Summary of Contents for Hypercom IEN 1000
- Page 1 I n t e g r a t e d E n t e r p r i s e N e t w o r k Hardware Reference Version 1.5 940043-002...
- Page 2 Every effort has been made to supply complete and accurate information. However, Hypercom assumes no responsibility for its use, nor any infringement of the intellectual property rights of third parties which would result from such use.
- Page 3 Increasing the distance between the receiver and the Hypercom equipment. Connecting the device to an outlet on a circuit different from that to which the receiver is connected. Repair work on these devices must be done only by Hypercom, Inc., or a Hypercom authorized repair station.
-
Page 5: Table Of Contents
Chapter 5 - System Configuration ........1-3 Chapter 6 - IEN 1000 Configuration ....... 1-3 CHAPTER 2 C . - Page 6 TABLE OF CONTENTS Bus Architecture ........... . . 2-21 High-Speed Bus .
- Page 7 IEN 1000 ........
- Page 8 TABLE OF CONTENTS Type B ........... . . 4-13 Type D .
- Page 9 IEN 1000 Configuration ........
- Page 10 TABLE OF CONTENTS IEN HARDWARE REFERENCE 940043-002...
- Page 11 C H A P T E R I n t r o d u c t i o n I n T h i s C h a p t e r IEN Hardware Reference..........1-3...
-
Page 13: Chapter 1 Introduction
Chapter 2 - Chassis This chapter describes the Hypercom solutions for network switches/routers. This chapter describes the IEN 1000, IEN 2000, IEN 3000, IEN 4000, and IEN 5000 chassis. Chapter 3 - Port Processors and Modules This chapter describes the Hypercom port processors and modules. It includes block diagrams, bus communications, and jumper settings. - Page 14 CHAPTER 1 IEN HARDWARE REFERENCE 940043-002...
-
Page 15: Chassis Specifications
IEN 1000........ - Page 17 CHASSIS HASSIS PECIFICATIONS Table 2-1 lists the Hypercom IEN chassis specifications. AC (90-130 or 185-255 VAC 20VA 35VA 35VA 125VA 140VA 48-400Hz) DC 43-56 VDC 110W Little fuse Part 218025 218025 218025 216004 218005 Number/ Rating 2.5A 250V 2.5A 250V 2.5A 250V...
- Page 18 CHAPTER 2 AFETY RECAUTIONS This section describes the safety precautions necessary to install the Hypercom IEN series products. Electrical Safety: Observe all normal electrical safety practices when operating CAUTION: any equipment attached to an active power source. Authorized Service: Covers or ground connections must be removed by a Hypercom authorized service technician.
-
Page 19: Ien 1000
CHASSIS IEN 1000 The IEN 1000 chassis supports one WAN and one serial port. The IEN 1000 chassis can function as a simple bridge, bridge-router, or access device for a downstream controller or terminal (SDLC, Bisync). Due to its design flexibility, the IEN 1000 chassis can have three... -
Page 20: Front Panel
CHAPTER 2 Front Panel The IEN 1000 chassis is a single port frame relay access device (FRAD) controller capable of interfacing with multiple protocols. Each interface status is presented on the front panel in the form of LED indicators and a two-line by 20-character display. Figure 2-1 illustrates the front panel of the IEN 1000 chassis. -
Page 21: Rear Panel
CHASSIS Rear Panel The rear panel of the IEN 1000 chassis contains connections for a standard default configuration. Additional interface connections are provided with each add-on component. Figure 2-2 IEN 1000 Rear Panel The HUB expansion consists of one DB15 connector used for Ring In and Ring Out Expansion connections when the UTP MAU is installed. -
Page 22: Ien 2000
CHAPTER 2 IEN 2000 The IEN 2000 is a two-slot chassis capable of running multiple Hypercom port processors. The IEN 2000 chassis is typically used at a branch office providing support for two port processors or can be bus connected with up to three additional IEN 2000 chassis for four, six, or eight-slot configurations. -
Page 23: Rear Panel
IEN 2000 with up to three additional IEN 2000 chassis. Up to four IEN 2000 chassis can be bus connected using a Hypercom Type HB2 cable. Two chassis are connected by inserting a Type HB2 cable into the OUT port of the first chassis and into the IN bus expansion port of the second chassis. -
Page 24: Ien 3000
The IEN 3000 chassis is a six-slot chassis capable of running each Hypercom port processor. The IEN 3000 chassis is typically used at large remote sites that exceed the capacity or functions supported by the IEN 1000 chassis. As a stand-alone unit, the IEN 3000 chassis can perform as a powerful multiprotocol router. -
Page 25: Backplane
CHASSIS Backplane The IEN 3000 chassis supports six port processors. The card cage also contains the power supplies. Figure 2-6 illustrates the backplane of the IEN 3000 chassis. Figure 2-6 IEN 3000 Backplane The backplane contains the port processor connectors, bus circuitry, and power connections. -
Page 26: Rear Panel
Refer to Chapter 4, Cable Specifications & Adapters for more information about specific cabling parameters. The six RJ11 LAN connectors are used only with the Hypercom RS485 terminal LAN. The six RJ11 line connectors are used with adapter interfaces or cables to support media in addition to the standard RJ11 dial capability. -
Page 27: Ien 4000
CHASSIS IEN 4000 The IEN 4000 is an eight-slot, branch or regional concentrator chassis. Each IEN 4000 chassis supports a maximum of eight port processors. The chassis can be bus connected with up to two additional IEN 4000 chassis for a 16, 24, or 32-slot configuration. The IEN 4000 chassis uses hot swappable 110/220VAC auto sensing power supplies. -
Page 28: Front Panel
CHAPTER 2 Front Panel The front panel of the IEN 4000 chassis contains the status indicator nomenclature for each port and power supplies. Refer to Chapter 3, Port Processors for more information about status indicators. Figure 2-8 illustrates the front panel of the IEN 4000 chassis. Figure 2-8 IEN 4000 Front Panel SBUS The Standard Bus Transmit is an LED indicator that indicates the unit is transmitting data to... -
Page 29: Rear Panel
CHASSIS Rear Panel The rear panel of the IEN 4000 chassis contains the cabling connectors. Figure 2-9 illustrates the rear panel of the IEN 4000 chassis. IEN 4000 Rear Panel Figure 2-9 The eight DB25 connectors are used with adapter interfaces or cables to support media, such as RS232, V.35, Thinnet or AUI Ethernet, and analog voice. -
Page 30: Power Supply
CHAPTER 2 Power Supply The IEN 4000 contains two removable power supplies that are hot swappable, are user serviceable, supplies redundant backplane clock, supplies universal AC input, and supplies 110/220V auto sensing. The status LEDs on the front of the power supply indicate the proper power output. -
Page 31: Ien 5000
