NEAX2400 IPX IPTRK Circuit Card System Manualpdf.textfiles.com/manuals/TELECOM-F-R/NEC IPX IPTRK...Multimedia Communication transmitting at 5.3 and 6.3 kbits/s • IPTRK: PA-8IPTB:

NOVEMBER, 2000

NEC America, Inc.

NDA-24318ISSUE 1

STOCK # 200818

IPTRK Circuit Card System Manual

®

LIABILITY DISCLAIMER

NEC America, Inc. reserves the right to change the specifications, functions, orfeatures, at any time, without notice.

NEC America, Inc. has prepared this document for use by its employees andcustomers. The information contained herein is the property of NEC America,Inc. and shall not be reproduced without prior written approval from NECAmerica, Inc.

NEAX® and Dterm® are registered trademarks of NEC Corporation.

Cisco® is a registered trademark of Cisco Systems, Inc. Documentationreferences to Cisco products refer to networking with Cisco hardware.

Copyright 2000NEC America, Inc.Printed in the U.S.A.

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DATE NOVEMBER, 2000 DATE DATE DATE

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NEAX2400 IPXIPTRK Circuit Card System Manual Revision Sheet 1/1

NDA-24318

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NDA-24318ISSUE 1

NOVEMBER, 2000

NEAX2400 IPXIPTRK Circuit Card System Manual

TABLE OF CONTENTS

Page

NDA-24318 TABLE OF CONTENTSPage i

Issue 1

CHAPTER 1 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11. GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12. SERVICE FEATURES TO BE PROVIDED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23. HOW TO FOLLOW THIS MANUAL AND RELATED REFERENCE MANUALS . . . . . . . . . . . . . . . . . . 6

3.1 How to Follow This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63.2 Related Reference Manuals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

CHAPTER 2 CIRCUIT CARD EXPLANATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71. GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72. PA-8IPTB (IPTRK Circuit Card) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.1 General Function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72.2 Mounting Location/Condition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82.3 Face Layout of Lamps, Switches and Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102.4 Lamp Indications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102.5 Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112.6 External Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152.7 Switch Setting Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

3. PZ-8VCTB (Sub Board) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183.1 General Function/Mounting Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183.2 Lamp Indications and Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

CHAPTER 3 OFFICE DATA PROGRAMMING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 191. GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192. CCIS NETWORKING VIA IP [C-163] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

2.1 Required Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 202.2 Required Hardware (Point-to-Multipoint Connection) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 212.3 Service Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 222.4 Data Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

3. FCCS NETWORKING VIA IP [F-36] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 293.1 Required Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303.2 Required Hardware (Point-to-Multipoint Connection) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 313.3 Service Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 323.4 Data Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34

CHAPTER 4 OPERATION TESTS AFTER INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 471. GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 472. CCIS NETWORKING VIA IP [C-163]/VOICE OVER IP (H.323) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 473. FCCS NETWORKING VIA IP [F-36] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49

LIST OF FIGURES NDA-24318Page iiIssue 1

LIST OF FIGURES

Page

Figure 1-1 Example Network Configuration via Intranet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1Figure 1-2 Outer View of IPTRK Circuit Card Furnished with a Sub Board (PZ-8VCTB) . . . . . . . . . . . . . . 1Figure 1-3 Block Diagram - CCIS Networking via IP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Figure 1-4 Block Diagram - CCIS Networking via IP [Point-to-Multipoint Connection] . . . . . . . . . . . . . . . . 4Figure 1-5 Block Diagram - FCCS Networking via IP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Figure 2-1 Location of PA-8IPTB (IPTRK Circuit Card) within the System . . . . . . . . . . . . . . . . . . . . . . . . 7Figure 2-2 PA-8IPTB Circuit Card Mounting Locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Figure 2-3 Port Assignment for PA-8IPTB Circuit Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Figure 2-4 Face Layout of PA-8IPTB IPTRK Circuit Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Figure 2-5 Ethernet Cable Connection for CCIS Networking via IP [C-163] . . . . . . . . . . . . . . . . . . . . . . . 15Figure 2-6 Ethernet Cable Connection for FCCS Networking via IP [F-36]

[IPTRK: Point-to-Multipoint] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Figure 2-7 Attachment of Sub Board (PZ-8VCTB) onto IPTRK Circuit Card . . . . . . . . . . . . . . . . . . . . . . . 17Figure 2-8 Outer View of PZ-8VCTB on the Main Board of PA-8IPTB . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18Figure 3-1 Overview of CCIS Networking via IP [C-163] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Figure 3-2 Example of Required Hardware for CCIS Networking via IP [C-163] . . . . . . . . . . . . . . . . . . . . 20Figure 3-3 Port Assignment of Bch for CCIS Tie Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25Figure 3-4 Example Data Assignment (ACSC/ACIC2) CCIS - CCIS Networking via IP [C-163] . . . . . . . . 26Figure 3-5 Example Assignment of IP Addresses of IPTRK Circuit Card and Connected Router . . . . . . . 28Figure 3-6 Overview of FCCS Networking via IP [F-36] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Figure 3-7 Example Required Hardware for FCCS Networking via IP [F-36] . . . . . . . . . . . . . . . . . . . . . . . 30Figure 3-8 Example Required Hardware for FCCS Networking via IP [F-36]

[IPTRK: Point-to-Multipoint] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Figure 3-9 Example Data Assignment (ACRD) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Figure 3-10 Example Data Assignment (ACTK) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Figure 3-11 Example Assignment of FCHN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37Figure 3-12 Example Assignment of Destination IP and Next IP (AETH) . . . . . . . . . . . . . . . . . . . . . . . . . . 38Figure 3-13 Example Data Assignment (ACAN/AFRT) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39Figure 3-14 Example Assignment of IP Addresses of IPTRK Circuit Card and Connected Router . . . . . . . 41Figure 3-15 FCCS Networking via IP [F-36] [Point-to-Multipoint Connection] Example Data Sheet 1 . . . . . 42Figure 3-16 FCCS Networking via IP [F-36] Example Data Sheet 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Figure 3-17 FCCS Networking via IP [F-36] and FCH FCCS Networking

(both ASPC and AETH commands) Example Data Sheet 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Figure 3-18 FCCS Networking via IP [F-36] - FCCS Network via IP Tandem Connection

(AFPC Dummy Data) Example Data Sheet 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Figure 3-19 FCCS Networking via IP [F-36] and FCH FCCS Networking

(AFPC or AETH commands) Example Data Sheet 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46Figure 4-1 Lamps to be Tested (CCIS Networking via IP [C-163]) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47Figure 4-2 Lamps to be Tested (FCCS Networking via IP [F-36] [Point-to-Multipoint Connection]) . . . . . . 49

NDA-24318 LIST OF TABLESPage iiiIssue 1

LIST OF TABLES

Page

Table 1-1 Specification of IP Trunk . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1Table 2-1 Lamp Indication Meanings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Table 2-2 Switch Setting Meanings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Table 2-3 PAD Values of µ-law Pattern 1 / Pattern 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Table 2-4 Switch Setting Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18Table 3-1 Internode Service Features (CCIS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Table 3-2 Alternate Routing to be Provided/Not Provided (FCCS Networking via IP [F-36]). . . . . . . . . . . 34Table 3-3 PBX Software/IPTRK Circuit Card Firmware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34

LIST OF TABLES NDA-24318Page ivIssue 1

This page is for your notes.

NDA-24318 CHAPTER 1Page 1Issue 1

INTRODUCTION

CHAPTER 1 INTRODUCTION

1. GENERAL

This manual explains the installation of the following IPTRK circuit cards, which are used to send/receive voiceor FAX (G3) information via the Intranet. Although PA-8IPTB is equipped with a total of eight ports, anoptional sub board (PZ-8VCTB) provides an additional eight ports, when mounted on a PA-8IPTB main board.

• PA-8IPTB (with eight ports)

• PZ-8VCTB (optional daughter board provides an additional eight ports to PA-8IPTB)

Figure 1-1 Example Network Configuration via Intranet

Note: A single sub board can be mounted on PA-8IPTB, two slots are physically occupied.

Figure 1-2 Outer View of IPTRK Circuit Card Furnished with a Sub Board (PZ-8VCTB)

Table 1-1 Specification of IP Trunk

FUNCTION SPECIFICATION REMARKS

Voice Encoding/Decoding

G.729a 8 kbps CS-ACELP

G.711 PCM of Voice Frequencies

G.723.1Dual rate Speech Coder for Multimedia Communication transmitting at 5.3 and 6.3 kbits/s

• IPTRK: PA-8IPTB:Line/Trunk circuit card featuring Voice over IP Maximum of 16ch (equipped with 8ch CODEC) Equipped with FCCS/CCIS handler Mounting capacity: 2 per UNIT (4 per PIM)

• Sub Board: PZ-8VCTB 8ch CODEC daughter board for PA-8IPTB expansion (optional) Note

IPTRK

IPTRK

IP Packet

IP PacketIntranet NEAX2400 IPX

NEAX2400 IPX

TCP/IP TCP/IP

LAN

LAN

10 BASE-T/100 BASE-TX

IPTRK (PA-8IPTB)

PZ-8VCTB(Sub Board - Optional)

POWER

RouterPOWER

Router

Sub Board (eight port option)

IPTRK (Eight Ports)FCON (For Ether cable)

IPCON (For Ether cable)

CHAPTER 1 NDA-24318Page 2Issue 1

INTRODUCTION

Note 1: Transmission speed is within 14.4 kbps.

Note 2: On a conference call via IPTRK, Echo Canceller cannot be activated when using certain kinds of telephonesets (generally analog telephones).

2. SERVICE FEATURES TO BE PROVIDED

When using an IPTRK circuit card, the following services are available:

• CCIS Networking via IP [C-163]

• FCCS Networking via IP [F-36]

FAX FAX Relay (T.30)

G3 FAX (V.17, V.21, V.27ter, V.29, V.33) is availableSuper G3 (V.34, etc.) is not available Note 1

INTER-OFFICE SIGNAL LINK

MP: Point-to-Multipoint

NEAX2400 IPX → NEAX2400 IPX

FCCS MP

CCIS MP

NEAX2400 IPX → NEAX2000 IVS2

CCIS MP

Jitter Dynamic Jitter Buffer Buffer Value (40 ~ 300 ms)

LAN Interface 10 BASE-T (100 BASE-TX)

QoS (Quality of Service) WFQ by ToS Use Cisco® router

Echo Canceller G.168 Round Trip Delay = 32 ms Note 2

Table 1-1 Specification of IP Trunk (Continued)

FUNCTION SPECIFICATION REMARKS


INTRODUCTION

Figure 1-3 represents a block diagram example of CCIS Networking via IP [C-163]. For more detailedinformation, see CHAPTER 3.

