Connection  
When accepting sync.  
clocks from External  
High-Stability  
Referring to Figure 4-8 or Figure 4-9,  
provide the necessary cross  
connections.  
Oscillator  
When accepting sync.  
clocks from other  
office (master or sub-  
master office)  
Referring to Figure 4-10 or Figure 4-  
11, provide the necessary cross  
connections.  
END  
Note: For the 1-IMG system: the Phase Lock Oscillator function equipped with TSW card can be used for Digital  
Interface, and while the OSC (PA-CK14) card is used when the system requires a high precision oscillator.  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
Figure 4-5 LT Connector Leads Accommodation for DTI/CCT  
Accommodated in *1  
Accommodated in *2  
Accommodated in *3  
LT1, 5, 7, 11 Connector  
LT2, 4, 8, 10 Connector  
LT3, 5, 9, 11 Connector  
26  
27  
28  
1
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
1
2
3
4
5
6
7
8
9
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
1
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
17  
E
E
29 RB  
30 POUTB  
31  
32  
33 TB  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
RA  
POUTA  
TA  
E
10  
11  
12 RA  
13 POUTA  
14  
15  
16 TA  
17  
18  
19  
20  
21  
22  
23  
24  
25  
E
37 RB  
38 POUTB  
39  
40  
41 TB  
42  
43  
44  
45  
46  
47  
48  
49  
50  
E
18  
19  
E
45  
46  
47  
48  
49  
50  
45 RB  
46 POUTB  
47  
48  
49 TB  
50  
20 RA  
21 POUTA  
22  
23  
24 TA  
25  
LT0 LT1 LT2 LT3 LT4 LT5  
LT6 LT7  
LT8 LT9 LT10 LT11  
LT Connector Name  
Slot No.  
02 03 04 05 06  
00 01  
07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23  
15 19  
14 18 22  
13 17  
12 16 20  
23  
15 19 23  
14 18 22  
13 17 21  
12 16 20  
01 03 05 07 09 11  
00 02 04 06 08 10  
01 03 05 07 09 11  
00 02 04 06 08 10  
Group No.  
21  
PIM  
0
1
2
3
4
5
6
7
8
9
10 11  
Highway Block  
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INSTALLATION PROCEDURE  
Figure 4-6 PLO Pin Assignments for Receiving Clock (1-IMG System)  
Since PLO circuit is equipped with TSW card, PLO input leads appear on the LT connector labeled PLO.  
Front View  
TSW mounting slots  
00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23  
TSW card is mounted in slots 13 and 14  
of PIM0.  
PIM0  
Universal Slots  
Backplane  
Universal Slots  
LT cable connector  
Connect an LT cable to the connector labeled  
PLO on PIM0 backplane.  
PIM0  
PLO  
PLO connector Pin Assignment  
Pins are assigned as follows on PLO connector. When clock is distributed from a digital interface, use one pair  
of DIUxxx leads among a maximum of 4 inputs. DIU leads have the following precedence: DIU0xx(High)  
DIU3xx(Low). On the contrary, to receive clock from an external high-stability osillator, use DCSxx leads.  
for receiveing clock from  
a High-Stability Oscillator  
for distributing clock from  
a digital interface  
for PLO  
equipped  
with TSW #0  
PIN LEAD PIN LEAD  
No. NAME No. NAME  
PIN LEAD PIN LEAD  
No. NAME No. NAME  
26 DCSB0  
27 DIU0B0  
28 DIU1B0  
29 DIU2B0  
30 DIU3B0  
31 SYN0B0  
32 SYN1B0  
33  
1
2
3
4
5
6
7
8
DCSA0  
DIU0A0  
DIU1A0  
DIU2A0  
DIU3A0  
SYN0A0  
SYN1A0  
26 DCSB0  
27 DIU0B0  
28 DIU1B0  
29 DIU2B0  
30 DIU3B0  
31 SYN0B0  
32 SYN1B0  
33  
1
2
3
4
5
6
7
8
DCSA0  
DIU0A0  
DIU1A0  
DIU2A0  
DIU3A0  
SYN0A0  
SYN1A0  
for PLO  
equipped  
with TSW #0  
PLO Connector  
PLO Connector  
for PLO  
equipped  
with TSW #1  
40  
41  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
40  
41  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
DCSB1  
42  
DIU0B1  
43  
DIU1B1  
44  
DIU2B1  
45  
DIU3B1  
46  
SYN0B1  
47  
SYN1B1  
48  
DCSB1  
42  
DIU0B1  
43  
DIU1B1  
44  
DIU2B1  
45  
DIU3B1  
46  
SYN0B1  
47  
SYN1B1  
48  
DCSA1  
DIU0A1  
DIU1A1  
DIU2A1  
DIU3A1  
SYN0A1  
SYN1A1  
DCSA1  
DIU0A1  
DIU1A1  
DIU2A1  
DIU3A1  
SYN0A1  
SYN1A1  
for PLO  
equipped  
with TSW #1  
49  
50  
49  
50  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
Figure 4-7 PLO Pin Assignment for Receiving Clock (4-IMG System)  
PLO input leads appear on the LT connectors labeled EXCLK0 and EXCLK1.  
PLO mounting slots  
Front View  
00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23  
PLO card is mounted in slots 21 and 23  
of TSWM.  
TSWM  
TSW  
LT cable connectors  
Backplane  
Connect LT cables to the connectors labeled  
EXCLK0 and EXCLK1 on the TSWM backplane.  
TSWM  
EXCLK0/EXCLK1 connector Pin Assignment  
Pins are assigned as follows on EXCLK0/EXCLK1 connector. When clock is distributed from a digital interface,  
use one pair of DIUxxx leads among a maximum of 4 inputs. DIU leads have the following precedence: DIU0xx(High)  
DIU3xx(Low). On the contrary, to receive clock from an external high-stability osillator, use DCSxx leads.  
34PH EXCLK CA-A Cable Lead Accommodation  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
1
2
3
FM1  
FM0  
E
TSWM  
4
E
5
SYN1B  
SYN0B  
DIU3B  
DIU2B  
DIU1B  
DIU0B  
DCSB  
SYN1A  
SYN0A  
DIU3A  
DIU2A  
DIU1A  
DIU0A  
DCSA  
6
7
EXCLK0  
EXCLK1  
8
9
10  
11  
12  
13  
REAR VIEW  
MDF  
34PH EXCLK CA-A  
34PH EXCLK CA-A  
Installation Cable  
To Digital Interface and/or DCS  
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INSTALLATION PROCEDURE  
Figure 4-8 Cable Connection Diagram for Accepting Synchronization Clocks from an External High-  
Stability Oscillator (TSW)  
Cable Connection Diagram  
Provide the following wirings at the MDF. The following connection diagram shows an example where the  
system has the TSW cards in a dual configuration.  
maximum 400 meters (1320feet) (24AWG)  
PBX  
MDF  
M-OSC #0  
(Master Oscillator)  
/EXT. OSC #0  
(External  
PCM Cable(IP)  
DCSA0  
DCSB0  
Oscillator)  
TSW  
PLO  
DCSB1  
DCSA1  
CLK  
LT Connector Cable  
PLO  
M-OSC #1  
(Master Oscillator)  
/EXT. OSC #1  
(External  
PCM Cable(IP)  
Oscillator)  
CLK  
BASEU  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
Figure 4-9 Cable Connection Diagram for Accepting Synchronization Clocks from an External High-  
Stability Oscillator (PLO)  
Cable Connection Diagram  
Provide the following wirings at the MDF. The following connection diagram shows an example where the  
system has the PLO cards in a dual configuration.  
maximum 400 meters (1320feet) (24AWG)  
ISW  
MDF  
M-OSC #1  
(Master Oscillator)  
/EXT. OSC #1  
(External  
PCM Cable(IP)  
Oscillator)  
DCSA  
DCSB  
LT Connector Cable  
CLK  
PLO#1  
EXCLK1  
EXCLK1  
DCSB  
DCSA  
LT Connector Cable  
PLO#0  
M-OSC #0  
(Master Oscillator)  
/EXT. OSC #0  
(External  
EXCLK0  
PCM Cable(IP)  
EXCLK0  
Oscillator)  
BASEU  
CLK  
This diagram shows connections for a system having dual PLOs.  
Note:  
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INSTALLATION PROCEDURE  
Figure 4-10 Cable Connection Diagram for Receiving Clock from a Digital Interface (TSW)  
Cable Connection Diagram  
Perform the following wirings at the MDF. The following connection diagram shows an example where the  
Digital Trunk POUT leads are used as the 1st clock distribution route.  
maximum 200 meters (660feet) (24AWG)  
PBX  
MDF  
LT Connector  
PCM  
Digital  
Interface  
Installation Cable  
PCM Cable(2P)  
RA  
RB  
to other node  
Carrier  
Equipment/  
DSU  
TA  
maximum100  
meters(330 feet)  
(24AWG)  
TB  
POUTA  
POUTB  
CLK  
TSW  
PLO  
Note 1  
Installation Cable  
DIU0A0  
DIU0B0  
#1  
PLO  
DIU1A0  
DIU1B0  
#2  
for PLO #0  
DIU2A0  
DIU2B0  
#3  
#4  
DIU3A0  
DIU3B0  
BASEU  
DIU0A1  
DIU0B1  
#1  
Note 2  
DIU1A1  
DIU1B1  
#2  
for PLO #1  
DIU2A1  
DIU2B1  
#3  
#4  
DIU3A1  
DIU3B1  
Note 1: PLO has a maximum of 4 inputs. DIU0xx leads are used for the 1st clock distribution routs. Thus,  
DIU3xx leads are used for the 4th. The first input has the highest priority.  
Note 2: This connection is required for a dual-TSW system.  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
Figure 4-11 Cable Connection Diagram for Receiving Clock from a Digital Interface (PLO)  
Cable Connection Diagram  
This figure shows an example of distributing clock from a digital interface. This example also assumes that the Digital  
Trunk POUT leads are used as the 1st clock distribution route.  
maximum 200 meters (660feet) (24AWG)  
IMG  
LT Connector  
MDF  
PCM  
Carrier  
Equipment  
DSU  
Installation Cable  
RA  
RB  
TA  
PCM Cable (2P)  
to other node  
Digital  
Interface  
TB  
maximum 100  
meters (330 feet)  
(24AWG)  
POUT A  
POUT B  
CLK  
IMG/ISWM  
PLO#0  
Installation Cable  
EXCLK0  
DIU0A0  
DIU0B0  
DIU1A0  
DIU1B0  
DIU2A0  
DIU2B0  
DIU3A0  
DIU3B0  
Note 1  
PLO#1  
EXCLK1  
Installation Cable  
DIU0A1  
DIU0B1  
DIU1A1  
DIU1B1  
DIU2A1  
DIU2B1  
DIU3A1  
DIU3B1  
Note 2  
Note 1:  
Note 2:  
PLO has a maximum of 4 inputs. DIU0xx leads are used for the 1st clock distribution routes.  
Thus, DIU3xx leads are used for the 4th. The first input has the highest priority.  
The connection is required for a dual PLO system.  
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INSTALLATION PROCEDURE  
3.4 Front Cable Connection between DTI and CCH  
Figure 4-12 Front Cable Connections between DTI/CCT and CCH  
When MODEM is not used  
PBX  
MDF  
Note 1  
DTI/CCT  
CCIS Line  
CCH  
Front Cable connection  
CCH  
DTI/CCT  
Note 2  
TRK  
CNx  
Front  
Note 1: For cross connections between DTI and CCIS Line, refer to Figure 4-10 and 4-11.  
Note 2: The connector name varies depending on the card.  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
3.5 Cable Running from PBX to the MODEM for Analog CCIS Line  
START  
By referring to Figure 4-15 through 4-16, confirm the connector name on the PIM backplane, then  
connect the installation cable (25P) to the LT connector.  
Connect the MODEM which is connected to analog CCIS line to the installation cable.  
END  
Figure 4-13 Connection of MODEM Cables for Analog CCIS Line  
MDF  
PBX  
PA-2CCHA  
MODEM  
INSTALLATION CABLE  
LT CONNECTOR  
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INSTALLATION PROCEDURE  
Figure 4-14 Connecting Route Diagram for CCH  
When MODEM is used  
PBX  
MDF  
RD  
SG  
ER  
RT  
RD  
SG  
ER  
RT  
CCH  
MODEM  
ST2  
RS  
SD  
ST2  
RS  
SD  
Cable length is maximum 15 meters (50 feet).  