The IEN 5000 chassis has sixteen full-function slots labeled 0 through 15, that are capable of running each Hypercom port processor. A seventeenth slot, labeled C, is thinner than slots 0 through 15 and does not access the high-speed bus. The C slot is used by port processors that do not have modules attached, do not require an RJ11 port, and do not require access to the high-speed bus. -
Page 32: Front Panel
CHAPTER 2 Front Panel The front panel of the IEN 5000 chassis contains the status indicator nomenclature for each port. Refer to Chapter 3, Port Processors/Modules for more information about status display indicators. Figure 2-12 illustrates the front panel of the IEN 5000 chassis. Figure 2-12 IEN 5000 Front Panel The Request to Send (RTS) is an LED indicator that indicates the unit is transmitting data to the standard packet bus. -
Page 33: Backplane
CHASSIS Backplane The IEN 5000 chassis supports sixteen full-width and one half-width port processors for a total of seventeen slots. Figure 2-13 illustrates the backplane of the IEN 5000 chassis. Figure 2-13 IEN 5000 Backplane The backplane contains the port processor connectors, bus circuitry, and power connections. -
Page 34: Rear Panel
CHAPTER 2 Rear Panel The rear panel of the IEN 5000 chassis contains the cabling connectors. There are seventeen DB25 connectors, labeled 0 through 15 and CPC. The CPC connector corresponds to slot C. There are sixteen RJ11 connectors, labeled 0 through 15. Figure 2-14 illustrates the rear panel of the IEN 5000 chassis. -
Page 35: Bus Architecture
Figure 2-16 High-Speed Bus The high-speed bus is used by the Hypercom second generation port processors, LET61, LTR61, CID61, and CID63 port processors. These second generation port processors use the Motorola 68340 or 68302 microprocessors. Refer to Chapter 3, Port Processors/ Modules for more information about these, and other Hypercom port processors. -
Page 36: Standard Bus
CHAPTER 2 The 32-bit port processor communicate on both the high-speed bus and standard packet bus. Should there be a failure on the high-speed bus, the 32-bit port processor automatically revert to the standard bus and notify IENView. If a port processor is removed or powered off, the other port processors detect this state, and an alarm is transmitted to IENView. -
Page 37: Tdm Bus
The IEN 2000, IEN 3000, IEN 4000 and IEN 5000 chassis can terminate up to four T1/E1s. The TDM bus is accessible by the DTC11, CID61, CID63, and DLA14 port processors. Refer to Chapter 3, Port Processors/Modules for more information about these, and other Hypercom port processors. 940043-002 INTEGRATED ENTERPRISE NETWORK... -
Page 38: Chassis Port Pinouts
Refer to Chapter 3, Port Processors/Modules for more information about a specific port processor. Refer to page 2-5, IEN 1000 for more information about the IEN 1000 chassis specifications. Refer to page 2-8, IEN 2000 for more information about the IEN 2000 chassis specifications. -
Page 39: 2-Wire E&M
CHASSIS 2-Wire E&M Table 2-3 lists the RJ11 pin assignments for a 2-Wire E&M physical interface. 2-Wire E&M Pin Assignment Signal Battery Mouth Ring Telco Ground Table 2-3 RJ11 2-Wire E&M Dial/Leased Line Table 2-4 lists the RJ11 pin assignments for a dial or leased line physical interface. Dial/Lease Line Pin Assignment Receive Ring (4-wire only) Receive TIP (4-wire only) -
Page 40: 10Base-T
CHAPTER 2 10Base-T Table 2-5 lists the RJ11 pin assignments for a 10Base-T physical interface. 10Base-T Pin Assignment Transmit Positive Transmit Negative Receive Positive Pin not used Pin not used Receive Negative Table 2-5 RJ11 10Base-T Token Ring UTP Table 2-6 lists the RJ11 pin assignments for a Token Ring UTP (Unshielded Twisted Pair) physical interface. -
Page 41: Rs485 Lan
CHASSIS RS485 LAN Table 2-7 lists the RJ11 pin assignments for an RS485 LAN physical interface. RS485 Pin Assignment Pin not used LAN Positive LAN+ Frame Ground Pin not used LAN Negative LAN- Pin not used Table 2-7 RJ11 RS485 LAN Note: The RS485 LAN interface is used only by the IEN 3000 chassis. - Page 42 CHAPTER 2 V.35 Table 2-8 lists the DB25 pin assignments for a V.35 physical interface. V.35 Pin Assignment Frame Ground Pin not used Pin not used Request To Send Clear To Send Data Set Ready Signal Ground Data Carrier Detect Transmit Clock B TC-B Receive Clock B...
-
Page 43: V.24 Rs232C
CHASSIS V.24 RS232C Table 2-9 lists the DB25 pin assignments for a V.24 RS232C physical interface. V.24 RS232C Pin Assignment Frame Ground Transmit Data Receive Data Request To Send Clear To Send Data Set Ready Signal Ground Data Carrier Detect Pin not used Pin not used Pin not used... -
Page 44: 10Base-2 Lan
CHAPTER 2 10Base-2 LAN Table 2-10 lists the DB25 pin assignments for a 10Base-2 LAN physical interface. 10Base-2 LAN Pin Assignment Frame Ground Pin not used Pin not used Pin not used Pin not used Pin not used Signal Ground Pin not used Receive Positive Positive Five volts... -
Page 45: Token Ring Stp
CHASSIS Token Ring STP Table 2-11 lists the DB25 pin assignments for a Token Ring STP physical interface. TR STP Pin Assignment Pin not used Pin not used Pin not used Pin not used Pin not used Transmit Negative Ground Ground Receive Negative Pin not used... -
Page 46: Rs485 Lan
CHAPTER 2 RS485 LAN Table 2-12 lists the DB25 pin assignments for a RS485 LAN physical interface. RS485 LAN Pin Assignment Pin not used Pin not used Pin not used Pin not used Pin not used Pin not used Pin not used Pin not used Pin not used Pin not used... - Page 47 IEN 1000........
-
Page 49: Chapter 3 Port Processors /Modules
PORT PROCESSORS/MODULES ROCESSORS Port processors are self-contained CPU/interface processors incorporating all necessary circuitry required to communicate with the bus and to support the range of interfaces used in modern data communications networks. The port processors contain all memory needed to run the CPU independently. Figure 3-1 illustrates the port interface architecture. Figure 3-1 Port Interface Architecture 32-bit CPU port processors are used for applications requiring very high throughput or for support of specialized functions such as Token Ring LAN interfacing. -
Page 50: Physical Interfaces
CHAPTER 3 Physical Interfaces The Hypercom IEN family of port processors support the following interface technologies: RS232-C V.35 DDS 56/64K Ethernet STP (IBM) T1/E1/FT1 Modem (V.34) 2-Wire Dial 2-Wire Leased 4-Wire Leased Analog Voice 2-Wire Loop Start 4-Wire E&M Bus Extension... - Page 51 Figure 3-2 illustrates the common features of each type of port processor. Figure 3-2 Port Processor Features All Hypercom port processors consists of the following features: Two pairs of 16-position rotary switches used to select the high nibble and low nibble of the bus address and CU address.
