NEC NEAX2000, ND-91649 User Manual

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ND-91649 (E)

ISSUE 3

General Description

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NEAX and D

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LIABILITY DISCLAIMER

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are registered trademarks of NEC Corporation.

NEC Corporation

Printed in Japan.

ND-91649(E)

ISSUE 3

NEAX 2000 IPS

General Description

Page

CHAPTER 1 INTRODUCTION............................................................................................................. 1

System Overview ..................................................................................................................................................1

Hardware Architecture .........................................................................................................................................5

Software Architecture ..........................................................................................................................................7

CHAPTER 2 SYSTEM CONFIGURATION ........................................................................................ 10

Module Configuration.........................................................................................................................................10

Installation Methods ...........................................................................................................................................11

Modules and Installation Hardware ..................................................................................................................14

Circuit Cards .......................................................................................................................................................15

System Conditions .............................................................................................................................................15

CHAPTER 3 TERMINALS ................................................................................................................. 17

Desk Console ......................................................................................................................................................18

Figures of D

Wireless System .................................................................................................................................................28

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Softphone (SP30) .......................................................................................................................................37

CHAPTER 4 OVERVIEW OF INSTALLATION, PROGRAMMING, AND MAINTENANCE .............. 39

Installation...........................................................................................................................................................39

Programming ......................................................................................................................................................40

Maintenance ........................................................................................................................................................41

CHAPTER 5 SPECIFICATIONS ........................................................................................................42

System Capacity .................................................................................................................................................42

IP Specifications .................................................................................................................................................45

Line Conditions...................................................................................................................................................47

Cell Station/Zone Transceiver Line Conditions...............................................................................................48

Traffic Capacity...................................................................................................................................................49

DRS (Device Registration Server).....................................................................................................................49

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Series i/D

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IP.........................................................................................................................22

ND-91649(E) TABLE OF CONTENTS

Page i

ND-91649(E) ISSUE 3

LIST OF ILLUSTRATIONS

Figure Title Page

Figure 1-1 NEAX 2000 IPS...................................................................................................................................1

Figure 1-2 NEAX 2000 IPS System Overview....................................................................................................2

Figure 1-3 Example of Network Configuration of Remote PIM over IP ..........................................................3

Figure 1-4 Retrofit MP/FP for Upgrading NEAX 7400 ICS M100 to IPS (Single MP System)........................4

Figure 1-5 Retrofit MP/FP for Upgrading NEAX 7400 ICS M100 to IPS (Dual MP System)...........................4

Figure 1-6 Trunking Diagram of NEAX 2000 IPS ..............................................................................................9

Figure 2-1 Module Configuration of NEAX 2000 IPS......................................................................................10

Figure 2-2 Face Layout of NEAX 2000 IPS ......................................................................................................11

Figure 2-3 Wall-mounting of PIM......................................................................................................................12

Figure 2-4 19-inch Rack-mounting...................................................................................................................13

Figure 3-1 DESK Console .................................................................................................................................18

Figure 3-2 D

Figure 3-3 D

Figure 3-4 D

Figure 3-5 D

Figure 3-6 D

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2 (White)...................................................................................................................................22

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8 (White)...................................................................................................................................22

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8D (White) ................................................................................................................................22

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16D (White) ..............................................................................................................................23

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32D (White) ..............................................................................................................................23

Figure 3-7 DSS Console (Black).......................................................................................................................23

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Figure 3-8 D

16LD (Black) ............................................................................................................................24

Figure 3-9 Analog Port Adapter (APR) ............................................................................................................24

Figure 3-10 Ancillary Device Adapter (ADA)...................................................................................................24

Figure 3-11 Computer Telephony Adapter (CTA)...........................................................................................25

Figure 3-12 IP Adapter (IPW) ............................................................................................................................25

Figure 3-13 System Configuration of Wireless Communications ................................................................29

Figure 3-14 Cell Station (CS), IP Base Station (IP-BS) and PHS Personal Station (PS) .............................33

Figure 3-15 Zone Transceiver (ZT) and PCS Personal Station (PS) .............................................................36

Figure 3-16 SP30 Screen...................................................................................................................................37

LIST OF ILLUSTRATIONS ND-91649(E) Page ii

ND-91649(E)

ISSUE 3

LIST OF TABLES

Table Title Page

Table 1-1 Technical Terms of NEAX 2000 IPS System ....................................................................................8

Table 2-1 Modules of NEAX 2000 IPS System ................................................................................................14

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Table 3-1 D

Series i/D

Table 3-2 Combination Pattern of Optional Accessories to the D

Table 3-3 PHS Personal Station (PS) Specifications .....................................................................................30

Table 3-4 2-Wired (U-Interface) Cell Station (CS) Specifications..................................................................31

Table 3-5 IP Base Station (IP-BS) Specifications ...........................................................................................32

Table 3-6 PCS Personal Station (PS) Specifications .....................................................................................34

Table 3-7 Zone Transceiver (ZT) Specifications.............................................................................................35

Table 5-1 System Capacity (Single MP System).............................................................................................42

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IP Specifications and Accessories ..................................................................26

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Series i/ D

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IP...............................27

Table 5-2 IP Specifications ...............................................................................................................................45

Table 5-3 Line Conditions.................................................................................................................................47

Table 5-4 Cell Station/Zone Transceiver Line Conditions.............................................................................48

Table 5-5 Traffic Capacity .................................................................................................................................49

Table 5-6 DRS (Device Registration Server)-System Based .........................................................................49

ND-91649(E) LIST OF TABLES

Page iii

INTRODUCTION

CHAPTER 1 INTRODUCTION

This document provides an overview of the NEAX 2000 IPS (Internet Protocol Server) stored program control digital electronic PBX. An introduction to the technical characteristics is included, along with a description of available system applications.

System Overview

The NEAX 2000 IPS is a full-featured IP-based communications system providing a rich feature set of NEAX 7400 ICS M100MX*, with pure Voice over IP (VoIP) communications (peer-to-peer connections), across corporate Local and Wide Area Networks (LAN and WAN).

Figure 1-1 NEAX 2000 IPS

The NEAX 2000 IPS supports both pure IP switching (peer-to-peer connections) and Time Division Switching. The pure IP switching is provided for communications between D NEAX 2000 IPS/2400 IPX (CCIS over IP). On the other hand, the TDM switching is provided for communication between legacy stations/trunks. Connections between D stations/trunks are made via IP PADs, which converts packet-based voice data to TDM-based voice data, and vice versa.

* “NEAX 7400 ICS M100MX” is marketed in North/Latin America and Australia as “NEAX 2000 IVS2” and in UK as “NEAX 2000 INTEGRATED

VOICE SERVER.”

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IPs and for CCIS connections with another

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IP/CCIS over IP and legacy

ND-91649(E) CHAPTER 1

Page 1

INTRODUCTION

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IP telephones are designed to provide a converged infrastructure at the desktop, with a 100 Base T Ethernet connection to the LAN and built-in hub for a PC connection to the telephone itself. The system can provide peer-to-peer connections between D

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IP telephones with voice compression, on a CCIS basis (CCIS

over IP).

PHS cell station can also be connected to LAN with 100 Base T Ethernet as IP-BS. IPS also provide Windows PC based softphone (D and it provides IP enabled D

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features without the telephone set.

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Softphone SP30) to connect to LAN network

NEAX 2000 IPS

Work

Station

Peer to Pee

IP Switched

erm

Softphone

MAT

DHCP

Serve

IP-BS PS

Figure 1-2 NEAX 2000 IPS System Overview

The NEAX 2000 IPS can also provide legacy station/trunk interfaces to support the existing Time Division Multiplexing (TDM) based infrastructure, such as analog telephones, analog networks, and digital networks (T1/E1, ISDN etc.). The legacy station/trunk interface cards (LT and AP cards) can be accommodated in the Port Interface Modules (PIM), in the same manner as the NEAX 7400 ICS M100MX*. At maximum configuration, total system capacity is 768 ports. The system can provide 512 ports for D legacy LT cards, and 256 ports for legacy AP cards. Communications between legacy station/trunks and

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IP telephones/IP networks are made via IP PAD, which converts packet-based voice data to TDM-based voice data, and vice versa. Both peer-to-peer connections and TDM-based connections are controlled by a new Main Processor (MP) card. The new MP card incorporates a built-in Device Registration Server (DRS) and a single interface point of IP connections to IP telephone, MATWorX, and OAI/ACD servers.

All Application Processor cards used in NEAX 7400 ICS M100MX* except AP01 and CC01 cards are available for the IPS system. All Business/Hotel/Data/CCIS/ISDN/WCS features are available. The following service features are now included on the MP card and do not require the AP01 card.

 Authorization Code with AP01  Forced Account Code with AP01  Direct Inward System Access (DISA) with AP01 (For North America)/Remote Access to System with

AP01 (For other than North America)

 Call Forwarding set by DISA with AP01

* “NEAX 7400 ICS M100MX” is marketed in North/Latin America and Australia as “NEAX 2000 IVS2” and in UK as “NEAX 2000 INTEGRATED

VOICE SERVER.”