The MODEM to be used is a synchronous MODEM of 2400, 4800,  
or 9600 bps, and the communication method is limited to 4-wire full  
duplex communications.  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
Figure 4-15 Connection between PBX and MODEM  
(a) Cable Connection when Accommodated in *1 (Refer to Figure 4-16)  
(Circuit No. 0)  
(Circuit No. 1)  
PBX  
MODEM  
PBX  
MODEM  
LT  
Connector  
LT  
Connector  
4-SD0  
2-SD  
3-RD  
8-SD1  
2-SD  
3-RD  
1-RD0  
29-RS0  
27-SG0  
3-ST20  
28-RT0  
2-ER0  
5-RD1  
4-RS  
33-RS1  
31-SG1  
7-ST21  
32-RT1  
6-ER1  
4-RS  
7-SG  
7-SG  
15-ST2  
17-RT  
20-ER  
15-ST2  
17-RT  
20-ER  
(b) Cable Connection when Accommodated in *2 (Refer to Figure 4-16)  
(Circuit No. 0)  
(Circuit No. 1)  
PBX  
MODEM  
PBX  
MODEM  
LT  
Connector  
LT  
Connector  
LT  
Connector  
LT  
Connector  
20-SD0  
17-RD0  
45-RS0  
43-SG0  
19-ST20  
44-RT0  
18-ER0  
2-SD  
3-RD  
24-SD1  
21-RD1  
49-RS1  
47-SG1  
23-ST21  
48-RT1  
22-ER1  
2-SD  
3-RD  
4-RS  
4-RS  
7-SG  
7-SG  
15-ST2  
17-RT  
20-ER  
15-ST2  
17-RT  
20-ER  
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INSTALLATION PROCEDURE  
Figure 4-15 Connection between PBX and MODEM (Continued)  
(c) Cable Connection when Accommodated in *3. (Refer to Figure 4-16)  
(Circuit No. 0)  
(Circuit No. 1)  
PBX  
MODEM  
PBX  
MODEM  
LT  
Connector  
LT  
Connector  
LT  
Connector  
LT  
Connector  
12-SD0  
9-RD0  
2-SD  
3-RD  
16-SD1  
2-SD  
3-RD  
13-RD1  
41-RS1  
39-SG1  
15-ST21  
41-RT1  
14-ER1  
37-RS0  
35-SG0  
11-ST20  
36-RT0  
10-ER0  
4-RS  
4-RS  
7-SG  
7-SG  
15-ST2  
17-RT  
20-ER  
15-ST2  
17-RT  
20-ER  
ND-71762 (E)  
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INSTALLATION PROCEDURE  
Figure 4-16 LT Connector Leads Accommodation for 2CCH  
LT Connector Accommodation  
Accommodated in *1  
Accommodated in *2  
Accommodated in *3  
LT0, 2, 4, 6, 8, 10 Connector  
LT0, 2, 4, 6, 8, 10 Connector  
LT1, 3, 5, 7, 9, 11 Connector  
LT1, 3, 5, 7, 9, 11 Connector  
26  
1
2
3
4
5
6
7
8
9
RD0  
ER0  
ST2 0  
SD0  
RD1  
ER1  
ST2 1  
SD1  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
1
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
26 SCKB0  
27 TDB0  
28 RDB0  
29  
30 SCKB1  
31 TDB1  
32 RDB1  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
48  
49  
1
2
3
4
5
6
7
8
SCKA0  
TDA0  
RDA0  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35 SG0  
36 RT0  
37 RS0  
38  
39 SG1  
40 RT1  
41 RS1  
1
2
3
4
5
6
7
8
9
27 SG0  
28 RT0  
29 RS0  
30  
31 SG1  
32 RT1  
33 RS1  
34 SCKB0  
35 TDB0  
36 RDB0  
37  
SCKA1  
TDA1  
RDA1  
SCKA0  
9
RD0  
10 TDA0  
11 RDA1  
12  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
10 ER0  
11 ST2 0  
12 SD0  
13 RD1  
14 ER1  
15 ST2 1  
16 SD1  
38 SCKB1 13 SCKA1  
39 TDB1  
40 RDB1  
14 TDA1  
15 RDA1  
41  
42  
43  
44  
45  
46  
47  
48  
49  
50  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
42  
17 RD0  
18 ER0  
19 ST2 0  
20 SD0  
21 RD1  
22 ER1  
23 ST2 1  
24 SD1  
25  
42 SCKB0 17 SCKA0  
43 SG0  
44 RT0  
45 RS0  
46  
47 SG1  
48 RT1  
49 RS1  
50  
43 TDB0  
44 RDB0  
45  
18 TDA0  
19 RDA0  
20  
46 SCKB1 21 SCKA1  
47 TDB1  
48 RDB1  
49  
22 TDA1  
23 RDA1  
24  
50  
50  
25  
LT0 LT1 LT2 LT3 LT4 LT5  
LT6 LT7  
LT8 LT9 LT10 LT11  
LT Connector Name  
Slot No.  
02 03 04 05 06  
00 01  
07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23  
15 19  
14 18 22  
13 17  
12 16 20  
23  
15 19 23  
14 18 22  
13 17 21  
12 16 20  
01 03 05 07 09 11  
00 02 04 06 08 10  
01 03 05 07 09 11  
00 02 04 06 08 10  
Group No.  
21  
PIM  
0
1
2
3
4
5
6
7
8
9
10 11  
Highway Block  
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INSTALLATION TEST PROCEDURE  
CHAPTER 5  
1. GENERAL  
INSTALLATION TEST PROCEDURE  
This chapter describes the installation tests that are performed after system start up and after the office data has been  
assigned. The following test procedure are covered.  
Overall Test for CCIS Line  
CCIS Service Feature Functional Test  
2. INSTALLATION TEST PROCEDURE  
2.1 Overall Test for CCIS Line  
Tests are to be performed to check CCIS Lines by connecting them to a trunk on an individual basis.  
The speech path conditions (speech level, presence of noise, one-way speech, no speech, etc.) over the connection  
to the distant office will be checked. Release of the trunk used will also be checked.  
Overall Test Procedure  
START  
Test of Tandem Connection to Tie Line:  
PAD Setting:  
Paragraph 2.1.1  
Paragraph 2.1.2  
Paragraph 2.1.3  
Paragraph 2.1.4  
Paragraph 2.1.5  
END  
ND-71762 (E)  
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INSTALLATION TEST PROCEDURE  
2.1.1 Overall Test of CCIS Tie Line Outgoing Call  
OFFICE A  
Station A’  
OFFICE B  
PBX  
Station B’  
PBX  
LC  
LC  
ATTCON  
ATI  
(PBX to be tested)  
START  
Seizure of trunk to be tested  
When seizing from a  
station  
Place the trunk to be tested into idle state, and make  
busy all other trunks.  
Station A’ dials the number for station B’ in the B  
Office.  
When seizing from an  
ATTCON  
An ATTCON sets up the connection with a specific  
trunk designated by Individual Trunk Access for CCIS  
TRK service and dials the number for Station B’ in the  
B Office.  
Call termination to Station B’ in  
the B Office  
The call terminates to Station B’ via a CCIS Tie Line.  
Check of speech conditions  
After the call has been answered at the ATTCON,  
check the speech conditions including speech level,  
presence of noise and one-way speech state.  
Release  
When all CCIS Tie Line Trunks  
have been checked and a fault  
has been detected  
Perform fault localization procedure when a fault has  
occurred to CCIS Tie Line (See Procedure A)  
If the distant office is faulty, make a request to the  
distant office for repair.  
END  
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INSTALLATION TEST PROCEDURE  
(Procedure A)  
START  
A DTI/CCT is in use as the speech lines of No. 7 CCIS.  
On the DTI/CCT card, set its MB switch UP.  
In any office other than the Clock Master Office, disconnect the DTI cable connector at the DTI side  
(Back place of the PIM)  
PLO alarm is generated, but ignore it.  
The PLO starts running by itself.  
Make the following connection at the MDF using a paired wire.  
DTI/CCT  
MDF  
CROSS  
CONNECTION  
LEADS  
TA  
TB  
RA  
RB  
The DTI does not recover.  
(CCH/CCT Link Failure may  
occur, but ignore it.)  
System message “3-J” is not displayed.  
The DTI/CCT is faulty.  
The DTI recovered.  
(CCH/CCT Link Failure may  
occur, but ignore it.)  
System message “3-J” is not displayed.  
The DTI/CCT is normal.  
Call the distant office and ask for repair.  
An analog trunk is in use as the speech lines of No. 7 CCIS.  
Remove the cross connection wires and disconnect them from the external line side.  
Connect a telephone set to the trunk accommodating terminals concerned on the MDF, and talk with  
the caller.  
Normal  
Call the Distant Office and ask for repair.  
Replace the trunk card with a spare card.  
Abnormal  
END  
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INSTALLATION TEST PROCEDURE  
2.1.2 Overall Test of CCIS Tie Line Incoming Call  
OFFICE A  
PBX  
OFFICE B  
PBX  
STATION A’  
STATION B’  
LC  
LC  
(PBX to be tested)  
START  
Seizure of trunk to be tested  
Place the trunk to be tested into idle state, and make busy all  
other trunks.  
Termination of incoming call  
to station A’ in the self office  
An incoming call from the distant office terminates to Station  
A’.  
Check of speech  
After the call has been answered at Station A’, check the  
speech conditions including speech level, presence of noise  
and one-way speech state.  
Release  
When all CCIS Tie Line  
Trunks have been checked and  
a fault has been detected  
Perform fault localization procedure when a fault has occurred  
to CCIS Tie Line. (See Procedure A of Paragraph 2.1.1)  
If the distant office is faulty, make a request to the distant  
office for repair.  
END  
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INSTALLATION TEST PROCEDURE  
2.1.3 Test of Connection and Alternate Routing to All Tie Lines  
START  
Test the trunks in the primary  
route one at a time  
Make busy all trunks in the primary route except the trunk to  
be tested.  
Station “A” calls Station “B” via the primary route.  
After Station “B” answers, check the normality of the speech  
condition including the speech level, presence of noise, and  
one-way speech.  
Release.  
Make all the trunks in the  
primary route busy.  
Test the trunks in the alternate  
route one at a time.  
Make busy all trunks in the alternate route except the trunk to  
be tested.  
Station “A” calls Station “B” via the alternate route.  
After Station “B” answers, check the normality of the speech  
condition including the speech level, presence of noise, and  
one-way speech.  
Release.  
Cancel the Make Busy  
condition of the trunks.  
END  
ND-71762 (E)  
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INSTALLATION TEST PROCEDURE  
Figure 5-1 Combination of Tie Line Network and Public Network  
Basic/Primary Route  
TRKs  
Tie Line  
Network  
Alternate  
Route  
PBX to be  
tested  
Station A  
Station B  
PBX  
TRKs  
Public  
Network  
Figure 5-2 Tie Line Network  
Basic/Primary Route  
PBX  
TRKs  
TRKs  
Alternate  
Route  
PBX to be  
tested  
Station A  
Station B  
PBX  
PBX  
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INSTALLATION TEST PROCEDURE  
2.1.4 Test of Tandem Connection to Tie Line  
Figure 5-3 Test of Tandem Connection to Tie Line  
BASIC/PRIMARY ROUTE  
IRT  
PBX  
(1)  
TRKs  
ALTERNATE  
ROUTE  
STATION A  
TRKs  
PBX  
PBX  
(3)  
STATION B  
TRKs  
PBX  
(2)  
PBX  
ATTCON  
STATION C  
(1): Direct tandem connection by dial-in  
(2): Tandem connection via ATTCON  
(3): Tandem connection via Station  
START  
Test of direct dial-in tandem  
connection  
Test of Basic/Primary Route  
Station A calls Station B .  
Confirm speech between Stations A and B .  
Release.  
Test of Alternate Route.  
Make busy all the trunks in the primary route.  
Station A calls Station B .  
Confirm speech between Stations A and B .  
Release.  