-
Page 52: Cid15H/Cid15H-A
CHAPTER 3 CID15H/CID15H-A The CID15H port processor (Part #030003-002) is designed to process most legacy applications up to 56Kbps. The CID15H is capable of RS232 (DCE/DTE) or V.35 (DTE). The CID15H-A port processor is only capable of V.35 (DCE). Figure 3-3 illustrates the block diagram for the CID15H port processor. - Page 53 PORT PROCESSORS/MODULES Figure 3-5 illustrates the bus communications for the CID15H/CID15H-A port processor. Figure 3-5 CID15H/CID15H-A Bus Communications Figure 3-6 illustrates the jumper locations on the CID15H/CID15H-A port processor. Figure 3-6 CID15H/CID15H-A Jumper Locations 940043-002 INTEGRATED ENTERPRISE NETWORK...
- Page 54 CHAPTER 3 Table 3-1 lists the jumper definitions for the CID15H/CID15H-A port processor. JUMPER DESCRIPTION FACTORY SETTING Battery On/Off Battery On: Pins 2 & 3 connected. CPU Clock 8/16MHz 16MHz: Pins 2 & 3 connected. Memory paging 16/32 Do not connect. JT17 Modem Output SCC1A/ SCC2A Do not connect.
-
Page 55: Cid61
PORT PROCESSORS/MODULES CID61 The CID61 port processor (Part # (Part #030005-006) is designed to function as a high- speed WAN or legacy interface port processor, and TDM buses. The CID61 port processor is capable of a single V.35 or three RS232 ports. An optional DSU module may be added to the CID61 port processor to perform a 56/64Kbps DDS WAN connection. - Page 56 CHAPTER 3 Figure 3-8 illustrates the block diagram for the CID61 port processor. Figure 3-8 CID61 Block Diagram Figure 3-9 illustrates the jumper locations for the CID61 port processor. Figure 3-9 CID61 Jumper Locations Table 3-2 lists the jumper definitions for the CID61 port processor. JUMPER DESCRIPTION FACTORY SETTING...
-
Page 57: Cid61-Dual
PORT PROCESSORS/MODULES CID61-Dual The CID61-Dual port processor (Part #030005-005) is a special purpose that strictly provides two V.35 DTE interfaces for a dual WAN link between two IEN nodes. The V.35 ports are most commonly attached to external DSUs or ports of a T1 MUX, both links would be attached to another CID61-Dual port processor in another IEN chassis. -
Page 58: Cid63
CHAPTER 3 CID63 The CID63 port processor (Part #030146-001) is designed to function as a low-cost WAN or legacy interface port processor, and has access to the high-speed, standard and TDM bus. The CID63 port processor contains two multipurpose sockets that are for modules that provide various combined functions. - Page 59 PORT PROCESSORS/MODULES Figure 3-11 illustrates the bus communications for the CID63 port processor. Figure 3-11 CID63 Bus Communications Figure 3-12 illustrates the jumper and expansion module connections on the component side of the CID63 port processor. Figure 3-12 CID63 Jumper Locations 940043-002 INTEGRATED ENTERPRISE NETWORK 3-13...
- Page 60 CHAPTER 3 Figure 3-13 illustrates the block diagram for the CID63 port processor. Figure 3-13 CID63 Block Diagram 3-14 IEN HARDWARE REFERENCE 940043-002...
- Page 61 PORT PROCESSORS/MODULES Table 3-3 lists the jumper definitions for the CID63 port processor. JUMPER DESCRIPTION FACTORY SETTING IEN 500/CID63 Mode Not Installed: CID63 - Open, IEN 500 - Closed Battery ON/OFF Battery On: Pins 2 & 3 connected JT10 JT12 JT13 JT14 Board ID...
- Page 62 The CIM15H port processor can be used in a central or remote IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis, and is also can be used to communicate with the dial backup used in the IEN 1000 chassis. Figure 3-14 illustrates the bus communications for the CIM15H-33 port processor.
- Page 63 PORT PROCESSORS/MODULES Figure 3-15 illustrates the block diagram for the CIM15-33 port processor. Figure 3-15 CIM15-33 Block Diagram Figure 3-16 illustrates the jumper locations for the CIM15H-33 port processor. Figure 3-16 CIM15H-33 Jumper Locations 940043-002 INTEGRATED ENTERPRISE NETWORK 3-17...
- Page 64 CHAPTER 3 Table 3-4 lists the jumper definitions for the CIM15H-33 port processor. JUMPER DESCRIPTION FACTORY SETTING Battery On/Off Battery On: Pins 2 & 3 connected. CPU Clock 8/16MHz 16MHz: Pins 2 & 3 connected. Do not connect. JT17 Do not connect. JT18 Modem Monitor Normal/On Normal: Pins 1 &...
-
Page 65: Dla14
PORT PROCESSORS/MODULES DLA14 The DLA14 port processor (Part #030042-002) is a voice interface port processor capable of supporting two, 4-wire or four, 2-wire analog voice circuits. The DLA14 port processor is used to convert each analog voice channel into a 64Kbps DS0 or compressed to 24Kbps using ADPCM. - Page 66 CHAPTER 3 Figure 3-18 illustrates the block diagram for the DLA14 port processor. Figure 3-18 DLA14 Block Diagram Figure 3-19 illustrates the jumper locations for the DLA14 port processor. Figure 3-19 DLA14 Jumper Locations 3-20 IEN HARDWARE REFERENCE 940043-002...
- Page 67 PORT PROCESSORS/MODULES Table 3-5 lists the jumper definitions for the DLA14 (Version D) port processor. JUMPER DESCRIPTION FACTORY SETTING SCC Clock 8/16/19MHz 19MHz: Pins 5 & 6 connected. CPU Clock 8/16MHz 16MHz: Pins 2 & 3 connected. Battery Backup On: Pins 2 & 3 Battery Backup On/Off connected.
- Page 68 CHAPTER 3 The following jumper definitions are for the DLA14 (Version D) port processor. Table 3-6 lists the jumper definitions for the DLA14 (Version D) port processor. JUMPER DESCRIPTION FACTORY SETTING SCC Clock 8, 16, 19MHz 19MHz: Pins 5 & 6 connected CPU Clock 8, 16MHz 16MHz: Pins 2 &...
- Page 69 PORT PROCESSORS/MODULES The following jumper information are for the DLA14 (Version F) port processor. Figure 3-20 illustrates the jumper and expansion module locations on the DLA14 (Version F) port processor. Figure 3-20 DLA14 (Version F) Jumper Locations 940043-002 INTEGRATED ENTERPRISE NETWORK 3-23...
- Page 70 CHAPTER 3 Table 3-7 lists the jumper definitions for the DLA14 (Version F) port processor. JT30 SRAM Battery Backup ON/OFF Battery Backup ON: Pins 2 & 3 connected 24V 2-Wire Loop FXO 24V Loop: Pins 1 & 2 connected JT24, JT25, 48V 2-Wire Loop FXO Only 48V Loop: Jumpers removed JT26, JT27...