CHAPTER 1 ND-91649(E) Page 2

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IP telephones and

INTRODUCTION

Remote PIM over IP

NEAX 2000 IPS can install a PIM at remote site through IP network. At the main site, the NEAX 2000 IPS is installed and the Remote PIM is installed at remote site. The main site controls call processing and service feature access for station users located both main and remote sites. When the Remote PIM cannot be connected with the main site due to the IP network and/or main PBX failure, the Remote PIM initializes the system and re-starts operation by its own Main Processor (survival mode). In the survival mode, almost all service features are provided to the station users accommodated in Remote PIM. When IP network/main PBX is recovered, the Remote PIM can be restored to normal mode with system initialization by manual operation or automatically (Selectable by system data setting).

PSTN

Remote-1

PSTN

Main

LAN

WAN

Remote-2

Remote-3

Note 1: Both legacy and IP stations/trunks can be accommodated in Remote PIM. Note 2: When the Remote PIM accommodates legacy trunk, the incoming/outgoing calls are

connected to the station through local TDSW.

Figure 1-3 Example of Network Configuration of Remote PIM over IP

ND-91649(E) CHAPTER 1

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INTRODUCTION

Migration Path

For customers who are using the NEAX 7400 ICS M100MX*, the migration path is supplied. By replacing the existing MP card to the new IPS MP card, the NEAX 7400 ICS M100MX* can be upgraded to IP/TSW Hybrid System including new and enhanced service features introduced with the NEAX 2000 IPS.

For customers who are using NEAX 7400 ICS M100*/M80VS, by replacing existing PN-CP00/CP03 with Retrofit MP and PN-CP01 with Retrofit FP, the NEAX 7400 ICS M100/M80VS can be upgraded to the NEAX 2000 IPS features. In case of NEAX 7400 ICS M100/M80VS Dual MP System the CP02 is replaced with CP28-A Retrofit Dual MP. (See the following figure showing replacement of control cards. As for the LT/AP card conditions after upgrading, refer to the “NEAX 2000 IPS Card Application List”.)

NEAX 7400 ICS M100 before upgrading

ＢＳＵ

NEAX 7400 ICS M100 after upgrading

ＢＳＵ

 Replace MP/FP

ＣＰ０１

ＢＳＵ

MP: PN-CP00 to PN-CP26-A FP: PN-CP01 to PN-CP17

 Remove FP0 (CP01) mounted

ＢＳＵ

in PIM0

ＣＰ１７

ＢＳＵ

ＣＰ００

ＢＳＵ

ＣＰ０１

ＣＰ２６

ＢＳＵ

Figure 1-4 Retrofit MP/FP for Upgrading NEAX 7400 ICS M100 to IPS (Single MP System)

NEAX 7400 ICS M100 before upgrading

ＣＰ０１

ＣＰ０２

ＣＰ０１

ＢＳＵ

 Replace MP/FP

ＢＳＵ

MP: PN-CP02 to PN-CP28-A FP: PN-CP01 to PN-CP17

 Remove FP0 (CP01) mounted

ＢＳＵ

in PIM0

17-TW-0.3 CONN CA-A

NEAX 7400 ICS M100 after upgrading

ＢＳＵ

ＣＰ１７

ＢＳＵ

ＣＰ２８

ＢＳＵ

ＣＰ２８

Figure 1-5 Retrofit MP/FP for Upgrading NEAX 7400 ICS M100 to IPS (Dual MP System)

* “NEAX 7400 ICS M100MX” is marketed in North/Latin America and Australia as “NEAX 2000 IVS2” and in UK as “NEAX 2000 INTEGRATED

VOICE SERVER.” * “NEAX 7400 ICS M100” is marketed in North America as “NEAX 2000 IVS” and in Australia as “NEAX ICS 120”. * “NEAX 7400 ICS M80VS” is marketed in Australia as “NEAX ICS 110”.

CHAPTER 1 ND-91649(E) Page 4

INTRODUCTION

Hardware Architecture

Reduced Hardware with IP-based Architecture

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The D because they can be interfaced directly with the LAN and connected with peer-to-peer basis. When the D

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Softphone or IP-BS is connected to a station/trunk that is using TSW, the speech path between LAN and TSW is made via IP PAD under the call processing control of the MP. The D can be expanded simply adding the terminal itself. With this system architecture, the hardware such as DLC,

CSI, CSH, PIM, Power Supply etc. is reduced and easy moves, adds, and changes can be realized.

 Line & Trunk Cards  Application Processors  Firmware Processors

Powerful, One-board Main Processor (MP) with Integrated Functionality

The NEAX 2000 IPS Main Processor (MP) is the heart of pure IP connections and TDM-based connections. The MP employs a high-speed CPU, which is equivalent with Pentium. With this processing power and System On Chip (SOC) technology, the MP integrates Device Registration Server (DRS), AP01 (OAI) functions, which are provided by an additional card in the previous M100MX*. Also, by means of today’s advanced LSI technology, the MP card size is minimized and On-board Ethernet Interface card is mounted on the MP without using an additional slot space in the PIM. This interface card is linked with LAN for call control processing of D

Enhanced Built-in Firmware Processor (FP) on MP

The NEAX 7400 ICS M100MX* requires the FP card in PIM0 when the system is configured with 3 or more PIMs. In case of the NEAX 2000 IPS, the FP in PIM0 is not required since the Built-in FP function in new MP has been improved and it provides more call processing capability. (FP is used in PIM2, 4 and 6.)

* DLC, CSI and CS handler.

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IPs, D

Softphone and IP-BS connected to the LAN do not require any special interface cards*

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Standard TDM Hardware Peer-to-Peer IP Hardware

 IP PAD

(8IPLA, 24IPLA, 32IPLA, 16VCT)

 Ether Card (M606)

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IP and inter-work with MATWorX and OAI server.

IP, D

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Softphone or IP-BS

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IP,

ND-91649(E) CHAPTER 1

Page 5

INTRODUCTION

Extended Application Processor (AP) Port Capacity

The NEAX 2000 IPS provides a maximum of 256 AP ports and it is independent of the 512 ports for the Line/Trunk (LT), therefore, more AP cards such as T1/E1 digital link cards can be used in the system.

Universal Slot

One PIM provides 12 card slots for Line/Trunk (LT). Also, these card slots can be used for Application Processor (AP) cards without complicated limitation. This makes easy quotation and installation, and more AP cards can be mounted in one PIM.

Unified Circuit Card Size

All the circuit cards for the NEAX 2000 IPS are designed in one size (PN-type), and installed in the PIM. This maximizes the efficiency of slot utilization of the PIM.

High Density Line/Trunk Cards

The major line/trunk cards used in the NEAX 2000 IPS are provided with 8 circuits per card. This allows the physical system size to be compact.

Various Power supply system

 AC Input system

The PIM houses the AC/DC power supply with various AC (100V/200V) input that outputs various DC voltage required for several internal cards. The AC/DC power supply has function of Battery charger. Thus, system can be backed up with battery according to necessity. The PIM also houses optional DC/DC power supply for the cards that require -48V power such as CSI card used for interface of cell station/zone transceiver.

 DC Input system

NEAX 2000 IPS also provides the DC/DC power supply with -48V DC input house in the PIM that outputs various DC voltage required for several internal cards. Thus, NEAX 2000 IPS can be installed at various powering environment.

Various Installation Methods

To meet the specific needs of the customer’s environment, the NEAX 2000 IPS provides the following installation methods:

 Floor Standing Installation  Wall-mounting Installation  IEC standard 19-inch Rack-mounting Installation

CHAPTER 1 ND-91649(E) Page 6

INTRODUCTION

Software Architecture

Built-in DRS (Device Registration Server) on MP

The NEAX 2000 IPS incorporates DRS (Device Registration Server) on the MP. DRS provides Log-in/Logout management of D worked with DHCP server to provide easy administration on IP address.

Office Data Backup Enhancement

The office data of the NEAX 2000 IPS is stored in Flash ROM, therefore the backup period is extended compared with previous M100MX series which were using RAM with battery.

* M100MX is marketed in North/Latin America and Australia as “NEAX 2000 IVS2” and in UK as “NEAX 2000 INTEGRATED VOICE SERVER.”