Make idle all the trunks.  
A
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INSTALLATION TEST PROCEDURE  
A
Test of tandem connection  
via ATTCON  
Staton A dials the access code for the ATTCON.  
The ATTCON answers and sets up a tandem  
connection to Station B .  
The ATTCON releases, and speech between Station  
A and B is confirmed.  
Release.  
Test of tandem connection  
via station  
Station A calls Station C .  
Station C , after answering, makes a Switch Hook  
Flash (SHF) and calls Station B .  
After Station B answers, Station C releases.  
Speech between Stations A and B is confirmed.  
Release.  
END  
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INSTALLATION TEST PROCEDURE  
2.1.5 PAD Setting  
When setting up a No.7 CCIS Network, PAD setting differs from that in the case of analog network.  
(a) For an outgoing call to/incoming call from a Tie Line:  
Via “ARTD” command (CDN=30) or by switch setting on the circuit card (DTI/CCT).  
(b) For a tandem Tie Line connection:  
Via “APAD” command or switch setting on the circuit card  
<EXAMPLE>  
At both the originating and terminating offices, 0 dB is set to the outgoing side and 8 dB is set to the terminating of  
the DTI/CCT route via “ARTD” command or switch settings.  
At the tandem office, 0 dB is set for both the terminating and originating sides of each DTI/CCT route via “APAD”  
command.  
This arrangement is shown in Figure 5-4.  
Figure 5-4 Example of PAD Setting for CCIS  
TANDEM OFFICE  
ORIGINATING OFFICE  
DTI/CCT  
0dB  
DTI/CCT  
0dB  
0dB  
0dB  
-8dB  
-8dB  
TERMINATING OFFICE  
0dB  
DTI/CCT  
0dB  
0dB  
0dB  
-8dB  
-8dB  
ND-71762 (E)  
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INSTALLATION TEST PROCEDURE  
2.2 CCIS Service Feature Functional Test  
The purpose of this test is to verify that CCIS service features are programmed and operate as per the Job Specifi-  
For the operating procedure pertaining to each service feature, refer to CHAPTER 7: “List of Service Features for  
CCIS (1/2)”.  
CCIS Service Feature Functional Test Procedure  
START  
Test of Outgoing Call Connection to Tie Line Trunk:  
Paragraph 2.2.1  
Paragraph 2.2.2  
Paragraph 2.2.3  
Paragraph 2.2.4  
Paragraph 2.2.5  
Test of other Services:  
END  
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INSTALLATION TEST PROCEDURE  
2.2.1 Test of Interoffice Station to Station Connection  
Test Outline:  
Tests are to be performed on interoffice station to station connection and on normal operations of various system  
services.  
START  
Trunk Line Check  
No. 7 CCIS Line  
Busy Line Service Check  
Bridge-In Service Check  
Step Call-CCIS (S-59)  
Call Back-CCIS (C-44)  
Executive Right-of-Way-CCIS (E-8)  
Voice Call-CCIS (V-7)  
Ring Back Tone Check  
Ringing Check  
Distinctive Ringing-CCIS (D-75)  
END  
ND-71762 (E)  
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INSTALLATION TEST PROCEDURE  
2.2.2 Test of Outgoing Call Connection to Tie Line Trunk  
Test Outline:  
Tests are to be performed to determine whether outgoing trunk connections to each route, restriction of connections  
services when all trunks are busy, etc. operate as specified.  
START  
All Trunk Busy Service Check  
SMDS Service Check  
Outgoing Trunk Queuing-CCIS (O-12)  
Centralized Billing-CCIS (C-55)  
Centralized Management  
Service Check  
Centralized System Management Report-CCIS (C-57)  
END  
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INSTALLATION TEST PROCEDURE  
2.2.3 Test of Transfer Services  
Test Outline:  
Tests are to be performed on interoffice transfer services when the call has encountered line busy or when the call  
has not been answered.  
START  
Transfer Service Check  
Call Transfer-All Calls-CCIS (C-50)  
Call Forwarding Service Check  
Call Forwarding-All Calls-CCIS (C-45)  
Call Forwarding-Busy Line-CCIS (C-46)  
Call Forwarding-Don’t Answer-CCIS (C-47)  
Call Forwarding Assignment-Attendant-  
CCIS (C-94)  
END  
ND-71762 (E)  
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INSTALLATION TEST PROCEDURE  
2.2.4 Test of Services from ATTCON  
Test Outline:  
Tests are to be performed on the functions of the Attendant Console (ATTCON) and various interoffice services to  
be provided via the ATTCON.  
START  
Call Termination to  
ATTCON Check  
Attendant Camp-on with Tone Indication-CCIS (A-45)  
Serial Call-CCIS (S-52)  
Busy Verification-CCIS (B-9)  
Information Display on  
ATTCON Check  
Calling Number Display-CCIS (C-52)  
Night Service Check  
Direct-In-Termination-CCIS (D-74)  
Night Connection-Fixed-CCIS (N-15)  
Centralized Day/Night Mode Change-CCIS (C-56)  
LDN Night Connection-CCIS (L-29)  
Other Service Check  
Individual TRK Access-CCIS (I-19)  
END  
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INSTALLATION TEST PROCEDURE  
2.2.5 Test of other Services  
Test Outline:  
Tests are to be performed on various kinds of interoffice services when Dterm, etc. are used.  
START  
Message Reminder-CCIS (M-34)  
Message Waiting Lamp Setting-Attendant-CCIS (M-35)  
Message Waiting Lamp Setting-Station-CCIS (M-36)  
Data Line Service  
Data Communication-CCIS (D-41)  
END  
ND-71762 (E)  
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INSTALLATION TEST PROCEDURE  
3. TEST RESULT REPORT  
3.1 CCIS Service Feature Functional Test  
3.1.1 Test of Interoffice Station to Station Connection  
SPECIAL  
SERVICE FEATURE  
ACCESS  
CODE  
PROVIDED  
CHECK  
REMARKS  
Line Check  
No.7 CCIS Line  
Busy Line  
Step Call-CCIS (S-59)  
Service Check  
Bridge-In  
Call Back-CCIS (C-44)  
Service Check  
Executive Right of Way-CCIS (E-8)  
Voice Call-CCIS (V-7)  
Ring Back  
Tone Check  
Ringing Check Distinctive Ringing-CCIS (D-75)  
3.1.2 Test of Outgoing Call Connection to Tie Line Trunk  
SPECIAL  
SERVICE FEATURE  
ACCESS  
CODE  
PROVIDED  
CHECK  
REMARKS  
All Trunk  
Busy Service  
Check  
Outgoing Trunk Queuing-CCIS  
(O-12)  
SMDS  
Centralized Billing-CCIS (C-55)  
Service Check  
Centralized  
Management  
Service Check  
Centralized System Management  
Report-CCIS (C-57)  
3.1.3 Test of Transfer Services  
SERVICE FEATURE  
SPECIAL  
ACCESS  
CODE  
PROVIDED  
CHECK  
REMARKS  
Transfer  
Service  
Check  
Call Transfer-All Calls-CCIS (C-50)  
Call Forwarding-All Calls-CCIS  
(C-45)  
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INSTALLATION TEST PROCEDURE  
SPECIAL  
ACCESS  
CODE  
SERVICE FEATURE  
PROVIDED  
CHECK  
REMARKS  
Call  
Forwarding  
Service Check  
Call Forwarding-Busy Line-CCIS  
(C-46)  
Call Forwarding-Don’t Answer-CCIS  
(C-47)  
Call Forwarding Assignment-  
Attendant-CCIS (C-94)  
3.1.4 Test of Services from ATTCON  
SERVICE FEATURE  
SPECIAL  
ACCESS  
CODE  
PROVIDED  
CHECK  
REMARKS  
ATTCON  
Call  
Attendant Camp-on with Tone  
Indications-CCIS (A-45)  
Termination  
Check  
Serial Call-CCIS (S-52)  
Busy Verification-CCIS (B-9)  
ATTCON  
Display  
Function  
Check  
Calling Number Display-CCIS  
(C-52)  
Night Service  
Check  
Direct-In Termination-CCIS (D-74)  
Night-Connection-Fixed-CCIS  
(N-15)  
Centralized Day/Night Mode Change  
CCIS (C-56)  
LDN Night Connection-CCIS (L-29)  
Individual Trunk Access-CCIS (I-19)  
Other Service  
Check  
3.1.5 Test of Other Services  
SPECIAL  
ACCESS  
CODE  
SERVICE FEATURE  
PROVIDED  
CHECK  
REMARKS  
Message Reminder-CCIS (M-34)  
Message Waiting Lamp  
Setting-Attendant-CCIS (M-35)  
Message Waiting Lamp  
Setting-Station-CCIS (M-36)  
Data Line  
Service  
Data Communication-CCIS (D-41)  
ND-71762 (E)  
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BASIC DATA ASSIGNMENT  
CHAPTER 6  
1. GENERAL  
BASIC DATA ASSIGNMENT  
This chapter explains how to program office data which are necessary for establishing a CCIS Tie Line Connection.  
For easy understanding, office data programming is explained using an example of a CCIS network in this chapter.  
Accordingly, when programming data at your site, some minor data modifications may be unavoidable. For other  
features associated with CCIS, see CHAPTER 7 “List of Service Features for CCIS (1/2)”.  
24CCT/30CCT  
This circuit card provides an interface between 24/30 trunks and the PBX at 1.544/2.048 Mbit/s. Being equipped  
with a Common Channel Handler (CCH), this circuit card can be used as an interface for a Common Channel Inter-  
office Signaling (CCIS) network.  
2CCH  
This circuit card provides two Common Channel Handlers (CCH). By using together with 24DTI/30DTI to establish  
the digital CCIS line or used as an interface for the analog CCIS.  
24DTI/30DTI  
This circuit card provides an interface for a digital CCIS line, using together with the 2CCH card.  
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BASIC DATA ASSIGNMENT  
2. DATA ASSIGNMENT  
2.1 Port Allocation and Related Command  
(Reference 2)  
(Reference 1)  
• 24DTI is mounted in slot 10 (PIM).  
• 2CCH is mounted in slot 9 (PIM).  
• Last TS (CH) is used for CCIS signal CH.  
• RTx = Speech CH, RTy = Signal CH.  
• 24CCT is mounted in slot 10 (PIM).  
• Last TS (CH) is used for CCIS signal CH.  
• RTx = Speech CH, RTy = Signal CH.  
24DTI  
2CCH  
ATRK  
24CCT  
G11  
G15  
G14  
G13  
G12  
10  
ATRK  
(CCH#1)  
RTy TK1 (Signal CH)  
G15  
RTy TK1 (Signal CH)  
ATRK  
G14  
ATRK  
RTx (Speech CHs)  
RTx (Speech CHs)  
Note  
ACSC  
G10  
(CCH#0)  
G13  
(CCH Location)  
MG  
XX  
U
X
G
10  
ACSC  
G12  
ATRK  
(CCH Location)  
MG  
XX  
U
X
G
12  
RTy TK2 (CCH)  
ATRK  
Slot  
9
RTy TK2 (CCH)  
Note: Only one CCH (CCH#0/CCH#1) can be assigned.  
Slot  
10  
This example is applicable when CCH#0 is used.  
(Reference 3)  
(Reference 4)  
• 30CCT is mounted in slot 10 (PIM).  
• TS16 is used for CCIS signal CH.  
• RTx = Speech CH, RTy = Signal CH.  
• 30DTI is mounted in slot 10 (PIM).  
• 2CCH is mounted in slot 9 (PIM).  
• TS16 is used for CCIS signal CH.  
• RTx = Speech CH, RTy = Signal CH.  
30DTS  
2CCH  
30CCT  
G11  
G15  
G14  
G13  
G12  
10  
(CCH#1)  
G15  
ATRK  
ATRK  
RTx (Speech CHs)  
RTx (Speech CHs)  
(CCH)  
G14  
G13  
G12  
10  
Note  
ATRK  
ACSC  
G10  
(CCH#0)  
ATRK  
RTy TK1 (Signal CH)  
RTy TK1 (Signal CH)  
(CCH Location)  
ATRK  
MG  
XX  
U
X
G
10  
ATRK  
RTx (Speech CHs)  
RTx (Speech CHs)  
ACSC  
(CCH Location)  
ATRK  
MG  
XX  
U
X
G
12  
RTy TK2 (CCH)  
No assignment  
Slot  
9
ATRK  
RTy TK2 (CCH)  
Note: Only one CCH (CCH#0/CCH#1) can be assigned.  