Figure 1-3 Block Diagram - CCIS Networking via IP

Note: As shown, the IPTRK circuit cards in the self-node and its connected node must be 1-to-1 ratio.

Intranet POWER

RouterPOWER

Router

Symbols:IPTRK: IP Trunk

: Ethernet cable

IPTRK

IPTRK

IPTRK

IPTRK

IPTRKBoth Speech and Signal

Node A Node B

Both Speech and Signal

Node C


CPU

CPU CPU

POWER

Router

IPTRK


INTRODUCTION

Figure 1-4 represents a block diagram example of CCIS Networking via IP [C-163] when an IPTRK circuit cardin Node A is connected to the IPTRKs of Node B and C (Point-to-Multipoint connection). For more detailedinformation, see CHAPTER 3.

Figure 1-4 Block Diagram - CCIS Networking via IP [Point-to-Multipoint Connection]

Note: As shown, an IPTRK circuit card, accommodated in a node, can be connected to the IPTRK circuit cardsof multiple nodes, thus achieving Point-to-Multipoint connection.

POWER

RouterPOWER

Router

IPTRK

IPTRKIPTRK

To IP

TR

K of N

ode C

Node A Node B

Both Speech and Signal Both Speech and Signal

CPU CPU


CPU


:Ethernet Cable (Both Speech and Signal)

Node C

To IPTRK of Node B

Point-to-Multipoint Connection

Intranet

POWER

Router


INTRODUCTION

Figure 1-5 represents a block diagram example of FCCS Networking via IP [F-36]. For more detailedinformation, see CHAPTER 3.

Figure 1-5 Block Diagram - FCCS Networking via IP

Note: As shown, the IPTRK circuit cards in the self-node and its connected node must be 1-to-1 ratio.

POWER

RouterPOWER

Router

IPTRKIPCONFCON

IPTRKIPCONFCON

Both Speech and SignalBoth Speech and Signal

IPTRKIPCONFCON

IPTRKIPCONFCON

Node A Node B

IPTRKIPCONFCON

IPTRKIPCONFCON


FCCS Signal

CPU LANI

HUB

FCCS Signal

Node C

CPULANI

HUB

FCCS Signal

CPULANI

HUB

Symbols:IPTRK: IP TrunkLANI: LAN Interface (PZ-PC19)

:10 BASE-T Cable (Both Speech and Signal)

: 10 BASE-T Cable (for FCCS signal)

Intranet

POWER

Router


INTRODUCTION

3. HOW TO FOLLOW THIS MANUAL AND RELATED REFERENCE MANUALS

This manual describes only items related to the IPTRK circuit cards. Therefore, if you need details on theNEAX2400 IPX, the FCCS network, or the CCIS network, please refer to the related manual. Configuration ofthis manual and related reference manuals are shown below.

3.1 How to Follow This Manual

• CHAPTER 1 INTRODUCTION

This chapter explains the purpose of this manual.

• CHAPTER 2 CIRCUIT CARD EXPLANATIONS

This chapter explains the functional outline, mounting location, switch and lamp meanings, andexternal interfaces of the IPTRK circuit card.

• CHAPTER 3 OFFICE DATA PROGRAMMING

This chapter explains details on general descriptions, service conditions, and data programming of theIPTRK-related service features.

• CHAPTER 4 OPERATION TESTS AFTER INSTALLATION

This chapter explains the procedure to verify normal operation of the IPTRK circuit card wheninstallation and necessary data settings have been completed.

3.2 Related Reference Manuals

For more detailed information on the NEAX2400 IPX, the FCCS network, or the CCIS network, refer tothe following manuals:

For details on NEAX2400 IPX:

• NEAX2400 IPX Installation Manual

• NEAX2400 IPX Circuit Card Manual

• NEAX2400 IPX Office Data Specification

• NEAX2400 IPX Feature Programming Manual

• NEAX2400 IPX System Operations and Maintenance Manual

For details on the FCCS network:

• NEAX2400 IPX Fusion System Manual

For details on the CCIS network:

• NEAX2400 IPX No. 7 CCIS System Manual


CIRCUIT CARD EXPLANATIONS

CHAPTER 2 CIRCUIT CARD EXPLANATIONS

1. GENERAL

This chapter provides detailed explanations for the following circuit cards:

• PA-8IPTB

• PZ-8VCTB

2. PA-8IPTB (IPTRK Circuit Card)

2.1 General Function

PA-8IPTB is a Line/Trunk circuit card that is used for providing CCIS/FCCS service via the Intranet, andto send/receive voice or FAX (G3) information over IP. PA-8IPTB is equipped with a total of eight ports,however, an optional sub board (PZ-8VCTB) provides an additional eight ports, when mounted on a PA-8IPTB main board. For more detailed information, see Section 2.6 External Interfaces. This card providesthe following functions:

a.) Voice Data Processing:

• Voice data compression/decompression

• FAX data encoding/multiplexing

• DTMF (analog signal) detection/transmission

• Echo Canceller

b.) IP Network Interface (10/100 Mbps Ethernet interface to send/receive voice/signal information)c.) FCCS Link Interfaced.) LP-PM Bus Interface (for PM bus dedicated to NEAX2400 IPX series)

Figure 2-1 Location of PA-8IPTB (IPTRK Circuit Card) within the System

Note 1: When using an IPTRK circuit card for CCIS Networking via IP [C-163], the IPTRK cards in the self nodeand its connected node must be in 1-to-1 ratio.

Note 2: Used for FCCS only.

Caution:While this circuit card is in use, some LSIs may get hot. Handle this card with care. Do not touch the heatedLSI surfaces.

Ethernet Cable

Intranet

CCIS/FCCS Speech

CCIS/FCCS Signal

MUX

Ethernet C

able

Symbols:IPTRK: IP TrunkMUX: MultiplexerTSW: Time Division SwitchISAGT: ISA GateLANI: LAN Interface

: Speech

: Signal

IPTRK

IPCON

FCON

HUB

Note 1

LANI

CPU

TSW

ISAGT

FCCS Signal

Note 2

POWER

Router



2.2 Mounting Location/Condition

Mounting location/condition of this card is shown below. Mount this card in the following shaded slots:

Figure 2-2 PA-8IPTB Circuit Card Mounting Locations

Mounting conditions of this card are as follows:

• When this card is used without a sub board (PZ-8VCTB), and mounted in any of the universal slots 05,07, 09, 16, 18 or 20:

Although this card physically occupies only one slot, actual ports to be used are those in the even-numbered group of only the left side of the slot (see Figure 2-3).

• When this card is used without a sub board (PZ-8VCTB), and mounted in any of the universal slots 10,11, 12, 21, 22 or 23:

This card occupies only one slot. In regard to the port accommodation, see Figure 2-3.

• When this card is used with a sub board (PZ-8VCTB):

This card physically occupies a total of two slots. In regard to the port accommodation, see Figure 2-3.

• One UNIT accommodates a maximum of two IPTRK circuit cards (slots 04~12 / slots 15~23).Therefore, the third IPTRK circuit card must be accommodated in a different UNIT of the same/otherPIM.

00 01 02 03 04 05 06 07 08 09 10 11 13 14 15 16 17 18 19 20 21 22 2312

PIM

Universal Slots Universal Slots



Figure 2-3 Port Assignment for PA-8IPTB Circuit Card

PW

R

PW

R

Ex. Slot 05 Ex. Slot 21

00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23

0810

12

13

14

16

17

18

00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23

PZ-8VCTB

0100

0302

0504

0706

0908

1110 12

1314

1516

1718

1920

2122

23

0100

0302

0504

0706

0908

1110

1213

1415

1617

1819

2021

2223

0100

0302

0504

0706

0908

1110

1213

1415

1617

1819

2122

23

0100

0302

0504

0706

0908

1110

1213

1415

1617

1819

2021

2223

Examples of PA-8IPTB port accommodation:• Not equipped with Sub Board (PZ-8VCTB)• Equipped with one Sub Board (PZ-8VCTB)

• PA-8IPTB not equipped with Sub Board (PZ-8VCTB)

8 Ports

16 Ports

• PA-8IPTB is equipped with one Sub Board (PZ-8VCTB)

PA-8IPTB in a 16 port slot PA-8IPTB in a 32 port slot

PIM



2.3 Face Layout of Lamps, Switches and Connectors

The face layout of lamps, switches and connectors on this circuit card are shown below. For more detailedinformation, see Section 2.6 External Interfaces.

Figure 2-4 Face Layout of PA-8IPTB IPTRK Circuit Card

Note: When mounting the optional sub board (PZ-8VCTB), be sure to use SUB3A and SUB3B connectors.

2.4 Lamp Indications

Lamp indication meanings are shown below:

Table 2-1 Lamp Indication Meanings

LAMP NAME COLOR MEANING OF INDICATION

OPE Green Lights when circuit card is operating normally.

BUSY Green Lights when one or more lines are busy.

SUBOPE3 Green Lights when Sub CPU #3 is in operation.



SUBOPE0 Green Lights when CPU of IPTRK circuit card’s main board is in operation.

L3 Green Not used.

L2 Green Not used.

L1 Green Lights when CCIS/FCCS link is established.

IP-LRR Green Lights when this card is used with IP network.

12

34

56

78

SUBOPE3SUBOPE2SUBOPE1SUBOPE0

BUSY

L3L2L1

IP-TXRX

IP-100M

F-TXRX

F-100M

IP-LRRIP-LINKIP-COL

F-LRRF-LINKF-COL

SW

10

12

34

56

78

SW

40

12

34

56

78

SW

20

12

34

56

78

SW

50

12

34

56

78

SW

30

12

34

56

78

SW

60

OPE

MODE

IPCON

FCON

MB

MBR

SU

B3A

SU

B3B



2.5 Switch Settings

The meaning of each switch on this card is shown below:

IP-LINK Green Lights when establishing a connection (physically) with the IP network.

IP-TXRX Green Lights when sending/receiving data packets.

IP-100M Green Lights when 100 Mbps interface is in use.

IP-COL Yellow Lights when data packet collision is detected.

F-LRR Green Lights when this card is used with FCCS network.

F-LINK Green Lights when establishing a connection (physically) with the FCCS network.

F-TXRX Green Lights when sending/receiving data packets.

F-100M Green Lights when 100 Mbps interface is in use.

F-COL Yellow Lights when data packet collision is detected.

Table 2-2 Switch Setting Meanings

SWITCH NAME

SWITCH NUMBER

SETTINGSTANDARD

SETTINGMEANING

MB- ON (UP) Circuit Card: Make-Busy.