-
Page 71: Dsx11
PORT PROCESSORS/MODULES DSX11 The DSX11 port processor (Part #030012-001) is a single CPU that interfaces with a DSX-1 T1 line to the node PCM bus. The DSX11 port processor contains all circuitry necessary to convert the 4-wire, self-clocked AMI T1 signal to the synchronous TDM PCM highway. The DSX11 port processor contains a high-performance Digital Phase Locked Loop (DPLL) that synchronizes the internal 2.04 and 4.08 MHz PCM highway clocks to the incoming T1 signal. - Page 72 CHAPTER 3 Figure 3-23 illustrates the jumper locations for the DSX11 port processor. Figure 3-23 DSX11 Jumper Locations Table 3-8 lists the jumper definitions for the DSX11 port processor. JUMPER DESCRIPTION FACTORY SETTING Battery On/Off Battery On: Pins 2 & 3 connected. 6MHz: Pins 1 &...
-
Page 73: Dtc11-E1
PORT PROCESSORS/MODULES DTC11-E1 The DTC11 port processor (Part #030012-003) is a single CPU that interfaces with a DSX-1 E1 (DTC11-E1 port processor) line to the node PCM bus. The DTC11-E1 port processor contains all circuitry necessary to convert the 4-wire, self-clocked AMI T1 signal to the synchronous TDM PCM highway. - Page 74 CHAPTER 3 Figure 3-24 illustrates the bus communications for the DTC11-LHO/E1 port processor. Figure 3-24 DTC11-LHO/E1 Bus Communications Figure 3-25 illustrates the block diagram for the DTC11-LHO/E1 port processor. Figure 3-25 DTC11-LHO/E1 Block Diagram 3-28 IEN HARDWARE REFERENCE 940043-002...
- Page 75 PORT PROCESSORS/MODULES Figure 3-26 illustrates the jumper locations for the DTC11-LHO/E1 port processor. Figure 3-26 DTC11-LHO/E1 Jumper Locations Table 3-9 lists the jumper definitions for the DTC11-LHO/E1 port processor. JUMPER DESCRIPTION FACTORY SETTING Battery On/Off Battery On: Pins 2 & 3 connected. 6MHz: Pins 1 &...
-
Page 76: Let61
CHAPTER 3 LET61 The LET61 port processor (Part #030020-001) is a high performance Ethernet router interface using a Motorola 68340 CPU. The LET61 port processor supports 10Base-T, 10Base-2 (using the LEC01 Thinnet Ethernet adapter), and AUI (using the LAU01 AUI Interface adapter) connections. - Page 77 PORT PROCESSORS/MODULES Figure 3-28 illustrates the block diagram for the LET61, LET61B and LET61H port processor. Figure 3-28 LET61, LET61B and LET61H Block Diagram Figure 3-29 illustrates the jumper location for the LET61, LET61B and LET61H port processors. Figure 3-29 LET61, LET61B and LET61H Jumper Locations Table 3-10 lists the jumper definition for the LET61, LET61B and LET61H port processor.
-
Page 78: Ltr61
CHAPTER 3 LTR61 The LTR61 port processor (Part #030023-001) is a high performance Token Ring Router interface using a Motorola 68340 CPU. The LTR61 port processor supports STP and UTP connections and 4 to 16 Mbps. The LTR61 port processor may be used for routing, bridging and IENView access. - Page 79 PORT PROCESSORS/MODULES Figure 3-31 illustrates the block diagram for the LTR61, LTR61B and LTR61H port processors. Figure 3-31 LTR61, LTR61B and LTR61H Block Diagram Figure 3-32 illustrates the jumper locations for the LTR61, LTR61B and LTR61H port processors. Figure 3-32 LTR61, LTR61B and LTR61H Jumpers 940043-002 INTEGRATED ENTERPRISE NETWORK 3-33...
- Page 80 CHAPTER 3 Table 3-11 lists the jumper definitions for the port processors. LTR61, LTR61B and LTR61H JUMPER DESCRIPTION FACTORY SETTING Battery Backup On/Off Battery On: Pins 2 & 3 connected. Chassis Ground to TROLI Do not connect. Table 3-11 LTR61, LTR61B and LTR61H Jumper Descriptions 3-34 IEN HARDWARE REFERENCE 940043-002...
-
Page 81: Modules
PORT PROCESSORS/MODULES ODULES The modules attach to port processors to support different configurations. CIR01 The CIR01 module (Part #030149-001) is a single channel plug-in module that provides a single RS232 interface to the CID63 port processor. The CIR01 module plugs into the CNEA2 and CNL1 or CNEB2 and CNL2 sockets on the CID63 port processor. -
Page 82: Civ01
CHAPTER 3 CIV01 The CIV01 module (Part #030148-001) is a single channel plug-in module that creates a single V.35 interface to the CID63 port processor. The CIV01 module plugs into the CNEA2 and CNL1 or CNEB2 and CNL2 sockets on the CID63 port processor. Figure 3-34 illustrates the front and back side of the CIV01 module. -
Page 83: Des10
CID61 port processor, the CNEA2 and CNL1 or CNEB2 and CNL2 sockets on the CID63 port processor, or CNS2 A and B sockets in the IEN 1000 chassis. Figure 3-35 illustrates the front and back side of the DES10 module. -
Page 84: Dlz01-C
CHAPTER 3 DLZ01-C The DLZ01-C module (Part #030010-001) is a compression module for use with the CID15H, CID15H-A and CIM15H-33 port processors. The compression module replaces the Z80 CPU on the port processor in use. An average 3:1 or 4:1 compression is normal and is frequently used with 14.4 dial backup to achieve near 56K performance. -
Page 85: Dlz10
CNEA2 and CNL1 or CNEB2 and CNL2 sockets on the CID63 port processor, or CNS2 A and B sockets in the IEN 1000 chassis. The DLZ10 module averages between 3:1 and 4:1 compression which is dependent on the data being transferred. -
Page 86: Dsu63
CHAPTER 3 DSU63 The DSU63 module (Part #030120-001) provides a DSU interface at either 56Kbps or 64Kbps for the CID63 port processor. The DSU63 module plugs into the Expansion Card A, sockets CNEA1, CNEA2, CNEA3 and CNEA4 on the CID63 port processor. Figure 3-38 illustrates the front and back side of the DSU63 module. -
Page 87: Dvf18
PORT PROCESSORS/MODULES DVF18 The DVF08/18 module is a voice compression module that compresses and packetizes up to eight 64K PCM voice channels to 6.2 or 13.3Kbps data. The compressed voice channels can be transmitted with legacy and LAN data over a WAN connections, such as frame relay. The DVF08/18 module comes in three versions capable of compressing two, four or eight channels: (Part #030182-001) - Page 88 CHAPTER 3 Each DVF08/18 channel is assigned a time slot that communicates with its assigned analog (DLA14) or digital (DSX11) channel. The eight-channel capacity permits the DVF08/18 to support two DLA14 port processors terminating four, 4-wire analog voice or two DLA14s terminating eight, 2-wire analog voice.