Slot  
This example is applicable when CCH#0 is used.  
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BASIC DATA ASSIGNMENT  
2.2 Basic Data Assignment Procedure  
This section explains “How to program necessary data associated with a CCIS network” using the following exam-  
ple. Note that Node A is your office.  
Figure 6-1 Example of a CCIS Network  
• In this figure, five letters such as AAAAA, represent mounting location of CCT card or CCH card.  
Node A  
Node B  
Centralized  
Billing Office  
RT11  
PC = 10  
“810”  
CCH0’: DDDDD  
CCH1’: EEEEE  
PC = 20  
“820”  
CCH0: AAAAA  
CCH1: BBBBB  
TK4  
TK5  
TK7  
TK8  
Node C  
Centralized  
Management Office  
PC  
RT  
: Point Code  
: Route  
PC = 30  
“830”  
CCH : Common Channel Handler  
“8xx”  
: Office Code  
: Speech Line  
: Signaling Line  
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BASIC DATA ASSIGNMENT  
COMMAND NAME  
ASYD  
STEP 1:  
Point Code & Miscellaneous Data Assignment  
Since Point Code is used to identify each office in a CCIS network, any identical PCs are not allowed in the  
same network. The following three kinds of point codes may be programmed in the system. The first PC, Orig-  
inating Point Code (OPC), is mandatory. The remaining two Point Codes can be assigned as required.  
• Originating Point Code (OPC): assigned by Indexes 180 and 181.  
• Centralized Billing Point Code (DPC 0): assigned by Indexes 182 and 183.  
• Centralized Management Point Code (DPC 1): assigned by Indexes 184 and 185.  
1) Originating Point Code (OPC):  
The OPC is a self-office code, which should be assigned without exception. 14 bits can be used for specifying  
OPC. Note that available PC ranges from 1 to 16367 (PCs16368~16383 are used for Loop Back Test). Node  
A whose OPC is 10, for example, should be assigned as follows.  
b5 b4 b3 b2 b1 b0  
b7 b6 b5 b4 b3 b2 b1 b0  
0
0
0
0
0
0
0
0
0
0
1
0
1
0
PC 10  
Index 181  
Index 180  
2)  
Centralized Billing Point Code (DPC 0): Note 1  
The DPC 0 is used when billing information of the PBX (Node A) should be sent to the Centralized Billing  
Office. When DPC 0 is assigned as “20”, for example, billing information of Node A can be obtained at Node  
B whose PC is 20. When this Centralized Billing feature is not necessary, skip these Indexes.  
Note 1: Assign DPC 0 = 00 Hex to Centralized Billing Office.  
3) Centralized Management Point Code (DPC 1): Note 2  
The DPC 1 is used when system messages of the PBX (Node A) should be transmitted to the Centralized Man-  
agement Center, from which all PBXs in the network can be managed. When DPC 1 is assigned as “30”, for  
example, system messages can be automatically sent to Node C whose PC is 30 in this case.  
Note 2: Assign DPC 1 = 00 Hex to Centralized Management Office.  
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BASIC DATA ASSIGNMENT  
Miscellaneous Data  
1) Index 186:  
b6 must be assigned as 1 (CCIS is in service). The remaining data should be determined depending on cus-  
tomer’s requirements.  
b7 b6 b5 b4 b3 b2 b1 b0  
0
1
0
1
0
0
1
1
Example (Index 186)  
b0: 0/1 = CCIS Link Reconnection is not available/available.  
When either of the two parties that are engaged in a Station-to-Station/Station-to-Trunk/Trunk-to-Trunk con-  
nection via CCIS link transfers the call to another station, CCIS Link Reconnection will be provided. By es-  
tablishing new link after the call transfer, the most proper routing can be provided for the two parties which  
are eventually connected. Note 3, Note 4  
In the following cases, Link Reconnection is provided:  
Exmaple 1:  
1. A call between Station A and B is established.  
2. Station B transfers the call to Station C.  
3. After connecting to Station C, Station B hungs up.  
4. Link between Station A and C is reestablished. At this time Link between Node A and B is released.  
Node B  
Node A  
Station A  
Station B  
(1) Station A made a call to Station B  
(3) Station B transferred the call to Station C  
(3) Station B hungs up  
Station C  
(4) Link between Station A and C is reestablished, and Link between Node A and B is released.  
Exmaple 2:  
1. A call between Station A and Station B is established.  
2. Station B transfers the call to Station C.  
3. After connecting to Station C, Station B hungs up.  
4. Link c (between Station A and C) is reestablished. at this time, Link a and b are released.  
Node B  
Node A  
(3) Station B hungs up  
Station B  
Station A  
(1) Station A made a call to Station B  
Link a  
(4) Link Reconnection is provided between Station  
At this time, LInk a and  
Link c  
Link b  
b are released.  
A
and C, by using Link c.  
(2) Station B transferred the call to StationC  
Station C  
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BASIC DATA ASSIGNMENT  
Note 3: When either of the two parties that are eventually connected (after a call transfer) is ATTCON, Link Re-  
connection cannot be provided. (At this point, even if the ATTCON transfers the call to a station in the  
same node and Station-to-Station connection is established, this function is not available.) In addition, this  
function is not provided when either of the two parties that are eventually connected has a held party.  
In the following case, Link Reconnection is not provided:  
Example 3:  
1. A call between Station A and Station B is established.  
2. Station B transfers the call to ATTCON C.  
3. After connecting to ATTCON C, Station B is released.  
4. At this time, Link between Station A and ATTCON C is not reestablished.  
5. ATTCON C transfers the call to Station D.  
6. After connecting to Station D, ATTCON C is released.  
7. Link Reconnection (between Station A and D) is not provided.  
Station A  
Node B  
Node A  
Station B  
Station D  
Station A made a call to Station B  
Station B transferred the call to Attendant Console C  
ATTCON C  
Note 4: In case a call is connected to the announcement trunks used for Delay Announcement-UCD service and  
ACD Delay Announcement service, Link Reconnection function is not provided. (At this time, if the call is  
eventually connected to UCD station/ACD agent position after the UCD station/ACD agent position be-  
comes idle state, this function is provided.)  
2) Index 187:Assign 00 Hex always.  
COMMAND NAME  
ARTD  
STEP 2:  
Route Data Assignment  
Assign the following three routes for this feature:  
• Speech Path Route (Traffic Route)  
• Signaling Route  
• Dummy Route (Flag Route).  
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BASIC DATA ASSIGNMENT  
Assign each route data in accordance with the table shown below. Note that data assignment in this table is a typical  
example.  
CDN  
ROUTE  
2
2
2
0
4
2
2
0
5
3
0
0
6
4
4
4
7
1
1
1
8 13 15 28 30 43 49 50  
Speech  
Signaling  
Dummy  
2
0
0
0 12 1  
0 13 0  
0
7
0
1 0/1 1  
0
0
0
0
0
0
1
0
0
The other data than above should be set “0” (default data).  
COMMAND NAME  
ANPD & ASPA  
STEP 3:  
Numbering Plan Data  
Assign Numbering Plan Data referring to the following example using the ANPD command.  
TN: 1 1st DC: 8 CI: N/H NND: 3 BLF 0  
Assign Special Access Code, using the ASPA command referring to the following example. Note that “LCR”  
must be selected in the ASPA command to activate CCIS features.  
(for accessing Node B)  
TN: 1  
ACC: 820 CI: N/H  
2nd DT: 0 AH: 0  
SRV: LCR  
SUB: 0  
RT: 31  
(for accessing Node C)  
TN: 1  
ACC: 830 CI: N/H  
2nd DT: 0 AH: 0  
SRV: LCR  
SUB: 0  
RT: 31  
Note: In this example, RT31 is dummy route.  
Assign Reverse Numbering Plan Data using ARNP command. This assignment is required for speech path  
route only (not for a signalling route number and a dummy route number). In the Open Numbering Network,  
office code of the Self-node (including ACC for the originating call) must be assigned to RT0. The number of  
digits for office code must be identical in the network. This data is used for originating office code display on  
SMDR, Dterm, DESK CONSOLE/ATT and so on.  
In addition to these commands, other commands related to “LCR” such as AFRS, AUNE, AOPR and AMND  
are required. For more detailed information on the LCR feature, see the “Feature Programming Manual”.  
COMMAND NAME  
STEP 4:  
Restriction Data  
ARSC & ARRC  
Assign route restriction data as to the already assigned route as required.  
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BASIC DATA ASSIGNMENT  
COMMAND NAME  
ATRK & MBTK  
STEP 5:  
Assignment of Trunk Data  
Assign trunk(s) to desired LENs using the ATRK command. In this instance, the MBTK command is not re-  
Note: See 2.1 “Port Allocation and Related Command”.  
COMMAND NAME  
STEP 6:  
Assignment of DPC  
ADPC  
Assign the associated PC on an RT (for speech path) number basis. In the case of the example illustrated in  
Figure 6-1, appropriate data is as follows.  
RT  
11  
PC  
20  
12  
30  
COMMAND NAME  
ACSC  
STEP 7:  
Assignment of Common Channel Signaling Controller (CSC)  
Assign the location of the CCH using the ACSC command. The following is sample data assignment. In this  
sample, Node A is equipped with three DTI cards. Note that if the system employs one CCIS link, enter the  
same data in CSCG130 and CSCG131.  
CSCG  
MG  
U
G
CICG  
CSCG  
MG  
U
G
CICG  
AA  
BB  
BB  
BB  
BB  
BB  
BB  
BB  
A
B
B
B
B
B
B
B
AA  
BB  
BB  
BB  
BB  
BB  
BB  
BB  
0
1
2
3
4
5
6
7
CCH 0  
CCH 1  
CC  
CC  
CC  
CC  
CC  
CC  
CC  
CC  
C
C
C
C
C
C
C
C
CC  
CC  
CC  
CC  
CC  
CC  
CC  
CC  
0
1
2
3
4
5
6
7
130  
(Basic/  
Primary Route)  
131  
(Alternate  
Route)  
CCH 2  
Note 1: In the case of actual data entry, enter corresponding LEN numbers instead of letters such as “AAAAA”.  
Note 2: Refer to 2.1 “Port Allocation and Related Command”.  
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BASIC DATA ASSIGNMENT  
COMMAND NAME  
ACIC1  
STEP 8:  
Assignment of Circuit Identification Code1  
Assign the CSCG for Basic/Primary Route. The odd numbered CSCG for Alternate Route assignment.  
PC  
CSCG  
20  
130  
COMMAND NAME  
ACIC2  
STEP 9:  
Assignment of Circuit Identification Code2  
Assign Circuit Identification Codes (CICs), which correspond to “trunk” number. Although trunk number and  
the CIC number may not be identical, the same CIC number must be given to one speech line between two  
nodes as illustrated in Figure 6-2.  
Relationship between CICG and CIC  
CICG CIC (1 ~ 999)  
PC  
CIC  
LEN  
20  
1
X
X
X
X
X
X
X
X
X
X
X
X
2
0
1
2
3
4
5
6
7
8
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
992  
993  
994  
995  
996  
997  
998  
999  
1
2
3
4
5
6
7
9
N
X
X
X
X
X
X
10  
11  
12  
13  
14  
15  
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BASIC DATA ASSIGNMENT  
Figure 6-2 CIC Number Assignment  
The CIC number must be identical between two nodes as shown below.  
CIC=1  
CIC=2  
CIC=1  
CIC=2  
CCH0  
TK4  
CCH0’  
TK7  
CCIS line  
CCIS line  
Node A  
Node B  
CCH1’  
TK8  
CCH1  
TK5  
When your network includes a tandem connection, be sure to assign PCs of the all nodes in the network. As  
Figure 6-3 “Example of a CCIS Network (Tandem)” shows, assign PCs 40 and 50 in addition to that of Node  
B (PC=20), which is directly connected to Node A.  
Figure 6-3 Example of a CCIS Network (Tandem)  
A sample office data assignment sheet for Node A is as follows.  