- OFF (DOWN) × Circuit Card: Make-Busy Cancel.

MBR- ON (UP) Circuit Card Make-Busy Request.

- OFF (DOWN) × Circuit Card Make-Busy Request Cancel.

MODE

- 0 × Auto Negotiation ON (standard setting).

- 1 Auto Negotiation OFF.

- 2 MAC Address Writing Mode.

- 3-F Not used.

Table 2-1 Lamp Indication Meanings (Continued)

LAMP NAME COLOR MEANING OF INDICATION



SW10

1ON External Ether 100 Mbps: Fixed Note 1

OFF × External Ether 10 Mbps: Fixed Note 1

2ON Internal Ether 100 Mbps: Fixed Note 1

OFF × Internal Ether 10 Mbps: Fixed Note 1

3~5

PAD Pattern Selection

For details on each PAD value, refer to Table 2-1.

6ON PAD is assigned by ARTD/ACRD Note 2

OFF × PAD is assigned by APAD/AFPD Note 2

7ON Flexible PAD is used.

OFF × Flexible PAD is not used.

8 OFF × Echo Canceller nonlinear processor is not used. (Fixed to OFF.)

Note 1: Valid when MODE switch is set to 1 (= Automatic Negotiation OFF).

Note 2: When SW10-6 is ON, PAD value is set as specified by ARTD (for CCIS) or ACRD (for FCCS). PADvalue specified by APAD (for CCIS) or AFPG (for FCCS) is not effective in this configuration.When SW10-6 is OFF, PAD value is set as specified by ARTD (for CCIS) or ACRD (for FCCS) asdefault. However, when any data has been set by the APAD or AFPD command, the specified PADvalue is used. The standard setting is OFF.

Table 2-2 Switch Setting Meanings (Continued)

SWITCH NAME

SWITCH NUMBER

SETTINGSTANDARD

SETTINGMEANING

SW10-3 SW10-4 SW10-5 PAD PATTERN SELECTION

OFF OFF OFF Not used

ON OFF OFF Not used

OFF ON OFF µ-law Pattern 1 (for North America)

ON ON OFF µ-law Pattern 2 (for North America)

OFF OFF ON Not used

ON OFF ON Not used

OFF ON ON Not used

ON ON ON Not used



SW20

1~6

Designation of Flexible PAD Value Note 1

7ON

Fixed to OFF.OFF ×

8ON

Fixed to OFF.OFF ×


SWITCH NAME

SWITCH NUMBER

SETTINGSTANDARD

SETTINGMEANING

SW20-1

SW20-2

SW20-3

SW20-4

SW20-5

SW20-6

PAD VALUE

OFF OFF OFF OFF OFF OFF 16 [dB]

ON OFF OFF OFF OFF OFF 15 [dB]

OFF ON OFF OFF OFF OFF 14 [dB]

ON ON OFF OFF OFF OFF 13 [dB]

OFF OFF ON OFF OFF OFF 12 [dB]

ON OFF ON OFF OFF OFF 11 [dB]

OFF ON ON OFF OFF OFF 10 [dB]

ON ON ON OFF OFF OFF 9 [dB]

OFF OFF OFF ON OFF OFF 8 [dB]

ON OFF OFF ON OFF OFF 7 [dB]

OFF ON OFF ON OFF OFF 6 [dB]

ON ON OFF ON OFF OFF 5 [dB]

OFF OFF ON ON OFF OFF 4 [dB]

ON OFF ON ON OFF OFF 3 [dB]

OFF ON ON ON OFF OFF 2 [dB]

ON ON ON ON OFF OFF 1 [dB]

OFF OFF OFF OFF ON OFF 0 [dB]



Note 1: Flexible PAD is made effective when SW10-7 = ON, and PAD No. = 4 in Table 2-3.

Note 2: Error Correction Mode (ECM) is used to correct errors, such as data loss, during FAX data sending or receiving.

SW30

1ON × Dynamic Controlling

OFF Static Controlling

2~4

Voice Encoding/Decoding and Payload Cycle:

5~7

FAX Error Detection Timer:

8 OFF × Not Used.

SW40

1~4 OFF × Fixed to OFF.

5

6 OFF × Not used.

7 Note 2ON FAX mode ECM OFF.

OFF × FAX mode ECM ON.

8 OFF × Fixed to OFF.

SW50 1~8 OFF × Fixed to OFF.

SW60 1~8 OFF × Fixed to OFF.


SWITCH NAME

SWITCH NUMBER

SETTINGSTANDARD

SETTINGMEANING

SW30-4

SW30-3

SW30-2 MEANING

SELECTION ORDER:HIGH TO LOW

1 2 3 4

OFF OFF OFFStandard Setting

G.729aG.723.1 (6.3K)

G.723.1 (5.3K)

G.711

OFF ON OFF

Voice Quality

Precedence Mode

G.711 G.729aG.723.1 (6.3K)

G.723.1 (5.3K)

OFF OFF ONBand

Precedence Mode 1

G.723.1 (5.3K)

G.723.1 (6.3K)

G.729a G.711

OFF ON ONBand

Precedence Mode 2

G.723.1 (6.3K)

G.723.1 (5.3K)

G.729a G.711

SW30-7

SW30-6

SW30-5 TIMER REMARKS

OFF OFF OFF 1 minute Standard Setting

OFF OFF ON 2 minute

OFF ON OFF 3 minute

OFF ON ON 4 minute

ON OFF OFF 5 minute

ON OFF ON 0 minute Fixed to Voice Mode

ON ON OFF No TimerVoice/FAX Automatic

Distinction

ON ON ON Preliminary

SW40-5

SW40-4

SW40-3

SW40-2 MEANING REMARKS

ON OFF OFF OFF 4 Block Sending Standard Setting

OFF ON ON OFF 3 Block Sending

OFF ON OFF OFF 2 Block Sending

OFF OFF ON OFF 1 Block Sending



Note: Flexible PAD is used when SW10-7 is set ON. For details on Flexible PAD values, refer to SW20-1~SW20-6.

2.6 External Interfaces

To connect to the Intranet, refer to Figure 2-5 when using PA-8IPTB for CCIS Networking via IP [C-163].

To connect to the Intranet, refer to Figure 2-6 when using PA-8IPTB for FCCS Networking via IP [F-36](Point-to-Multipoint Connection).

Although PA-8IPTB is equipped with only eight ports, adding the optional sub board (PZ-8VCTB)provides an additional eight ports, when mounted on a PA-8IPTB main board. Figure 2-7 representsoptional attachment of a sub board (PZ-8VCTB) onto the main board of PA-8IPTB.

Caution:Use a router when connecting the IPTRK circuit card to the IP network. Do not connect IPTRK circuitcards in the self-node and its connected node directly via the HUB, etc.

Connect an Ethernet cable from IPCON connector to the router, as shown in the following figure. When100BASE-TX Ethernet cable is connected to IPCON connector, IP-100M lamp lights green. The lamp willnot light when 10BASE-T Ethernet cable is used.

Figure 2-5 Ethernet Cable Connection for CCIS Networking via IP [C-163]

Table 2-3 PAD Values of µ-law Pattern 1 / Pattern 2

PAD NO.PATTERN 1 PATTERN 2

SEND RECEIVE SEND RECEIVE

7 or 15 0 [dB] 0 [dB]

1 2 [dB] 3 [dB]

2 4 [dB] 3 [dB]

3 6 [dB] 6 [dB]

4 8 [dB] or Flexible PAD Note 9 [dB] or Flexible PAD Note

5 0 [dB] 0 [dB]

024

AC

E

6

IPCON

8 Not used7 Not used6 RD -5 Not used4 Not used3 RD +2 TD -1 TD +

Intranet

Ethernet Cable (Installation Cable)

ATTENTIONContentsStatic SensitiveHandlingPrecautions Required

IPTRK

RJ-45

RJ-45 ConnectorPin Assignment

IPCON

POWER

Router



When using an IPTRK circuit card for FCCS Networking via IP [F-36] (Point-to-Multipoint Connection),connect an Ethernet cable from the IPCON connector to the router. Next, connect another Ethernet cablefrom FCON connector to LANI card (CPR, PCI slot 00/03) via HUB. The following figure is an examplewhen connecting the IPTRK circuit card to the LANI of CPU0, PCI slot 0. When 100BASE-TX Ethernetcable is connected to IPCON/FCON connector, IP100M or F-100M lamp lights green, respectively. Whenusing 10BASE-T Ethernet cable, the lamp does not light.

Figure 2-6 Ethernet Cable Connection for FCCS Networking via IP [F-36] [IPTRK: Point-to-Multipoint]

5.0 A

5.0 A

slot3slot0

slot3slot0

8 Not used7 Not used6 RD -5 Not used4 Not used3 RD +2 TD -1 TD +

0

24

AC

E

6

BASEU

Intranet

RJ-45 ConnectorPIN AssignmentIPCON/FCON

Ethernet Cable (Installation Cable)

PA-8IPTBIPCON

FCON

RJ-45

Ethernet Cable (Straight Cable)

Ethernet Cable (Straight Cable)

HUB Circuit Card

PIM

LPMLANI (PZ-PC19)

LANI (PZ-PC19)

POWER

Router




Figure 2-7 Attachment of Sub Board (PZ-8VCTB) onto IPTRK Circuit Card

To

"SU

B3A

" C

onne

ctor

To

"SU

B3B

" C

onne

ctor

Sub Board (PZ-8VCTB)

Main Board (PA-8IPTB)




2.7 Switch Setting Sheet

3. PZ-8VCTB (Sub Board)

3.1 General Function/Mounting Location

PZ-8VCTB is an optional sub board (daughter board), that provides an additional eight ports whenmounted on the main board of a PA-8IPTB card. The board can be mounted as shown in the figure below:

Figure 2-8 Outer View of PZ-8VCTB on the Main Board of PA-8IPTB

Note: When mounting this board, be sure to insert the board onto the SUB3A and SUB3B connectors on the PA-8IPTB card. For details, refer to Section 2.6 External Interfaces.

3.2 Lamp Indications and Switch Settings

No lamps or switches are used on this card.