- Page 89 PORT PROCESSORS/MODULES Figure 3-40 illustrates the front of the DVF08/18-4 module. Figure 3-40 DVF08/18-4 Module Front Figure 3-41 illustrates the front of the DVF08/18-8 module. Figure 3-41 DVF08/18-8 Module Front 940043-002 INTEGRATED ENTERPRISE NETWORK 3-43...
-
Page 90: Hdm14
CHAPTER 3 HDM14 The HDM14 module (Part #030113-001) is a single 14.4Kbps modem that provides an analog line interface to the CID63 port processor. The HDM14 module plugs into the Expansion Card A, sockets CNEA1, CNEA2, CNEA3 and CNEA4, or Expansion Card B, sockets CNEB1, CNEB2, CNEB3, and CNEB4 on the CID63 port processor. -
Page 91: Hdm28
PORT PROCESSORS/MODULES HDM28 The HDM28 module (Part #030113-002) is a single 28.8Kbps modem with a two-wire analog line interface to the CID63 port processor. The HDM28 module plugs into the Expansion Card A, sockets CNEA1, CNEA2, CNEA3 and CNEA4, or Expansion Card B, sockets CNEB1, CNEB2, CNEB3, and CNEB4 on the CID63 port processor. -
Page 92: Isd01-St
CHAPTER 3 ISD01-ST The ISD01-ST module (Part #030117-001) provides a single ISDN BRI ST interface t0 the CID63 port processor. The ISD01-ST module plugs into the Expansion Card A, sockets CNEA1, CNEA2, CNEA3 and CNEA4, or Expansion Card B, sockets CNEB1, CNEB2, CNEB3, and CNEB4 on the CID63 port processor. -
Page 93: Isd01-U
PORT PROCESSORS/MODULES ISD01-U The ISD01-U module (Part #030117-002) provides a single ISDN BRI U interface to the CID63 port processor. The ISD01-U module plugs into the Expansion Card A, sockets CNEA1, CNEA2, CNEA3 and CNEA4, or Expansion Card B, sockets CNEB1, CNEB2, CNEB3, and CNEB4 on the CID63 port processor. -
Page 94: Pcm14
CHAPTER 3 PCM14 The PCM14 module (Part #030149-001) is a single 14.4 modem with TDM interface for use with T1 or E1, and is used with the CID63 port processor. The functionality of this module is to provide dial backup. The PCM14 module can be installed in Expansion Card A, sockets CNEA1, CNEA2, CNEA3 and CNEA4, or Expansion Card B, sockets CNEB1, CNEB2, CNEB3, and CNEB4 on the CID63 port processor. -
Page 95: Pcm28
PORT PROCESSORS/MODULES PCM28 The PCM28 module (Part #030149-001) is a single 28.8 modem with TDM interface for use with T1 or E1, and is used with the CID63 port processor. The functionality of this module is to provide dial backup. The PCM28 module can be installed in Expansion Card A, sockets CNEA1, CNEA2, CNEA3 and CNEA4, or Expansion Card B, sockets CNEB1, CNEB2, CNEB3, and CNEB4 on the CID63 port processor. -
Page 96: Mem61
CNEA2 and CNL1 or CNEB2 and CNL2 sockets on the CID63 port processor, or CNS2 A and B sockets in the IEN 1000 chassis. The MEM61 is also required with router interfaces LET10/11 and LTR10/11. Figure 3-48 illustrates the component sides of the MEM61 memory upgrade module. -
Page 97: Ien 1000
PORT PROCESSORS/MODULES IEN 1000 The IEN 1000 chassis comes equipped with one RS232/V.35 WAN port, one RS232 serial port, 1MB of SRAM, and a V.22bis modem for dial-up configuration. Expanding the capabilities of the IEN 1000 chassis is accomplished through the integration of optional upgrade modules. - Page 98 Type VF adapter cable used to provide V.35 DTE female interface from the IEN 1000 Table 3-12 Base IEN 1000 WAN Port Specifications Table 3-13 lists the base IEN 1000 RS232 port 1 specifications. RS232 Port 1 RS232/V.24 (56 Kbps Max.) DTE interface.
- Page 99 PORT PROCESSORS/MODULES Table 3-14 lists the base IEN 1000 V.22bis port specifications. V.22bis Port One RJ11 and one RJ45 port RJ11 straight cable used for 2-wire dial-up configuration Cables RJ45 straight cable used for 4-wire dial-up configuration Table 3-14 Base IEN 1000 V.22bis Port Specifications Notes: 1.
-
Page 100: Cpa03
The CPA03 module (Part #030031-001) provides one RS232/V.35 and two RS232 serial port interfaces. The CPA03 module is installed only in the IEN 1000 chassis. Each port is capable of running a different protocol. Figure 3-50 illustrates both sides of the CPA03 module. - Page 101 Type D cross cable used to provide RS232 DCE female interface from IEN 1000 Type A straight male-to-male RS232 cable used to attach the IEN 1000 to external devices Type VX cross cable used to provide V.35 DCE male interface Cables from the IEN 1000 Type VE adapter cable used to provide V.35 DTE male interface...
-
Page 102: Dsu56
The DSU56 module (Part #030039-001) provides a 9.6/19.2/56Kbps 4-wire DDS interface for use as the WAN connection. The DSU56 module is installed only in the IEN 1000 chassis. Figure 3-51 illustrates the DSU56 module installed in the IEN 1000 chassis. -
Page 103: Let10
LET10 The LET10 module (Part #020042-001) provides an Ethernet 10Base-2, 10Base-T, and AUI Router interface. The LET10 module is installed only in the IEN 1000 chassis. Figure 3-52 illustrates the LET10 module installed in the IEN 1000 chassis. Figure 3-52 Installed LET10 Module Note: The Ethernet and Token Ring interfaces are mutually exclusive. -
Page 104: Ltr10
CHAPTER 3 LTR10 The LTR10 module (Part #020043-001) provides a Token Ring UTP/STP Router interface for the IEN 1000 chassis. Figure 3-53 illustrates the LTR10 installed in the IEN 1000 chassis. Figure 3-53 Installed LTR10 Module Note: The Ethernet and Token Ring interfaces are mutually exclusive. -
Page 105: Hub08
HUB08. The LET10 router defaults to the UTP port for network access. The LET10 UTP port must be connected to one of the eight RJ45 hub ports. Hypercom provides an RJ45 straight cable for use with the HUB08 and LET10 upgrade modules. -
Page 106: Mau08
The MAU08 module (Part #030116-001) is used with the LTR11 to provides an eight-port manageable UTP MUA. The Ring In/Ring Out (RI/RO) of the MAU08 is accessed using the HUB expansion port on the IEN 1000 using an RIRO cable. Figure 3-55 illustrates the interface connections for the MAU08 module. -
Page 107: Idt10
The IDT10 module (Part #030084-001) is a small module with an RJ45 that plugs into the IEN 1000 motherboard when a DSU is installed. The ITD10 is an RJ45 jack and a protective circuitry that allows access to the optional DSU. The ITD10 is provided with each DSU. - Page 108 CHAPTER 3 3-62 IEN HARDWARE REFERENCE 940043-002...
