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NEC NEAX 2400 IPX Manual
NEC NEAX 2400 IPX Manual

NEC NEAX 2400 IPX Manual

Fusion network
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NDA-24299
ISSUE 1
STOCK # 200776
®
Fusion Network System Manual
OCTOBER, 2000
NEC America, Inc.

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Summary of Contents for NEC NEAX 2400 IPX

  • Page 1 NDA-24299 ISSUE 1 STOCK # 200776 ® Fusion Network System Manual OCTOBER, 2000 NEC America, Inc.
  • Page 2 NEC America, Inc. reserves the right to change the specifications, functions, or features, at any time, without notice. NEC America, Inc. has prepared this document for use by its employees and customers. The information contained herein is the property of NEC America, Inc.
  • Page 3 Issue No. Issue No. PAGE No. PAGE No. viii ISSUE 1 ISSUE 2 ISSUE 3 ISSUE 4 DATE OCTOBER, 2000 DATE DATE DATE ISSUE 5 ISSUE 6 ISSUE 7 ISSUE 8 DATE DATE DATE DATE NEAX2400 IPX Fusion Network System Manual Issue Revision Sheet 1/3 NDA-24299 ISSUE 1...
  • Page 4 Issue No. Issue No. PAGE No. PAGE No. ISSUE 1 ISSUE 2 ISSUE 3 ISSUE 4 DATE OCTOBER, 2000 DATE DATE DATE ISSUE 5 ISSUE 6 ISSUE 7 ISSUE 8 DATE DATE DATE DATE NEAX2400 IPX Fusion Network System Manual Issue Revision Sheet 2/3 NDA-24299 ISSUE 1...
  • Page 5 Issue No. Issue No. PAGE No. PAGE No. ISSUE 1 ISSUE 2 ISSUE 3 ISSUE 4 DATE OCTOBER, 2000 DATE DATE DATE ISSUE 5 ISSUE 6 ISSUE 7 ISSUE 8 DATE DATE DATE DATE NEAX2400 IPX Fusion Network System Manual Issue Revision Sheet 3/3 NDA-24299 ISSUE 1...
  • Page 6: Table Of Contents

    NDA-24299 ISSUE 1 OCTOBER, 2000 NEAX2400 IPX Fusion Network System Manual TABLE OF CONTENTS Page LIST OF FIGURES ..............LIST OF TABLES.
  • Page 7 TABLE OF CONTENTS (CONTINUED) Page PA-24DTR (DTI) ............Digital PAD Setting .
  • Page 8 TABLE OF CONTENTS (CONTINUED) Page 8. Office Data Sheets ..............121 Data Sheet for AFMUPL .
  • Page 9 TABLE OF CONTENTS (CONTINUED) Page CHAPTER 7 TROUBLESHOOTING ............159 1.
  • Page 10: List Of Figures

    LIST OF FIGURES Figure Title Page Figure 2-1 Telephone Number ............Figure 2-2 Free Location .
  • Page 11 LIST OF FIGURES (CONTINUED) Figure Title Page Figure 4-16 Examples of Ethernet Cable Connection-FCH in PIM3 (1-IMG System) (1/2)... . . Figure 5-1 Data Programming Flow Chart..........Figure 5-2 Fusion-CCIS Network .
  • Page 12 LIST OF FIGURES (CONTINUED) Figure Title Page Figure 5-49 Sample Data Assignment (ACTK) ..........Figure 5-50 Sample Data Assignment (AFCD) .
  • Page 13 LIST OF FIGURES (CONTINUED) Figure Title Page Figure 7-16 23-U FCCH Status Information ..........Figure 7-17 23-U FCCH Status Notification - Initial Setting Failure.
  • Page 14 LIST OF TABLES Table Title Page Table 2-1 Available Telephone Number Digits..........Table 4-1 SENSE Switch Setting .
  • Page 15 This page is for your notes. LIST OF TABLES NDA-24299 Page x Revision 1.0...
  • Page 16: Chapter 1 Introduction

    CHAPTER 1 INTRODUCTION 1. General This manual covers the installation of the Fusion system. 2. How to Follow This Manual This manual consists of the following chapters: • CHAPTER 1 (INTRODUCTION) Explains how to use this manual. • CHAPTER 2 (GENERAL) Outlines the Fusion system configuration and lists available service features.
  • Page 17: Related Manuals

    INTRODUCTION Related Manuals 3. Related Manuals For installation of the Fusion system, the following manuals are required: • NEAX2400 IPX Circuit Card Manual • NEAX2400 IPX Installation Manual • NEAX2400 IPX Office Data Specification To use this manual, the reader should have sufficient knowledge of the installation of both the CCIS No. 7 and the ACIS systems.
  • Page 18: Chapter 2 General

    CHAPTER 2 GENERAL 1. What is Fusion and its Advantages The main advantages of the Fusion network are as follows: 1.1 Improved Inter-Office Service Features The Fusion system can eliminate the constraints normally associated with network services that are offered using Common Channel Inter-Office Signaling (CCIS).
  • Page 19: Free Numbering

    GENERAL Free Numbering 2. Free Numbering A telephone number can be assigned to a desired station on the Fusion network with the simple command operation shown in Figure 2-2. In this figure, the user is changing the location of T elephone N um ber "411111" to N ode B . N o de C Logical N um ber M A T...
  • Page 20: Fusion System Configuration

    GENERAL Fusion System Configuration 3. Fusion System Configuration The Fusion system can be configured in the following two ways. Figure 2-4 shows a Fusion system with Fusion Call Control Handler (FCH) cards. Node A Node B Node C Fusion Link Fusion Link 1.5M 1.5M...
  • Page 21: Node

    GENERAL Node 4. Node A Fusion network consists of the following types of nodes: • Network Control Node The Network Control Node, which must be assigned on a Fusion network, manages other nodes on the network. This node has the Centralized-MAT to collect fault information from other nodes on the network. Multiple nodes cannot be assigned as a Network Control Node.
  • Page 22: Data Memory Configuration

    GENERAL Data Memory Configuration 5. Data Memory Configuration Each node on a Fusion network has the following three kinds of Data Memory: • Data Memory (DM) • Local Data Memory (LDM) • Network Data Memory (NDM) - Programmable only by the NCN. When the contents of the NDM are changed at NCN, the new data is automatically copied to the NDM of each node.
  • Page 23: Fusion Network Examples

    GENERAL Fusion Network Examples When the NDM (primary) is modified, the new data is automatically copied. See Figure 2-8 N C N C hange... LD M LD M LD M N D M N D M N D M (m aster) copy copy Fusion Link...
  • Page 24: Figure 2-1 Telephone Number

    GENERAL Fusion Network Examples 81: CCIS for Node B 82: CCIS for Node C CCIS [Open Numbering] 8x: CCIS access for Network CCIS Network "8x" 4x...: Fusion access Node A FCCS "80" FCCS FPC = 1 CCIS Node C Node B CCIS PC =10 "82"...
  • Page 25: Tandem Connections Via Fusion Link

    GENERAL Tandem Connections via Fusion Link 7. Tandem Connections via Fusion Link Tandem connections via FCCS-ACIS can be established. In Figure 2-11, STN (A) can place a tandem call via FCCS-ACIS. Tandem connection FCCS ACIS ACIS is established. FCCS FCCS Node B Node A TE LN...
  • Page 26: Chapter 3 System Configuration

    CHAPTER 3 SYSTEM CONFIGURATION Fusion systems can be divided into the following two types: • Fusion system with FCH • Fusion system without FCH FCH (Fusion Call Control Handler) : PA-FCHA Note: This chapter explains the system configuration of each Fusion system. 1.
  • Page 27: Fusion System With Fch

    SYSTEM CONFIGURATION Fusion System with FCH 2. Fusion System with FCH 2.1 System Configuration A sample system configuration of Fusion system which uses a DTI to carry D-channel is shown below. In this configuration, Fusion link is established between nodes via the T1 link. See Figure 3-2 below.
  • Page 28: Redundancy Of Fusion Link

    SYSTEM CONFIGURATION Fusion System with FCH Note: When a direct connection is added to the existing Fusion system with FCH card between the two nodes, it is required to execute Make Busy operation (MB Key ON/OFF) on the FCH cards to prevent from packet loop.
  • Page 29: Figure 3-4 Redundant Configuration (Lani, Hub, Fch, And Dti)

    SYSTEM CONFIGURATION Fusion System with FCH Figure 3-4 shows LANI, HUB, FCH, and DTI in a fully redundant configuration. LANI#0-A FCH0 CPU#0 ..LANI#0-B 10 Base T HUB0 to the same route HUB1 ..LANI#1-A CPU#1 FCH1 LANI#1-B 10 Base T Redundancy Figure 3-4 Redundant Configuration (LANI, HUB, FCH, and DTI) Figure 3-5...
  • Page 30: Figure 3-7 Non-Redundant Configuration

    SYSTEM CONFIGURATION Fusion System with FCH In this case, no redundancy is taken as to Fusion link. LANI#0 CPU#0 10 Base T 10 Base T PCI Bus ..CPU#1 LANI#1 10 Base T PCI Bus Figure 3-7 Non-Redundant Configuration Be sure that the system configurations shown below are not available. The Node composed of dual-HUB Note: system cannot apply to the opposite side against a Node with single-HUB configuration.
  • Page 31: System Considerations