Table 2-4 Switch Setting Sheet

MODULE SLOT NO. SWITCH NAME SWITCH SHAPE REMARKS

PIM

MB

MBR

MODE

SW10

SW20

SW30

SW40

SW50

SW60

ON

ON

ON1234 56 78

123456 78 ON

1 2 34 56 78 ON

1 2 3456 78 ON

1 2 3456 78 ON

1 2 3456 78 ON

PZ-8VCTB

Sub Board (PZ-8VCTB) provides an additional eight ports

Main Board (PA-8IPTB) provides eight ports


OFFICE DATA PROGRAMMING

CHAPTER 3 OFFICE DATA PROGRAMMING

1. GENERAL

This chapter explains the procedure to assign the IPTRK circuit card-related office data, located in the followingsections:

• CCIS Networking via IP [C-163] Required Hardware

Required Hardware (Point-to-Multipoint Connection)

Service Conditions

Data Programming

• FCCS Networking via IP [F-36] Required Hardware

Required Hardware (Point-to-Multipoint Connection)

Service Conditions

Data Programming

• PAD/EC Control Conditions

Data Programming

Note: For details on the IPTRK circuit card, refer to CHAPTER 2.

2. CCIS NETWORKING VIA IP [C-163]

This feature allows the system to use the CCIS network via the Intranet. To establish/release a call, the followingfigure illustrates a connection pattern.

For both speech and CCIS signal channels, an IPTRK circuit card is used. The IPTRK circuit cards in the self-node and each of its connected nodes must be in 1-1 ratio. For additional information, see Section 2.4 DataProgramming.

When utilizing Point-to-Multipoint Connection for both speech and CCIS signal channels, an IPTRK circuitcard is used. The IPTRK circuit card accommodated in the self-node can be connected to multiple destinations(IPTRK circuit cards of multiple nodes). For additional information, see 2.4 Data Programming.

Figure 3-1 Overview of CCIS Networking via IP [C-163]

Both Speech and CCIS Signal

Intranet

IPTRK

NEAX2400 IPXNEAX2400 IPX

IPTRK

Node A Node B

Point-to-Multipoint


POWER

RouterPOWER

Router



2.1 Required Hardware

This feature is available using the following hardware. As shown, both signal and speech paths can beprovided by connection of IPTRK circuit cards between the nodes.

Figure 3-2 Example of Required Hardware for CCIS Networking via IP [C-163]

Note: One IPTRK circuit card assigned as CCH by the ACSC command is assumed as the D-channel controllingcard, used as the speech circuit as well. The IPTRK circuit card can control the B-channel of the same card,and a maximum of seven other IPTRK circuit cards.

IPTRK IPTRK

IPTRKTo Node A

To Node C

IPTRK IPTRK

IPTRK

CPU

To Node B

To Node A IPTRK

IPTRK

IPTRK

24

A C

IPTRK

IPTRK

To Node B

To Node C

IPTRK

CPU

IPTRK

IPTRK

CPU

IPTRK

IPTRK


: Ethernet cable

Intranet

Node A Node B

Node C

Node A

RouterRouter

Ethernet cable

IPCON

Node B

Node CRouter

Note

Arrows indicate Point-to-Multipoint

connection

CPUCPU

CPU

Intranet



2.2 Required Hardware (Point-to-Multipoint Connection)

This feature (allowing IPTRK circuit cards for both speech and CCIS signal channels) is available by usingthe following hardware. Once this feature is set, each IPTRK circuit card can make a Point-to-Multipointconnection with IPTRK circuit cards of multiple nodes.

Note: One IPTRK circuit card assigned as CCH by the ACSC command is assumed as the D-channel controllingcard, used as the speech circuit card as well. The IPTRK circuit card can control the B-channel of the samecard, and a maximum of seven other IPTRK circuit cards.

Router

Node A

IPTRK To Node B/C

Router

Both Speechand Signal

Node B

IPTRKTo Node A/C

IPTRK

CPU

Node A

IPTRK

CPU

Node B

IPTRK

CPU

Node C

Both Speechand Signal

Node C

To Node A/B

Router


IPTRK

Point-to-Multipoint

connection

24

AC

IPCON

Note

Ethernet Cable

Intranet


:Ethernet Cable for Both Speech and CCIS Signal

CPU CPU

CPU

Intranet



2.3 Service Conditions

1. To send/receive speech and CCIS signals, each node will use an IPTRK circuit card. At this time, theIPTRK circuit cards in the self-node and each of its connected node can be in either 1-to-1 ratio, or in 1-to-n (n=2 or more) relations. This is referred to as Point-to-Multipoint connection.

2. A maximum number of two IPTRK circuit cards per UNIT are allowed. Accordingly, a total of 16 IPTRKcircuit cards can be accommodated per IMG.

3. Only voice and FAX (G3) information can be sent/received via the IPTRK circuit card.4. An IPTRK circuit card assigned as CCH by the ACSC command is assumed as the D-channel controlling

card. The IPTRK circuit card is used as the speech circuit card as well. It is not necessary to assign thetrunk data for a time slot as a controlling channel.

5. An IPTRK circuit card can control the B-channels of the same card and a maximum of seven other IPTRKcircuit cards. See the following figure.

Note 1: An IPTRK circuit card can be accommodated in the shaded slots (a maximum of two cards per UNIT). HWindicates Highway Block.

Note 2: Be sure to assign a B-channel n the first time slot of the controlling card.

Bch

BchBch

Bch

Bch

BchBchBchBchBchBchBchBchBchBchBchBch

BchBchBchBchBchBch

BchBch

BchBchBch

BchBch

BchBch

PBX

IPTRK

IPTRK

IPTRK

.....(m

ax. 16 ports)(m

ax. 16 ports)(m

ax. 16 ports)

Bch a maxim

um of 8 IP

TR

K cards

HW0HW1

HW2HW3

HW4HW5

HW6HW7

HW8HW9

HW10HW11

PW

R

PW

R PIM

Port accommodation for the IPTRK circuit card is shown below. As CCIS signal channel is a logical assignment, a single time slot need not be exclusively kept by a D-channel.

For 16-port SlotHW

For 32-port SlotHW

An IPTRK circuit card, assigned as CCH by the ACSC command, can control the B-channels of the card and a maximum of seven other cards.

Intranet


: Bch (Speech)

POWER

Router

Note 1

Note 2

ACSC



6. Tandem Path through function is not provided.7. This feature supports QoS (Quality of Service) function.8. When a system message indicates “TCP link failure” due to data congestion on the router or IP network,

a call cannot be made via an IPTRK circuit card. When a call is attempted despite this, the caller hearsbusy tone.

9. When a system message related to “TCP link failure” is created during call origination or speech, thatcall’s speech channel is automatically restored via patrol function.

10. The following table represents CCIS features to be provided beyond the nodes.

Table 3-1 Internode Service Features (CCIS)

FEATURE NUMBER

FEATURE NAME CONDITION

A-45 Attendant Camp-On with Tone Indication - CCIS Provided

B-9 Busy Verification - CCIS Provided

C-44 Call Back - CCIS Provided

C-45 Call Forwarding - All Calls - CCIS Provided

C-46 Call Forwarding - Busy Line - CCIS Provided

C-47 Call Forwarding - Don’t Answer - CCIS Provided

C-50 Call Transfer - All Calls - CCIS Provided

C-54 Call Transfer - Attendant - CCIS Provided

C-55 Centralized Billing - CCIS Provided

C-57 Centralized System Management Report - CCIS Provided

D-68 Data Privacy on Demand - CCIS Provided independently

D-71 Dial Access to Attendant - CCIS Provided

D-74 Direct Termination - CCIS Provided

D-75 Distinctive Ringing - CCIS Provided independently

E-8 Executive Right of Way - CCIS Provided

H-12 Hot Line - CCIS Provided independently

I-17 Individual Attendant Access - CCIS Provided

M-34 Message Reminder - CCIS Provided

M-34D Message Reminder - Dterm - CCIS Provided

M-35 Message Waiting Lamp Setting - Attendant - CCIS Provided

M-36 Message Waiting Lamp Setting - Station - CCIS Provided

N-37 Name Display - System - CCIS Provided independently

O-11 Off-Hook Queuing - CCIS Provided

S-52 Series Call - CCIS Provided

S-59 Step Call - CCIS Provided

S-73 Supervisory Call - CCIS Provided

V-7 Voice Call - CCIS Provided



11. This feature does not support Broad Band Services H0/H1. Therefore, when assigning the IPTRK circuitcard routes by the ARTD command, enter BOB = 0.

12. This feature can use link re-connection function. Service conditions are the same as those for the normalCCIS network.

13. PAD can be provided for RECEIVE control only.14. On a conference call via IPTRK, Echo Canceller cannot be activated when using certain kinds of telephone

sets (generally analog telephones).15. During IPTRK circuit card-related tandem connection, speech quality can become poor, or dual

connection failure may occur. DTMF and FAX relay cannot be used.

2.4 Data Programming

To activate this service via the Intranet, perform the data programming as follows:

Note: When office data is assigned/modified, be sure to initialize the IPTRK circuit card (by flipping its MB keyOFF → ON → OFF).

STEP 1: Assignment of basic CCIS network dataReferring to the NEAX2400 IPX No. 7 CCIS System Manual, assign all the basic data (such as ASYD,ARTD, ATRK, ADPC, ACSC, ACIC1, ACIC2, MBTK, etc.), necessary for the establishment of aCCIS Tie line.When assigning this data, consider the following:

• Enter IPTRK = 1 for B-channel route on the ARTI command.

• For the port assignment (B-ch) of the IPTRK circuit card, see Figure 3-3.



Figure 3-3 Port Assignment of Bch for CCIS Tie Line

Note 1: An IPTRK circuit card can be accommodated in the shaded slots (a maximum of two cards per UNIT). HWindicates Highway Block.

Note 2: This example represents the port allocation when sub board PZ-8VCTB is mounted.

Note 3: Be sure to assign a B-channel in the first time slot of the controlling IPTRK circuit card.

• CCIS signal controlling channel is determined in accordance with the CIC numbers of speechchannel. To provide multiple interfaces for a single Point Code (activating CCIS and CCIS networkvia IP together within one network), CIC numbers and CIC Group (CICG) must be assigned on thesame interface.

Bch

BchBch

Bch

Bch


BchBchBchBchBchBch

BchBch

BchBchBch

BchBch

BchBch

PBX

IPTRK

IPTRK

IPTRK

.....(m

ax. 16 ports)(m

ax. 16 ports)(m

ax. 16 ports)

Bch a maxim

um of 8 IP

TR

K cards

HW0HW1

HW2HW3

HW4HW5

HW6HW7

HW8HW9

HW10HW11

PW

R

PW

R PIM

Port accommodation for the IPTRK circuit card is shown below. All the available time slots on the controlling IPTRK circuit card can be assigned as the B-channel.

For 16-port SlotHW

For 32-port SlotHW

An IPTRK circuit card, assigned as CCH by the ACSC command, can control the B-channels of the card and a maximum of seven other cards.

Intranet


: Bch (Speech)

Note 1

Note 3

Note 3

Note 2

POWER

Router

ACSC



Perform the following data assignment using the ACSC/ACIC2 commands.