- Page 109 C H A P T E R Ca bl e S pec ific at io ns & Ad apters I n T h i s C h a p t e r Introduction ............4-3 Selecting Cables.
-
Page 111: Introduction
IEN chassis connector. The connection on the back of each IEN chassis corresponds to a port processor. The IEN 1000 connections depend upon whether your network specifications require use an optional upgrade module. See Chapter 5, System Configuration for more information about the IEN chassis configurations. -
Page 112: Selecting Cables
ELECTING ABLES Hypercom provides two cable matrices that are designed to help you quickly determine the cable types for your network requirements. The matrices are based upon the chassis requirements of each network site. That is, whether a specific network node contains an IEN 1000, IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis. - Page 113 CABLE SPECIFICATIONS & ADAPTERS The cable matrix assumes that you are starting from a DTE device. Table 4-1 is a cable matrix for selecting the appropriate cable(s). Connect Network Digital/Voice Physical Interface Cable Ref. Type Type A CID15H Straight RS232 Type ALG-2W 2-Wire Analog Type ALG-PD...
- Page 114 CHAPTER 4 Table 4-2 is a cable matrix for selecting the appropriate cable(s) for the IEN 1000 chassis. PHYSICAL INTERFACE CABLE Ref. TYPE Type A BASE UNIT Straight RS232 Type D RS232 Cross Type V CPA03 V.35 DTE (male) Type VF V.35 to DCE...
-
Page 115: Cable Types
This section contains Hypercom cable that are currently available. Type A The Hypercom Type A cable (#810009-001) is a male DB25 to male DB25 straight-through RS232 cable. The cable is used to connect an IEN device to a user device. The length of the cable is 10’. - Page 116 The Type A cable is used to connect an IEN RS232C DTE port to an RS232C DCE port. The cable is also used with the Hypercom Type D cross cable to enable the IEN device to appear as a DCE device. Figure 4-2 illustrates the IEN device setup as a DCE and DTE device.
-
Page 117: Type Alg-2W
CABLE SPECIFICATIONS & ADAPTERS Type ALG-2W The Hypercom Type ALG-2W cable (#810132-001) is a male DB25 to four female RJ11 cable. The cable is used to connect a DLA14 port processor to two-wire analog handsets or PBX termination using female RJ11 modular connectors. The length of the cable is 3’. - Page 118 CHAPTER 4 Figure 4-4 illustrates the cable connection for the Type ALG-2W cable. Figure 4-4 Type ALG-2W Cable Connection 4-10 IEN HARDWARE REFERENCE 940043-002...
-
Page 119: Type Alg-Pd
CABLE SPECIFICATIONS & ADAPTERS Type ALG-PD The Hypercom Type ALG-PD cable (#810142-001) is a male DB25 to punch-down cable. The cable is used to connect a DLA14 port processor to a PBX using a punch-down block termination. The cable provides four, 2-wire or two, 4-wire analog voice terminations including E&M signalling leads. - Page 120 CHAPTER 4 Figure 4-8 illustrates the cable connection for the Type ALG-PD (four 2-wire) cable. Figure 4-6 Type ALG-PD Cable Connection (Four 2-Wire) 4-12 IEN HARDWARE REFERENCE 940043-002...
- Page 121 CABLE SPECIFICATIONS & ADAPTERS The Type ALG-PD male DB25 connector attaches to the line port on the IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis slot that contains the DLA14 port processor. The cable is then punched down to an 66-Block using the color codes in the Figure below to identify the correct connections to a PBX.
-
Page 122: Type B
CHAPTER 4 Type B The Hypercom Type B cable (#810010-001) is a male to male bus extension cable. This cable is a modified IEEE488 cable used to connect two or three IEN chassis at the bus extension port. The cable only extends the standard bus. Pins 1, 2, 11, and 23 are removed. - Page 123 CABLE SPECIFICATIONS & ADAPTERS The Hypercom Type B cable connects up to three IEN 3000 or IEN 5000 bus extension ports to create a single node. The end points of an extended bus (master and redundant chassis) require terminators attached to the Type B cable connectors. Figure 4-10 illustrates the two- chassis bus extension termination.
-
Page 124: Type D
CHAPTER 4 Type D The Hypercom Type D cable (#810012-001) is a male DB25 to female DB25 cross cable. The Type D cable is used with a Type A cable as a DCE connection to a DTE device. The IEN chassis provides clocking. - Page 125 CABLE SPECIFICATIONS & ADAPTERS The Type D male DB25 connector is attached to the appropriate port of an IEN 1000, IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis. The Type D female DB25 connector attaches to the Type A male DB25 connector. Figure 4-13 illustrates the use of the Type D cable.
-
Page 126: Type D6
CHAPTER 4 Type D6 The Hypercom Type D6 cable (#810127-001) is a male DB25 to female DB25 cross cable. The cable is used only with a CID61 port processor, and with a Type A cable as a DCE connection to a DTE device. The DTE equipment provides clocking. The length of the cable is 1’. - Page 127 CABLE SPECIFICATIONS & ADAPTERS The Type D6 male DB25 connector is attached to the appropriate port of an IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis. The Type D6 female DB25 connector attaches to the Type A male DB25 connector. Figure 4-15 illustrates the use of the Type D6 cable. Figure 4-15 IEN Device as DCE 940043-002 INTEGRATED ENTERPRISE NETWORK...