    SYSTEM CONFIGURATION System Considerations 3. System Considerations 3.1 Fusion Network Conditions This section explains conditions when designing a Fusion network. In the following diagram, a Fusion Link is printed in a thick line while a CCIS link is printed in a dotted line. Condition 1: The maximum number of nodes on a Fusion network is sixteen (16) nodes.
  • Page 32: Figure 3-10 Fusion Tandem Connections

    SYSTEM CONFIGURATION System Considerations Condition 2: A maximum of four (4) Non ACD nodes can be connected as tandem nodes with 1D channel. • 64k (1D-channel) will support 4 nodes • 128k (2D-channels) will support 5 nodes • 256k (4D-channels) will support 6 nodes Figure 3-10.
  • Page 33: Figure 3-12 Connection Trunk Alternate Routing

    SYSTEM CONFIGURATION System Considerations Condition 5: Up to eight (8) routes can be assigned as alternate routes for a connection trunk. Figure 3-12. N ode A lt-C _R T 1 N ode A lt-C _R T 2 N od e A N o d e B A lt-C _R T 3 N ode...
  • Page 34 SYSTEM CONFIGURATION System Considerations Condition 9: The maximum data link speed is “1.5 Mbps.” Condition 10: Connection Trunks (B ch) conform to the following specifications: • Existing external trunk cannot be used as alternate routes for connection trunks. • Billing information on connection trunks cannot be output. •...
  • Page 35: Centralized Billing - Fusion (Polling Method)

    SYSTEM CONFIGURATION System Considerations 3.2 Centralized Billing - Fusion (Polling Method) This section explains the conditions of Centralized Billing - Fusion, focusing on when CCIS links are involved. To use this feature, select Center Node(s) on the Fusion network. See Figure 3-14.
  • Page 36 SYSTEM CONFIGURATION System Considerations - Exam ple 4 ¥ Node A tries to collect the billing inform ation of Node B, and Node C via FCC S using polling m ethod. (Node A cannot collect the billing inform ation of N ode C via FCC S.) ¥...
  • Page 37 SYSTEM CONFIGURATION System Considerations - E xam ple 7 ¥ N ode A collects billing inform ation of N ode B and N ode C via FC C S by polling m ethod. (B illing inform ation of N ode B cannot be collected.) ¥...
  • Page 38: Centralized Management Report-Fusion

    SYSTEM CONFIGURATION System Considerations 3.3 Centralized Management Report-Fusion For collection of fault information in a Fusion network, the Centralized Management Report-Fusion is used. This feature provides automatic reporting of fault occurrence from Local Nodes to Center Node. Figure 3-15 shows service conditions for this feature. Node B FCCS Fault!
  • Page 39: Figure 3-16 Centralized Management Report-Fusion (Example 1)

    SYSTEM CONFIGURATION System Considerations The following explains service conditions for the network including both FCCS and CCIS links. When the network comprises FCCS and CCIS links (See Figure 3-16.) Example: 1 Node B Node C 13-H 1. xxxx xxxx 0010 1222 FCCS 4.
  • Page 40: Figure 3-17 Centralized Management Report-Fusion (Example 2)

    SYSTEM CONFIGURATION System Considerations Example: 2 When both FCCS and CCIS links are established between two nodes (See Figure 3-17). Node B Node C 13-H 1. xxxx xxxx 0010 1222 FCCS 4. x0010 1110 10110 1FFF PC=11 PC=12 7. E23C CAAB12 000 0000 FPC=2 FPC=3 Centralized MAT...
  • Page 41: Figure 3-18

    SYSTEM CONFIGURATION System Considerations Example: 3 When a node is linked with LAN interface (See Figure 3-18.) Node B Node C PC=3 FCCS FPC=10 FPC=11 FCCS with LAN CCIS PC=2 FPC=12 CCIS Node A Node D Center Node: Node E 13-H 1.
  • Page 42: Fusion Attendant/Desk Console

    SYSTEM CONFIGURATION System Considerations 3.4 Fusion Attendant/Desk Console 3.4.1 Operator Call The user can place an operator call from each node by assigning the access code using the ASPAL/ ASPAN command, which allows the user to specify an appropriate node on the Fusion network by entering the FPC.
  • Page 43: Central Office Incoming Call (Ring Down)

    3.4.2 Central Office Incoming Call (Ring Down) Each node can specify a terminating node for Ring Down calls using the system data. In this example, Node A and Node D specify Node C and Node E as the terminating node respectively. The terminating node is assigned with use of the ASYDL command (SYS 1, Index 640).
  • Page 44: Day/Night Change

    SYSTEM CONFIGURATION System Considerations 3.4.3 Day/Night Change Day/Night information is transferred from an ATTCON/DESKCON to predetermined nodes. In this example, Node C specifies Node A and Node B as destination nodes by assigning FPCs 1 and 2 in Indexes 704-735. Node A and Node B specify Node C as a terminating node for Ring Down calls from PSTN by assigning FPC 3 in Index 640.
  • Page 45 SYSTEM CONFIGURATION System Considerations This page is for your notes. CHAPTER 3 NDA-24299 Page 30 Revision 1.0...
  • Page 46: Installation

    CHAPTER 4 INSTALLATION This chapter covers the installation of the Fusion system. The following topics are covered: • How to set switches on the following circuit cards: PA-M96 (HUB) PA-FCHA (FCH) PA-24DTR (DTI) • How to mount the circuit cards •...
  • Page 47: Figure 4-2 How To Use The Anti-Static Kit

    INSTALLATION Anti-Static Caution Figure 4-2 shows the anti-static kit that is provided and how to use it. Use the kit when handling static-sensitive components such as circuit cards and cables. Connect the ground wire to the earth term inal of the fram e. Earth Terminal G round W ire W rist Strap...
  • Page 48: Circuit Cards Required

    INSTALLATION Anti-Static Caution 1.1 Circuit Cards Required Depending on the system type, the following circuit cards are required for installation of the Fusion system. Figure 4-3. • Fusion with FCH HUB (PA-M96) FCH (PA-FCHA) DTI (PA-24DTR) • Fusion without FCH DTI (PA-24DTR) HUB (PA-M96) Before starting installation, make sure that all necessary cards are at your site.
  • Page 49: Key Setting On Circuit Cards

    INSTALLATION Key Setting on Circuit Cards 2. Key Setting on Circuit Cards 2.1 PA-M96 (HUB) After referring to Figure 4-4 Table 4-1, set the SEL switch on the HUB (PA-M96) card(s). ATTENTION Contents Static Sensitive Handling Precautions Required SENSE TP7-X TP6-X TP5-X TP4-X...
  • Page 50: Pa-Fcha (Fch)

    INSTALLATION Key Setting on Circuit Cards 2.2 PA-FCHA (FCH) Set the switches on the FCH (PA-FCHA) card(s) by referring to Figure 4-5, Table 4-2, and Table 4-3 . This card has DIP switches, whose key settings determine the time slots of the Fusion link. In Figure 4-5, CH3 is designated as the D/I channel in an example.
  • Page 51: Table 4-2 Mode Switch Setting

    INSTALLATION Key Setting on Circuit Cards Table 4-2 MODE Switch Setting STANDARD SWITCH NAME SETTING DESCRIPTION SETTING MODE Not used Standard setting × (When the DTI is connected with the card’s front cable) Fusion link test mode (When the DTI is connected with the card’s front cable) Not used Table 4-3 DIP Switch (SW14) Setting SWITCH...
  • Page 52: Pa-24Dtr (Dti)

    INSTALLATION Key Setting on Circuit Cards 2.3 PA-24DTR (DTI) There are two types of the PA-24DTR (DTI) card as shown below. Refer to Figure 4-6 Table 4-4 to set each switch to the proper positions. DTI (PA-24DTR) Card ATTENTION Contents Static Sensitive N-OPE Handling...
  • Page 53 INSTALLATION Key Setting on Circuit Cards Table 4-4 Switch Setting Patterns for the DTI Card (Continued) SWITCH STANDARD SWITCH NAME SETTING MEANING NUMBER SETTING Transmission Signal A Logic: Negative × SW4D Transmission Signal A Logic: Positive Receiving Signal A Logic: Negative ×...
  • Page 54 INSTALLATION Key Setting on Circuit Cards Table 4-4 Switch Setting Patterns for the DTI Card (Continued) SWITCH STANDARD SWITCH NAME SETTING MEANING NUMBER SETTING × SW39-1 SW39-2 PAD CONTROL × Both directions Receiving only Sending only SW39 ARTD is fixed ×...
  • Page 55 INSTALLATION Key Setting on Circuit Cards Table 4-4 Switch Setting Patterns for the DTI Card (Continued) SWITCH STANDARD SWITCH NAME SETTING MEANING NUMBER SETTING × Fixed × Fixed SW6C × Fixed × Fixed × Fixed × Fixed × Fixed × Fixed Equalizer Setting DISTANCE...
  • Page 56: Digital Pad Setting

    INSTALLATION Key Setting on Circuit Cards Table 4-4 Switch Setting Patterns for the DTI Card (Continued) SWITCH STANDARD SWITCH NAME SETTING MEANING NUMBER SETTING Digital PAD ROM selection: Special SW5D specification Digital PAD ROM selection: Standard × specification × LAYER2 signal logic: Positive LAYER2 signal logic: Negative Line fault is not notified to the upper CPU ×...
  • Page 57: Mounting Circuit Cards In Pim