Figure 3-4 Example Data Assignment (ACSC/ACIC2) CCIS - CCIS Networking via IP [C-163]

Note: This data setting is an example.

PC=1 PC=2CCT

IPTRK

CCT

IPTRK

CCIS

CCIS Networking via IP

CSCG CICGCCH

MG U G00-07 0-3 00-23

1

100 0 0

2

10 0 0

3

10 0 0

4

1

1

1

1

1

0 0 0

2 60 0

2 6

6

0 0

2 60 0

2

2

2

2

2

60 0

130 (Basic/Primary

Route)

5

7

ACSC

slot 10

PW

R

0001

0203

0405

0607

0809

1213

1415

2021

2223

0001

0203

0405

1011

1617

1819

PIM 0

IPTRK

slot 11

PIM 1

PW

R

0001

0203

0405

0607

0809

1213

1415

2021

2223

0001

0203

0405

1011

1617

1819

CCT

PC CICLENS

MG U G00-07 0-3

LV0-700-23

1 1

1

0 0 0 0

2 10 0 0

3

2

2

210 0 0 2

ACIC2

4 1

1

0 0 0

5

2

10 0

6 10 0 2

2

2

2

(Destination Point Code) 7

7

7

CICG CIC Number

0

1

2

3

4

5

6

7

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

998

999

992

993

994

995

996

997

~

~

~

~

~

~

~

~

IPTRK 000120CIC=1 000120

2 0001213 000122

CCT 002160CIC=4 002170

5 0021716 002172 Symbols:

IPTRK: IP TrunkCCT: Common Channel Trunk

Note

POWER

RouterPOWER

RouterIntranet

Slot 10 Slot 11

CICG and CIC No. Relationship

PC CICLENS

MG U G00-07 0-3

LV0-700-23

1 1

1

0 0 0 0

2 10 0 0

3

2

2

210 0 0 2

ACIC2 (Point-to-Multipoint)

4 1

1

0 0 0

5

1

10 0

6 10 0 2

2

2

2

(Originating Point Code) 7

7

7

Nodes belonging to CCIS via IP Network cannot be connected using CCIS. However, the node (Node C) can be connectedto the other node (Node D) using CCIS. See the following example:

POWER

RouterIPTRK

CCIS Networking via IP

POWER

Router

IPTRK Node

B

Intranet

POWER

Router

IPTRK

Node A

CCIS

Not Available

Node C

Node DCCIS

Available



• In Point-to-Multipoint connection, because it cannot be determined which destination node is to becalled until the call is originated, all of the CCIS related data is assigned for the self-node. As to theACIC1 command, the data must be assigned to all the destination nodes and also to the self-node.

• Designate the Speech Path and Point Code to the assigned Outgoing Route Selection Patternnumber by using the AOPRL/AOPRN command (this is required for Point-to-Multipointconnection only).

IPTRK (IP Trunk): 0/1=IP network is used/not used

PC (Point Code): Enter the Point Code of destination node (1-16367) Note

Note: This parameter is valid only when IPTRK=1 is selected.

• Assign the IP address to the Point Code by using the APIPL/APIPN command (this is required forPoint-to-Multipoint connection only).

PC (Point Code):Assign the Point Code of destination node (1-16367)

IP Address:Assign the IP address of the destination IPTRK (maximum of 8 addresses)

STEP 4: AGIP - Assign IP addresses of IPTRK circuit card and its connected route.LENS (Line Equipment Number): Assign the first LEN of IPTRK-accommodated HW

blockKIND (Kind of Selection): IPTRK (CCIS)IPTK_IP (IP Address of IPTRK): IP address of the IPTRK circuit cardDG_IP (IP Address of Default Gateway): IP address of the routerNETMSK (Net Mask of IP Address): Net Mask of IP addressToS CONTROL: IP Precedence or DiffServ (either)QoS1 (QoS Data for signal route): When IP Precedence is selected, 0-7

When DiffServ is selected, 0x00-0x3FQoS2 (QoS Data for speech Path): When IP Precedence is selected, 0-7

When DiffServ is selected, 0x00-0x3FMULT (Kind of Multiple Connection): Point-to-MultipointDST_IP (IP Address of Destination IPTRK): IP address of the Destination Node IPTRK circuit cardIRT (Incoming Route): Incoming Route when Point-to-Multipoint connection

is selected Note 1NETID (Network ID): Fixed to 0CSLINK_NUM (Maximum number of client/server connection):16 lineARP (Frame Type of ARP): Select DIX when the “Detail” box is checked Note 2

Note 1: When FCCS is used, assign the Logical Route Number. Assign the Route Number otherwise.

Note 2: RTP check box is provided for detail assignment of the following parameters, if required. Usually thedefault data of “0” is set for all parameters.

PKGLOSS (Amount of Packet Loss): 8% (default)JIT_MAX (Maximum Jitter Buffer): 600 ms (default)JIT_MIN (Minimum Jitter Buffer): 80 ms (default)MNGS (Interval of Jitter adjustment): 5 times (default)JIT_COUNT (Interval of Jitter statistics): 1 sec (default)BASE_COUNT (Interval of Time-base correction):10 sec (default)JIT_FAST (Judging rate of fast arrived packet):100% (default)TIME_FAST (Time-base correction Judgment):50% (default)



Figure 3-5 Example Assignment of IP Addresses of IPTRK Circuit Card and Connected Router

IPTRK

bbb.bbb.bbb.bIPTRK

aaa.aaa.aaa.a

POWER POWER

(1) To Node B

(2) T

o Nod

e C

(1) (2)

POWER

IPTRK

ccc.ccc.ccc.c

IPTRK

ddd.ddd.ddd.d

PW

R

0001

0203

0809

1011

1213

1415

1617

1819

2021

2223

0001

0203

slot 06/07

070504 06

IPTK_IP aaa.aaa.aaa.a

DG_IP xxx.xxx.xxx.x

MULT Point-to-Multipoint

DST_IP ccc.ccc.ccc.c

0405

0607 09

LENS Assign the 1st LEN of the IPTRK HW block

PIM(1) To Node B

PW

R

0001

0203

0809

1011

1516

1718

1920

2122

23

0001

0203

slot 10

0705

04 06

IPTK_IP bbb.bbb.bbb.b

DG_IP xxx.xxx.xxx.x

DST_IP ddd.ddd.ddd.d

0405

0607 09

LENS Assign the 1st LEN of the IPTRK HW block

PIM

1213

14

DG_IP: xxx.xxx.xxx.x

(2) To Node C

Router Router Router

Node BNode A Node C

Intranet

Data assignment at Node A

Data assignment at Node A

MULT Point-to-Multipoint



3. FCCS NETWORKING VIA IP [F-36]

This feature allows the system to exchange both speech and FCCS signals via the Intranet. It is not necessary touse an FCH circuit card. To establish/release a call, the following connection patterns can be selected:

For both speech and FCCS signal channels, an IPTRK circuit card is used. At this time, the IPTRK circuit cardsin the self-node and each of its connected node(s) must be in 1-to-1 ratio. See Section 2.4 Data Programming.

When utilizing Point-to-Multipoint Connection for both speech and FCCS signal channels, an IPTRK circuitcard is used. At this time, the IPTRK circuit card, accommodated in the self-node, can be connected to multipledestinations (IPTRK circuit cards of multiple nodes). See Section 2.4 Data Programming.

Figure 3-6 Overview of FCCS Networking via IP [F-36]

Both Speech and FCCS Signal

Intranet

IPTRK

NEAX2400 IPXNEAX2400 IPX

IPTRK

Node A Node B

Point-to-Multipoint Connection


• FCCS network is used via the Intranet• IPTRK: Point-to-Multipoint Connection

POWER

RouterPOWER

Router



3.1 Required Hardware

This feature is available by using the following hardware. As shown, both speech and FCCS signalchannels between the nodes must be provided by IPTRK circuit cards with 10 BASE-T cables.

Figure 3-7 Example Required Hardware for FCCS Networking via IP [F-36]

Note: An IPTRK circuit card, assigned as the FCCS signal control card by the AFCH command, can also controlthe B-channels of the same card, and also a maximum of 15 other cards. The IPTRK circuit card is usedas the speech circuit card as well.

24

AC

IPCON

FCON

Ethernet Cable2

AC

IPCON (10 BASE-TConnector)

Node A Node B

CPR

Node C

Arrows indicate Point-to-Multipoint

connection

Router

FCCS signal

Both Speech/ FCCS signal




Both Speech/FCCS signalBoth Speech/ FCCS signal

LANI (Slot 00/03)

Node A

HUB

IPTRK

IPTRK

To Node B

To Node C

Router

FCCS signal

(Slot 00/03)

Node B

HUB

IPTRK

IPTRK

To Node A

To Node C

FCCS signal

(Slot 00/03)

Node C

HUB

To Node B

To Node A

Router

IPTRK

IPTRK

Intranet


:10 BASE-T Cable (for both Speech and FCCS signal)

:10 BASE-T Cable (for FCCS signal)

Note

IPTRK

IPTRK

LANI

HUB

CPR

IPTRK

IPTRK

LANI

CPR

HUB

IPTRK

IPTRK

HUB

HUB

CPU

LANI

CPU

Intranet



3.2 Required Hardware (Point-to-Multipoint Connection)

This feature (allowing IPTRK circuit card for both speech and FCCS signal channels) is available by usingthe following hardware. Once this feature is set, each IPTRK circuit card can make a Point-to-MultipointConnection with IPTRK circuit cards of multiple nodes.

Figure 3-8 Example Required Hardware for FCCS Networking via IP [F-36] [IPTRK: Point-to-Multipoint]

Note: An IPTRK circuit card, assigned as FCCS signal control card by the AFCH command, can control the B-channels of the same card, and also a maximum of 15 other cards. The IPTRK circuit card is used as thespeech circuit card as well.

LANI

CPU

Router

(Slot 00/03)

Node A

HUB

IPTRK To Node B/C

Router

Both Speech/FCCS signal

FCCS signal

(Slot 00/03)

Node B

HUB

IPTRKTo Node A/C

IPTRK

HUB

CPR

LANI

Node A

IPTRK

HUB

CPR

LANI

Node B

IPTRK

HUB

CPR

LANI

Node C


FCCS signal

(Slot 00/03)

Node C

HUB

To Node A/B

Router


IPTRK

Point-to-Multipoint

connection

24

AC

IPCON

FCON

Note

Ethernet Cable

FCCS signal

Intranet


:10 BASE-T Cable (for both Speech and FCCS signal)

:1 0 BASE-T Cable (for FCCS signal)

LANI

CPU

LANI

CPU

Intranet



3.3 Service Conditions

1. To send/receive voice information, each node will use an IPTRK circuit card. At this time, the IPTRKcircuit cards in the self-node and its connected node(s) can be either in 1-to-1 ratio, respectively, or in 1-to-n (n=2 or more) relations (referred to as Point-to-Multipoint connection).