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IP including Registration and Authentication. Also, the built-in DRS can be inter-

ND-91649(E) CHAPTER 1

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INTRODUCTION

Technical Terms

Table 1-1 Technical Terms of NEAX 2000 IPS System

SYMBOL DESCRIPTION SYMBOL DESCRIPTION

AMP Amplifier Trunk Card LC Line Circuit Card

(for Single Line Telephone)

AP00 SMDR/Hotel Application Card LDT LD Trunk Card

BGM External Music Source for Dterm

Back Ground Music Service

BRT Basic Rate Interface Trunk Card M10 Optical Interface Card

CCH Common Channel Handler Card MAT Maintenance Administration Terminal

CFT 6/10 Party Conference Trunk Card MDF Main Distribution Frame

CIS Call Information System MEM Main Memory

CIR CALLER ID Receiver Trunk Card MFR MF Receiver/ MFC Receiver/Sender

COT C.O. Trunk Card MLDT Melody Trunk

CSI CS/ZT Interface Card MODEM Modem

CS/ZT Cell Station (For Australia/Others)

Zone Transceiver (For North America/ Latin America)

DAT Digital Announcement Trunk Card PFT Power Failure Transfer

DCH D-channel Handler Card PMS Property Management System

DIT DID Trunk Card OAI Open Application Interface

DK External Relay/Key Interface Card ODT OD Trunk Card (2/4 wire E&M)

DLC Digital Line Circuit Card

(for Dterm, ATTCON, DESKCON)

LLC Long Line Circuit Card

Card

MP Main Processor Card

PBR PB Receiver Card

DSS DSS Console PBSND PB Sender

DTI Digital Trunk Interface Card PLO Phase Locked Oscillator

DTG Digital Tone Generator PS Personal Station

ETHER Ethernet Control Card PRT ISDN Primary Rate Interface Trunk

Card

ICH ISDN-channel Handler Card SMDR Station Message Detail Recording

ILC ISDN Line Circuit Card TDSW Time Division Switch

IP-BS IP Base Station TNT Tone/Music Source Interface Card

IP PAD IP Packet Assembler/Disassembler Card VCT CODEC Card

IPT IP Trunk Card VM Voice Mail Card

KEY External Key 16CFT 16-Circuit Four-Party Conference Trunk

CHAPTER 1 ND-91649(E) Page 8

Trunking Diagram

This figure shows a typical trunking diagram of the NEAX 2000 IPS system.

INTRODUCTION

Figure 1-6 Trunking Diagram of NEAX 2000 IPS

ND-91649(E) CHAPTER 1

Page 9

SYSTEM CONFIGURATION

CHAPTER 2 SYSTEM CONFIGURATION

Module Configuration

The NEAX 2000 IPS consists of Port Interface Modules (PIM) depending on the system configuration, and there are two types of PIMs; “Physical” PIM and “Virtual” PIM.

The Physical PIM is a “hardware” PIM and is used to accommodate an MP, FPs, IP PADs, legacy LT an AP cards, and power supply units. One Physical PIM provides up to 64 ports.

The Virtual PIM is a “software” PIM and is used to assign D programming. One Virtual PIM provides up to 64 D

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by the combination of Physical PIMs and Virtual PIMs, thus providing 448 ports for D 512 ports for legacy LT cards. The total number of ports for D 512 or fewer, so that the number of Physical PIMs decreases when that of Virtual PIMs (= number of D telephones) increases. For example, when 256 legacy LT ports are required (= four Physical PIMs), the maximum number of D

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IPs is 256.

The figure below shows examples of 512-port configuration by combination of legacy LT ports and D telephones.

PIM #3 PIM #7 PIM #3 PIM #7 PIM #3 PIM #7 PIM #3 PIM #7 PIM #2 PIM #6 PIM #2 PIM #6 PIM #2 PIM #6 PIM #2 PIM #6 PIM #1 PIM #5 PIM #1 PIM #5 PIM #1 PIM #5 PIM #1 PIM #5 PIM #0 PIM #4 PIM #0 PIM #4 PIM #0 PIM #4 PIM #0 PIM #4

64 LT ports

+ 448 D

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IPs

128 LT ports

+ 384 D

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IPs

192 LT ports

320 LT ports

+ 128 D

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IPs

384 LT ports

+ 128 D

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IPs

448 LT ports

PIM PIM

Physical PIM Virtual PIM

Figure 2-1 Module Configuration of NEAX 2000 IPS

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IP telephones, D

IP telephones. The system consists of up to 8 PIMs,

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IP telephones and legacy LT cards must be

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IPs

+ 256 D

+ 0 D

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SP30 or IP-BS by system

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IP telephones and

256 LT ports

+256 D

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IPs

512 LT ports

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+ 0 D

IPs

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CHAPTER 2 ND-91649(E) Page 10

SYSTEM CONFIGURATION

Installation Methods

The NEAX 2000 IPS provides three installation methods as follows:

 Floor Standing Installation  Wall Mounting Installation  19-inch Rack Mounting Installation

Floor Standing Installation

In Floor Standing Installation, the NEAX 2000 IPS is comprised of up to 8 Port Interface Modules (PIMs).

PIM #3

PIM #2 PIM #2

PIM #1 PIM #1 PIM #1

PIM #0 PIM #0 PIM #0 PIM #0

BASE BASE BASE BASE

(64 ports) (128 ports) (192 ports) (256 ports)

PIM #3 PIM #3 PIM #3 PIM #3 PIM #7

PIM #2 PIM #2 PIM #2 PIM #6 PIM #2 PIM #6

PIM #1 PIM #1 PIM #5 PIM #1 PIM #5 PIM #1 PIM #5

PIM #0 PIM #4 PIM #0 PIM #4 PIM #0 PIM #4 PIM #0 PIM #4

BASE BASE BASE BASE BASE BASE BASE BASE

(320 ports) (384 ports) (448 ports) (512 ports)

Figure 2-2 Face Layout of NEAX 2000 IPS

ND-91649(E) CHAPTER 2

Page 11

SYSTEM CONFIGURATION

Wall-mounting Installation

The NEAX 2000 IPS can be wall-mounted with single or multiple PIM (MAX. 8) configuration.

Figure 2-3 Wall-mounting of PIM

CHAPTER 2 ND-91649(E) Page 12

SYSTEM CONFIGURATION

19-inch Rack-mounting Installation

The NEAX 2000 IPS can be mounted in the IEC-standard 19-inch rack up to 4 PIMs. (IEC: International Electro-technical Commission)

19” BRACKET(A)

19” BRACKET(B)

Figure 2-4 19-inch Rack-mounting

ND-91649(E) CHAPTER 2

Page 13

SYSTEM CONFIGURATION

Modules and Installation Hardware

The NEAX 2000 IPS is comprised of up to 8 Port Interface Modules (PIMs).

Modules

(1) Port Interface Module (PIM)

A PIM provides 13 card slots for common control, Line/Trunk (LT), and Application Processor (AP) cards. It also houses an AC/DC Power Supply (or DC/DC Power Supply), optional DC/DC Power Supply (for -48V), and batteries for protection from short-term (about 30 min.) power interruption.

Four champ connectors for Line/Trunk (LTC 0 to 3) are located at the lower front side of the PIM.

A PIM provides a maximum of 12 card slots for Line/Trunk (LT) and Application Processor (AP) cards. At maximum configuration, the system is comprised of 8 PIMs.

PIM MD

(PIM3)

PIM MD

(PIM2)

PIM MD

(PIM1)

PIM MD

(PIM0)

Single MP System Dual MP System

(2) Battery Module (BATTM)*

The BATTM is an optional module for installing optional long-term (about 3 hours) backup batteries. The BATTM is designed to accommodate batteries covering up to a 4-PIM system (2 BATTMs support maximum system configuration).

The BATTM is available for Floor Standing Installation. (When the system is Wall-mounting/19-inch Rack-mounting configuration, the BATTM cannot be installed with the PIM.)

Table 2-1 Modules of NEAX 2000 IPS System

PIM MD

(PIM7)

PIM MD

(PIM6)

PIM MD

(PIM5)

PIM MD

(PIM4)

PIM MD

(PIM3)

PIM MD

(PIM2)

PIM MD

(PIM1)

PIM MF

(PIM0)

PIM MD

(PIM7)

PIM MD

(PIM6)

PIM MD

(PIM5)

PIM MD

(PIM4)

Abbrev Name Code Remarks

PIMMD SN1617 PIMMD PIM 0 ~ PIM 7 PIM MF SN1658 PIMMF PIM0 for dual MP system BATTM SN1619 BATTMB 1/STACK, Max.2/system

* Battery Module is available for Latin America.

CHAPTER 2 ND-91649(E) Page 14

SYSTEM CONFIGURATION

Circuit Cards

The circuit cards used for NEAX 2000 IPS are divided into the following three types. According to these card types, the mounting location of card and port allocation of the Time Division Switch are varied.

 Common Control Cards

- Main Processor (MP)

- Firmware Processor (FP)

 Line/Trunk (LT) Cards

- IP PAD, Line Circuit (LC), Central Office Trunk (COT), Tie Line Trunk (LDT/ODT), etc.

 Application Processor (AP) Cards

- SMDR/PMS/CIS/Hotel Printer Interface (AP00)

- T1/E1 Digital Trunk Interface (DTI)

System Conditions

Conditions for Peer-to-Peer Connection

 For the communication between D

converting voice packets into PCM and voice compression in the system.

Conditions for CCIS Connection

 D

term

IP to D

term

IP connection (Peer-to-Peer connection) via CCIS is available only when the destination

office uses NEAX 2000 IPS or NEAX 2400 IPX.