    INSTALLATION Mounting Circuit Cards in PIM 3. Mounting Circuit Cards in PIM 3.1 Mounting HUB (PA-M96) in a PIM Mount the HUB (PA-M96) card in an appropriate slot of a PIM as shown in Figure 4-7. When the MAT is connected via a HUB card, be sure to use a dedicated HUB for the Fusion link.
  • Page 58: Mounting Fch (Pa-Fcha) And Dti (Pa-24Dtr) Cards

    INSTALLATION Mounting Circuit Cards in PIM 3.2 Mounting FCH (PA-FCHA) and DTI (PA-24DTR) Cards Mount the FCH (PA-FCHA) and the DTI (PA-24DTR) card in appropriate slots in a PIM. Mount the two cards in adjacent slots since these cards must be connected on the front connectors. Figure 4-8 shows an example with the FCH and DTI cards mounted in PIM 1.
  • Page 59: Connecting Cables

    INSTALLATION Connecting Cables 4. Connecting Cables 4.1 Connecting DTI-FCH Front Cables Connect the furnished front cable to the connectors on the DTI and FCH cards. Use DTI and CN2 connectors on the FCH and DTI cards respectively. Since an FCH card is equipped with one Handler circuit, a maximum of five FCH cards can be connected to a DTI card.
  • Page 60: Figure 4-10 Fch Cascade Connections

    INSTALLATION Connecting Cables Since a maximum of five Handler circuits can be used, five FCH cards can be cascaded. Figure 4-10 shows an example where three FCH cards are cascaded. FCH(PA-FCHA) FCH x 3 A T T E N T IO N Contents Static Sensitive Handling...
  • Page 61: Connecting 10 Base-T Cables

    10 BASE-T cross cable. However, when dual LANIs (LANI-A and LANI-B) are used for each CPU, the cross cable connection between HUBs for FCH#0 and #1 is not necessary. The Ethernet cables shown in the examples in this section are NOT available from NEC. The customer must Note: provide these cables, depending on the system configuration.
  • Page 62: Base-T Connection Procedure

    INSTALLATION Connecting Cables 4.3 10 BASE-T Connection Procedure The pattern for 10 BASE-T cable connections may vary, depending on the system configuration (such as the number of IMG stacks or the mounting location/number of the FCH/HUB cards, etc.). According to your system configuration, connect necessary Ethernet cables: 4.3.1 Procedure for 1-IMG System...
  • Page 63: When Not Using The Cable Unit Sr1201 Etif Cau-N

    INSTALLATION Connecting Cables 4.3.3 When not using the cable unit SR1201 ETIF CAU-n When your system doesn’t use the cable unit classified as SR1201 ETIF CAU-n, perform the 10 BASE- T connections as instructed below: 1. Depending on your system configuration, connect the 10 BASE-T straight cable(s) between the HUB (PA-M96) and LANI (PZ-PC19) cards.
  • Page 64: Procedure For Ipx-U And Imx-U Systems

    INSTALLATION Connecting Cables When dual LANIs are used in both Slot 00 and 03 of CPR#0/CPR#1, be sure to use at least two HUB cards as separate 10 BASE-T connection terminals. Use one HUB for the internal LANI (LANI-A: in Slot 00 of each CPR), and use the other for the external LANI (LANI-B in Slot 03 of each CPR).
  • Page 65: Figure 4-12 Connecting 10 Base-T Cables (Example)

    INSTALLATION Connecting Cables When dual FCH is provided for the HUB dedicated to each internal LANI card (LANI-A: in Slot 00 of each CPR), connect FCH#0 to HUB#0 and FCH#1 to HUB#1. When your system also uses the external LANI cards (LANI-B in Slot 03 of each CPR), prepare another set of FCH cards for the HUB dedicated to the external LANI cards.
  • Page 66: Figure 4-13 Examples Of Ethernet Cable Connection-Fch In Pim0 (1-Img System) (1/2

    INSTALLATION Connecting Cables Figure 4-13 shows some typical examples where 10 BASE-T cables are connected to the FCH card(s) mounted in PIM0 of 1-IMG system, under the conditions in Table 4-6: Table 4-6 Connection of 10 BASE-T Cables to FCH Card(s) in PIM0 of 1-IMG Configuration Configuration Used Cable Unit...
  • Page 67 INSTALLATION Connecting Cables ATTE NTIO N Contents Static S ensitive Handling Precautions Required <F C H in P IM 0 (P attern 3)> < FC H in P IM 0 (P attern 4)> TO P U TO P U P IM 3 P IM 3 P IM 2 P IM 2...
  • Page 68: Figure 4-14 Examples Of Ethernet Cable Connection-Fch In Pim1 (1-Img System)

    INSTALLATION Connecting Cables Figure 4-14 shows some typical examples where 10 BASE-T cables are connected to the FCH card(s) mounted in PIM1 of 1-IMG system, under the conditions in Table 4-7: Table 4-7 Connection of 10 BASE-T Cables to FCH Card(s) in PIM1 of 1-IMG Configuration Configuration Used Cable Unit...
  • Page 69: Figure 4-15 Examples Of Ethernet Cable Connection-Fch In Pim2 (1-Img System) (1/2)

    INSTALLATION Connecting Cables Figure 4-15 shows some typical examples where 10 BASE-T cables are connected to the FCH card(s) mounted in PIM2 of 1-IMG system, under the conditions in Table 4-8: Table 4-8 Connection of 10 BASE-T Cables to FCH Card(s) in PIM2 of 1-IMG Configuration Configuration Used Cable Unit...
  • Page 70 INSTALLATION Connecting Cables A T T E N T IO N C ontents Static S ens itive H andling Prec autions R equired <FC H in PIM 2 (Pattern 3)> <FC H in PIM 2 (Pattern 4)> TO PU TO PU PIM 3 PIM 3 U TP C TG 5 ST C A -K...
  • Page 71: Figure 4-16 Examples Of Ethernet Cable Connection-Fch In Pim3 (1-Img System) (1/2)

    INSTALLATION Connecting Cables Figure 4-16 shows some typical examples where 10 BASE-T cables are connected to the FCH card(s) mounted in PIM3 of 1-IMG system, under the following conditions: Table 4-9 Connection of 10 BASE-T Cables to FCH Card(s) in PIM3 of 1-IMG Configuration Configuration Used Cable Unit...
  • Page 72 INSTALLATION Connecting Cables ATTENTIO N C o nte nts S tatic S en sitive H a nd ling P re cau tio ns R eq uired <FC H in PIM 3 (Pattern 3)> <FCH in PIM 3 (Pattern 4)> TO PU TO PU PIM 3 PIM 3...
  • Page 73 This page is for your notes. CHAPTER 4 NDA-24299 Page 58 Revision 1.0...
  • Page 74: Chapter 5 Data Programming

    CHAPTER 5 DATA PROGRAMMING This chapter explains how to set Fusion network data, using the following data categories: • System Data • Numbering Plan Data • Station Data • Fusion Link Data Figure 5-1 shows the overall data programming procedure: System Data AFMU ALRTN...
  • Page 75: Network Data Programming Summary

    DATA PROGRAMMING Network Data Programming Summary 1. Network Data Programming Summary This section provides a summary of the data programming of Fusion systems. 1.1 Brand-new Fusion Network To install the Fusion network as a brand-new system, follow the overall data programming procedure below.
  • Page 76: Fusion Link Data

    DATA PROGRAMMING Network Data Programming Summary 1.1.4 Fusion Link Data • Assign the Fusion link data using the following commands: Fusion with FCH:ACRD → ACTK → ACAN → MBCT → AFCH → AFPC → AFRT Fusion w/o FCH:ACRD → ACTK → ACAN → MBCT → AFPC 1.2 Upgrading a CCIS Network To install the Fusion system to an existing CCIS network, follow the overall programming procedure...
  • Page 77: Fusion Link Data

    DATA PROGRAMMING Network Data Programming Summary Note: When the Fusion system is incorporated in an existing CCIS network, all nodes must be linked via CCIS on the network. If there are any nodes linked via ACIS alone, add the CCIS link before installing the Fusion link. (See Figure 5-2.) Refer to CCIS-related manuals for more detailed information.
  • Page 78: Figure 5-3 How To Upgrade The Numbering Plan Data Of An Existing Ccis Network

    DATA PROGRAMMING Network Data Programming Summary Figure 5-3 shows how to upgrade an existing CCIS network, focusing on the Numbering Plan. The example data setting assumes the existing network uses this particular numbering. For more detailed information on how to assign telephone numbers, see Assignment of Telephone Numbers.
  • Page 79: Assignment Of System Data

    DATA PROGRAMMING Assignment of System Data 2. Assignment of System Data STEP 1: ASYDL and ASYDN Assign the number of data memory blocks for the Network Data Memory (NDM) and the Local Data Memory (LDM). Use the ASYDN command for the NCN. Use the ASYDL command for all nodes. Figure 5-4 shows ASYDL Indexes 513 and 514 as an example.
  • Page 80: Figure 5-6 Self-Fpc Assignment