2. Be sure to use a router for connections between IP network and IPTRK circuit card.3. A maximum of two IPTRK circuit cards per UNIT are allowed. Accordingly, a total of 16 IPTRK circuit

cards can be accommodated per IMG.4. Only voice and FAX (G3) information can be sent/received via IPTRK circuit card.5. A call cannot be established/routed across multiple IP networks. See the following figure.

6. When multiple IPTRK circuit cards are used for node-to-node connection and all the lines on an IPTRKare busy, alternate routes are available (see the figure below). However, if a router cannot be used, all therelated IPTRK routes are made unavailable.

IPTRK

IPTRK

Node A

Routing: NG

Routing: OK

IPTRK

IPTRK

Node B

IP Network #1

IP Network #2

IPTRK

IPTRK

Node A

IPTRK

IPTRK

Node B

Intranet

IPTRK

Node A

IPTRK

IPTRK

Node B

Alternate Routing: OK

As shown, when multiple IPTRK circuit cards exist, alternate routes are available:

Alternate Routing: OK


Intranet

Intranet

BUSY BUSY

IPTRK



7. For Point-to-Multipoint connection, one IPTRK circuit card (assigned as FCCS signal controlling card bythe AFCH command), can control the B-channels of the same card, and also a maximum of 15 otherIPTRK circuit cards. It is not necessary to assign the trunk data for a time slot as a controlling channel.Seethe following figure.

Note 1: The IPTRK circuit card can be accommodated in the shaded slots (a maximum of two cards per UNIT).HW indicates Highway Block.

Note 2: Be sure to assign a B-channel in the first time slot of the controlling IPTRK circuit card.8. During IPTRK circuit card-related tandem connection, speech quality can become poor, or dual

connection failure may occur. DTMF and FAX relay cannot be used.9. Any service that is not available for the FCCS network, is not available utilizing this service.10. This feature supports QoS (Quality of Service) function.11. When a system message indicates “TCP link failure” due to data congestion on the router or IP network,

a call cannot be made via an IPTRK circuit card. When a call is attempted despite this, the caller hearsbusy tone.

12. When a system message, related to “TCP link failure”, is created during call origination or speech, thatcall’s speech channel is automatically restored via patrol function.

Bch

BchBch

Bch

Bch


BchBchBchBchBchBch

BchBch

BchBchBch

BchBch

BchBch

PBX

IPTRK

IPTRK

IPTRK

.....(m

ax. 16 ports)(m

ax. 16 ports)(m

ax. 16 ports)

Bch a maxim

um of 8 IP

TR

K cards

HW0HW1

HW2HW3

HW4HW5

HW6HW7

HW8HW9

HW10HW11

PW

R

PW

R PIM

When the connection is Point-to-Multipoint, port accommodation for the IPTRK circuit card is shown below. All the available time slots on the controlling IPTRK circuit card can be assigned as the B-channel.

For 16-port SlotHW

For 32-port SlotHW

An IPTRK circuit card, assigned as the FCCS signal controlling card by the AFCH command, can control the B-channels of the card and a maximum of 15 other cards.

Intranet


: Bch (Speech)

POWER

Router

Note 1

Note 2

AFCH



13. When all lines of an IPTRK circuit card are busy, alternate routing to C.O. line or Tie line is available.Details on alternate routing patterns are shown in the table below:

14. PAD can be provided for RECEIVE control only.15. This feature does not support Broad Band Services H0, H1 of ISDN/CCIS line. This feature supports 1B

only.16. This feature does not support any OAI/ACD services.17. Depending to the firmware version of the IPTRK circuit card, the following system data assignment is

required. The system data varies depending on the combination of the main PBX software version and theIPTRK firmware.ASYDL, SYS 1, Index 527, b6: 0=PA-8IPTB (SW-404 IPTRK PROG-C) is used

1=PA-8IPTB (SW-390 IPTRK PROG-B) is used

3.4 Data Programming

To allow FCCS networking via IP [F-36] service, perform the data programming as follows:

ASYDL → ACRD → ACTK → MBCT → AFCH → AETH → ACAN → AFRT → AGIP

Note: When office data is assigned/modified, be sure to initialize the IPTRK circuit card (by flipping its MB keyOFF → ON → OFF).

STEP 1: ASYDL - Provided that the IPTRK circuit card is equipped in the node within the FCCS network,NDM data broadcasting is not to be executed. Therefore, when the IPTRK circuit card is used in theFCCS network, perform the following data assignment at the Network Control Node (NCN).SYS1, INDEX 534, b7=1 (NDM data individual broadcasting from NCN to each LN)

Table 3-2 Alternate Routing to be Provided/Not Provided (FCCS Networking via IP [F-36])

FROM FCCS NETWORKING VIA IP (POINT-TO-MULTIPOINT)

TO FCCS NETWORKING VIA IP (POINT-TO-MULTIPOINT)

Analog C.O. line Not Available Not Available

Analog Tie line × Not Available

CCIS × Not Available

ISDN × (via Sub Address-Addressing only) Not Available

Dp Channel × Not Available

FCCS network over Intranet(via DTI)

× ×

FCCS network via ISW(IPX-U)

× ×

FCCS Networking via IP (Point-to-Multipoint)

× ×

CCIS Networking via IP (Point-to-Multipoint)

× Not Available

Table 3-3 PBX Software/IPTRK Circuit Card Firmware

PA-8IPTB SW-390 IPTRK PROG-B (NR-575835-000) Assign the data to 1

PA-8IPTB SW-404 IPTRK PROG-C (NR-577024-000) or later version Assign the data to 0



STEP 2: ACRD - Assign Route Class Data of speech routes. It is not required to assign the signal route data.IPTRK circuit card assigned by the AFCH command is used as the FCCS signal channel controllingcard. An example data assignment is shown in the following figure.

Figure 3-9 Example Data Assignment (ACRD)

Note 1: This CDN, TC/EC is used for setting Echo Canceller. Assignment is 0=Echo Canceller OFF, 1=EchoCanceller ON.

Note 2: This data setting is an example.

Speech Speech Signal

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

FGH

TF

TCL

RLP

SMDR

LSG

PAD

TRKS

TC/EC

FINT

FPEG

TC

MTC

STSEQ

MMN

16 LKIND

17 IPLYR

18 IPTRK

C_RT

3

4

2

0

12

0 (1)

0

0

0

0

0

0

3

0

1

2

3

4

2

0

12

0 (1)

0

0

0

0

0

0

3

0

1

1CDN

TypeNode A

HUB

IPTRK

Router

(speech)C_RT2

(speech)C_RT1

IPTRK

to CPU

ACRD: Speech Route (LSG=12, FGH=0, LKIND=3, IPTRK=1)

13

3

4

2

0

13

0

0

0

0

0

0

0

0

0

0

0

0

1

(FCCS Signal)RT 13

Note 1

Note 2



STEP 3: ACTK - Assign the connection trunk data of IPTRK circuit card. It is not required to assign the trunkdata for D-channel. An example data assignment is shown in the following figure.

Figure 3-10 Example Data Assignment (ACTK)

Note 1: When the IPTRK circuit card is furnished without a sub board (PZ-8VCTB), only LV0-LV7 of Group 04are used.

Note 2: When the IPTRK circuit card is furnished without a sub board (PZ-8VCTB), only LV0-LV7 of Group 12are used.

Note 3: Be sure to assign a speech channel to the first port of the IPTRK circuit card controlling FCCS signal.STEP 4: MBCT - Unbusy the connection trunk data assigned in the previous step, by using the MBCT

command.

1 3

1 4

1 5

1 6

1 3

1 4

1 5

1 6

C_RT C_TKC_LENS

(1-1023) (1-4095) MG U G L00-07 0-3 00-23 0-7

1 01 0 40 0 0

1 12 0 40 0 0

1 23 0 40 0 0

1 50 50 0 0

1 60 50 0 0

1 40 50 0 0

1 70 50 0 0

2 0 1 1 20 0 0

2 1 2 1 20 0 0

2 2 3 1 20 0 0

2 3 4 1 20 0 0

1 34 0 40 0 0

2 41 30 0 0

2 51 30 0 0

2 61 30 0 0

2 71 30 0 0

IPT

RK

(C_R

T 1 =

Speech)

IPT

RK

(C_R

T 2 =

Speech)

PW

R

PW

R

slot 07 slot 10

PW

R

PW

R

0001

0203

0405

0607

0809

1213

1415

2021

2223

0001

0203

0405

0607

0809

1011

1213

1415

1617

1819

2021

2223

slot 06/07 slot 10

IPTRK (C_RT1 [speech]), RT 13 [FCCS Signal]

IPTRK (C_RT2 [speech])

Note 1

LV0

LV7

G04 G05

Note 2

LV0

LV7

G12 G13

......

......

......

......

......

......

.....

.....

......

.....

......

.....

1011

1617

1819

(Speech) C_RT1

(Speech) C_RT2

When IPTRK circuit cards are mounted in the following slots with the specified RT numbers, data setting is as follows:

IPT

RK

(RT

13 = F

CC

S S

ignal)

SignalRT 13

Note 3

Note 3



STEP 5: AFCH - Assign FCH number (FCHN) to each IPTRK circuit card which is used as the FCCS signalcontrolling card.

Figure 3-11 Example Assignment of FCHN

Note: This setting is an example.

FCHN

1

FCHEN000040

AFCH command display

Note

Node A

HUB

IPTRK

Router

(Speech and FCCS Signal)C_RT2

(speech and FCCS Signal)C_RT1

IPTRK

to CPU

FCHN = 1

FCHEN = 000040

In this example, FCHN = 1 is assigned to the IPTRK circuit card controlling FCCS signal.



STEP 6: AETH - Assign the following data:FPC (Fusion Point Code): FPC number (1-253) of the Destination NodeFCHN (FCH Number): FCH Number, specified in Step 5C_RT (Connection Route): Connection Route Number of speech channel (1-1023)DST_IP (Destination IP Address): IPTRK IP address of the Destination NodeNEXT_IP (Next IP Address): IPTRK IP address of the Destination NodeExample data assignment is shown in the following figure, and the Example Data Sheets (Figure 3-15through Figure 3-19) at the end of CHAPTER 3.

Figure 3-12 Example Assignment of Destination IP and Next IP (AETH)

Note: A maximum of eight routes are available.