Node A  
Node B  
Node D  
Node E  
PC=50  
PC=10  
PC=20  
PC=40  
Node C  
PC=30  
Sample Office Data Assignment for Node A  
PC  
20  
CSCG  
130  
CIC  
LEN  
ACIC/ACIC2  
command  
1
2
xxxxxx  
xxxxxx  
(for Node B)  
N
1
2
xxxxxx  
40  
130  
130  
(for Node D)  
Note  
N
1
2
50  
(for Node E)  
Note: Press the “SPACE” bar to skip LEN and press the “RETURN” key.  
ND-71762 (E)  
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BASIC DATA ASSIGNMENT  
2.3 FCCS Data Assignment Procedure  
This section explains the basic data assignment to be required when CCIS services are activated in an FCCS Net-  
work. Feature and Specifications Manual shows the CCIS services allowed in an FCCS Network. See “FCCS Net-  
work System Manual” and “Office Data Specification Manual” for details.  
Note: This data setting is necessary for the following services since they may be provided to FCCS system.  
CENTRALIZED MAINTENANCE-CCIS [C-167]  
NUMBER PORTABILITY-CCIS [N-46]  
For details of this feature, see “Feature Programming Manual”.  
When the above features are used, there are conditions of FCCS data assignment as described below.  
1.  
When connecting the stand-alone PBX, non-FCCS system, with another FCCS Group (FUG) or  
NEAX2000IPS,  
(a) The system must be the NCN.  
(b) The system is programmed as the FCCS Network configured by one NCN only.  
(c) Use the NDM of the system to program the network data.  
When connecting the NEAX2400IPX system and the NEAX2000IPS system, CIC (Circuit Identification  
Code) =1 should always be assigned using ACIC2 command.  
Common Channel Handler (CCH) location of the Common Channel Signaling Controller Group (CSCG) data  
(CCH location per CSCG) must be programmed against each PC of the connected IPX or IPS system using  
ACSCL command.  
2.  
3.  
4.  
5.  
PCs (Point Codes) in the network through FUGs and IPS are programmed as unique (All PCs used in the net-  
work are different).  
For the system to be connected with the next system via CCIS link or the large sized network, this assignment  
is basically recommended.  
The CCH to be used is selected as follows.  
when the call is processed using the speech line (Bch), the outgoing/incoming route (Logical Route: LRT)  
1
decides CCH.  
LRT PC CSCG CCH  
when the call is processed without speech line (Bch) - inter-office service such as CALL BACK, MES-  
2
SAGE WAITING service, MCI, etc., the called party’s number or PC of the destination decides CCH.  
(a) the called party’s number LRT PC CSCG CCH  
(b) PC CSCG CCH  
when logging into IPS or IPX in the remote FUG from the Centralized-MAT, PC of the node to be logged  
3
in decides CCH.  
(a) IPS  
PC CSCG CCH  
(b) IPX in Remote FUG  
FUG + FPC PC CSCG CCH  
*FUG and FPC to be designated for logged-in node are converted automatically within the system.  
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BASIC DATA ASSIGNMENT  
Note that the data to be required varies depending on the node.  
(a) Node providing CCIS trunk  
See the basic data assignment procedure in the previous section  
STEP 1: ASYD - Assign the unique PC for the self-node (OPC).  
STEP 2: ARTD - Assign the CCIS route data.  
STEP 3: ATRK - Assign the CCIS trunk data.  
STEP 4: MBTC - Assign IDLE status of trunks by designating Route Number and Trunk Number.  
STEP 5: ADPC - Assign the destination PC (Point Code) on RT (for speech path) number basis for all the nodes  
in the network.  
STEP 6: ACSC - Assign the location of the CCH in CSCG (Common Channel Signaling Controller Group).  
STEP 7: ACIC1 - Assign CSCG for Basic/Primary Route. The odd numbered CSCG for Alternate Route assign-  
ment.  
STEP 8: ACIC2 - Assign CICs (Circuit Identification Codes) corresponding to trunk number. Although trunk  
number and the CIC may not be identical, the same CIC must be given to one speech line between two  
nodes. Be sure to assign PCs of all nodes in the network corresponding to ADPC/ACIC1 command.  
Note 1: When connecting the NEAX2400IPX system and the NEAX2000IPS system, CIC (Circuit Identification  
Code) =1 should always be assigned using ACIC2 command.  
STEP 9: ARNPL - Assign the access code for LCR/LCRS as assigned in ASPAN associated with the logical  
routes for each external trunk assigned in ARTD/ ARTDN command.  
STEP 10: AMND - Assign the number of necessary digits to be received by the Register (ORT/IRT) circuit.  
Note 2: The MND is the total number of ACC + Telephone Number.  
(b) Node using the CCIS trunk in the remote node via FCCS line  
STEP 1: ASYD - Assign the unique PC of self-node (OPC).  
STEP 2: ADPCL - Assign the destination Point Code (PC) on LGRT (for speech path) number basis for all the  
nodes in the network.  
STEP 3: ACSCL - Assign the location of the CCH and FPC of the node which accommodates CCIS trunk in  
CSCG (Common Channel Signaling Controller Group) for all nodes in the network.  
Note 1: CSCG no. assigned in ACSC is not available.  
STEP 4: ACIC1 - Assign the CSCG for Basic/Primary Route. The odd numbered CSCG for Alternate Route as-  
signment.  
STEP 5: ARNPL - Assign the access code for LCR/LCRS as assigned in ASPAN associated with the logical  
routes for each external trunk assigned in ARTD/ ARTDN command.  
STEP 6: AMND - Assign the number of necessary digits to be received by the Register (ORT/IRT) circuit.  
Note 2: The MND is the total number of ACC + Telephone Number.  
ND-71762 (E)  
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BASIC DATA ASSIGNMENT  
(c) NCN (Network Controlling Node)  
STEP 1: ALRTN - Assign the Logical Route Numbers to all external trunks used in the network. Assign unique  
Logical Route Numbers to the whole routes for external trunks on the network (including COT, DAT,  
dummy route, etc.) using this command. When the network accommodating multiple FCCS Networks  
(FUGs) and/or NEAX7400ICS M100IMX is established, the data must be set at the NCN in each FUG  
and is to be set for every external route in all the nodes.  
STEP 2: ARSCN - Assign route restriction information according to the Route Restriction Class (RSC) of the  
Logical Route Number in the network.  
STEP 3: ANPDN - Assign the minimum number of digits needed to determine the service (Telephone Number)  
which is required to the first digit received (pre-translation).  
STEP 4: ASPAN - Assign the special access code. Assign Abbreviated Digit Code (ADC) for connected FUGs  
using AEADN command.  
STEP 5: AFRSN - Assign the NPC (Number Pattern Code) and OPR (Outgoing Route Selection Number) for  
dummy route number.  
STEP 6: AOPRN - Assign the routes and in what order these routes will be selected corresponding to the data  
assigned by AFRSN command.  
STEP 7: ARNPL - Assign the access code for LCR/LCRS as assigned in ASPAN associated with the logical  
routes for each external trunk assigned in ARTD/ ARTDN command.  
STEP 8: AMND - Assign the number of necessary digits to be received by the Register (ORT/IRT) circuit.  
Note 2: The MND is the total number of ACC + Telephone Number.  
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BASIC DATA ASSIGNMENT  
Data Assignment of Network through FCCS Groups and NEAX7400ICS M100IMX  
When CCH in the remote node is used via CCIS line, the data assignment shown below is required for inter-office  
service.  
Example  
Office Code: 76  
FPC1  
PC1  
Office Code: 75  
PC3  
FCCS  
CCIS  
IMX (NCN)  
FPC2  
PC2  
LGRT1  
CCH:00020  
ACC:75  
IMX (LN)  
M100IMX  
In the example figure, FPC1(PC1) must be set the following data for inter-office service activated between  
FPC1(PC1) and PC3 (provided that CCIS data assignment is already programmed at FPC2(PC2) and PC3).  
STEP 1: ADPCL - Assign PC for each speech path (Logical Route).  
Example: LGRT=1, PC3  
STEP 2: ACSCL - Assign the location of CCH in CSCG (Common Channel Signaling Controller Group) and FPC  
node where accommodates CCH.  
• Basic/Primary Route  
COMMON CHANNEL SIGNALING  
CONTROLLER LENS (CCH)  
CSCG  
(2-254: even  
number)  
GROUP  
(CIC Group  
No.)  
FPC  
MG  
U
0
0
0
0
0
0
0
0
G
0
1
2
3
4
5
6
7
2
2
2
2
2
2
2
2
00  
00  
00  
00  
00  
00  
00  
00  
20  
20  
20  
20  
20  
20  
20  
20  
2
• Alternate Route  
COMMON CHANNEL SIGNALING  
CONTROLLER LENS (CCH)  
CSCG  
(2-254: odd  
number)  
GROUP  
(CIC Group  
No.)  
FPC  
MG  
U
0
0
0
0
0
0
0
0
G
0
1
2
3
4
5
6
7
2
2
2
2
2
2
2
2
00  
00  
00  
00  
00  
00  
00  
00  
20  
20  
20  
20  
20  
20  
20  
20  
3
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BASIC DATA ASSIGNMENT  
STEP 3: ACIC1 - Allocate CSCG no. against the remote node in the network.  
Assign the point code assigned in ADPCL in PC parameter and CSCG no. (even number) for basic route  
assigned in ACSCL to CSCG parameter.  
*CSCG no. for alternate route assignment is not necessary.  
Example: PC=3, CSCG=2  
STEP 4: ARNPL - Assign the access code for speech route (Logical Route)  
*The assignment for signal route and dummy route is not necessary.  
Example: LGRT=1, ACC=75  
STEP 5: ARNP -Assign the self-office code to RT0 in the open numbering network.  
This number is used for Calling number identification on SMDR, Dterm, DESK CONSOLE, ATTEN-  
DANT CONSOLE, and inter-office services.  
Example: RT=0, ACC=76  
CHAPTER 6  
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CCIS SERVICE FEATURES  
CHAPTER 7  
1. GENERAL  
CCIS SERVICE FEATURES  
Table 7-1 shows the list of CCIS service features. As for details of service features which are shown in Table 7-1,  
refer to “Feature Programming Manual” that explains each service feature by the following items.  
General Description  
Operating Procedure  
Service Conditions  
Interactions  
Programming  
(1) General Description  
(2) Operating Procedure  
This item explains the procedure to be followed for receiving a specific service feature concerned. When testing  
a service feature, perform installation test work steps by referring to this item.  
(3) Service Conditions  
This item explains the functional outline of a specific service feature concerned and the matter of caution (hard-  
ware requirements, etc.) related to performance of that service feature. It is recommended that these items be  
referred to for more extensive knowledge of the service feature concerned.  
(4) Interactions  
This item explains the service conditions or hardware requirements when using together with other service fea-  
tures.  
(5) Programming  
This item explains the procedure of assigning various kinds of data required for performance of a specific ser-  
vice feature concerned. When recording necessary data into Data Programming Sheets provided in the “Office  
Data Specifications”, make data entry by referring to this item.  
ND-71762 (E)  
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CCIS SERVICE FEATURES  
SERVICE CODE No.  
Table 7-1 List of Service Features for CCIS (1/2)  
SERVICE FUNCTION NAME  
REMARKS  
A-45  
A-46  
A-71  
A-87  
A-126  
B-9  
Attendant Camp-On with Tone Indication - CCIS  
Attendant Controlled Conference - CCIS  
Automatic Recall - CCIS  
Automatic Number Identification (ANI) - CCIS  
ANI - CCIS (16 digit)  
Note  
Note  
Busy Verification - CCIS  
B-10  
C-44  
C-45  
C-46  
C-47  
C-48  
C-49  
C-50  
C-51  
C-52  
C-53  
C-54  
C-55  
C-56  
C-57  
C-58  
C-94  
C-163  
C-167  
D-70  
D-71  
D-72  
D-73  
D-74  
D-75  
D-76D  
D-91  
D-93D  
E-8  
Brokerage Hotline - CCIS  
Call Back - CCIS  
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  
Called Station Status Display - CCIS  
Calling/Called Number Display - CCIS  
Call Processing Indication - CCIS  
Call Transfer - Attendant - CCIS  
Centralized Billing - CCIS  
Centralized Day/Night Mode Change - CCIS  
Centralized System Management Report - CCIS  
Consultation Hold - All Calls - CCIS  
Call Forwarding Assignment - Attendant - CCIS  
CCIS Networking via IP  
Centralized Maintenance - CCIS  
Deluxe Traveling Class Mark - CCIS  
Dial Access to Attendant - CCIS  
Digital Display - Station - CCIS  
Digital Display - Trunk - CCIS  
Direct-In - Termination - CCIS  
Distinctive Ringing - CCIS  
Do not Disturb - Dterm - CCIS  
Dialed Number Display - Recall - CCIS  
Note  
Note  
Dual Hold Dterm - CCIS  
Executive Right-of-Way - CCIS  
Elapsed Time Dispaly - CCIS  
E911 - ANI Unified Number of Digits - CCIS  
E-9  
E-20  
F-12  
H-10D  
H-11  
H-12  
Flexible Numbering of Stations - CCIS  
term  
Hands-Free Answerback - D  
House Phone - CCIS  
Hotline - CCIS  
- CCIS  
Note: This feature is available in North America only.  