 The built-in CCH-IPT of MP card can be connected to max. 127 trunks.  The system provides only Point-to-Multipoint connection.

Conditions for H.323 Connection

 When connecting to the IP network with H.323 protocol, the IPT card is required.  When connecting to the IP network with H.323 protocol, the voice data is transmitted and received via the

IP-PAD card.

Conditions for Legacy Interface (LT/AP)

 All Application Processor cards used in NEAX 7400 ICS M100MX* except AP01 and CC01 cards are

available for the system.

 All Line/Trunk cards used in NEAX 7400 ICS M100MX* are available for the system.

* “NEAX 7400 ICS M100MX” is marketed in North/Latin America and Australia as “NEAX 2000 IVS2” and in UK as “NEAX 2000 INTEGRATED

VOICE SERVER.”

term

IPs, the voice data is transmitted and received directly, without

ND-91649(E) CHAPTER 2

Page 15

SYSTEM CONFIGURATION

Conditions for Maintenance

 MATWorX can be used as the maintenance program for NEAX 2000 IPS. Direct connection (RS-232C),

Modem connection and LAN (TCP/IP) connection are available to connect to the MAT (Maintenance Administration Terminal).

Conditions for DRS

DRS = Device Registration Server

 The D

 The DRS can be used as the Proxy server.

term

for the D

IP registration is executed by the DRS-System Based. The DRS-Network Based is not available

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IP registration.

CHAPTER 2 ND-91649(E) Page 16

TERMINALS

CHAPTER 3 TERMINALS

A variety of terminal equipment may be connected to the NEAX 2000 IPS. The following equipment may be installed with the system.

 Attendant Console

 Desk Console

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 D

 D  D  D  D  D  D

term

 D  D

Series i

term

2 (White/Black Color) : 2-button terminal

term

8 (White/Black Color) : 8-button terminal

term

8D (White/Black Color) : 8-button terminal with LCD display

term

16D (White/Black Color) : 16-button terminal with LCD display

term

32D (White/Black Color) : 32-button terminal with LCD display

term

16 LD (White/Black Color) : 16-button LD terminal with LCD display

term

8D (White/Black Color) : 8-button terminal with LCD display

term

16D (White/Black Color) : 16-button terminal with LCD display

 PS (Wireless Handset)

 PHS model  PCS model

 D

term

SP30 (or D

term

SP20) (IP Softphone)

ND-91649(E) CHAPTER 3

Page 17

TERMINALS

Desk Console

The SN716 Desk Console has an ergonomic design and provides full access to all PBX Console features. It connects to the NEAX 2000 IPS using the same circuit cards as the D Console operates on a switched-loop basis with a maximum of 6 Attendant loops terminating at each console on the associated Interface card. The Attendant uses these loops for answering, originating, holding, extending, and reentering calls. When Attendant loop release is used, the number of loops is effectively increased to a maximum of 12 for each console.

The NEAX 2000 IPS supports a maximum of eight SN716 DESK Consoles.

term

75 Series terminals. The SN716 Desk

SN716 DESKCON Features

• Character LCD (4x40 characters)

• LCD designation strips

• Software-controlled LCD loop key

• Full access to PBX features

• Headset connectivity

• Recorder connectivity

Figure 3-1 DESK Console

CHAPTER 3 ND-91649(E) Page 18

TERMINALS

term

Series i/D

The D

term

Series digital multifunction/multiline terminal is available in two colors to meet the needs of various

term

IP Digital Multifunction Terminals

users based on the features and types of communications each end user requires.

term

Series i

term

2 (White/Black Color) : 2-button terminal

term

8 (White/Black Color) : 8-button terminal

term

8D (White/Black Color) : 8-button terminal with LCD display

term

16D (White/Black Color) : 16-button terminal with LCD display

term

32D (White/Black Color) : 32-button terminal with LCD display

term

16LD (White/Black Color) : 16-button LD terminal with LCD display

term

8D (White/Black Color) : 8-button terminal with LCD display

term

16D (White/Black Color) : 16-button terminal with LCD display

Features most commonly used in daily operation and functions required by the user are provided by the following dedicated buttons/lamp.

 Hold

- Press key to place an internal or external call on hold.

 TRANSFER

- Allows the station user to transfer established calls to another station without attendant assistance.

 ANSWER

- When LED on this key is lighted, press key to answer a waiting call.

 SPEAKER

- Controls the built-in speaker that can be used for Hands Free Dialing/Monitoring and Voice Call.

 REDIAL

- Press key to activate the redial feature, then press redial and scroll back through numbers that have been dialed. When desired number is displayed, press the key to activate dialing.

 CONF

- Press key to establish a three-way conversation.

 RECALL

- Press key to terminate established call and returns to the internal dial tone.

 FEATURE

- Used to activate terminal setup functions and to program One-Touch Speed Dial/Feature Keys.

 DIRECTORY

- Press key to activate speed calling.

 MESSAGE

- Press key to access the voice mail system.

 MIC

- Press key to respond hands free. LED on this key lights during speakerphone operation.

This ergonomically designed terminal provides; larger keypad buttons for dialing convenience, an expanded three-line by 24-character LCD display, tiltable legs with nonskid feet, and a highly visible call/message indicator lamp. All models have built-in hands-free unit as standard. The terminal is connected to the NEAX 2000 IPS via a single pair of cabling, thus optimizing existing cabling environment. These advantages make the D

term

Series i

terminals the standard for telephones that effectively meet today's business requirements.

ND-91649(E) CHAPTER 3

Page 19

TERMINALS

term

Series i/D

 D

This D

term

2 (2-button D

term

Series Digital Multi-line Terminal is equipped with 8 dedicated Function keys (such as Hold,

term

IP Lineup

term

)

TRANSFER, ANSWER, SPEAKER, REDIAL, CONF, RECALL and FEATURE), 2 programmable Line/Feature keys (each with a two-color LED). 2 programmable keys are flexible and can be assigned to any outside line connected to the system, to another station line, or as a feature button. The terminal is available in two colors - Black (BK) and Ivory White (WH).

 D

This D

term

8 (8-button D

term

Series Digital Multi-line Terminal is fully modular with 11 dedicated Function keys, 8 programmable

term

)

Line/Feature keys (each with a two-color LED), built-in Speakerphone, built-in Headset Jack, Tone/Volume/Contrast control, Tilt Stand, and a large LED to indicate incoming calls and messages. The terminal is available in tow colors - Black (BK) and Ivory White (WH).

 D

This D

term

8D (8-button D

term

Series Digital Multi-Line Terminal is equipped with 11 dedicated Function keys, 8 programmable

term

with Display)

Line/Feature keys (each with a two-color LED), built-in Speakerphone, built-in Headset Jack, Tone/Volume/Contrast control, Tilt Stand, 3 line by 24-character LCD Display Panel (adjustable & detachable), four Soft Keys, and a Large LED to indicate incoming calls and messages. This terminal is available in two colors

- Black (BK) and Ivory White (WH).

 D

This D

term

16D (16-button D

term

Series Digital Multi-Line Terminal is equipped with 11 dedicated Function keys, 16 programmable

term

with Display)

- Black (BK) and Ivory White (WH).

 D

This D

term

32D (32-button D

term

Series Digital Multi-Line Terminal is equipped with 11 dedicated Function keys, 32 programmable

term

with Display)

 D

This D

term

16LD (DESI Less 16 LD button D

term

Series Digital Multi-Line Terminal is equipped with 11 dedicated Function keys, 16 programmable

term

with Display)

CHAPTER 3 ND-91649(E) Page 20

TERMINALS

term

Series i/D

term

IP Accessories

 Direct Station Selection (DSS) Console

This Console is equipped with 60 programmable line keys (each with a two-color LED). These keys can be programmed as Direct Station keys, Function keys, or Line keys. The DCU-60 Console is available in two colors

- Black (BK) and Ivory White (WH).

 Analog Port Adapter (APR)

The Analog Port Adapter with Ringing (APR-U) provides an interface for installing single line telephones (SLTs), modems*. By installing the APR-U, calls may be initiated via a PC modem and switched to voice operation if desired. Data calls at a maximum speed of 28.8 kbps are also supported through the APR-U. The APR-U also has the added benefit of detecting incoming ringing signals. By providing ring detection, the user may wish to install a personal fax machine or an answering machine at the workstation and connect them through the D instrument for convenience. * When a modem is installed to the D

term

Series Multi-line terminal with the APR-U, the modem and the D

term

Series

term

Series Multi-line Terminal (handset, speakerphone, headset) cannot be used simultaneously.

 Ancillary Device Adapter (ADA)

The Ancillary Device Adapter (ADA-U) allows for a direct connection from the D

term

Series i/ D

term

IP terminal to a tape recorder for logging/recording telephone calls. A dedicated set of input connectors is also provided for a recording tone unit to inform the parties that the call is being recorded. The ADA-U does not require an AC adapter.