POWER

POWER

POWER

Router Router

IPTRK

aaa.aaa.aaa.a bbb.bbb.bbb.b ccc.ccc.ccc.c

Destination information embedded in the packet

NEXT_IP

DST_IP

bbb.bbb.bbb.b

ccc.ccc.ccc.c

NEXT_IP

DST_IP

bbb.bbb.bbb.b

bbb.bbb.bbb.b

NEXT_IP

DST_IP

ccc.ccc.ccc.cccc.ccc.ccc.c

Node A Node B Node C

FPC=10 FPC=12FPC=11

Router

(1) To FPC 11

(2) To FPC 12

(1) (2)

FPC

C_RT

FCHN(FCH Number)

DST_IP

NEXT_IP

1 2CNT

bbb.bbb.bbb.b

1

1

bbb.bbb.bbb.b

11

(1): Connection between FPC 10 and 11

NoteFPC

C_RT

FCHN(FCH Number)

DST_IP

NEXT_IP

1 2CNT

bbb.bbb.bbb.b

2

1

ccc.ccc.ccc.c

12

(2): Connection between FPC 10 and 12

Note

IPTRK IPTRK

Intranet



STEP 7: ACAN - Assign the Fusion Connection Index Code (FCIC) to Self node FPC:FPC (Fusion Point Code): FPC number (1 - 253) of the Self nodeFCIC (Fusion Connection Index Code): Unique Fusion CICs in Self nodeC_LENS (Connection_LENS): IPTRK LENS data (speech channel data) specified in Step 3Example data assignment is shown in Figure 3-13.

STEP 8: AFRT - Set Connection Route Numbers of the speech channels for the FCHN, which was assigned inStep 5.FCHN (FCH Number): FCHN, specified in Step 5C_RT (Connection Route): Connection Route of the speech channels, specified in Step 2Example data assignment is shown in the following figure.

Figure 3-13 Example Data Assignment (ACAN/AFRT)

Note 1: This setting is an example.

Note 2: A maximum of eight C_RT can be programmed.

FCHN

CNT

1

2

1

3

1

2

C_RT

AFRT command parameters

Note 1

Note 2

assigned in Step 5

ACAN command parameters

Note 1Note 1

FPC

FCIC

10

17

C_LENS

000120

(Self Node)

FPC

FCIC

10

1

C_LENS

000040

C_RT1 (Speech)

..... Bch

.....

FCIC1: 000041FCIC2: 000042FCIC3: 000043

FCIC16: 000057

C_RT2 (Speech)

.....

.....Bch

FCIC17: 000120FCIC18: 000121FCIC19: 000122

FCIC32: 000137

FPC 10

HUB

IPTRK

Router

FCCS signal (logical assignment)

IPTRK

to CPU



STEP 9: AGIP - Assign IP addresses of IPTRK circuit card and its connected route.LENS (Line Equipment Number): Assign the first LEN of IPTRK-accommodated

HW blockKIND (Kind of Selection): IPTRK (FCCS)IPTK_IP (IP Address of IPTRK): IP address of the IPTRK circuit cardDG_IP (IP Address of Default Gateway): IP address of the routerNETMSK (Net Mask of IP Address): Net Mask of IP addressToS CONTROL: IP Precedence or DiffServ (either)QoS1 (QoS Data for signal route): When IP Precedence is selected, 0-7

When DiffServ is selected, 0x00-0x3FQoS2 (QoS Data for speech Path): When IP Precedence is selected, 0-7

When DiffServ is selected, 0x00-0x3FMULT (Kind of Multiple Connection): Point-to-Multipoint Note 1NETID (Network ID): Fixed to 0CSLINK_NUM (Maximum number of client/server connection): 16 lineARP (Frame Type of ARP): Select DIX when the “Detail” box is checked

Note 2

Note 1: Be sure to select “Point-to-Mult”.

Note 2: RTP check box is provided for detail assignment of the following parameters, if required. Usually thedefault data of “0” is set for all parameters.

PKGLOSS (Amount of Packet Loss): 8% (default)JIT_MAX (Maximum Jitter Buffer): 600 ms (default)JIT_MIN (Minimum Jitter Buffer): 80 ms (default)MNGS (Interval of Jitter adjustment): 5 times (default)JIT_COUNT (Interval of Jitter statistics): 1 sec (default)BASE_COUNT (Interval of Time-base correction): 10 sec (default)JIT_FAST (Judging rate of fast arrived packet): 100% (default)TIME_FAST (Time-base correction Judgment): 50% (default)



Figure 3-14 Example Assignment of IP Addresses of IPTRK Circuit Card and Connected Router

IPTRK

rrr.rrr.rrr.r

IPTRKqqq.qqq.qqq.q

Node A

POWER POWER

RouterRouter

(1) To Node B

(2) T

o Nod

e C

(1) (2)

POWER

Router

IPTRK

sss.sss.sss.s

Node B

IPTRK

ttt.ttt.ttt.t

Node C

PW

R

0001

0203

0809

1011

1213

1415

1617

1819

2021

2223

0001

0203

slot 06/07

070504 06

IPTK_IP qqq.qqq.qqq.q

DG_IP xxx.xxx.xxx.x

MULT Point to Mult

0405

0607 09

IPTENAssign the 1st LEN of the IPTRK HW block

PIM(1) To Node B

PW

R

0001

0203

0809

1011

1516

1718

1920

2122

23

0001

0203

slot 10

070504 06

IPTK_IP rrr.rrr.rrr.r

DG_IP xxx.xxx.xxx.x

MULT Point to Mult

0405

0607 09

IPTENAssign the 1st LEN of the IPTRK HW block

PIM

1213

14

DG_IP: xxx.xxx.xxx.x

(2) To Node C

Intranet

Data Assignment at Node A

Data Assignment at Node A



3.4.1 FCCS Routing Example Data Sheets

This figure represent example data for FCCS Networking via IP [F-36] (Point-to-Multipoint).

Figure 3-15 FCCS Networking via IP [F-36] [Point-to-Multipoint Connection] Example Data Sheet 1

NEAX2400 IPX FPC 1

IPTRK

IPTRK

C_RT: 100IP Address: 10.40.221.20FCHN: 10

C_RT: 100IP Address: 10.40.221.21FCHN: Not assigned for this IP trunk

IP Address:10.40.221.254

POWER

Router Intranet

IP Address:10.40.222.254

POWER

Router

IP Address:10.40.223.254

POWER

Router

IPTRK

NEAX2400 IPX FPC 2


IPTRK

NEAX2400 FPC 3


Symbols:: IP trunk accommodating speech channels only

: IP trunk accommodating speech and control channels

Example Routing Information Assignment by AETH:FPC 1: FPC=2, FCHN=10, C_RT=100, DST_IP=10.40.222.20, NEXT_IP=10.40.222.20

FPC=3, FCHN=10, C_RT=100, DST_IP=10.40.223.20, NEXT_IP=10.40.223.20FPC 2: FPC=1, FCHN=20, C_RT=150, DST_IP=10.40.221.20, NEXT_IP=10.40.221.20


FPC=2, FCHN=30, C_RT=200, DST_IP=10.40.222.20, NEXT_IP=10.40.222.20



This figure represent example data for FCCS Networking via IP [F-36].

Figure 3-16 FCCS Networking via IP [F-36] Example Data Sheet 2

NEAX2400 IPX FPC 1

IPTRK

IPTRK



IP Address:10.40.221.254

POWER

Router

IP Address:10.40.222.254

POWER

Router

IPTRK

NEAX2400 IPX FPC 2


IPTRK

NEAX2400 IPX FPC 3


Symbols::: IP trunk accommodating speech and control channels

Example Routing Information Assignment by AETH:FPC 1: FPC=2, FCHN=10, C_RT=100, DST_IP=10.40.222.20, NEXT_IP=10.40.222.20

FPC=3, FCHN=11, C_RT=101, DST_IP=10.40.223.20, NEXT_IP=10.40.223.20FPC 2: FPC=1, FCHN=20, C_RT=150, DST_IP=10.40.221.20, NEXT_IP=10.40.221.20FPC 3: FPC=1, FCHN=30, C_RT=200, DST_IP=10.40.221.20, NEXT_IP=10.40.221.21

IP Address:10.40.223.254

POWER

Router

Intranet

Point-to-Multipoint

Point-to-Multipoint



This figure represent example data when ASPC and AETH commands are required for an identical FPCat the tandem node.

Figure 3-17 FCCS Networking via IP [F-36] and FCH FCCS Networking (both ASPC and AETH commands) Example Data Sheet 3

Note: Provided that both FCCS Networking via IP and FCH FCCS Networking are configured, it depends on thesetting of the P_ROUTE parameter, which routing takes precedence. To take priority for FCCSNetworking via IP routing, assign data “1” to the P_ROUTE parameter.

NEAX2400 IPX FPC 1

POWER

Router

Intranet

IPTRK

FCH

DTI

C_RT: 50

FCHN: 1

NEAX2400 IPX FPC 2

POWER

Router IPTRK

FCH

DTI

C_RT: 70

FCHN: 3 FCH

DTI

C_RT: 60

FCHN: 2

Tande m

Node

NEAX2400 IPX FPC 3

POWER

Router IPTRK

FCH

DTI

C_RT: 80

FCHN: 4


Example Routing Information Assignment by AFPC and AETH:AFPC:FPC 1: FPC=2, FCCH=1, P_ROUTE=0/1, C_RT=50, FCHN=1

FPC=3, FCCH=1, P_ROUTE=0/1, C_RT=50, FCHN=1FPC 2: FPC=1, FCCH=1, P_ROUTE=0/1, C_RT=60, FCHN=2

FPC=3, FCCH=1, P_ROUTE=0/1, C_RT=70, FCHN=3FPC 3: FPC=1, FCCH=1, P_ROUTE=0/1, C_RT=80, FCHN=4

FPC=2, FCCH=1, P_ROUTE=0/1, C_RT=80, FCHN=4AETH:FPC 1: FPC=2, FCHN=10, C_RT=100, DST_IP=10.40.222.20, NEXT_IP=10.40.222.20








This figure represent example data when FCCS routing data is not assigned by using the AFPCcommand. Be sure to assign the following dummy data when using this configuration.

Figure 3-18 FCCS Networking via IP [F-36] - FCCS Network via IP Tandem Connection(AFPC Dummy Data) Example Data Sheet 4

Note: Be sure to assign dummy data.