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CCIS SERVICE FEATURES  
REMARKS  
Table 7-1 List of Service Features for CCIS (2/2)  
SERVICE FUNCTION NAME  
SERVICE CODE No.  
I-16  
I-17  
I-18  
Incoming Call Identification - CCIS  
Individual Attendant Access - CCIS  
Inter-Position Transfer - CCIS  
I-19  
Individual Trunk Access - CCIS  
Look Ahead Routing - CCIS  
L-25  
L-29  
M-34  
M-34D  
M-35  
M-36  
M-37  
M-38  
M-40  
M-41  
M-42  
M-43  
M-67  
N-15  
N-16  
N-36  
N-37  
N-38  
N-46  
O-11  
O-12  
P-28  
R-22  
S-52  
S-53D  
S-55  
S-56  
S-57  
S-58  
S-59  
S-73  
T-26  
T-27  
U-5  
Note 1  
LDN Night Connection - CCIS  
Message Reminder - CCIS  
Message Reminder -Dterm - CCIS  
Message Waiting Lamp Setting - Attendant - CCIS  
Message Waiting Lamp Setting - Station - CCIS  
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  
Multiple Console Operation - CCIS  
Message Center Interface - CCIS  
Night Connection - Fixed - CCIS  
Night Connection - Flexible - CCIS  
Name Display - OAI - CCIS  
Note 2  
Note 2  
Name Display - System - CCIS  
Node Number Suppression - CCIS  
Number Portability - CCIS  
Off-Hook Queuing - CCIS  
Outgoing Trunk Queuing - CCIS  
Paging Access - CCIS  
Restriction from Outgoing Calls - CCIS  
Serial Call - CCIS  
Service Display - Dterm - CCIS  
Single-Digit Station Calling - CCIS  
Station-Controlled Conference - CCIS  
Station-to-Station Calling - CCIS  
Station-to-Station Calling -Operator Assistance - CCIS  
Step Call - CCIS  
Supervisory Call - CCIS  
Toll Restriction - 3/6-digit - CCIS  
Trunk Answer from Any Station - CCIS  
Uniform Numbering Plan - CCIS  
Voice Call - CCIS  
V-7  
Note 1: This feature is available in North America only.  
Note 2: This feature is not available in North America.  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
CHAPTER 8  
1. GENERAL  
MAINTENANCE PROCEDURE  
This chapter describes the system messages related to basic CCIS Network (not including messages related to Net-  
work through FCCS Groups and NEAX2000IPS, procedures for CCIS Line operating mode control, and procedures  
for extracting/inserting the circuit cards for CCIS while the system is in service. For other matters, refer to the Sys-  
tem Operation and Maintenance Manual.  
2. SYSTEM MESSAGES  
System messages are displayed during routine diagnosis, system operation status controlling and fault occurrences.  
This paragraph explains the following items for each system message related to CCIS:  
(1) Meaning  
(2) Related System Message  
(3) Example of Printout  
(4) Message Detail Data Note 1  
(5) Diagnostic Work Note 2  
For those system messages which are not explained in this chapter, refer to the System Operation and Maintenance  
Manual.  
Note 1: Paragraph 2.2: “Technical Terms for Explaining Message Detail Data” explains technical terms used in  
Note 2: Paragraph 2.3: “How to Proceed with Diagnostic Work from System Message” explains how to perform  
diagnosis.  
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MAINTENANCE PROCEDURE  
2.1 The Relationship between System Messages and Lamp Indications  
When the system has detected a fault, the corresponding system message is displayed, at the same time, the related  
Table 8-1 shows the relationship between system messages and default lamp indications.  
Table 8-1 System Messages and Lamp Indications on TOPU  
SYSTEM MESSAGE  
NAME  
LAMP ON THE TOPU  
No.  
MJ  
MN  
SUP  
PWR  
13-A  
CCH Clock Failure  
×
CCH C-Level Infinite Loop  
(Permanent)  
13-B  
13-C  
13-D  
13-E  
×
×
×
×
CCH C-Level Infinite Loop (Temporary)  
CCH Lock Up Failure  
(Permanent)  
CCH Lock Up Failure  
(Temporary)  
CCH B-Level Infinite Loop  
(Permanent)  
13-F  
13-G  
13-H  
13-I  
×
×
×
CCH B-Level Infinite Loop (Temporary)  
CCS Link Failure (Permanent)  
CCS Link Failure (Temporary)  
Restoration from CCS Link  
Failure  
13-J  
13-K  
17-A  
17-B  
CCH Reset Interrupt Failure  
CCH MBR Key Turn ON  
CCH MBR Key Turn OFF  
×
Note: ×: Default Lamp Indication.  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
2.2 Technical Terms for Explaining Message Detail Data  
Some technical terms are used to explain the detail data in each system message and circuit card information. Some  
technical terms and the circuit card mounting information, which are used in common to explain the various system  
message, are shown below.  
Phase 1 Restart Processing Execution  
All the processing being executed is suspended, and the system operations are allowed to restart from the monitor  
program without any hardware controlling involved. More specifically, the processing on calls being handled by the  
programs are abandoned, and all the connections already established are maintained.  
Phase 3 Restart Processing Execution  
By initializing each PM (Line/Trunk circuit card), the following processes are executed:  
Forcibly releasing the calls connected with the initialized Lines/Trunks.  
Releasing the related links.  
Data for Analysis by NEC Engineers  
These message detail data are used by NEC engineers when analyzing faults, and thus they are not used in ordinary  
fault repair works.  
When a fault is complicated one, the data are used when reporting the fault to NEC or when NEC engineers inquire  
about the fault.  
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MAINTENANCE PROCEDURE  
2.2.1 Circuit Card Mounting Information  
(1) Circuit Card Mounting Information  
Accommodated location information of each circuit card is described by a hexadecimal number.  
Figure 8-1 Circuit Card Mounting Location (1/2)  
1 : XX00 00  
MG  
U
G
MG: Module Group Number  
U: Unit Number  
G: Group Number  
(a) MG and Unit configuration  
1-IMG/4-IMG system  
LP0  
LP2  
LP4  
LP6  
IMG0  
TOPU  
IMG1  
TOPU  
IMG2  
TOPU  
IMG3  
TOPU  
PIM3  
PIM2  
U2  
U0  
U3  
U2  
U0  
U3  
U1  
U2  
U0  
U3  
U2  
U0  
U3  
MG01  
FANU  
MG03  
FANU  
MG05  
FANU  
MG07  
FANU  
U1  
U1  
U1  
PIM1  
PIM0  
U2  
U0  
U3  
U1  
U2  
U0  
U3  
U1  
U2  
U0  
U3  
U1  
U2  
U0  
U3  
U1  
MG00  
MG02  
MG04  
MG06  
LPM  
DUMMY  
BASEU  
DUMMY  
BASEU  
TSWM  
BASEU  
BASEU  
FRONT VIEW  
Unit Number (U = 0/2)  
Unit Number (U = 1/3)  
Slots No.  
00  
02  
04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23  
192 TS  
192 TS  
Number  
of  
PIM  
Time Slots  
16 16 16 16 16 16 32 32 32  
16 16 16 16 16 16 32 32 32  
(16)  
(16)  
16  
16  
16  
16  
16  
16  
Control  
Control  
Note: LP (Local Partition Number),  
MG (Module Group Number)  
U (Unit Number)  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
Figure 8-1 Circuit Card Mounting Location (2/2)  
(b) Group Configuration  
PIM  
LINE/TRUNK  
LINE/TRUNK  
00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23  
SLOT No.  
GROUP No.  
15 19 23  
14 18 22  
13 17 21  
12 16 20  
15 19 23  
14 18 22  
13 17 21  
12 16 20  
01 03 05 07 09 11  
01 03 05 07 09 11  
00 02 04 06 08 10  
UNIT = 0, 2  
00 02 04 06 08 10  
UNIT = 1, 3  
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MAINTENANCE PROCEDURE  
2.3 How to Proceed with Diagnostic Work from System Message  
The diagnostic procedure after seeing a system message is illustrated in Figure 8-2. Judge whether the fault status  
coincides with the indicated status, following the sequence beginning with START.  
STEP 1: Judge whether the fault coincides with the fault status (1).  
STEP 2: If the fault status does coincide, the fault is indicated by (2). Repair the fault according to paragraph ×.  
×. × as shown by (3). Otherwise, proceed to (4).  
STEP 3: Perform the work indicated by (4).  
The result of the work (4) is broken down as indicated by (5).  
STEP 4: Make a judgment as to whether the result of work (4) coincides with the status indicated by (6).  
If so, the fault is indicated either by (7) or by (2’). If not, proceed to the next step.  
STEP 5: Perform the work indicated by (4’), and if the result of the work is the same as the status indicated, the  
fault is indicated by (2’’).  
If the fault repair work indicated by (2’’) affects another normal line, recheck the work as indicated by  
(8).  
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MAINTENANCE PROCEDURE  
Figure 8-2 Example of Diagnostic Work Items and Symbols  
(2)  
START  
(1)  
(4)  
When  
FAULT : It is the fault of  
(3)  
(7)  
paragraph ×. ×. ×  
Perform  
(6)  
When  
FAULT SUPERVISION  
(2 )  
(5)  
When  
FAULT : It is the fault of  
paragraph ×. ×. ×  
(2 )  
(3 )  
(8)  
(4 )  
Perform  
FAULT :  
CHECK OF WORK  
END  
Note: (1): Judgment of faulty status  
(2): When the fault status coincides with the indication, the cause for the fault is indicated.  
(3): Operating items for diagnosis  
(4): When the operating method is unknown, refer to the Operations and Maintenance Manual.  
(5): Branching as the result of the operation (4)  
(6): Judgment of the status as the result of the operation  
(7): If, as a result of a fault diagnosis, the faulty condition cannot be reproduced and is judged to be  
temporary, this information is displayed.  
In this case, clear the indicated alarm and the system message using the RALM command and  
place the system under supervision to see if the same fault recurs.  
(8): While a fault repair is in progress, perform various operations such as system changeover, ini-  
tialization, etc. When such operations are performed, they affect the normally operating station  
lines, attendant consoles, trunks, etc. in the form of momentary disconnection, speech interrup-  
tion, forced release of calls in progress, etc.  
By comparing the urgency of the required fault repair with the above-mentioned effects on the  
lines, trunks, etc., determine the proper timing for performing the necessary recovery work.  
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MAINTENANCE PROCEDURE  
2.4 System Messages  
“13-A”: CCH Clock Failure  
(1) Meaning  
The system message “13-A” indicates that, a clock down failure has occurred to the CCH circuit. When this  
system message is indicated, the related CCH/CCT circuit card is placed into make-busy state.  
(2) Related System Message  
None  
(3) Example of Printout  
SYSTEM MESSAGE 13-A [SUP]  
NEC TOKYO  
CCH CLOCK FAILURE  
MAY 14 10:30  
LP00-0-ACT  
1: 0100 0000 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
1: XX 00  
*a  
*a: Accommodated location of the CCH detected the failure.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
(5) Diagnostic Work  
Refer to Paragraphs 3.3 or 3.4.  