    DATA PROGRAMMING Assignment of System Data STEP 2: ASYDL Assign the self-Fusion Point Code (self-FPC) at each node. FPC ranges from 1 to 253. Use the ASYDL command. (Index 512 b0-b7) • Index 512 self-Fusion Point Code Assign a unique FPC for each node. Figure 5-6 shows an example of FPC assignment.
  • Page 81 DATA PROGRAMMING Assignment of System Data STEP 4: ASYDL and ASYDN Assign other system data using the ASYDL/ASYDN command. When Timing Start is used, assign the following data. Index 161 b6 : 0/1=-/Timing Start using “#” code b7 : 0/1=-/Timing Start using “*” code Index 170 b4 : 0/1=Timing Start out of Service/Timing Start in Service Note 1...
  • Page 82: Figure 5-8 Asydn Command Display (Example)

    DATA PROGRAMMING Assignment of System Data When “different numbering development on a TN basis” is not required, set the above bits. Figure 5-8 shows the display of the ASYDN command Index 514 as an example. Figure 5-8 ASYDN Command Display (Example) Note 4: Be sure to execute “Non-Load Initial”...
  • Page 83: Assignment Of Fpc And Mg And Unit Into Network

    DATA PROGRAMMING Assignment of FPC and MG and UNIT into Network 3. Assignment of FPC and MG and UNIT into Network 3.1 AFMU Assign the module accommodation data by giving Module Group Number and Unit Number on an FPC basis. This data is necessary to allocate unique Network ID (NID) to each MG/UNIT of the whole Fusion network nodes.
  • Page 84: Assignment Of Logical Rt In Network Dm (Ndm)

    DATA PROGRAMMING Assignment of Logical RT in Network DM (NDM) 4. Assignment of Logical RT in Network DM (NDM) 4.1 ALRTN/ARTKN Use this command to assign Logical Route Numbers to all external trunks used on a Fusion network. Assign unique telephone numbers to the whole route for external trunks on the network (including COT, DAT, Dummy Route, etc.) using this command.
  • Page 85: Assignment Of Numbering Data For Telephone Numbers

    DATA PROGRAMMING Assignment of Numbering Data for Telephone Numbers The ALRTN command display should look similar to Figure 5-13: DTI (PA-24DTR) Card ATTENTION Contents Static Sensitive N-OPE Handling SW4D SW5D Precautions Required O FF O FF OF F OF F SW6C O FF SW13B...
  • Page 86: Figure 5-15 Anpdn Sample Data Sheet

    DATA PROGRAMMING Assignment of Numbering Data for Telephone Numbers STEP 2: ANPDN Assign Pre-translation Data for the telephone numbers planned in Step 1 using the ANPDN command at NCN. Figure 5-15 shows the data setting for ANPDN. - ANPDN Data Sheet (example) Telephone Number - NCN (Node A) 4 x x x x x...
  • Page 87: Figure 5-17 Aspan Sample Data Sheet

    DATA PROGRAMMING Assignment of Numbering Data for Telephone Numbers STEP 3: ASPAN Assign special access code data for the telephone numbers using the ASPAN command. SRV=TELN is the data for telephone numbers. Figure 5-17 Figure 5-18 show a sample data sheet and command display for ASPAN.
  • Page 88: Assignment Of Telephone Numbers

    DATA PROGRAMMING Assignment of Telephone Numbers 6. Assignment of Telephone Numbers This section explains how to program telephone numbers. To program telephone numbers, use ALGSN command. A telephone number can be assigned to a station with the use of the LENs or the Physical Station Number depending on programming.
  • Page 89: Figure 5-20 Algsn Command Display (Example)

    DATA PROGRAMMING Assignment of Telephone Numbers ALGSN (Assignment of Telephone Station Data In Network) TYPE T e le p h o n e N u m b e r TELN 41000 LENS 000100 WRT? P h ysica l L E N S For Help, press F1 N U M ALGSN (Assignment of Telephone Station Data In Network)
  • Page 90: Assignment Of Connection Route/Trunk Data

    DATA PROGRAMMING Assignment of Telephone Numbers 6.1 Assignment of Connection Route/Trunk Data STEP 1: ACRD Using the ACRD command, assign the connection route data of Fusion link. The data must be assigned for both B-channel and D-channel. Assign appropriate data referring to Table 5-1.
  • Page 91: Table 5-1 Route Class Data Assignment

    DATA PROGRAMMING Assignment of Telephone Numbers Table 5-1 Route Class Data Assignment Node A Node B type B-channel D-channel B-channel D-channel Description C_RT: 10 C_RT: 11 C_RT: 12 C_RT: 13 Trunk Kind 3: Bothway (fixed) Trunk Class: 4 (fixed) Release Method: Assign 2-First Party Release.
  • Page 92 DATA PROGRAMMING Assignment of Telephone Numbers CDN 1: Trunk Kind 0-2: - 3: Bothway Trunk CDN 2: TCL (Trunk Class) 0-3: - 4: Fusion Trunk 5-31: - CDN 3: RLP (Release Pattern) 0: Calling Party Release 1: - 2: First Party Release 3: - CDN 4: SMDR (SMDR for station-to-station call)
  • Page 93 DATA PROGRAMMING Assignment of Telephone Numbers CDN 10: FPEG (Fusion Trunk Peg Count) Assign 0. CDN 11: TC (Timer Class) 0: - 1: 1 sec. 2: 2 sec. 3: 8 sec. 4: 20 sec. 5-7: - CDN 12: MTC (Miscellaneous Timer Counter) CDN 13: STSEQ (Status Enquiry) 0: -...
  • Page 94: When Fch Is Mounted In A Extended Density Slot

    DATA PROGRAMMING Assignment of Telephone Numbers STEP 2: ACTK Assign the connection trunk data of both B-channel and D-channel using the ACTK command. Assign the Connection Equipment Number (C_LENS) referring to Figure 5-23 through Figure 5-26. The ACTK command display should look similar to Figure 5-23.
  • Page 95: Table 5-2 Data Programming Sheet For Regular Density Slot

    DATA PROGRAMMING Assignment of Telephone Numbers Table 5-2 Data Programming Sheet for Regular Density Slot C_LENS C_RT C_TK(1-4095) Time Slot Allocation (1-1023) Example mounting slot Slot No. Group No. Dch (TK1) Bch (TK8) Bch (TK23) Bch (TK1) Bch (TK9) Extended Group 10 (B-ch) Dch (TK2) Specify Dch -TS by setting switch on FCH.
  • Page 96: When Fch Is Mounted In A High Density Slot

    DATA PROGRAMMING Assignment of Telephone Numbers 6.1.2 When FCH is Mounted in a High Density Slot If the FCH is to be mounted in the High Density Slot, the connection trunk data should be assigned as shown in Figure 5-25. Figure 5-25 shows when these cards are mounted in Slots 11 and 12.
  • Page 97: Figure 5-26 How To Assign C_Len Data (Type 2)

    DATA PROGRAMMING Assignment of Telephone Numbers When the DTI cards are mounted in a double density slot, the C_LEN data for the FCH and DTI cards are assigned as follows in Figure 5-26. Universal Slots Universal Slots 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 D TI 03 05 07 09 11 05 07...
  • Page 98: Table 5-3 Data Programming Sheet For High Density Slot

    DATA PROGRAMMING Assignment of Telephone Numbers Table 5-3 Data Programming Sheet for High Density Slot C_LENS C_RT C_TK Time Slot Allocation (1-1023) (1-4095) mounting slot Slot No. Group No. Dch (TK1) Bch (TK23) Bch (TK17) Dch (TK2) Bch (TK16) Bch (TK9) Bch (TK8) Bch (TK1) 10 (B-ch)
  • Page 99: Assignment Of Fch Related Data

    DATA PROGRAMMING Assignment of FCH Related Data STEP 3: MBCT Unbusy the connection trunk data assigned in the previous step using MBCT (Make Busy of Connection Trunk) command. This step is required for both B-channel and D-channel trunk. The MBCT command should look similar to Figure 5-27.
  • Page 100: Figure 5-28 Assignment Of Fch Number

    DATA PROGRAMMING Assignment of FCH Related Data Figure 5-28 shows a sample data assignment when FCH cards are located in the PIM 0 slot 4 and PIM 2 slot 11. Use "odd number" as the Group No. and "Level 0" for the FCHN. FCH card example 1 example 2...
  • Page 101: Figure 5-30 Afrt Sample Data Sheet

    DATA PROGRAMMING Assignment of FCH Related Data STEP 2: AFRT (FUSION with FCH only) Assign connection route numbers as shown below by using the AFRT command. FCHN = 1 Node A CNT = 1 C_RT : 10 Node B TRK 1 TRK 31 FCIC=1 FCIC=1...
  • Page 102: Figure 5-32

    DATA PROGRAMMING Assignment of FCH Related Data STEP 3: AFPC Assign routing data for Fusion link using the AFPC command. A maximum of 8 connection_routes and FCHN/FPCN can be assigned on a node basis. The list box labeled FCCH on the AFPC command determines the network configuration type between self-node and the intermediate node.
  • Page 103: Figure 5-34 Afpc Sample Data Sheet

    DATA PROGRAMMING Assignment of FCH Related Data This table show s a sam ple data sheet for N ode A on the fusion netw ork w ith FC H . A ssign the data for all nodes including the nodes w hich are not directly connected on the netw ork. (i.e.N ode C , N ode D ..) A FPC (at N ode A) - Fusion w ith FC H N ode B FP C 2(to N ode B ) FC C H 1(w ith FC H )
  • Page 104: Figure 5-35 Afpc/Aeth Sample Data Assignment