-
Page 128: Type Dds
CHAPTER 4 Type DDS The Hypercom Type DDS cable (#810024-002) is a male RJ11 to male RJ45 cable. The cable is used to connect a CID61 or CID63 port processor with an internal DSU, to the Telco adapter. The length of the cable is 10’. Figure 4-16 illustrates the pinout for the Type DDS cable. -
Page 129: Type Hb2
CABLE SPECIFICATIONS & ADAPTERS Type HB2 The Hypercom Type HB2 cable (#810130-001) is a male to male bus expansion cable. The cable is used to bus connect the IEN 2000 or IEN 4000 chassis. The length of the cable is 8”. Figure 4-18 illustrates the Type HB2 cable. -
Page 130: Type Hb3
CHAPTER 4 Type HB3 The Hypercom Type HB3 cable (#810130-002) is a male to male bus expansion cable. The cable is used to bus connect the IEN 2000 or IEN 4000 chassis. The length of the cable is 16”. Figure 4-18 illustrates the Type HB3 cable. -
Page 131: Type Isdn
CABLE SPECIFICATIONS & ADAPTERS Type ISDN The Hypercom Type ISDN cable (#810111-002) is a male RJ11 to male RJ45 cable. The cable is used to interface the ISDN-ST to Telco DEMARC or NT. The length of the cable is 10’. Figure 4-22 illustrates the pinout for the Type ISDN cable. -
Page 132: Type P
CHAPTER 4 Type P The Hypercom Type P cable (#810015-001) is a male DB25 to female DB9 cable. The cable is commonly used for asynchronous communication between a PC running IENView and the CID15H port processor at the IEN Node. The length of the cable is 10’. Figure 4-24 illustrates the pinout for the Type P cable. -
Page 133: Type Riro
CABLE SPECIFICATIONS & ADAPTERS Type RIRO The Hypercom Type RIRO cable is used to provide a UTP Ring In and Ring Out port for the MAU08 in an IEN 1000 chassis. Figure 4-26 illustrates the Hypercom Type RIRO cable pin connections and pin descriptions and identifies the cable connectors. -
Page 134: Type Rj11
CHAPTER 4 Type RJ11 The Hypercom Type RJ11 cable (#810004-001 or #810004-002) is a male RJ11 to male RJ11 cable. The cable is used to connect the IEN chassis with a ISDN-U or HDM14/28 module on a CID63 port processor, or a 2-wire DLA14 port processor. The length of the cable is 1’... -
Page 135: Type T1
CABLE SPECIFICATIONS & ADAPTERS Type T1 The Hypercom Type T1 cable (#810035-001) is a male DB15 to male RJ11 cable. The cable is used to connect an IEN chassis to a T1 CSU device. The length of the cable is 10’. -
Page 136: Type T1K
CHAPTER 4 Type T1K The Hypercom Type T1K cable (#810099-001)is a male RJ11 to male DB15 cable. The cable is used with the DSX11 or DTC11-LHO port processors to attach specifically to the DSX-1 interface jack of a T1 CSU. The length of the cable is 10’. Figure 4-32 illustrates the pinout for the Type T1K cable. -
Page 137: Type T1-45-M
CABLE SPECIFICATIONS & ADAPTERS Type T1-45-M The Hypercom Type T1-45-M cable (#810074-001) is a male RJ11 to male RJ45 cable. The cable is used to connect a DSX11 or DTC11-LHO port processors to an RJ45 Telco termination. The length of the cable is 15’. Figure 4-34 illustrates the pinout for the Type T1-45-M cable. -
Page 138: Type T1-15-Xf
CHAPTER 4 Type T1-15-XF The Hypercom Type T1-15-XF cable (#810099-001) connects a DSX11 or DTC11-LHO port processor to a male DB15 T1 interface cable with a slip connector from a PBX. The cable provides the crossover required between an IEN chassis and a PBX. The length of the cable is 15’. -
Page 139: Type T1-45-Xf
CABLE SPECIFICATIONS & ADAPTERS Type T1-45-XF The Hypercom Type T1-45-XF cable (#810128-001) is a male RJ11 to female RJ45 cable. The cable is used to connect a DSX11 or DTC11-LHO port processor to a male RJ45 T1 interface cable from a PBX. The cable provides the crossover required between an IEN chassis and a PBX. -
Page 140: Type T(63)
The cable provides two female RJ11 connectors that come off of a CID63 port processor. This cable can be connected to other Hypercom RJ11 type cables. The cable splits out the two line ports of a CID63 port processor. The length of the cable is 3’. Figure 4-32 illustrates the pinout for the Type T(63) cable. -
Page 141: Type Tr
CABLE SPECIFICATIONS & ADAPTERS Type TR The Hypercom Type TR cable (#810016-001) is a male DB25 to male AMP 55400-1 cable. The cable is used to connect an IEN chassis to a Token Ring STP multiple access unit (MAU). The length of the cable is 10’. Figure 4-42 illustrates the pinout for the Type TR cable. -
Page 142: Type Uet
The Hypercom Type UET cable (#810017-002)is a male RJ45 to male RJ11 cable. The cable is used with the Hypercom Ethernet port processors to provide a standard male RJ45 connector. The length of the cable is 10’. Figure 4-44 illustrates the pinout for the Type UET cable. -
Page 143: Type Utr-45-M
CABLE SPECIFICATIONS & ADAPTERS Type UTR-45-M The Hypercom Type UTR-45-M cable (#810049-002) is a male RJ11 to male RJ45 cable. The cable is used with the LTR61 port processor to provide a standard Token Ring RJ45 UTP connection. The length of the cable is 15’. Figure 4-46 illustrates the pinout for the Type UTR-45-M cable. - Page 144 Figure 4-48 illustrates the pinout for the Type V cable. Figure 4-48 Type V Cable Pinouts The Type V male DB25 connector is attached to the appropriate port of an IEN 1000, IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis. The Type V male V.35 connector is attached to a V.35 DCE serial device.
-
Page 145: Type Vf
Figure 4-50 Type VF Cable Pinouts The Type VF male DB25 connector is attached to the appropriate port of an IEN 1000, IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis. The Type VF female V.35 connector is attached to a male V.35 DCE serial device or cable. -
Page 146: Type Vm
V.35 DCE user device. The V.35 interface is identical to Hypercom’s Type V cable and is typically connects to an external DSU or CSU. The RS232 IENView interface is for an asynchronous connection to an external modem for IENView dialup, or a direct IENView connection when used with a Type P cable. - Page 147 CABLE SPECIFICATIONS & ADAPTERS The Type VM male DB25 connector attaches to the port of an IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis. The Type VM male V.35 connector is attached to a V.35 serial device. The Type VM RS232 connector is attached to an RS232 asynchronous modem or cross cable to an IENView PC.
-
Page 148: Type Vnn
VNN cable. Figure 4-54 Type VNN Cable Pinouts The Type VNN male DB25 connector marked as DCE must be attached to the IEN 1000, IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis port that corresponds to the slot providing the clock. -
Page 149: Type Vx
The Hypercom Type VX Cable (#810050-002) is a male DB25 to female V.35 cable. The cable is used to connect a V.35 DTE user device to an IEN chassis. The IEN 1000 chassis, the CID61, CID63 or CID15HA port processors provide a clock to the DTE. The length of the cable is 10’. - Page 150 CHAPTER 4 Type Y The Hypercom Type Y cable (#810021-001)is a male DB25 to three female DB25 cable. The cable is used to connect a CID61 port processor to three RS232 DTE ports. The CID61 port processor provides clocking. The length of the cable is 3’. Figure 4-58 illustrates the pinout for the Type Y cable.
- Page 151 CABLE SPECIFICATIONS & ADAPTERS Figure 4-59 illustrates the use of the Type Y cable. Figure 4-59 Type Y Cable 940043-002 INTEGRATED ENTERPRISE NETWORK 4-43...
- Page 152 CHAPTER 4 Type YA The Hypercom Type YA cable (#810025-001) is a male DB25 to three female DB25 cable. The cable is used to connect a CID61 port processor to three RS232 DCE ports. The length of the cable is 3’. Figure 4-60 illustrates the pinout for the Type YA cable.
- Page 153 CABLE SPECIFICATIONS & ADAPTERS Figure 4-61 illustrates the use of the Type YA cable. Figure 4-61 Type YA Cable 940043-002 INTEGRATED ENTERPRISE NETWORK 4-45...