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MAINTENANCE PROCEDURE  
“13-B”: CCH C-Level Infinite Loop Failure. (Permanent)  
(1) Meaning  
The system message “13-B” indicates that C-level infinite loop (Note) of the PM (Port Microprocessor) within  
the CCH/CCT circuit card has occurred more than 15 times within an hour. When this fault has occurred, the  
specific PM is placed into make-busy state and restarted. (The fault counter is “0” at the beginning of every  
one hour.)  
Note: This is a state in which the C-Level Monitor Program (the program which detects off-hook/on-hook related  
to lines/trunks) repeats a specific routine. The number of times to be repeated is counted by the error-  
counter corresponding to the CPU.  
(2) Related System Message  
When the C-level infinite loop failure occurs less than 16 times, the Phase 1 restart or Phase 3 restart is exe-  
cuted at the specific PM of CCH/CCT card and the system message “13-C” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 13-B [SUP]  
NEC TOKYO  
CCH C-LEVEL INFINITE LOOP FAILURE (PERMANENT)  
MAY 14 10:30  
LP00-0-ACT  
1: XX00 0000 0000 0000  
2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(a)  
4: 0000 0000 0000 0000  
7: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected the failure.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U: Unit  
G: Group  
MG  
U
G
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
When system message 13-B is displayed, Turn ON the MBR Key on the CCH/CCT circuit card,  
and then set the MB key ONOFF.  
System message 13-B is displayed  
FAULT : CCH/CCT circuit card is faulty.  
Paragraphs 3.3 or 3.4  
System message 13-B is not  
displayed  
SUPERVISION FAULT  
END  
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MAINTENANCE PROCEDURE  
“13-C”: CCH C-Level Infinite Loop Failure (Temporary)  
(1) Meaning  
The system message “13-C” indicates that C-level infinite loop for PM (Port Microprocessor) within a CCH/  
CCT circuit card has occurred less than 16 times within an hour. When the number of the fault occurrence time  
is less than 8, the Phase 1 restart is executed.  
If the number of fault occurrence time is 8 to 16, the Phase 3 restart is executed.  
(2) Related System Message  
When the C-level infinite loop failure occurs more than 15 times, the specific PM of CCH/CCT is placed into  
make-busy state and the system message “13-B” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 13-C [SUP]  
NEC TOKYO  
CCH C-LEVEL INFINITE LOOP FAILURE (TEMPORARY)  
MAY 14 10:30  
LP00-0-ACT  
1: XX00 0000 0000 0000  
2: 0000 0000 0000 0000  
3: 0000 0000 0000 0000  
5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(a)  
4: 0000 0000 0000 0000  
7: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected the fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U: Unit  
G: Group  
MG  
U
G
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
When system message 13-C is  
displayed once or twice  
FAULT SUPERVISION  
When system message 13-C is displayed sporadically  
Even if the CCH/CCT is stopped,  
it does not affect the system.  
FAULT : CCH/CCT circuit card is faulty.  
Paragraphs 3.3 or 3.4  
If the CCH/CCT is stopped, it affects  
the system.  
FAULT : Place the CCH/CCT into make-busy  
state during daytime, and replace  
Paragraphs 3.3 or 3.4  
Paragraphs 3.3 or 3.4  
When system message 13-C is  
displayed cyclically  
END  
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MAINTENANCE PROCEDURE  
“13-D”: CCH Lock Up Failure (Permanent)  
(1) Meaning  
The system message “13-D” indicates that a PM (Port Microprocessor) of CCH/CCT card did not send CPU  
card an answer and this has occurred more than 15 times within an hour. When this fault has occurred, the  
specific PM is placed into make-busy state and restarted.  
Note: The CPU transmits the Routine (cyclic) diagnostic command to all the PMs at a predetermined cycle. Each  
PM upon receiving the Routine (cyclic) diagnostic command from the CPU, returns an answer to the CPU  
within a predetermined timing. The CPU checks the normality of the PM upon receiving an answer.  
(2) Related System Message  
When the PM Lock Up Failure occurs less than 16 times within an hour, the Phase 1 restart or Phase 3 restart  
is executed at the specific PM and the system message “13-E” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 13-D [SUP]  
NEC TOKYO  
CCH LOCK UP FAILURE (PERMANENT)  
MAY 14 10:30  
LP00-0-ACT  
1: XX00 0000 0000 0000  
2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(a)  
4: 0000 0000 0000 0000  
7: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
When one CCH/CCT circuit card is faulty, Trun ON the MBR key on the card, and then set the MB key  
ON OFF.  
When system message 13-D  
is not displayed.  
FAULT SUPERVISION  
is displayed.  
Paragraphs 3.3 or 3.4  
END  
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MAINTENANCE PROCEDURE  
“13-E”: CCH Lock Up Failure (Temporary)  
(1) Meaning  
The system message “13-E” indicates that a PM (Port Microprocessor) of CCH/CCT card did not send CPU  
an answer and this has occurred less than 16 times within an hour. When the number of fault occurrence time  
is less than 8, the Phase 1 restart is executed. If the number of the fault occurrence time is 8 to 16, the Phase 3  
restart is executed.  
Note: The CPU transmits the Routine (cyclic) diagnostic command to all the PMs at a predetermined cycle. Each  
PM upon receiving the Routine (cyclic) diagnostic command from the CPU, returns an answer to the CPU  
within a predetermined timing. The CPU checks the normality of the PM upon receiving an answer.  
(2) Related System Message  
When the PM Lock Up Failure occurs more than 15 times, the specific PM of CCH/CCT card is placed into  
make-busy state and the system message “13-D” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 13-E [SUP]  
NEC TOKYO  
CCH LOCK UP FAILURE (TEMPORARY)  
MAY 14 10:30  
LP00-0-ACT  
1: XX00 0000 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected the fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
When lock up fault occurs only  
once or twice.  
FAULT SUPERVISION  
If the lock up fault occurs sporadically; flip the MBR switch of the CCH circuit card to  
UP DOWN.  
When system message 13-E  
is displayed  
Paragraphs 3.3 or 3.4  
When system message 13-E  
is not displayed  
FAULT SUPERVISION  
When the lock up fault occurs  
cyclically  
Paragraphs 3.3 or 3.4  
END  
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“13-F”: CCH B-Level Infinite Loop Failure (Permanent)  
(1) Meaning  
The system message “13-F” indicates that B-level infinite loop (Note) of the PM (Port Microprocessor) within  
the CCH/CCT circuit card has occurred more than 15 times within an hour. When this fault has occurred, the  
specific PM is placed into make-busy state and restarted. (The fault counter is reset to “0” at every hour.)  
Note: This is such a state in which the C-Level Monitor Program (the program which detects off-hook/on-hook  
related to lines/trunks) repeats a specific routine. The number of repeated times is counted by the error  
counter corresponding to the CPU.  
(2) Related System Message  
When the B-level infinite loop failure occurs less than 16 times, the Phase 1 restart or Phase 3 restart is exe-  
cuted at the specific PM and the system message “13-G” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 13-F [SUP]  
NEC TOKYO  
CCH B-LEVEL INFINITE LOOP FAILURE (PERMANENT)  
MAY 14 10:30  
LP00-0-ACT  
1: XX00 0000 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected the fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
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(5) Diagnostic Work  
START  
Turn ON the MBR key on the CCH/CCT card, and then set the MB key ONOFF.  
Paragraphs 3.3 or 3.4  
FAULT SUPERVISION  
displayed again.  
System Message 13-F is  
not displayed.  
END  
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MAINTENANCE PROCEDURE  
“13-G”: CCH B-Level Infinite Loop Failure (Temporary)  
(1) Meaning  
The system message “13-G” indicates that B-level Infinite loop for PM (Port Microprocessor) within a CCH/  
CCT circuit card has occurred less than 16 times within an hour.  
(2) Related System Message  
When the B-level infinite loop failure occurs more than 15 times, the specific PM is placed into make-busy  
state and the system message “13-F” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 13-G [SUP]  
NEC TOKYO  
CCH B-LEVEL INFINITE LOOP FAILURE (TEMPORARY)  
MAY 14 10:30  
LP00-0-ACT  
1: XX00 0000 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected the fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
FAULT SUPERVISION  
System message 13-G is displayed  
once or twice.  
When system message 13-G is displayed sporadically, flip the MBR switch of the CCH circuit card  
UP DOWN.  
System message 13-G is  
displayed again  
Paragraphs 3.3 or 3.4  
FAULT SUPERVISION  
System message 13-G is  
not displayed  
When system message 13-G is  
displayed cyclically.  
Paragraphs 3.3 or 3.4  
END  
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“13-H”: CCS Link Failure (Permanent)  
(1) Meaning  
The system message “13-H” indicates that a failure has occurred many times to a common channel signaling  
link and the link has been placed into make-busy state.  
(2) Related System Message  
When the failure is a temporary one, the system message “13-I” is output. If the failure of CCIS link restores  
to normal, “13-J” is output.  
Figure 8-3 Digital CCIS Line  
MDF  
CCT  
Digital Line  
Digital Carrier  
Line for speech path and signal  
MDF  
Equipment  
DTI  
to Distant office  
CCH  
Speech Signal  
Control Signal  
Figure 8-4 Analog CCIS Line  
Signal Line  
MDF  
Analog Carrier  
Equipment  
CCH  
MODEM  
to Distant office  
Control Signal  
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MAINTENANCE PROCEDURE  
(3) Example of Printout  
SYSTEM MESSAGE 13-H [SUP]  
NEC TOKYO  
CCS LINK FAILURE (PERMANENT)  
MAY 14 10:30  
LP00-0-ACT  
1: XX XX XX00 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a) (b) (c)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected the failure.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
(b),(c) Data for Analysis by NEC Engineers.  
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
When 13-J (Restoration from CCS  
FAULT SUPERVISION  
:
Link Failure) is displayed after  
system message 13-H  
A CCS link failure occurred, but it has restored to  
normal.  
When 13-J (Restoration from CCS  
Link failure) is not displayed after  
system message 13-H  
Ask the distant office if it has not been placed  
into make-busy state for maintenance reason,  
etc.  
When the distant office is not under make-busy state.  
When DTI is in use as the  
control link to the distant  
office.  
Check the carrier equipment.  
Paragraphs 3.3  
When MODEM is in use as  
the control link to the distant  
office.  
FAULT : MODEM and MODEM cable are  
faulty.  
Paragraphs 3.4  
When system message 13-I is  
displayed.  
Paragraphs 3.3 or 3.4  
END  
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“13-I”: CCS Link Failure (Temporary)  
(1) Meaning  
The system message “13-I” indicates that a failure has occurred to a common channel signaling link tempo-  
rarily.  
(2) Related System Message  
If the fault lasts longer than a predetermined duration, the system message “13-H” is indicated. If the fault of  
CCIS link restores to normal, “13-J” is indicated.  
(3) Example of Printout  
SYSTEM MESSAGE 13-I [NON]  
NEC TOKYO  
CCS LINK FAILURE (TEMPORARY)  
MAY 14 10:30  
LP00-0-ACT  
1: XX XX XX00 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a) (b) (c)  
(4) Example of Printout  
(a) Accommodated location of the CCH detected the fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
(b),(c) Data for Analysis by NEC Engineers.  
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
When system message 13-I is  
placed once or twice.  
FAULT SUPERVISION  
When system message 13-I is displayed sporadically.  
When system message 13-J  
is displayed after system  
message 13-I .  
FAULT SUPERVISION  
:
A CCS link failure occurred, but it has restored  
to normal.  
When system message 13-J  
is not displayed after system  
message 13-I .  
Paragraphs 3.3 or 3.4  
When system message 13-I is  
displayed cyclically.  
Paragraphs 3.3 or 3.4  
END  
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“13-J”: Restoration from CCS Link Failure  
(1) Meaning  
The system message “13-J” indicates that the faults pertaining to CCIS Link restores to normal.  
(2) Related System Message  
This system message is displayed when a fault indicated by System Message “13-I” or “13-H” has been re-  
paired.  
(3) Example of Printout  
SYSTEM MESSAGE 13-J [NON]  
NEC TOKYO  
RESTORATION FROM CCS LINK FAILURE  
MAY 14 10:30  
LP00-0-ACT  
1: XX XX 0000 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a) (b)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Example of Printout  
(a) Accommodated location of the CCH detected the fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
(b) Data for Analysis by NEC Engineers.  