 Computer Telephony Adapter (CTA)

The Computer Telephony Adapter (CTA) provides D

term

with a connection to desktop PC, allowing users to

operate Windows®-based Computer Telephony application such as ClientPhone 32.

 IP Adapter (IPW)

The IP Adapter Unit (IPW) provides two 10/100 Base-T Ethernet ports to the Local Area Network (LAN) and a built-in switching hub for a PC connection to the adapter itself. Operating power can be fed by either an AC/DC adapter unit or a power patch panel connected to the LAN switch/hub. When the IPW is attached to the D

term

, other optional accessories cannot be attached except for Ancillary Device

Adapter (ADA).

 Wall Mount Unit (WMU)

The Wall Mount Unit (WMU) allows the D

term

Series terminal to be conveniently mounted vertically when desk

space is not available.

ND-91649(E) CHAPTER 3

Page 21

TERMINALS

Figures of D

term

* D

2 (Black) is also supported.

term

Series i/D

term

Figure 3-2 D

term

2 (White)

* D

term

8 (Black) is also supported.

term

8 D(Black) is also supported.

Figure 3-3 D

Figure 3-4 D

term

8 (White)

term

8D (White)

CHAPTER 3 ND-91649(E) Page 22



* D

term

16 D (Black) is also supported.

Figure 3-5 D

term

16D (White)

TERMINALS

term

* D

32 D (Black) is also supported.

Figure 3-6 D

* DSS Console (White) is also supported.

Figure 3-7 DSS Console (Black)

term

32D (White)

ND-91649(E) CHAPTER 3

Page 23

TERMINALS



term

* D

16LD (White) is also supported.

Figure 3-8 D

term

16LD (Black)

Figure 3-9 Analog Port Adapter (APR)

Figure 3-10 Ancillary Device Adapter (ADA)

CHAPTER 3 ND-91649(E) Page 24

TERMINALS



Figure 3-11 Computer Telephony Adapter (CTA)

Figure 3-12 IP Adapter (IPW)

ND-91649(E) CHAPTER 3

Page 25

TERMINALS

term

Series i/D

The specifications of the D

Specifications/Description D

term

IP Specifications

term

Series i/D

Table 3-1 D

term

IP are shown in below.

Series i/D

term

2 D

term

IP Specifications and Accessories

term

Series i

term

8D D

term

Series i

16D

term

32D

term

16LD

Dedicated Function Keys 8 11 11 11 11 11 Line/Feature Access/Programmable Feature

2 8 8 16 32 16 Access Key LCD

Indication on Line/Feature Keys

Hands Free Operation: Half Duplex

None None

- -

3 Lines

24 Characters

LED

(Green

/Red)

LED

(Green

/Red)

3 Lines

24 Characters

LED

(Green

/Red)

LED

(Green

/Red)

Yes Yes Yes - Yes - Yes

3 Lines

Charac

- ters LED

(Green

/Red)

3 Lines

Charac-

ters

LCD**

Icon

Yes

Optional Call/Message Indicator Yes Yes Yes Yes Yes Yes Adjustable Legs (Built-in WMU) Volume Control Handset (Receiver) Volume Control Speakerphone (Receiver) Volume Control Handset (Receiver)

No Yes Yes Yes Yes Yes

Yes Yes Yes Yes Yes Yes

Ring Volume Control Yes Yes Yes Yes Yes Yes Brightness Control-LCD Contrast Housing Color White

- - Yes Yes Yes Yes

White

Black

White or

Black

White

Black

White or

Black

White or

Black

Soft Keys No No Yes Yes Yes Yes

Optional Accessories

DSS/BLF console* No Yes Yes No Yes No Yes Yes Ancillary Device Adapter (ADA-U) Analog Port Adapter w/ Ringing (APR-U)

No Yes Yes No Yes No Yes Yes

PC Telephony Adapter (CTA)* No Yes Yes No Yes No Yes Yes IP Adapter (IPW)* No No Yes No Yes No Yes Yes

* It requires an AC/DC adapter. ** Displayed characters are Only English.

CHAPTER 3 ND-91649(E) Page 26

TERMINALS

Table 3-2 Combination Pattern of Optional Accessories to the D

term

Series i/ D

term

Combination Pattern APR ADA CTA IPW WMU

1 X X 2 X 3 X X 4 X X 5 X X 6 X X 7 X X X 8 X X X 9 X X

10 X X X

X : Available

ND-91649(E) CHAPTER 3

Page 27

TERMINALS



Wireless System



A mobile work force no longer has to be dependent on special technology.



With personal telephone and Wireless Communication System, employees can travel throughout a multistored building or across a large industrial complex and continue to stay in constant touch with customers and colleagues.



NEAX 2400 IPX has built-in wireless system for providing wireless communication, it can support up to 256 users.



Versatile Communication Tool for a variety of industries



(1) Business Offices

Even when an employee in the company cannot be reached at their desk, the wireless communication service can put them in touch immediately. A call from a customer can be connected directly to the called employee without holding the call or asking the customer to call back. This means improved customer satisfaction. Even when a company has offices in several different buildings, just install the connection unit, then all you have to do is carry the handy phone set to place or receive calls anywhere. Since the wireless communication service does not require reinstallation of equipment or re-registration of extension numbers whenever you change the office layout, it can effectively reduce costs.



(2) Medical Centers (or Hospitals)

By assigning a personal handy phone to each doctor and nurse, they can be reached anywhere in the hospital for faster response to emergencies. Better service can be offered to in-patients as well as patients with walking disabilities by lending them handy phone sets. Speedier communications is an extra touch that will make the patients reassured that they are in good hands.



(3) Plants

The wireless communication service allows bi-directional communications in large working areas such as plants, warehouses, and factories. Instructions and messages from the office or reports from the plant can be conveyed in real-time to help improve productivity. The wireless service also makes it possible to verify the process while moving over a line or to check the inventory in the warehouse with someone in the office over the telephone. Use the optional headset for hands-free communications without work interruptions for better safety and work efficiency.



CHAPTER 3 ND-91649(E) Page 28

TERMINALS



(4) Department Stores and Hotels

On the sales floor, the wireless communication service allows a clerk to check inventory for a customer or promptly call the manager. When holding an even or exhibition, or when changing the sales floor layout, the wireless service requires no cable laying or transfer, so telephone installation and removal are simple. At hotels and resorts, the wireless communication service can be used between the front desk and the rest of the complex and for communications and instructions between staff members of an event in the complex. Assign each security guard a handy phone set, and you can realize more systematic reporting and higher mobility, as well as higher security in the event of an emergency.



System Configuration

Figure 3-13 shows the system configuration of NEAX 2000 IPX wireless communications system.



Figure 3-13 System Configuration of Wireless Communications

 

The wireless communications function conforms to the ARIB standard version 2 RCR STD-28 standarized in Japan as the PHS (Personal Handyphone System) or TIA/EIA-667 PACS WUPE standarized in USA as the unlicensed PCS (Personal Communications System) in accordance with market’s regulations.

The PS (Personal Station), BS/ZT (Base Station/Zone Transceiver), IP-BS (IP Base Station) and the NEAX 2000 IPS provide wireless communications service on the private use.

ND-91649(E) CHAPTER 3

Page 29

TERMINALS



Personal Handyphone System (PHS)

 Personal Station (PS)

The PS (Personal Station) incorporates the 32 Kbps ADPCM encoding technique and privacy function so that you can talk about even important matters in a noise-free, very clear voice.



Since the PS is light-weight and compact in size, it can conveniently carried around.



Here are specifications for the PS and its major functions.



Specification of Personal Station



Table 3-3 PHS Personal Station (PS) Specifications

Item Specifications

Frequency 1.895 ~ 1.918 GHz RF Power 10mW (Average) Voice Coding/Decoding System 32 Kbps ADPCM Basic Specifications Compliance with ARIB Standard RCR STD-28 version 2 Continuous Talk Time Approx. 6 Hours Continuous Standby Time Approx. 500 Hours Waterproof Supported Dimensions

Approx. 40 (W) × 24 (D) × 130 (H) mm (Excluding Antenna) Volume Approx. 105 cc Weight Approx. 115 g



Feature



<< Display/Indication >> << Calling >>

 24-Digits Capacity (for Dialing and Storage)  Incoming Call Indicator  11-Characters

× 2-Lines Large Display + Indicator  DTMF Dialing

 Battery Indicator  Vibrator Alert  Receiving Signal Strength Indicator  Automatic Answer  Own Telephone Number Display  Out of Area Indicator  Softkey Display  2-Line Operation (L1 & L2)

<< Memory >> << General >>

 Directory Dial (100 numbers with name)  Back Lighting  Speed Dial (20 numbers with name)  Low Battery Alarm  Last Number Redial (10 numbers)  Volume Control (ringing tone, earpierce)  Calling Party Number (10 numbers)  Voice Mail Indication (VMI)  Scrolling by Name on Memory Location  Lock Function  Name Display

CHAPTER 3 ND-91649(E) Page 30

TERMINALS



 Cell Station (CS)

Because of its small size, light weight and slenderness, the CS can be installed anywhere...the wall surface, the ceiling or behind the ceiling. In addition, its expansion or relocation can be smoothly performed.