    DATA PROGRAMMING Assignment of FCH Related Data Note: When one Fusion Network take the configuration with FCH and without FCH together, it is necessary to assign the routing data using both AFPC and AETH command. An example data assignment is shown in Figure 5-35.
  • Page 105: Assignment Of Access Code For Tandem Connection Via Fccs - Acis

    DATA PROGRAMMING Assignment of FCH Related Data LC N LC N LC N N ode A N ode B LC N T R K 1 TR K 31 FC IC =1 F C IC = 1 T R K 3 T R K 32 N C N F C IC = 2...
  • Page 106: Ogc

    DATA PROGRAMMING Assignment of FCH Related Data .............
  • Page 107: Ogca

    DATA PROGRAMMING Assignment of FCH Related Data STEP 1: ANPDN/ANPDL Note Assign the first digit of the OGC access code. When the access code is common to all nodes, use the ANPDN command. When the access code is assigned for each node, use the ANPDL command. 1st DC=9 CI=N (Normal)NND=1 1st DC=9...
  • Page 108: Figure 5-40 Example Of Ogca

    DATA PROGRAMMING Assignment of FCH Related Data Node B Node C BUSY FCCS ..LGRT:100 ....STN (C) FCCS PSTN Station C dials 9-1-303-456-7890 LGRT:200 1-303-456-7890 Node A Figure 5-40 Example of OGCA STEP 1: ANPDN/ANPDL...
  • Page 109: Lcr/Lcrs

    DATA PROGRAMMING Assignment of FCH Related Data STEP 3: ANNDL/AMND Assign the necessary number of digits using the ANNDL or the AMND command depending on the route data. • When the ARTD command OSGS is 2 (Second Dial Tone), use the ANNDL (Necessary Digits Data) command.
  • Page 110 DATA PROGRAMMING Assignment of FCH Related Data STEP 1: ANPDN/ANPDL Note Assign the first digit of the LCR/LCRS access code. When the access code is common to all nodes, use the ANPDN command. When the access code is assigned for each node, use the ANPDL command.
  • Page 111 DATA PROGRAMMING Assignment of FCH Related Data STEP 5: ARTD/ARTDN Using ARTD, assign the following CDN data for the dummy route number. Note 1 CDN 6 (TCL)=1 or 4 (depending on requirement) CDN 7 (L/T)=1 CDN 13 (AC)=1 The other CDNs may be left default (data 0) for the dummy route. STEP 6: AFRSL/AFRSN Note 2 Using AFRSL, assign the Number Pattern Code (NPC) and the Outgoing Route Selection Pattern...
  • Page 112: Data Assignment For 52M-Sdh Interface

    DATA PROGRAMMING Assignment of FCH Related Data 7.2 Data Assignment for 52M-SDH Interface This section explains the Fusion Connection with 52M-SDH interface. Figure 5-42 explains the connection pattern. Fusion Link with FCCH F u s i o n Node-A Node-B Optical Fiber Cable SDTA SDTA...
  • Page 113: Data Programming

    DATA PROGRAMMING Assignment of FCH Related Data Specifications for the SDH data setting are described below. When FCCS and CCIS links are used together in the network, a different route number must be assigned to each Connection Trunk (B-ch), Connection link (D-ch), Speech Line for CCIS, and Signal Line for CCIS.
  • Page 114 DATA PROGRAMMING Assignment of FCH Related Data • Connection link (for Data) C_RT: 11 TCL=4 LSG=13 STEP 3: ACTK Assign the Connection Trunk data for B-ch and D-ch. Example: (When using 512kbps (8ch) TS as Connection link) • Connection trunk (B-ch) C_RT: 10 TK: 1-664 CLENS: LEN for the SDT...
  • Page 115: Flexible Routing - Fusion

    DATA PROGRAMMING Assignment of FCH Related Data STEP 9: ACAN Assign the CIC number to the connection trunk. FPC: 1 FCIC: 1-664 CLENS: LEN of the connection trunk STEP 10: AFCD Assign NAILED DOWN CONNECTION for the connection link established between FCCH and SDT.
  • Page 116: Figure 5-44 Fccs - Ccis Coexisting Network

    DATA PROGRAMMING Assignment of FCH Related Data The example data setting is shown using Figure 5-44, on condition that CCIS link data has already been assigned between FPC2 (PC2) and PC3 nodes. PC 3 FPC 1 PC 1 STN: 2000 FPC 2 Office Identification Code=75 PC 2...
  • Page 117 DATA PROGRAMMING Assignment of FCH Related Data STEP 4: AMND Assign MND (Maximum Necessary Digits) including the access code DC=752 MND=6 STEP 5: ARNPL Assign the access code to the logical route of speech path. It is not required to assign this data to the logical route of signal controlling channel and dummy route.
  • Page 118: Fccs Link Via Internet/Intranet

    DATA PROGRAMMING Assignment of FCH Related Data STEP 9: ADPCL Assign the destination PC (Point Code) on speech channel route (Logical Route) basis. LGRT=1 PC=3 STEP 10: ACSCL Assign the CSC Group Number (CSCG) for designating the Dch and the location of the CCH, in cooperation with the FPC of the node that is connected to CCIS link.
  • Page 119: Figure 5-45 External Router - Overview

    DATA PROGRAMMING Assignment of FCH Related Data FCCS signaling is exchanged via the Internet/Intranet. Node A Speech Data for Fusion Node B FCCS link F u s io n N e tw o rk Intern et/ Router Intran et Router Signaling data Figure 5-45 External Router - Overview Speech...
  • Page 120: Figure 5-47 Switch Setting On Fch/Fgh (Pa-Fcha) Card

    DATA PROGRAMMING Assignment of FCH Related Data Switch Setting on FCH/FGH Cards: Set the switches on the FCH/FGH (PA-FCHA) cards as shown below. ATTENTION Contents Static Sensitive Handling Precautions Required FCH/FGH (PA-FCHA) Card Set all the switches SW13-1~ 13-8 (ch16~ch23) on FCH/FGH cards to "ON".
  • Page 121: Figure 5-48 Connection Route Class Data Sample

    DATA PROGRAMMING Assignment of FCH Related Data C _ R T 1 0 S p e e ch Fusion Network Note 2 Sample Data Assignment Type Speech FCCH FCCH C _ R T 1 1 S ig n a l C _ R T 1 5 R O U T E R External LAN...
  • Page 122: Figure 5-49 Sample Data Assignment (Actk)

    DATA PROGRAMMING Assignment of FCH Related Data STEP 2: ACTK Assign the connection trunk data of DTI, FCH, and FGH cards, using the ACTK command. When assigning FCH, FGH trunk data, eight trunks must be set. A sample data assignment of FCH, FGH card is as follows.
  • Page 123: Figure 5-50 Sample Data Assignment (Afcd)

    DATA PROGRAMMING Assignment of FCH Related Data STEP 4: ASYD Assign the system data for nailed-down connection between FCH and FGH cards. SYS1, Index60, b4=1 (Nailed-down connection: In service) STEP 5: AFCD Assign the detailed data related to nailed-down connection between FCH and FGH cards. When FCH and FGH cards are mounted in slot05 and slot21 respectively (as show in Figure 5-49,...
  • Page 124: Figure 5-51 Assignment Of Fchn (Example)

    DATA PROGRAMMING Assignment of FCH Related Data STEP 6: AFCH Assign FCH number on an FCH circuit card basis. In the following example, FCHN=1 is assigned for the FCH circuit card. For the FGH card, FCHN assignment is not necessary. C _ R T 1 0 S p e e ch Fusion Network...
  • Page 125: Figure 5-52 Sample Data Assignment (Afpc)

    DATA PROGRAMMING Assignment of FCH Related Data CSLINK_NUM (Client /Server Connection Max. Number): Assign “16 line (default)”. STEP 8: AFPC Assign internal LAN routing data. FPC (Fusion Point Code): Assign FPC number (1-253) of the Destination Node. FCCH: Assign “1”. C_RT (Connection Router): 1-1023 FCHN/FPCN (FCH/FPC Number): Assign the FCH Number, specified in STEP 6.
  • Page 126: Figure 5-53 Figure 5-52 Sample Data Assignment (Aeth)

    DATA PROGRAMMING Assignment of FCH Related Data STEP 9: AETH Assign the external router routing data. FPC (Fusion Point Code): Assign FPC number (1-253) of the Destination Node. FCHN (FCH Number): Assign the FCH Number, specified in STEP 6. C_RT (Connection Route): 1-1023 DST_IP (Destination IP Address): Assign FGH IP address of the Destination Node.
  • Page 127: Fusion Over Ip

    DATA PROGRAMMING Assignment of FCH Related Data STEP 10: ACAN Assign the Fusion Connection Index Code (FCIC) for the Next Node. FPC (Fusion Point Code): Assign FPC number of the Next Node (Node to be passed to). FCIC (Fusion Connection Index Code): Assign Fusion CIC of the Next Node (Node to be passed to). C_LENS (Connection_LENS): Assign DTI LENS data (Bch data), specified in STEP 2.
  • Page 128: Figure 5-56 Fusion Over Ip - Overview