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MAINTENANCE PROCEDURE  
“13-K”: CCH Reset Interrupt Failure  
(1) Meaning  
The system message “13-K” indicates that a fault occurred to the PM (Port Microprocessor) within the CCH/  
CCT circuit card and the restart processing is executed.  
Note: This message is also displayed when the CCH/CCT circuit card has been reset.  
(2) Related System Message  
None  
(3) Example of Printout  
SYSTEM MESSAGE 13-K [SUP]  
NEC TOKYO  
CCH RESET INTERRUPT FAILURE  
MAY 14 10:30  
LP00-0-ACT  
1: XX00 0000 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH detected the fault.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
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MAINTENANCE PROCEDURE  
(5) Diagnostic Work  
START  
Turn ON the MBR key on the CCH/CCT circuit card, and then set the MB key ONOFF.  
System Message 13-K is FAULT SUPERVISION  
displayed again  
System Message 13-K is  
not displayed  
Paragraphs 3.3 or 3.4  
END  
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MAINTENANCE PROCEDURE  
7-A”: CCH MBR Key Turn ON  
(1) Meaning  
The system message “17-A” indicates that a MBR (Make Busy Request) switch on the CCH/CCT card has  
been set Up.  
(2) Related System Message  
If the position of MBR switch of a CCH/CCT card has changed from Up to Down, the system “17-B” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 17-A [NON]  
NEC TOKYO  
CCH MBR KEY TURN ON  
MAY 14 10:30  
LP00-0-ACT  
1: XX XX 0000 0000 0000  
2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a) (b)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH circuit in make busy request.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
(b) Data for Analysis by NEC Engineers.  
CHAPTER 8  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
“17-B”: CCH MBR Key Turn OFF  
(1) Meaning  
The system message “17-B” indicates that a MBR switch on the CCH/CCT card has been set Down.  
(2) Related System Message  
If the position of MBR switch of a CCH/CCT card has changed from Down to Up, the system message “17-  
A” is output.  
(3) Example of Printout  
SYSTEM MESSAGE 17-B [NON]  
NEC TOKYO  
CCH MBR KEY TURN OFF  
MAY 14 10:30  
LP00-0-ACT  
1: XXXX 0000 0000 0000 2: 0000 0000 0000 0000 3: 0000 0000 0000 0000  
(a) (b)  
4: 0000 0000 0000 0000 5: 0000 0000 0000 0000 6: 0000 0000 0000 0000  
7: 0000 0000 0000 0000 8: 0000 0000 0000 0000 9: 0000 0000 0000 0000  
(4) Message Detail Data  
(a) Accommodated location of the CCH circuit detected make busy request cancel.  
(Refer to paragraph 2.2.1)  
MG: Module Group  
U:  
G:  
Unit  
Group  
MG  
U
G
(b) Data for Analysis by NEC Engineers.  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
3. CCIS (Common Channel Interoffice Signaling) Line Fault  
This paragraph explains the fault repair procedure when any of the faults shown in Table 8-1 occur to a specific  
CCIS line.  
3.1 Check Point  
When repairing a CCIS Line fault, consider the following:  
(1) Check alarm lamps on the CCH or CCT circuit card  
(2) By referring to Figure 8-5, check the cable connection.  
3.2 CCIS Line Control  
The CCH within the CCH/CCT circuit card controls the signal link of the interoffice common channel signaling sys-  
tem and transmits/receives call processing information.  
The signal link controls to send/receive the call processing information.  
The call processing information is converted into No. 7 signal format for channel 1 (any channel) of the DTI before  
being transmitted to a distant office.  
Figure 8-5 Controlling the CCIS Line  
MDF  
LT Cable  
MUX  
DTI  
FRONT  
CABLE  
CCH  
To CCIS Line  
CCH  
CCT  
MODEM  
MODEM CABLE  
LT Cable  
MDF  
CPU  
TSW  
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MAINTENANCE PROCEDURE  
3.3 Fault Repair Procedure for Digital CCIS Line  
START  
Check the connectors and flat cables between DTI and CCH.  
Check the connector  
On the DTI card, set the MBR switch UP . On the CCH card,  
set the SW01-0, 1 UP .  
On the DTI/CCH card, set the MB switches UP .  
Check whether the connector is correctly connected or not for  
both cards. If the connection is found an improper connection, plug and  
unplug the connector for a few times.  
On the DTI and CCH cards, set the MB and MBR switches  
DOWN .  
Check whether the fault is still indicated or not.  
Check the flat cable  
On the DTI card, set the MBR switch UP . On the CCH card,  
set the SW01-0, 1 UP .  
On the DTI and CCH card, set the MB switches UP .  
Test the continuity of the flat cable. If found abnormal,  
replace the flat cable with spare.  
On the DTI and CCH cards, set the MB and MBR switches  
DOWN .  
Check whether the fault is still indicated or not.  
Check by replacing the DTI card  
with spare  
On the DTI card, set the MBR switch UP and then MB switch  
UP .  
Extract the card from the mounting slot.  
On a new DTI card, make switch setting referring to the  
extracted card.  
On the new DTI card, set the MBR switch UP .  
On the new DTI card, set the MB switch UP and insert the  
card into the mounting slot.  
On the new DTI card, set the MBR and MB switches DOWN .  
Check whether the fault is still indicated or not.  
Check by replacing the CCH/CCT  
card with spare  
On the CCH/CCT card, set the MBR switch UP.  
Note : MBR switch s name varies depending on the card.  
On the CCH/CCT card, set the MB switch UP and extract the  
card from its mounting slot.  
Make switch setting on the new CCH/CCT card, referring to  
the card extracted.  
On the new CCH/CCT card, set the MBR and MB switches  
UP and insert the card into its mounting slot.  
On the new CCH/CCT card, set the MB switch DOWN .  
On the new CCH/CCT card, set the MBR switch DOWN .  
Check whether the fault is still indicated.  
END  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
3.4 Fault Repair Procedure for Analog CCIS Line  
START  
Check the MODEM and the MODEM Cable  
Check the MODEM  
Cable connector  
On the CCH card, set the MBR switch (SW01-1, 2) UP .  
Check whether the connector is correctly connected or  
not. If the connection is found improperly, plug and unplug  
the connector for a few times.  
On the CCH card, set the MBR switch DOWN .  
Check whether the fault is still indicated or not.  
On the CCH card, set the MBR switch UP .  
Check the MODEM  
Cable  
Test the continuity of the MODEM cable. If found  
abnormal, replace the cable with a spare.  
On the CCH card, set the MBR switch DOWN .  
Check whether the fault is still indicated or not.  
Check the MODEM  
Check whether the alarm lamp is illuminating on the  
MODEM.  
On the CCH card, set the MBR switch UP .  
Test the MODEM.  
On the CCH card, set the MBR switch DOWN .  
Check whether the fault is still indicated or not.  
A
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MAINTENANCE PROCEDURE  
A
Check by replacing the CCH  
card with spare  
On the CCH card, set the MBR switch (SW01-1, 2) UP .  
On the CCH card, set the MB switch UP and extract the card  
from its mounting slot.  
Make switch setting on a new CCH card, referring to the  
replaced card.  
On the new CCH card, set the MBR and MB switches UP  
and insert the card into its mounting slot.  
On the new CCH card, set the MB switch DOWN .  
On the new CCH card, set the MBR switch DOWN .  
Check whether the fault is still indicated.  
END  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
4. CCIS LINE OPERATING MODE CONTROL  
This Section describes the Make Busy/Make Busy Cancel procedure and the Reinitialization procedure for CCH cir-  
cuit.  
CCIS Line Operating Mode Control  
Make Busy/Make Busy Cancel  
of CCH  
Command CCSE : Make Busy/Make Busy Cancel for a  
CCH circuit (not including speech path  
cannels).  
MBR switch : Make Busy/Make Busy Cancel for a CCH  
circuit (not including speech path cannels).  
MB switch : Make Busy/Make Busy Cancel for a CCH/  
CCT circuit card.  
Note : The MBR switch s name varies depending on the card.  
Reinitialization of CCH  
Circuit Card  
MBR Switch operation on CCH circuit card.  
Set the MB switch UP and confirm that the OPE lamp goes out.  
About 3 seconds later, set the MB switch DOWN and confirm  
that the OPE lamp illuminates.  
CHAPTER 8  
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MAINTENANCE PROCEDURE  
5. INSERTION/EXTRACTION OF CIRCUIT CARDS  
This paragraph explains the procedure for inserting CCH, DTI, CCT and PLO/OSC circuit cards into their mounting  
slots and extracting them while the system is in On-Line mode.  
5.1 CCH Circuit Card  
(1) Procedure for Extraction:  
START  
Set the MBR switch (SW01-0, 1) of the CCH card UP .  
Set the MB switch of the CCH card UP .  
The OPE lamp (green) goes out and the N-OPE lamp (red) illuminates on the CCH card.  
When the CCH card is connected with the DTI card via the front cable, remove the front cable from the  
CCH card.  
Extract the CCH card from its mounting slot.  
END  
(2) Procedure for Insertion:  
START  
Set the MBR switch (SW01-0, 1) and MB switch of the CCH card UP .  
Insert the CCH card into its mounting slot.  
When the CCH card is connected with the DTI card, connect the front cable referring to CHAPTER 4  
“INSTALLATION PROCEDURE”.  
Set the MB switch of the CCH card DOWN .  
Set the MBR switch of the CCH card DOWN .  
The OPE lamp of the CCH card illuminates.  
END  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
5.2 DTI Circuit Card  
(1) Procedure for Extraction:  
START  
Set the MBR switch (SW01-0, 1) UP on the CCH card connected via the front cable with the DTI card.  
Set the MB switch UP on the CCH card.  
The OPE lamp (green) goes out and N-OPE lamp (red) illuminates on the CCH card.  
Set the MB switch UP on the DTI card.  
The OPE lamp (green) goes out and the N-OPE lamp (red) illuminates on the DTI card.  
Remove the front cable of the DTI card.  
Extract the DTI card from its mounting slot.  
END  
(2) Procedure for Insertion:  
START  
Set the MB switch of the DTI card UP .  
Insert the DTI card into its mounting slot.  
Connect the front cable between DTI and CCH card.  
Set the MB switch of the DTI circuit card DOWN .  
The OPE lamp of the DTI card illuminates.  
Set the MB and MBR switch on the CCH card DOWN .  
Confirm that the OPE lamp (green) illuminates on the CCH card connected with the DTI card via the  
front cable.  
END  
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MAINTENANCE PROCEDURE  
5.3 CCT Circuit Card  
(1) Procedure for Extraction:  
START  
Set the MBR switch of the CCT card UP .  
Note : As for the 24 CCT card, set the SW01/13B-1, 2 UP .  
Set the MB switch of the CCT card UP .  
The OPE lamp (green) goes out and the N-OPE lamp (red) illuminates on the CCT card.  
Extract the CCT card from its mounting slot.  
END  
(2) Procedure for Insertion:  
START  
Set the MBR switch and MB switch on the CCT card UP .  
Note : As for the 24 CCT card, set the SW01/13B-1, 2 UP as MBR switch set.  
Insert the CCT card into its mounting slot.  
Set the MBR switch and MB switch on the CCT card DOWN .  
The OPE lamp on the CCT card illuminates.  
END  
ND-71762 (E)  
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MAINTENANCE PROCEDURE  
5.4 PLO/OSC Circuit Card  
(1) Procedure for Extraction:  
START  
Set the MB switch of the PLO/OSC card UP.  
The OPE/CLKOUT lamp (green) goes out.  
Extract the PLO/OSC card from its mounting slot.  
END  
(2) Procedure for Insertion:  
START  
Set the MB switch of the PLO/OSC card UP .  
Insert the PLO/OSC card into its mounting slot.  
Set the MB switch of the PLO/OSC card DOWN .  
The OPE/CLKOUT lamp (green) illuminates.  
END  
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DATE  
NEAX2400 IPX Internet Protocol eXchange  
No.7 CCIS System Manual  
Revision Sheets 1/2  
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No.7 CCIS System Manual  
Revision Sheets 2/2  
ND-71762(E)  
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