Followings are the specifications for the CS.



Specification of Cell Station



Table 3-4 2-Wired (U-Interface) Cell Station (CS) Specifications

Item Specifications

Radio Interface RCR STD-28 Ver. 2 (RF Power : 10mW Average) PBX Interface 2-Wire (metallic) Maximum Simultaneous Access per CS 3 Personal Stations Volume Approx. 700 cc Size

Approx. 141 (W) × 183 (D) × 36 (H) mm (Excluding Antenna)

Weight Approx. 380 g Power Supply  PBX Power Supply (DC-48V)

 Local Power Supply (AC 100V/200V)

Application In Door Type * This CS can download new soft program from MAT, so it can easily maintenance and operation.



ND-91649(E) CHAPTER 3

Page 31

TERMINALS



 IP Base Station (IP-BS)

PHS Base Station is installed on the IP network and LAN, and Wireless Communication System can be built. Management such as wiring can be reduced by IP-ization.



Specification of IP Base Station



Table 3-5 IP Base Station (IP-BS) Specifications

Item Specifications

Wire Interface 10M/100M RJ45 Connecter 1port Wireless Interface RCR STD-28 3rd edition Number of Simultaneous calls 3CH Operating environment Power consumption

0-40 degree, 7W

Voice codec G.711, G.729a, G.723.1 Dimensions

160 × 159 × 40mm (w/o an antenna)

Power Supply Local power supply:AC-R UNIT

Central power supply: Correspond to electric supply HUB

 SN8051 POESWEA-A(NEC)  Catalyst 3550-24 PWR (Cisco)  Catalyst Inline Power Patch Panel (Cisco)

* This IP-BS can download new soft program from MAT, so it can easily maintenance and operation.



CHAPTER 3 ND-91649(E) Page 32

TERMINALS



               

2-Wired Cell Station (CS)

(U-Interface)

IP-BS

(TCP/IP or Ether)

  



  

Personal Station (PS)



Figure 3-14 Cell Station (CS), IP Base Station (IP-BS) and PHS Personal Station (PS)

ND-91649(E) CHAPTER 3

Page 33

TERMINALS



Personal Communication System (PCS)



 Personal Station (PS)

The PS (Personal Station) incorporates the 32 Kbps ADPCM encoding technique and privacy function so that you can talk about even important matters in a noise-free, very clear voice.

Since the PS is light-weight and compact in size, it can conveniently carried around.

Here are specifications for the PS and its major functions.

Specification of Personal Station



Table 3-6 PCS Personal Station (PS) Specifications

Item Specifications

Frequency 1.920 ~ 1.930 GHz RF Power 6.8 mW (Average) Voice Coding/Decoding System 32 Kbps ADPCM Basic Specifications Compliance with TIA/EIA-667 PACS WUPE Continuous Talk Time Approx. 6 Hours Continuous Standby Time Approx. 500 Hours Waterproof Supported Dimensions

Approx. 40 (W) × 24 (D) × 130 (H) mm (Excluding Antenna) Volume Approx. 105 cc Weight Approx. 115 g



Feature



<< Display/Indication >> << Calling >>

 24-Digits Capacity (for Dialing and Storage)  Incoming Call Indicator  11-Characters

× 2-Lines Large Display + Indicator  DTMF Dialing

 Battery Indicator  Vibrator  Receiving Signal Strength Indicator  Alert  Own Telephone Number Display  Automatic Answer  Out of Area Indicator  Voice mail indication  Softkey Display  2-Line Operation (L1 & L2)

<< Memory >> << General >>

 Directory Dial (100 numbers with name)  Back Lighting  Speed Dial (20 numbers with name)  Low Battery Alarm  Last Number Redial (5 numbers)  Volume Control (ringing tone, earpierce)  Calling Party Number (5 numbers)  Lock Function  Scrolling by Name on Memory Location  Voice Mail Indication (VMI)

 Wireless roaming  Name Display



CHAPTER 3 ND-91649(E) Page 34

TERMINALS



 Zone Transceiver (ZT)

Because of its small size, light weight and slenderness, the ZT can be installed anywhere...the wall surface, the ceiling or behind the ceiling. In addition, its expansion or relocation can be smoothly performed.

Followings are the specifications for the ZT.

Specification of Zone Transceiver (ZT)



Table 3-7 Zone Transceiver (ZT) Specifications

Item

 2 Wire Zone Tranceiver (U-I/F)

Specifications

Radio Interface TIA/EIA-667 PACS WUPE (RF Power : 6.8mW Average) PBX Interface 2-Wire (metallic) Maximum Simultaneous Access per ZT 3 Personal Stations Volume Approx. 560 cc Size

Approx. 160 (W) × 139 (D) × 40 (H)mm (Excluding Antenna) Weight Approx. 400 g Power Supply

 PBX Power Supply (DC-48V)

 Local Power Supply (AC 100V/200V)

Application In Door Type/Outdoor Box (Option)



ND-91649(E) CHAPTER 3

Page 35

TERMINALS

    



               

2-Wired Zone Transceiver (ZT)

   

Personal Station (PS)

(U-Interface)

Figure 3-15 Zone Transceiver (ZT) and PCS Personal Station (PS)

CHAPTER 3 ND-91649(E) Page 36

TERMINALS

term

Softphone (SP30)

This D Windows PC connected to LAN network. You click the button on the picture, the button, lamp and LCD works like an actual telephone. In addition to making and answering calls operation, D incoming and outgoing calls the user has made or received, and a recording of live conversation. D

term

Softphone provides the IP-enabled D

term

SP30 also provides telephone directory integration. Users can dial one of four ways:

term

features without the telephone set, and it works on the

term

SP30 provides call logs for all

 Manual entry  Drag and Drop numbers displayed in the contact book within MS Outlook  Copy and Paste numbers displayed in Excel and/or the contact book within MS Outlook  Using any PC telephony directory which can be linked via the API (DDE) interface of the D

term

SP30 Softphone

Logo button

Call button

Task tray change button

Message waiting lamp

Display 24 × 2 lines (LCD)

Information window

Transfer button

Conference button

Hold button

Function/Line button

Member button 1&2

Volume control button

Figure 3-16 SP30 Screen

Compact mode change button

Function key button

Short message button

ddress book button

Call log button

pplication sharing

button

Video conference button

Call forwarding set button

Configuration button

10-key pad buttonVideo Mute button

ND-91649(E) CHAPTER 3

Page 37

TERMINALS

Subpanels and Functions

Function Key Panel

Displays lines and functions set for PBX and enables changing of button name and pop-up.

Short Message Log Panel

Displays transmission, reception and error logs of simple messages and lets user select a log to telephone or reply to a sender.

Call Forward Settings Panel

For setting or cancelling Call Forwarding-All Calls/Busy Line/ Don’t Answer/ Log Out for PBX.

Call Log Panel

A user can see origination and termination types, times, telephone numbers, conversation times, and speech memos; then save them in CSV-format file. Select a log for origination/termination, speech memo input, or deletion.

Configuration Panel

For setting origination rules, termination actions, voices, video conference actions, simple message actions, the number of logs, user names, automatic log in, and other convenient functions.

Video Conference Panel

Using cameras in conjunction with this panel, you can see video of calling party in the upper panel and yourself in the lower panel.

Application Sharing Panel

For application sharing and white board functions.

10-Key Keypad Panel

Can be used like the dial pad of a telephone

Requirements

Operating Environment

Video Conference Panel

PC IBM/PC-AT compatible machine OS WindowsXP/2000 Memory 256MB or more PCU

Pentium Ⅲ 800MHz or more

HDD 10MB or more in unused memory Audio device USB handset (optional)

NEAX 2400 IPX (FP8700-R14 or later) PBX-compatible NEAX 2000 IPS (FP3300-R8 or later)

IP Relation

LAN interface 10M/100M Ethernet

Voice RTP Transport protocol

Signal UDP/TCP Setting of IP address DHCP setting/Direct setting QoS TOC, IP Precedence, Diffserve Payload cycle 20ms/30ms/40ms Voice encoding G.711 (64k)

CHAPTER 3 ND-91649(E) Page 38

OVERVIEW OF INSTALLATION, PROGRAMMING, AND MAINTENANCE

CHAPTER 4 OVERVIEW OF INSTALLATION, PROGRAMMING, AND

MAINTENANCE

Installation

Items to be Provided at Site

The following items are required for correct operation. a.) Adequate space accommodation b.) Adequate ventilation c.) Commercial AC power

Grounding Requirements

The system grounding must have a specific ground resistance and AC noise level, and is to be connected to a predetermined terminal in the PBX. Standard grounding requirements are as shown below:

 Communication grounding : Less than 10 ohm  Protective ground for PIM : Less than 10 ohm

Note: The AC ripple on these various grounds should be less than 0.5Vp-p.