    DATA PROGRAMMING Assignment of FCH Related Data Fusion network is realized via the Internet/Intranet. Speech Internet/ POWER P OWE R Intranet Router Router Signaling Node A Node B Figure 5-56 Fusion over IP - Overview The following circuit cards are required for this feature. Speech Internet/ Intranet...
  • Page 129: Figure 5-58

    DATA PROGRAMMING Assignment of FCH Related Data Type speech Speech FCCH C_RT1 C_RT signaling SMDR C_RT14 ROUTER Q-sig 0(1) TRKS TC/EC FINT FPEG C_RT13 STSEQ to CPU LKIND This data setting is an example. Note: Figure 5-58 Sample Data Assignment (ACRD) STEP 2: ACTK Assign the connection trunk data of DTI, FCH, and FGH cards, using the ACTK command.
  • Page 130: Figure 5-60

    DATA PROGRAMMING Assignment of FCH Related Data STEP 3: MBCT Unbusy the connection trunk data assigned in the previous step, by using the MBCT command. This is required for FCH, FGH trunks as well as speech channels. STEP 4: AFCH Assign FCH number on an FCH circuit card basis.
  • Page 131: Figure 5-61

    DATA PROGRAMMING Assignment of FCH Related Data STEP 5: AETH Assign the FCCS routing data, when external router is used by specifying IP address. FPC (Fusion Point Code): Assign FPC number (1 - 253) of the Destination Node. FCHN (FCH Number): Assign the FCH Number, specified in STEP 4. C_RT (Connection Route): 1 - 1023 DST_IP (Destination IP Address): Assign FGH IP address of the Destination Node.
  • Page 132: Figure 5-63

    DATA PROGRAMMING Assignment of FCH Related Data STEP 6: ACAN Assign the Fusion Connection Index Code (FCIC) for the Next Node. FPC (Fusion Point Code): Assign FPC number of the Self-node. FCIC (Fusion Connection Index Code): Assign Fusion CIC of the Self-node. C_LENS (Connection_LENS): Assign DTI LENS data (Bch data), specified in STEP 2.
  • Page 133: Figure 5-65

    DATA PROGRAMMING Assignment of FCH Related Data STEP 8: AGIP Assign IP addresses of FGH card and its connected router. LENS (Line Equipment Number): Assign the LENs data of FGH card. KIND (Kind of Selection): Select “FGH”. FGH_IP (FGH IP Address): Assign IP address of the FGH card. DG_IP (Default Gateway IP Address): Assign IP address of the router.
  • Page 134: Figure 5-66 "Basic Lens Data" Assignment Of Speech Channels (Afip)

    DATA PROGRAMMING Assignment of FCH Related Data STEP 9: AFIP Assign the Fusion over IP data for controlling Speech Channels between PBX and router. FCHN (FCH Number): Assign FCHN specified in STEP 4. FGHEN (FGH Equipment Number): Assign LV0 data of FGH LENs. LENS (Equipment Number of Qsig-Prime B channel): Assign basic LENS of the Speech Channels.
  • Page 135 DATA PROGRAMMING Assignment of FCH Related Data STEP 11: AFCD Assign the detailed nailed-down connection data. LENS-A: Assign the LENS data of FCH card. EAD-A: Assign “0”. LENS-B: Assign the LENS data of FGH card. EAD-B: Assign “0”. Assign all the data for FCH/FGH LENS (LV0-LV7). Note: CHAPTER 5 NDA-24299...
  • Page 136: Office Data Sheets

    DATA PROGRAMMING Office Data Sheets 8. Office Data Sheets 8.1 Data Sheet for AFMUPL FUSION POINT CODE MODULE GROUP UNIT (FPC) (MG) REMARKS 1-253 NDA-24299 CHAPTER 5 Page 121 Revision 1.0...
  • Page 137: Data Sheet For Alrtn

    DATA PROGRAMMING Office Data Sheets 8.2 Data Sheet for ALRTN LOGICAL ROUTE FUSION POINT EXTERNAL ROUTE NUMBER CODE NUMBER REMARKS (LGRT) (FPC) (RT) 1-899 1-253 1-255 CHAPTER 5 NDA-24299 Page 122 Revision 1.0...
  • Page 138: Data Sheet For Anpd/Anpdl/Andpn

    DATA PROGRAMMING Office Data Sheets 8.3 Data Sheet for ANPD/ANPDL/ANDPN TENANT 1ST DIGIT CONNECTION STATUS INDEX BUSY LAMP FIELD NUMBER (1ST DC) (CI) (BLF) (TN) NDA-24299 CHAPTER 5 Page 123 Revision 1.0...
  • Page 139: Data Sheet For Aspa/Aspal

    DATA PROGRAMMING Office Data Sheets 8.4 Data Sheet for ASPA/ASPAL ANNOUNCEMENT ANNOUNCEMENT ACCESS CONNECTION TENANT KIND OF TENANT EQUIPMENT CODE STATUS NUMBER SERVICE NUMBER NUMBER REMARKS (ACC) INDEX (TN) (SRV) (TN) (EQP) MAX. 6 DIGITS (CI) 1/2 1-125 122-125 Normal Hooking Normal Hooking...
  • Page 140: Data Sheet For Algnl

    DATA PROGRAMMING Office Data Sheets 8.5 Data Sheet for ALGNL LOGICAL STATION NUMBER USER GROUP NUMBER (LSTN) REMARKS (UGN) MAX. 16 DIGITS NDA-24299 CHAPTER 5 Page 125 Revision 1.0...
  • Page 141: Data Sheet For Algsl (Type1)

    DATA PROGRAMMING Office Data Sheets 8.6 Data Sheet for ALGSL (TYPE1) TYPE LSTN LENS REMARKS CHAPTER 5 NDA-24299 Page 126 Revision 1.0...
  • Page 142: Data Sheet For Algsl (Type2)

    DATA PROGRAMMING Office Data Sheets 8.7 Data Sheet for ALGSL (TYPE2) TYPE LSTN LENS REMARKS NDA-24299 CHAPTER 5 Page 127 Revision 1.0...
  • Page 143: Data Sheet For Asdt

    DATA PROGRAMMING Office Data Sheets 8.8 Data Sheet for ASDT LINE EQUIPMENT TELEPHONE ROUTE SERVICE TENANT STATION NUMBER EQUIPMENT RESTRICTION FEATURE NUMBER NUMBER (LENS) CLASS CLASS CLASS REMARKS (TN) (STN) (TEC) (RSC) (SFC) 1-31 0-15 0-15 CHAPTER 5 NDA-24299 Page 128 Revision 1.0...
  • Page 144: Data Sheet For Acrd

    DATA PROGRAMMING Office Data Sheets 8.9 Data Sheet for ACRD CONNECTION RT No. (C_RT) 1-1023 FUNCTION (FUNC) TF - Type of Trunk 0-2 = Bothway Trunk (BWT) TCL - Trunk Class (Fixed “4”) 0-3 = - 4 = Fusion Trunk 5-31 = - RLP - Trunk Release Pattern (Fixed “2”)
  • Page 145 DATA PROGRAMMING Office Data Sheets CONNECTION RT No. (C_RT) 1-1023 FUNCTION (FUNC) FPEG - Fusion-PEG (Fixed “0”) 0 = Nothing of FUSION-PEG 1 = Exist of FUSION-PEG TC - Timer Class (Fixed “0”) 1 = 1 sec. 2 = 2 sec. 3 = 8 sec.
  • Page 146: Data Sheet For Actk

    DATA PROGRAMMING Office Data Sheets 8.10 Data Sheet for ACTK CONNECTION ROUTE CONNECTION TRUNK CONNECTION EQUIPMENT NUMBER NUMBER NUMBER REMARKS (C_RT) (C_TK) (C_LENS) 1-1023 1-4095 NDA-24299 CHAPTER 5 Page 131 Revision 1.0...
  • Page 147: Data Sheet For Afch

    DATA PROGRAMMING Office Data Sheets 8.11 Data Sheet for AFCH FCCH NUMBER LENS OF FCCH (FCHEN) (FCHN) REMARKS 1-255 CHAPTER 5 NDA-24299 Page 132 Revision 1.0...
  • Page 148 DATA PROGRAMMING Office Data Sheets FCCH NUMBER LENS OF FCCH (FCHEN) (FCHN) REMARKS 1-255 NDA-24299 CHAPTER 5 Page 133 Revision 1.0...
  • Page 149: Data Sheet For Afpc

    DATA PROGRAMMING Office Data Sheets 8.12 Data Sheet for AFPC FUSION POINT CODE FCCH USE OR GATEWAY FUNCTION PRIORITY ROUTE (FPC) NOT USE (FCCH) USE (USE GATE) (P_ROUTE) 1-253 Note CONNECTION ROUTE (C_RT) 1-1023 FCCH NUMBER/FUSION POINT CODE NUMBER (FCHN/FPCN) 1-255/1-253 FUSION POINT CODE FCCH USE OR GATEWAY FUNCTION...
  • Page 150 DATA PROGRAMMING Office Data Sheets FUSION POINT CODE FCCH USE OR GATEWAY FUNCTION PRIORITY ROUTE (FPC) NOT USE (FCCH) USE (USE GATE) (P_ROUTE) 1-253 Note CONNECTION ROUTE (C_RT) 1-1023 FCCH NUMBER/FUSION POINT CODE NUMBER (FCHN/FPCN) 1-255/1-253 NDA-24299 CHAPTER 5 Page 135 Revision 1.0...
  • Page 151: Data Sheet For Acan