POWER

Router

NEAX2400 IPX FPC 2

IPTRK

Tand em

Nod e


POWER

Router IPTRK


Use different FCHN for passing through the node

Intranet

NEAX2400 IPX FPC 1

POWER

Router

NEAX2400 IPX FPC 3

POWER

Router IPTRK

IPTRK



Example Routing Information Assignment by AFPC and AETH:AFPC:FPC 1: NoneFPC 2: FPC=1, FCCH=1, P_ROUTE=1, C_RT=150, FCHN=20 Note

FPC=3, FCCH=1, P_ROUTE=1, C_RT=151, FCHN=21 NoteFPC 3: None

AETH:FPC 1: FPC=2, FCHN=10, C_RT=100, DST_IP=10.40.222.20, NEXT_IP=10.40.222.20






This figure represent example data when AFPC and AETH commands are required for an identical FPCat the tandem node.

Figure 3-19 FCCS Networking via IP [F-36] and FCH FCCS Networking (AFPC or AETH commands)Example Data Sheet 5

Note: Be sure to assign dummy data.

POWER

Router IPTRK

FCH

DTI

C_RT: 70

FCHN: 3


NEAX2400 IPX FPC 2

Tand em

Nod e

Intranet

POWER

Router

NEAX2400 IPX FPC 1

IPTRK


NEAX2400 IPX FPC 3

FCH

DTI

C_RT: 80

FCHN: 4

Example Routing Information Assignment by AFPC and AETH:AFPC:FPC 1: NoneFPC 2: FPC=1, FCCH=1, P_ROUTE=1, C_RT=150, FCHN=20 Note

FPC=3, FCCH=1, P_ROUTE=0, C_RT=70, FCHN=3FPC 3: FPC=1, FCCH=1, P_ROUTE=0, C_RT=80, FCHN=4

FPC=2, FCCH=1, P_ROUTET=0, C_RT=80, FCHN=4AETH:FPC 1: FPC=2, FCHN=10, C_RT=100, DST_IP=10.40.222.20, NEXT_IP=10.40.222.20


FPC=3, FCHN=3, C_RT=70, DST_IP=0.0.0.0, NEXT_IP=0.0.0.0 NoteFPC 3: None


OPERATION TESTS AFTER INSTALLATION

CHAPTER 4 OPERATION TESTS AFTER INSTALLATION

1. GENERAL

This chapter explains the procedure to verify the normal operation of the IPTRK circuitcard, when installation and necessary data setting have been completed. This chapter alsoexplains the procedures to test and correct possible IPTRK circuit card-related faults.

2. CCIS NETWORKING VIA IP [C-163]/VOICE OVER IP (H.323)

When using the H.323 Handler (PA-8IPTB-A) as a signaling interface for Voice over IP (H.323), perform thefollowing circuit card operation tests. If necessary, perform fault repairs.

Caution:Some LSIs on this circuit card may be hot. Handle with care.

1. Test of OPE lamp on IPTRK circuit card: Note

Note: H.323 Handler (PA-8IPTB-A).

a.) See if the OPE lamp on the IPTRK circuit card Note is lighting green. This lamp lights if thecircuit card is operating normally.


b.) When the OPE lamp is OFF, initialize the circuit card, or perform the insertion/extraction of thecircuit card once or twice. If the lamp still does not light, replace the circuit card.

Figure 4-1 Lamps to be Tested (CCIS Networking via IP [C-163])


SUBOPE3SUBOPE2

BUSY

L3L2L1

IP-TXRXIP-100M

F-TXRXF-100M

F-LRRF-LINKF-COL

MODE

IPCON

FCON

MB

MBR

Not Used

Not Used

Not Used Not Used

OPEIs IPTRK card

IP-LRR Is IP network available

for connection?

IP-LINK Is IPTRK-IP network link

physically established?

SUBOPE1Is appropriate data assigned on GK?

IP-COL

IPTRK Circuit Card (H.323 Handler/

(H.323 Handler)operating normally?

PA-8IPTB-A)



1. Test of IP-LINK lamp on IPTRK circuit card: Note


a.) See if the IP-LINK lamp on the IPTRK circuit card Note is lighting green.This lamp will light if the circuit card is physically connected to the IPnetwork.


b.) When the IP-LINK lamp is OFF, make sure that the Ethernet cable is securelyconnected to the IPCON connector. Make sure that neither the Ethernet cable nor the router arefaulty. If necessary, replace the Ethernet cable.

2. Test of SUBOPE1 lamp on IPTRK circuit card Note:


a.) See if the SUBOPE1 lamp on the IPTRK circuit card Note is lighting green. This lamp will lightwhen the appropriate data has been assigned on the Gate Keeper (GK) side.


b.) When the SUBOPE1 lamp is OFF, make sure that the related office data is correctly assigned onboth the PBX side and the Gate Keeper (GK) side.

3. Test of IP-LRR lamp on IPTRK circuit card: Note


a.) See if the IP-LRR lamp on the IPTRK circuit card Note is lighting green. This lamp will light ifthe IP network is available for connection establishment.


b.) When the IP-LRR lamp is OFF, make sure that the related office data was correctly assigned.Make sure that each IP address assigned on the AGIP command is correct.

4. Test of Speech Conditions with Distant Node:a.) Perform the connection test to see if speech can be made with the counterparts of the connected

node.b.) If any test result is abnormal, make sure that the related office data was assigned correctly.

5. Test of System Messages:a.) When an IPTRK circuit card Note is installed, the following messages may be created:


• For CCIS Networking via IP [C-163]:

33-R IP CARD WARNING

33-S IP CARD FAILURE

33-T IP CARD RECOVERY

33-U H.323 INFORMATION NOTICE

b.) When any of the messages above are created, make sure that the Ethernet cable is securelyconnected to the IPCON connector (on the IPTRK circuit card), or perform the continuity test ofthe cable (voltage and resistance measurement), using a voltmeter. Otherwise, replace the IPTRKcircuit card or H.323 Handler.




3. FCCS NETWORKING VIA IP [F-36]

When using the IPTRK circuit card for FCCS Networking via IP [F-36] (Point-to-Multipoint Connection), perform the following circuit card operation tests. If necessary,perform fault repairs.

Caution:Some LSIs on this circuit card may be hot. Handle with care.

1. Test of OPE lamp on IPTRK circuit card:a.) See if the OPE lamp on the IPTRK circuit card is lighting green. This lamp will light if the circuit

card is operating normally.b.) When the OPE lamp is OFF, initialize the circuit card, or perform the insertion/extraction of the

circuit card once or twice. If the lamp still does not light, replace the circuit card.2. Test of SUBOPE0 and SUBOPE1 lamps on IPTRK circuit card:

a.) See if the SUBOPE0 and SUBOPE1 lamps on the IPTRK circuit card are lighting green. Notethat SUBOPE1 should light if the circuit card is furnished with an optional sub board (PZ-8VCTB).

b.) When either (or both) of the lamps are OFF, initialize the circuit card, or perform the insertion/extraction of the circuit card once or twice. Also, if a sub board is in use, make sure the daughterboard is securely attached to the IPTRK circuit card (main board). If the lamp still does not light,replace the circuit card.

Figure 4-2 Lamps to be Tested (FCCS Networking via IP [F-36] [Point-to-Multipoint Connection])


SUBOPE3SUBOPE2

BUSY

L3L2L1

IP-TXRXIP-100M

F-TXRXF-100MF-COL

MODE

IPCON

FCON

MB

MBR

Not U

sed

Not Used

OPEIs IPTRK card operating normally?

IP-LRR Is IP network available

for connection?

IP-LINKIs IPTRK-IP network link

physically established?

SUBOPE1Is CPU of sub board operating normally?

L1Is FCCS network link established?

SUBOPE0 Is CPU of IPTRK card’s main board operating normally?

IP-COL

IPTRK Circuit CardSub Board (PZ-8VCTB)

F-LRRIs FCCS network available

for connection?

F-LINKIs IPTRK-FCCS network

link physically established?



3. Test of IP-LINK lamp on IPTRK circuit card:a.) See if the IP-LINK lamp on the IPTRK circuit card is lighting green. This

lamp will light if the circuit card is physically connected to the IP network.b.) When the IP-LINK lamp is OFF, make sure that the Ethernet cable is securely

connected to the IPCON connector. Make sure that neither the Ethernet cablenor the router are faulty. If necessary, replace the Ethernet cable.

4. Test of L1 lamp on IPTRK circuit card:a.) See if the L1 lamp on the IPTRK circuit card is lighting green. This lamp will light if the FCCS

network link is established.b.) When the L1 lamp is OFF, make sure the office data was correctly assigned. If necessary, replace

the circuit card.5. Test of IP-LRR lamp on IPTRK circuit card:

a.) See if the IP-LRR lamp on the IPTRK circuit card is lighting green. This lamp will light if the IPnetwork is available for connection establishment.

b.) When the IP-LRR lamp is OFF, make sure that the related office data is correctly assigned. Makesure that each IP address assigned on the AGIP command is correct.

6. Test of F-LINK lamp on IPTRK circuit card:a.) See if the F-LINK lamp on the IPTRK circuit card is lighting green. This lamp will light if the

circuit card is physically connected to the FCCS network. b.) When the F-LINK lamp is OFF, make sure that the Ethernet cable is securely connected to the

FCON connector. Make sure that neither the Ethernet cable nor the router are faulty. If necessary,replace the Ethernet cable.

7. Test of F-LRR lamp on IPTRK circuit card:a.) See if the F-LRR lamp on the IPTRK circuit card is lighting green. This lamp will light if the

FCCS network is available for connection establishment.b.) When the F-LRR lamp is OFF, make sure that the related office data was assigned correctly.

Make sure that each IP address assigned on the AETH or AGIP command is correct.8. Test of Speech Conditions with Distant Nodes:

a.) Perform the connection tests to see if speech can be made with the counterparts of the connectednodes.

b.) If any test result is abnormal, make sure the related office data was assigned correctly.9. Test of System Messages:

a.) When an IPTRK circuit card is installed, the following messages may be created:

23-S FCCS FAILURE

23-T FCCS FAILURE RECOVERED Note

b.) When any of the messages above are created, make sure that the Ethernet cable is securelyconnected to the IPCON/FCON connector (on the IPTRK circuit card), or perform the continuitytest of the cable (voltage and resistance measurement), using a voltmeter.

Note: Although this message is issued soon after performing system/circuit card initialization, it does notnecessarily mean a result of fault information. In this case, the message generally indicates the placementof the IPTRK circuit card in to normal operation mode.


NEAX2400 IPX IPTRK Circuit Card System Manualpdf.textfiles.com/manuals/TELECOM-F-R/NEC IPX IPTRK...Multimedia Communication transmitting at 5.3 and 6.3 kbits/s • IPTRK: PA-8IPTB:

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