The following specific requirements apply to ground wiring.

An equipment-grounding conductor that is at least as large as the ungrounded branch-supply conductors is to be installed as part of the circuit that supplies the PBX. Bare, covered, or insulated grounding conductors are acceptable. Individually covered or insulated equipment grounding conductors shall have a continuous outer finish that is either green, or green with one or more yellow stripes. The equipment grounding connector is to be connected to ground at the service equipment.

The attachment-plug receptacles in the vicinity of the PBX are all to be of a grounding type, and the equipment grounding conductors serving these receptacles are to be connected to earth ground at the service equipment.

Grounding circuit continuity is vital for safe operation of telecommunication equipment.

ever operate this equipment with the grounding conductor disconnected.

CAUTION

ND-91649(E) CHAPTER 4

Page 39

OVERVIEW OF INSTALLATION, PROGRAMMING, AND MAINTENANCE

Installation of Main Equipment

The installation of the NEAX 2000 IPS is comprised of up to 8 Port Interface Modules (PIMs). A PIM provides 13 card slot for Common Control, Line/Trunk (LT), and Application Porcessors (AP) cards. It also houses an AC/DC Power Supply, DC/DC Power Supply (for -48V), and batteries for protection from short-term (about 30 minutes) power interruption.

Cabling inside the unit, between the switching equipment and the MDF, can all be done by plug-and-jack connections, while printed circuit cards can easily be plugged into the edge connectors. On all installations, a special provision for plug-and-jack connections completely eliminates possible errors in wiring. This allows the installation to be done easily and smoothly.

Mounting Circuit Cards

(1) Before mounting the circuit cards, confirm the following items.

 Wrist Strap is connected to Frame Ground.  Switch settings of circuit cards are already completed.  The “SW1” switches of all PZ-PW121/PZ-PW126 cards are turned off.

(2) Mount circuit cards into their mounting positions according to the “Bay Face Layout” and “Port Assignment

Table” given in the Office Data Programming Manual.

Various installation Methods

To meet the specific needs of the customer's environment, NEAX 2000 IPS provides the following installation methods:

Floor Standing Installation Wall-mounting Installation IEC standard 19-inch Rack-mounting Installation

Programming

System Initialization

There are two methods for System Initialization. The first method is to clear All Data, except LEN000 as a CAT terminal, then program the System Data. The second method is to use the Resident System Program, which causes the system to configure itself automatically to the default settings, wherever the line/trunk cards are installed.

CHAPTER 4 ND-91649(E) Page 40

OVERVIEW OF INSTALLATION, PROGRAMMING, AND MAINTENANCE

System Data Entry

There are two methods for data entry, using a Customer Administration Terminal (CAT) or a Maintenance Administration Terminal (MAT).

CAT

Any D

term

can be assigned as a CAT through programming. The D

term

can still be used as a regular telephone

when it is not in CAT mode.

MAT

The Maintenance Administration Terminal (MAT) is a personal computer that connects to the PBX using MATWorX software. MATWorX is a Windows-based software application that lets you program and configure any NEAX PBX from your computer. It is a framework or platform wherein PBX maintenance software (add-ins) resides. Its graphical user interface (GUI) makes it easier for you to manage and configure your PBX's features.

Maintenance

Trouble Reporting and Diagnosis

The urgency of a fault is indicated by the MJ/MN lamp provided on the Power Card and optional external alarm indicator.

System Administration

System data, which varies from installation to installation and which is subject to continual change during service, is readily entered or changed from the D The system data can be downloaded to, or uploaded from, a floppy disk in the MAT computer.

Remote Maintenance

Access to the NEAX 2000 IPS, for the purpose of system diagnosis, status reporting, and database reconfiguration, can be performed from remote locations (e.g., Maintenance Centers, Technical Assistance Service Centers, etc.). By taking advantage of the built-in modem on the NEAX 2000 IPS CPU, the following maintenance administration functions can be accomplished by a remotely located MAT via a modem over a central office network or a tie line network.

• System Data Correction/Upload/Download

term

or MAT (Maintenance Administration Terminal).

• MP/FP Software Upgrade

• Control of Battery Disconnection

• Display of Line/Trunk Connections

term

• Detection of open or short circuit in the line cables for both analog and D

telephones

• Fault Message Display

ND-91649(E) CHAPTER 4

Page 41

SPECIFICATIONS

CHAPTER 5 SPECIFICATIONS

System Capacity

The following table shows the system capacity.

Table 5-1 System Capacity (Single MP System)

Item

(No. of Ports) LT Card (No. of Cards)

(No. of Ports) AP Card (No. of Cards)

SP30

term

) 64 128 192 256 320 384 448 512

Total Number of Lines (Analog Single Line Tel. + D

IP PAD Note 3 (No. of Channel)

Analog Single Line Telephone (Lines)

term

(Peer-to-Peer Connection)

term

Cell Station (CS) / Zone Transceiver (ZT) Note 6

IP-BS (PHS) Note6

ISDN Station

Central Office Trunk (Lines)

Tie Line Trunk (Lines)

CCIS Trunk (Peer-to-Peer Connection) Max. 127

DTI/CCIS Digital Link Note 1

ISDN

IP Trunk Note 7 1 2 3 4 5 6 7 8

PFT Connections 8PFT 8 16 24 32 40 48 56 64

3-Party Conference Max. 16 conference groups per system

6-/10-Party Conference

32-Party Conference Max. 8 conference groups per system

M13 (Splitter Card for HomePNA / VDSL DPC) PIM 0: Max. 11, PIM 1-7: Max. 12 cards per PIM

In-skin Router Max. 8 cards per PIM

DTMF Sender Max. 32 circuits per system

DTMF Receiver 16 32

SN716 Desk Console 8

term

IP/ D

PS (Asia) / D

IP INASET/ D

term

PSⅡⅢ (LA) Note 5 256

Standard 64 128 192 256 320 384 448 512

Long Note 4 44 92 140 188 236 284 332 380

Standard 64 128 192 256 320 384 448 512

Long 22 46 70 94 118 142 166 190

SP20/ D

term

Loop Start

DID w/4DIT 48 96 144 192 240 256 256 256

4LDT 48 96 144 192 240 256 256 256

2W E&M 24 48 72 96 120 144 168 192

4W E&M 24 48 72 96 140 144 168 192

1.5M-AMI DTI : 10, CCIS : 8

2M-AMI Max. 8 Links per system

1.5M/2M-AMI (PRT) 8

2BRT (card) 12 24

4BRT (card) 6 12 18 24 24 24 24 24

6-Party Max. 4 conference groups per system

10-Party Max. 2 conference groups per system

1PIM 2PIM 3PIM 4PIM 5PIM 6PIM 7PIM 8PIM

64 128 192 256 320 384 448 512

12 24 36 48 60 72 84 96

12 24

64 128 192 256

448 384 320 256 192 128 64 0

16 32 48 64 80 96 112 128

64 128 192 256 256 256 256 256

System Capacity Note 1, 2

Max. 256 ports per system

112 Note 7

CHAPTER 5 ND-91649(E) Page 42

SPECIFICATIONS

Table 5-1 System Capacity (Single MP System) (Cont’d)

Item

Attendant Terminal (D

SMDR Interface Max. 1 interface port per system

PMS Interface Max. 1 interface port per system

ACD / MIS or OAI Interface Note 8

Remote PIM over IP (Number of PIM at Remote Site) 20 (depending on network configurations)

DID Dial Conversion 1000

Call Forwarding-Outside Set 496

Authorization. Code / Forced Account Code / Remote Access to System (DISA) Code

Message Remainder Set 1024

Name Display / Guest Name Display 512

Speed Calling-Station (Station Speed Dial) Set 10000

MP built-in SMDR Call Record 1280

term

ATT Position) Max. 8 sets per system

1PIM 2PIM 3PIM 4PIM 5PIM 6PIM 7PIM 8PIM

System Capacity

Max. 1 interface port per system

3000

Note 1: The total number of trunk line and DTI channel shall be 256 or less.

(Each trunk line and DTI channel are required to assign the “Trunk Number” by system data programming and maximum number of system parameter for “Trunk Number” is 256.)

Note 2: “PIM” in this table means “Physical PIM.”

Note 3: Maximum number of voice channels per IP PAD card depends on the payload size as follows.

32IPLA+16VCTA

Payload Size

Maximum Voice Channels per IP PAD (32IPLA+16VCTA)

G.711 G.729a G.723.1 10ms 12 12 20ms 20 20 30ms 30 30 24 40ms 32 32 -

8IPLA+24IPLA

Payload Size

Maximum Voice Channels per IP PAD (8IPLA+24IPLA)

G.711 G.729a G.723.1 10ms 20 20 20ms 32 32 30ms 32 32 24 40ms 32 32 -

ND-91649(E) CHAPTER 5

Page 43

SPECIFICATIONS

Table 5-1 System Capacity (Single MP System) (Cont’d)

Note 4: Message Waiting Lamp is not available when the 4LLC is mounted in slot 08 to 10.