    DATA PROGRAMMING Office Data Sheets 8.13 Data Sheet for ACAN FUSION POINT CODE FUSION CIC NUMBER CONNECTION EQUIPMENT (FPC) (FCIC) NUMBER REMARKS 1-253 1-4095 (C_LENS) CHAPTER 5 NDA-24299 Page 136 Revision 1.0...
  • Page 152: Data Sheet For Afrt

    DATA PROGRAMMING Office Data Sheets 8.14 Data Sheet for AFRT FCCH NUMBER CONNECTION ROUTE (C_RT) 1-1023 (FCHN) 1-255 NDA-24299 CHAPTER 5 Page 137 Revision 1.0...
  • Page 153: Data Sheet For Afrfl

    DATA PROGRAMMING Office Data Sheets 8.15 Data Sheet for AFRFL FPC (1-253) MAX. 24 digits CHAPTER 5 NDA-24299 Page 138 Revision 1.0...
  • Page 154: Data Sheet For Aeth

    DATA PROGRAMMING Office Data Sheets 8.16 Data Sheet for AETH DESTINATION GATEWAY FCCH CONNECTION DESTINATION NEXT IP USING FLAG NUMBER ROUTE IP ADDRESS ADDRESS (FPC) (USE_GATE) (FCHN) (C_RT) (DST_IP) (NEXT_IP) 1-253 0/1 Note 1-255 1-1023 “USE_GATE” data is automatically set and this parameter won’t appear on the MAT display. Note: NDA-24299 CHAPTER 5...
  • Page 155: Data Sheet For Agip

    DATA PROGRAMMING Office Data Sheets 8.17 Data Sheet for AGIP a.) When “KIND=FGH” is selected VOICE LINE IP ADDRESS FRAME CLIENT/ CHANNEL QSIG-PRIME KIND OF EQUIPMENT FGH IP TYPE SERVER CONTROL LINK NUMBER SELECTION NUMBER OF ADDRESS DEFAULT CONNECTION MASK TYPE (LINK_NUM) (KIND)
  • Page 156 DATA PROGRAMMING Office Data Sheets b.) When “KIND=IPTRK (CCIS/FCCS)” is selected (Continued) LINE IP ADDRESS FRAME THE MAXIMUM THE MAXIMUM KIND OF EQUIPMENT IPTRK IP FOR DEFAULT TYPE OF LINK NUMBER LINK NUMBER SELECTION NUMBER OF ADDRESS GATEWAY OF CLIENT OF SERVER (KIND) IPTRK...
  • Page 157 DATA PROGRAMMING Office Data Sheets b.) When “KIND=IPTRK (CCIS/FCCS)” is selected (Continued) IP ADDRESS QoS DATA FOR QoS DATA FOR NETWORK KIND OF MULT NET MASK SIGNAL ROUTE SPEECH PATH CONNECTION DESTINATION (NETMSK) (QoS 1) (QoS 2) (NETID) (MULT) IPTRUK 0-15 (DST_IP) CHAPTER 5...
  • Page 158: Data Sheet For Afip

    DATA PROGRAMMING Office Data Sheets 8.18 Data Sheet for AFIP LINE EQUIPMENT LINE EQUIPMENT NUMBER OF ROUTER ACCESS NUMBER NUMBER OF FGH QSIG-PRIME Bch NUMBER (RT_ACC) (FGHEN) (LENS) (FCHN) Max. 16 digits NDA-24299 CHAPTER 5 Page 143 Revision 1.0...
  • Page 159 DATA PROGRAMMING Office Data Sheets This page is for your notes. CHAPTER 5 NDA-24299 Page 144 Revision 1.0...
  • Page 160: Chapter 6 Post Installation Test

    CHAPTER 6 POST INSTALLATION TEST This chapter covers how to perform installation tests focusing on the Fusion Call Control Signal (denoted in the remainder of this manual as FCCS) connections, after hardware installation and data assignment. This chapter describes the following tests: •...
  • Page 161: How To Check Lyr Led

    POST INSTALLATION TEST Repair Procedure When LED Indicates Abnormality 1.1 How to check LYR LED Confirm the LYR LED lights green on the front edge of the FCH (PA-FCHA) circuit card. (See “LED Indication (A)” in Figure 6-2.) When the LED lights green, the fusion link is established. Make sure that any alarm LED is not ON (red/yellow).
  • Page 162: Front Cable

    POST INSTALLATION TEST Repair Procedure When LED Indicates Abnormality 2.1 Front Cable Make sure that front cable 10AL (10) FLT CA is securely inserted into the connectors. • FCH (PA-FCHA) switch setting Make sure that the following keys are set properly: •...
  • Page 163: Loopback Point Designation

    POST INSTALLATION TEST Repair Procedure When LED Indicates Abnormality 2.2.2 Loopback Point Designation The DTI card can be set at one of the following loopback points: 1. Internal Loopback All 24 B-channels sent from the TSW are looped back to the TSW at Interface on the card. At this time, the adjacent node detects AIS signals.
  • Page 164: Figure 6-5 How To Set The Fusion Link Test Mode

    POST INSTALLATION TEST Repair Procedure When LED Indicates Abnormality (1) C hange the m ode sw itch (8 (2) Initialize the F C H card. F C H card D T I F C H FCHA 24DTR M ode Switch 8: standard setting ATTEN TIO N Contents...
  • Page 165: Fccs Network Connection Test

    POST INSTALLATION TEST FCCS Network Connection Test Make sure that the LYR LED flashes at 60-INT. FCH (PA-FCHA) card When the result of test is OK, the LYR LED flashes. Flash M N T EST3 Send Remains ON Receive Polarity of M o de when available EST2...
  • Page 166: Fccs Call Termination Test

    POST INSTALLATION TEST FCCS Network Connection Test STEP 3: Dial a telephone number (STN B) that belongs to another node. STEP 4: The call terminates on STN B. STEP 5: Confirm the speech condition is sufficient (no noise, not one-way speech, etc.). STEP 6: Replace the handset of STN A.
  • Page 167: Attcon Call Origination Test

    POST INSTALLATION TEST FCCS Network Connection Test 3.2.1 ATTCON Call Origination Test Check STEP 1: Dial the operator access code (normally “0”), from STN A in Node A. STEP 2: Confirm that the ATT lamp flashes and ringer sounds at each ATTCON in Node B. STEP 3: Answer the call by pressing the ATND key.
  • Page 168: Line Origination Test: Confirmation Of Physical/Telephone Stn Number

    POST INSTALLATION TEST FCCS Network Connection Test 3.3.1 Line Origination Test: Confirmation of Physical/Telephone STN Number Check STEP 1: Connect the line circuit card to be tested to a telephone set in Node A (self-Node). STEP 2: Lift the handset of STN A and confirm dial tone. term STEP 3: Place a call to an ATTCON or D in Node B.
  • Page 169: Fccs Alternate Routing Test

    POST INSTALLATION TEST FCCS Network Connection Test STEP 1: Using the MBTK Command, make busy all 3-party Conference Trunk (CFTs) except the trunk to be tested. Check STEP 2: Establish a station-to-station connection between STNs A and B in self-node (Node A). STEP 3: STN A goes to Switch Hook Flash (SHF), and after hearing special dial tone, dials the telephone number of STN C in other node (Node B).
  • Page 170: Alternate Route Trunk Test

    POST INSTALLATION TEST Fusion and Non-Fusion Connection Tests STEP 2: Lift the handset of STN A in self-node (Node A). STEP 3: Dial the telephone number of STN B that belongs to other node (STN B). STEP 4: Confirm the speech condition is sufficient (no noise, not one-way speech, etc.). STEP 5: Replace the handset of STN A.
  • Page 171: When Seizing A Trunk From An Attcon

    POST INSTALLATION TEST Fusion and Non-Fusion Connection Tests STEP 2: Station A in self-node (Node A) dials the Physical Station Number for Station B in Node C. STEP 3: The call terminates to Station B via FCCS and non-FCCS. STEP 4: Confirm the speech condition is sufficient (no noise, not one-way speech, etc.). STEP 5: Replace the handset of STN A.
  • Page 172: Sdt Card Loopback Test

    Loopback tests are performed between different nodes. The result of this test can be confirmed not at the self-node, but at the distant node. Figure 6-14 illustrates the loopback points of the SDT card. Self Node Distant Node NEAX 2400 IPX Local Remote NEAX 2400 IPX Loopback Loopback...
  • Page 173 POST INSTALLATION TEST SDT Card Loopback Test STEP 2: Make sure that the “LPB” lamp on the PA-SDTA card, or the “SYCxx” lamp on the PA-SDTB card lights steady-green. STEP 2.5: When the loopback pattern is “local loopback,” confirm that the “OPT” and “SYNC” lamps are both OFF on the PA-SDTA card.
  • Page 174: Chapter 7 Troubleshooting

    CHAPTER 7 TROUBLESHOOTING This chapter explains the Fusion-related system messages that may be displayed, together with procedures on how to repair the indicated failure. If the message is displayed, follow the procedure described in each system message. For more information on the other system messages, see the NEAX2400 IPX System Operations and Maintenance Manual.
  • Page 175: B Pm C-Level Infinite Loop (Permanent)

    TROUBLESHOOTING 3-B PM C-level Infinite Loop (Permanent) Figure 7-1 shows a sample system configuration. The number of cards and cables may vary depending on the system. TOPU : 10 B A S E -T cable : Front C able FC H D TI S yste m M e ssa ge PIM 1...
  • Page 176: Repair Procedure

    TROUBLESHOOTING 3-B PM C-level Infinite Loop (Permanent) 2.1 Repair Procedure STEP 1: Initialize the indicated FCH (PA-FCHA) card using the MB key. (MB key: Down Down). Refer to Figure 7-3. When the LED on the FCH card lights green and the related system messages are not displayed, monitor the system for a while.
  • Page 177: Figure 7-4 How To Replace The Fch (Pa-Fcha) Card

    TROUBLESHOOTING 3-B PM C-level Infinite Loop (Permanent) [H ow to R eplace FC H card] 1) Provide the anti-static kit. 2) Turn O N the M N T 3 sw itch. (m ake-busy-request) ATTENTIO N 3) M ake sure that system m essage (23-W ) "FC H Alternate R outing (S tart)" Contents Static Sensitive Handling...
  • Page 178: C Pm C-Level Infinite Loop (Temporary)

    TROUBLESHOOTING 3-C PM C-level Infinite Loop (Temporary) 3. 3-C PM C-level Infinite Loop (Temporary) This message is displayed when the C-level program has been detected as abnormal by the Port Microprocessor (PM) mounted on the FCH (PA-FCHA) card. In this instance, the system performs an appropriate restart (B-monitor/Initial restart) according to the frequency of the failures.
  • Page 179: Repair Procedure

    TROUBLESHOOTING 3-E PM Lockup Failure (Temporary) 4.1 Repair Procedure STEP 1: Make sure that station-to-station connections can be established in the PIM containing the indicated FCH (PA-FCHA) card. If the station-to-station connections cannot be established, the PIM is faulty. Repair the PIM. Otherwise, move to STEP 2.
  • Page 180: H/I/J Signaling Link Failure (Permanent)/(Temporary)/(Recovery)

    TROUBLESHOOTING 13-H/I/J Signaling Link Failure (Permanent)/(Temporary)/(Recovery) 6. 13-H/I/J Signaling Link Failure (Permanent)/(Temporary)/(Recovery) Figure 7-8 illustrates the message that is displayed when the Fusion link (D-ch) has a failure. If the failure occurs frequently, the system displays 13-H Signaling Link Failure (Permanent). The shaded area Figure 7-9 explains this message.
  • Page 181: Repair Procedure

    TROUBLESHOOTING 13-H/I/J Signaling Link Failure (Permanent)/(Temporary)/(Recovery) 6.1 Repair Procedure • 13-H (Permanent) STEP 1: Make sure that the front cable is securely inserted. See Figure 7-10. Firm ly insert the connector on the front edge of the indicated F C H card. D TI (PA -24D TR ) ATTENTIO N FC H (P A-FC H A )
  • Page 182: S Fch Failure Notification (Detection)

    TROUBLESHOOTING 23-S FCH Failure Notification (Detection) STEP 4: Initialize the indicated FCH (PA-FCHA) card using the MB key. (MB key: Down → Up → Down) Figure 7-3. When the LED on the FCH card lights green and the related system messages are not displayed any more, monitor the system for a while.
  • Page 183: Figure 7-11 23-S Fch Failure Notification

    TROUBLESHOOTING 23-S FCH Failure Notification (Detection) * Connection Failure, see the next page. 1. xx0x xxxx xxxx xxxx 2. xxxx xxxx xxxx xxxx..FLTINF2: Fault Information2 Note 2 FLTINF2 FLTINF: Fault Information Note 1 FLTINF Circuit Number of FCH (0 - 7) FCH Mounting Location MG: Module Group FCH CKT No.
  • Page 184 TROUBLESHOOTING 23-S FCH Failure Notification (Detection) F LT IN F =03 H is indicate d; 1. xx0x xxxx xxxx xxxx 2. xxxx xxxx xxxx xxxx ..Note 1 F ault D eta il Note 2 Id entification F au lty S id e Inform ation 0 1=N o t de term ined 0 2=S ou rce side 0 3=D e stin ation side...
  • Page 185: Repair Procedure

    TROUBLESHOOTING 23-S FCH Failure Notification (Detection) 7.1 Repair Procedure STEP 1: Make sure that the related Ethernet cables are securely inserted into the connectors. See Figure 7-12. If not, securely insert the cable and confirm whether System Message 23-T FCH Fault Recovery Notification is displayed as the result of cable insertion.
  • Page 186 TROUBLESHOOTING 23-S FCH Failure Notification (Detection) H U B -H U B C ab le C o nn e ctio n T es t 1 ) Tu rn O N th e M N T sw itch o f t h e F C H car ds whic h a r e co nnect e d to th e b o th H U B card s.
  • Page 187: Figure 7-14 How To Replace Hub (Pa-M96) Card

    TROUBLESHOOTING 23-S FCH Failure Notification (Detection) D TI (P A -24D TR ) FC H (P A -FC H A ) ATTENTION H U B (P A -M 96) Contents Static Sensitive M N T 3 Handling H U B (P A -M 96) Precautions Required W hen this M B key is set in up po sitio n (M ake-busy), all 10 B A S E -T interfaces...
  • Page 188: T Fch Fault Notification (Recovery)

    TROUBLESHOOTING 23-T FCH Fault Notification (Recovery) 8. 23-T FCH Fault Notification (Recovery) This message is displayed when the FCH (PA-FCHA) card which was detected as faulty is recovered. The message is displayed in the following format. * See the next page for this information. 1.
  • Page 189: U Fch Status Information

    TROUBLESHOOTING 23-U FCH Status Information LT IN F = 03H is indicated; 1. xx0x xxxx xxxx xxxx 2. xxxx xxxx xxxx 0000 ..N ote R ecovery S ide Inform ation 01= N ot determ ined 02= S ource side 03= D estination side 2 B ytes R ecovery P ort N o.
  • Page 190: Fltinf = 00H Initial Setting Failure

    TROUBLESHOOTING 23-U FCH Status Information 1. xx0x xxxx xxxx xxxx 2. xxxx xxxx xxxx xxxx..Note 1 FLTINF: Fault Information DATA* Circuit Number of FCH (0 - 7) FCH Mounting Location DATA* MG: Module Group (0/1) * The contents vary depending on FLTINF. U: Unit (0-3) G: Group (00-23) FLTINF...
  • Page 191: Fltinf = 18H Spanning Tree Abnormal Answer

    TROUBLESHOOTING 23-U FCH Status Information "In itia l S etting F ailure " 1. xx 0 x 00 xx xx xx xx xx 2. xx xx xx xx 0000 0000..6 B ytes M AC Address of FC H O ther R esults: 00H = N orm al O ther R esults E TH ER R esults: See below .
  • Page 192: Figure 7-18 23-U Fcch Status Notification - Spanning Tree Abnormal Answer

    TROUBLESHOOTING 23-U FCH Status Information "S p a nn in g T re e A b n o rm a l A n sw e r" 1. xx 0x 18 xx xx xx xx xx 2. xx xx xx xx xx xx xx x x 3 .
  • Page 193: Repair Procedure

    TROUBLESHOOTING 23-U FCH Status Information 9.2.1 Repair Procedure A Fusion Point Code (FPC) is assigned with the AFPC command. If any FPC data has not been assigned properly, the Spanning Tree Abnormal Answer message in Figure 7-19 is displayed. Make sure that the indicated FPC data is properly assigned.
  • Page 194: Fltinf = 1Eh Spanning Tree Generation End

    TROUBLESHOOTING 23-U FCH Status Information "ETHER Transfer Failure" 1. xx 0x 1D xx xx xx xx xx 2. xx xx xx xx xx xx xx xx 3. xx xx xx xx xx xx xx xx 4. xx xx xx xx xx xx xx xx 5.
  • Page 195: Fltinf = 1Fh Spanning Tree Generation Start

    "Spanning Tree Generation End" 1. xx 0x 1E xx xx xx xx xx 2. xx xx xx xx xx xx xx xx 3. xx xx xx xx xx xx xx xx 4. xx xx xx xx xx xx xx xx 5.
  • Page 196: Fltinf = 85H Checksum Verification Failure

    TROUBLESHOOTING 23-U FCH Status Information "Spanning Tree Generation Start" 1. xx 0x 1F xx 00 00 00 00 2. 00 00 00 00 00 00 00 00..Spanning Tree Generation Start: 00H = Normal FLTINF: 1FH = Spanning Tree Generation Start TRC: Trace Confirmation Bit (0/1 = Status Notification / Primitive Trace) RS: Receive / Send Primitive Trace (not effective)
  • Page 197: W Fch Alternate Routing Start Notification

    TROUBLESHOOTING 23-W FCH Alternate Routing Start Notification 10. 23-W FCH Alternate Routing Start Notification Figure 7-24 illustrates the message that is displayed when the indicated FCH card of self-Node becomes inoperative. This message is also displayed when the card is placed in make-busy status by MNT 3 switch operation or when the FCH of the adjacent node becomes inoperative.

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