Note 5: From FP 3300, maximum 256 PS can be accommodated to the system in addition to the maximum 512

LT ports.

Ex: 400 Dterms

150 PSs

Note 6: Total number of CS and IP-BS should be 128 or less.

Note 7: Maximum voice channels per IP trunk card depends on the payload size as follows (payload size can be

assigned by system data programming):

100 CO Lines=500 LT Ports

Total 650 Ports available

 CCIS (p-p/p-mp) and Peer-to-Peer

Payload Size G.729a G.711 G.723.1

10 ms 4 Channel 4 Channel ------

20 ms 8 Channel 8 Channel ------

30 ms 16 Channel 16 Channel 16 Channel

40 ms 16 Channel 16 Channel ------

 VoIP (H.323)

Payload Size G.729a G.711 G.723.1

20 ms 6 Channel 5 Channel ---

30 ms 8 Channel 7 Channel 8 Channel

40 ms 12 Channel 10 Channel ---

Note 8: It is possible to connect 4 applications at the same time.

CHAPTER 5 ND-91649(E) Page 44

IP Specifications

Table 5-2 IP Specifications

ITEM SPECIFICATIONS REMARKS

Voice Encoding G.729a

G.723.1 (5.3 k/6.3 k) G.711

IP PAD 8/32 channels per card

Automatically seized per call

FAX Communication

FAX Relay Method (T.30) G3 FAX (up to 14.4 Kbps)

Feature

FAX Relay Method (Path-through (G.711/G.726))

DTMF Signal H.245 H.323 IPT/IP PAD/D Inter-office/Intra-office

H.245 D

Signaling

PROTIMS over IP D CCIS over IP Point-to-Multipoint connection H.323 H.323 IPT/4VCT card and IP PAD

Jitter Control Dynamic Jitter Buffer Quality of Service (QoS)

 TOS, IP Precedence  DiffServ

LAN Interface 10BASE-T/100BASE-TX

Echo Canceller

G.168 (64 ms) (IP PAD) Payload Size

term

IP/ CCIS Virtual IPT

10 ms. -40 ms. (G.723.1: 30 ms. fixed)

Note

(32IPLA + 16VCT)

term

IP/ CCIS Virtual

10 ms. -40 ms. (G.723.1: 30 ms. fixed)

IPT (8IPLA + 24IPLA) H.323 IPT

20 ms.-40 ms. (10 ms. increments) (G.723.1: 30 ms. fixed)

8 kbps CS-ACELP MP-MLQ/ACELP 64 Kbps PCM

Super G3 Reciprocal: Not allowed FAX communication with H.323: Not available PN-32IPLA/PN-32IPLA-A (IP PAD) card (PN-8IPLA (IP PAD) card is not available.) PN-8IPLA (IP PAD) card (PN-32IPLA/PN-32IPLA-A (IP PAD) card is not available.)

term

IP-to-D

term

IP-to-IP PAD connection

term

IP-to-2000 IPS connection

card are required

Auto Negotiation is available. 100BASE-TX is recommended.

Max. voice channels per card

10 ms: 12 ch 12 ch 20 ms: 20 ch 20 ch 30 ms: 30 ch 30 ch 24 ch 40 ms: 32 ch 32 ch -

Max. voice channels per card

10 ms: 20 ch 20 ch 20 ms: 32 ch 32 ch 30 ms: 32 ch 32 ch 24 ch 40 ms: 32 ch 32 ch -

Max. voice channels per card

20 ms: 6 ch 5 ch 30 ms: 8 ch 7 ch 8 ch 40 ms: 12 ch 10 ch -

SPECIFICATIONS

term

IP connection

G.729a

G.711 G.723.1

ND-91649(E) CHAPTER 5

Page 45

SPECIFICATIONS

Table 5-2 IP Specifications (Cont’d)

ITEM SPECIFICATIONS REMARKS

PAD Control

0 dB to +16 dB (+2 dB increments) 0 dB to –16 dB (–2 dB increments) When using PN-8IPLA (IP PAD):

Setting is available per Location No. For connection between D

term

IPs 0 dB to +14dB (+2 dB increments) 0 dB to –14 dB (–2 dB increments) 0 dB to –16 dB (For North America)

For connection via the IPT card

0 dB to –12 dB (For other than North

America)

Note: When no 16VCT card is mounted, the CODEC type is fixed to G.711 and the payload size is fixed to

40 ms.

CHAPTER 5 ND-91649(E) Page 46

Line Conditions

Loop Resistance Note 1

SPECIFICATIONS

Table 5-3 Line Conditions

Standard 600 ohms Analog Telephone Set

Option 2,500 ohms (DP: 10pps), 1,700 ohms (DP: 20pps),

1,200 ohms (DTMF)

Exchange Line 1,700 ohms Loop Start Trunk

Tie or DID Line 2,500 ohms

Cable Length Note 2

Dterm Series i

Operation Position

term

2/8/8D/16D

term

32D

term

16LD

DSS/BLF Console

Note 4

Attendant Terminal Same as D

SN716 Desk Console

8DLC 300m (984ft)

4DLC 300m (984ft) 1200m (3937ft)

2DLC 850m (2789ft) 1200m (3937ft)

8DLC 200m (656ft)

4DLC 200m (656ft) 1200m (3937ft)

2DLC 850m (2789ft) 1200m (3937ft)

8DLC - 300m (984ft)

4DLC - 1200m (3937ft)

2DLC - 1200m (3937ft)

8DLC and PN-PW00 or AC Adapter 300m (984ft)

4DLC and PN-PW00 350m (1148ft)

4DLC and AC Adapter 1200m (3937ft)

2DLC 350m (1148ft)

Standard with AC Adapter

Note 3

term

Series i

Note 1: Loop resistance includes an internal resistance of telephone set or distant exchange.

Note 2: Cable length is based on the following conditions.

 Diameter of the cable is 0.5 mm.  The Protection arrester is not inserted between the terminal and PBX.

Note 3: When using 8DLC card, it is not available for long line function, even if it is equipped with AC

Adapter.

Note 4: The DSS/BLF Console requires local AC/DC supply.

ND-91649(E) CHAPTER 5

Page 47

SPECIFICATIONS

Cell Station/Zone Transceiver Line Conditions

Table 5-4 Cell Station/Zone Transceiver Line Conditions

 DESRIPTION  SPECIFICATIONS

Cell Station

BS21A (for S-Interface) Max. 900 meters @-43V BS21A with AC Adapter Max. 960 meters @-43V BS31 (for U-Interface) Max. 800 meters (2-wire), Max. 1,600 meters (4-wire) @-43V

Note

BS31 with AC Adapter Max. 5,000 meters

Zone Transceiver (for Latin America)

ZTII-S (for S-Interface) Max. 1,219 meters @-48V, Max. 975 meters @-45V ZTII-S with AC Adapter Max. 1,341 meters @-48V ZTII-U (for U-Interface) Max. 1,219 meters (2-wire), Max. 2,103 meters (4-wire) @-48V

Note Max. 975 meters (2-wire), Max. 1,706 meters (4-wire) @-45V

ZTII-U with AC Adapter Max. 3,958 meters

Note: Cable length is based on cable with 0.5 mm diameter and without lightning arresters.

CHAPTER 5 ND-91649(E) Page 48

Traffic Capacity

Table 5-5 Traffic Capacity

Number of PIMs

Traffic Capacity

Note: The traffic load of each FP shall be 2500 BHCA or less.

1PIM 2PIM

Max. 2500 BHCA

3PIM 4PIM 5PIM 6PIM 7PIM 8PIM

Max. 5000

BHCA

Note

Max. 7500 BHCA

DRS (Device Registration Server)

Note

SPECIFICATIONS

Max. 8000 BHCA

Note

Table 5-6 DRS (Device Registration Server)-System Based

Features of Built-in DRS Description Remarks

Max Registration Terminal 512/MP

Log-in

Log-out

DHCP Inter-working with DHCP server Available

Authentication by DRS-Network Based Not Available

Authentication by DRS-System Based Available

Authentication by MAC Address Available

Confirmation when overriding Available

Dialing Log-out feature access code Available

Function key Available

Soft key Available

ND-91649(E) CHAPTER 5

Page 49

NEC NEAX2000, ND-91649 User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

TABLE OF CONTENTS

LIST OF ILLUSTRATIONS

LIST OF TABLES

CHAPTER 1 INTRODUCTION

System Overview

Hardware Architecture

Software Architecture

CHAPTER 2 SYSTEM CONFIGURATION

Module Configuration

Installation Methods

Modules and Installation Hardware

Circuit Cards

System Conditions

CHAPTER 3 TERMINALS

Desk Console

Wireless System

Installation

Programming

Maintenance

CHAPTER 5 SPECIFICATIONS

System Capacity

IP Specifications

Line Conditions

Cell Station/Zone Transceiver Line Conditions

Traffic Capacity

DRS (Device Registration Server)