-
Page 154: Type Y
CHAPTER 4 Type Y(63) The Hypercom Type Y(63) cable (#810117-001) is a male DB25 to two female DB25 cable. The cable provides two DB25 DTE connectors that come off of a CID63 port processor. The length of the cable is 3’. This cable can be connected to the Type V, VF, VX, A and D cables. - Page 155 CABLE SPECIFICATIONS & ADAPTERS Figure 4-65 illustrates the cable connections for the Type Y(63) cable. Figure 4-63 Type Y(63) Cable Connection There is a set of switches on the Type Y(63) cable DB25 connectors for the CID63 port that must be set to the appropriate RS232 or V.35 settings. 940043-002 INTEGRATED ENTERPRISE NETWORK 4-47...
-
Page 156: Type 2Ve
CHAPTER 4 Type 2VE The Hypercom Type 2VE cable (#810083-001) is a male DB25 to two female DB25 cable. The cable is used only with the CID61-Dual port processor to connect up to two V.35 DCE ports. The length of the cable is 3’. Figure 4-64 illustrates the pinout for the Type 2VE cable. - Page 157 CABLE SPECIFICATIONS & ADAPTERS The Type 2VE male DB25 connector is attached to an IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis port that corresponds to the slot occupied by the CID61-Dual port processor. Each female DB25 connector requires a Type V or VF cable which is then attached to the V.35 DCE device.
-
Page 158: Hub08/Let10 Patch
CHAPTER 4 HUB08/LET10 PATCH The patch cable is used only on the IEN 1000 chassis with the combination of the HB08 and LET10 modules. With the HUB08 and LET10 combination, the AUI and BNC port of the LET10 belong to the HUB08. The LET10 router defaults to the UTP port for network access. -
Page 159: Power Cables
OWER ABLES Hypercom IEN chassis are provided with either an AC or DC power supply. The IEC 320- C14 power input module on each IEN node is labeled 110V, 220V, or 48V DC. Figure 4-67 illustrates the 120VAC power connections for the IEN chassis. - Page 160 CHAPTER 4 The IEC 320-C14 DC connector on an IEN node is modified to prevent the insertion of an AC line cord. Figure 4-69 illustrates the 48VDC power connections for the IEN chassis. Figure 4-69 DC 48V Power Cable 4-52 IEN HARDWARE REFERENCE 940043-002...
-
Page 161: Adapters
CABLE SPECIFICATIONS & ADAPTERS DAPTERS The following adapters are used when connecting IEN chassis to a Thinnet cable or when a AUI interface is required. LEC01 The LEC01 (#030017-001) is a DB25 to Thinnet Ethernet adapter, and is used with the LET61 when connecting to a Thinnet cable. -
Page 162: Lau01
CHAPTER 4 LAU01 The LAU01 (#TBD) is a DB25 to AUI Interface adapter, and is used with the LET61 when connecting an AUI interface is required. Figure 4-72 illustrates the LAU01 adapter. Figure 4-72 LAU01 Adapter 4-54 IEN HARDWARE REFERENCE 940043-002... -
Page 163: T1/Pcm Line Filter
CABLE SPECIFICATIONS & ADAPTERS T1/PCM Line Filter To provide additional surge protection for the IEN chassis network access DTC11-LHO port processor, an external surge protector is required on each IEN chassis. Install only one surge protector per IEN chassis. Figure 4-73 illustrates the IEN T1/PCM Line Filter. Figure 4-73 IEN T1/PCM Line Filter 940043-002 INTEGRATED ENTERPRISE NETWORK... - Page 164 CHAPTER 4 4-56 IEN HARDWARE REFERENCE 940043-002...
- Page 165 C H A P T E R Sy st em Co nfi gurat io n I n T h i s C h a p t e r Bus Extension ........... . . 5-3 IEN 2000 Configuration .
-
Page 167: Chapter 5 System Configuration
IEN logical node. Bus connected chassis appear to IENView as a single node with many ports. There are two types of bus extensions supported by the IEN 2000, IEN 3000, IEN 4000 and IEN 5000 chassis: standard and high-speed. Note: The IEN 1000 chassis does not support bus extension. 940043-002 INTEGRATED ENTERPRISE NETWORK... -
Page 168: Ien 2000 Configuration
This section describes the configuration procedures for the IEN 2000 chassis. Defining the IEN 2000 chassis to IENView is similar to defining an IEN 1000, IEN 3000, IEN 4000 or IEN 5000 chassis in that, each port is represented by a unique bus address. -
Page 169: High-Speed Bus Extension
Ethernet and Token Ring bus extension is required when your network requirements exceed four chassis per node. The standard bus is also extended by grouping three chassis, using the Hypercom Type HB2 cable, and connecting these groups using the Ethernet or Token Ring bus extension. Refer to CHAPTER 4, Type HB2 for more information about the Hypercom Type HB2 cable. - Page 170 This section describes the configuration procedures for the IEN 3000 chassis. Defining the IEN 3000 chassis to IENView is similar to defining an IEN 1000, IEN 2000, IEN 4000 or IEN 5000 chassis in that, each port is represented by a unique bus address.
- Page 171 SYSTEM CONFIGURATION DIP Switch Settings The Hypercom IEN 3000 chassis may be bus connected using a Hypercom Type B cable, up to three chassis. In a two chassis IEN 3000 configuration, one chassis must be set to Master Clock (default factory settings), and the other must be set to Redundant Clock. If the Master Clock fails, the redundant clock takes over.
- Page 172 CHAPTER 5 Bus Extension Ethernet or Token Ring bus extension is required when exceeding three chassis. Standard bus extension may still be used. Groups of three chassis may be connected using Type B cables and then connect the groups using Ethernet or Token Ring bus extension. Note: Connecting more than three chassis using the standard bus extension may result in deterioration of the standard bus clock and errors on the standard bus.
- Page 173 The standard bus is also extended by grouping three chassis, using the Hypercom Type B cable, and connecting these groups using the Ethernet or Token Ring bus extension. Refer to CHAPTER 4, Type B for more information about the Hypercom Type B cable. Figure 5-10 illustrates the Ethernet high-speed bus extension.
- Page 174 This section describes the configuration procedures for the IEN 4000 chassis. Defining the IEN 4000 chassis to IENView is similar to defining an IEN 1000, IEN 2000, IEN 3000 or IEN 5000 chassis in that, each port is represented by a unique bus address.
- Page 175 Ethernet and Token Ring bus extension is required when your network requirements exceed three chassis per node. The standard bus is also extended by grouping three chassis, using the Hypercom Type HB3 cable, and connecting these groups using the Ethernet or Token Ring bus extension. Refer to CHAPTER 4, Type HB3 for more information about the Hypercom Type HB3 cable.
- Page 176 This section describes the configuration procedures for the IEN 5000 chassis. Defining the IEN 5000 chassis to IENView is similar to defining an IEN 1000, IEN 2000, IEN 3000 or IEN 4000 chassis in that, each port is represented by a unique bus address.
- Page 177 SYSTEM CONFIGURATION DIP Switch Settings The Hypercom IEN 5000 chassis may be bus connected using a Hypercom Type B cable, up to three chassis. By bus connecting three IEN 5000 chassis, a 51 port node is possible. The Type B cable used only for standard bus expanding the IEN 5000 chassis.
- Page 178 CHAPTER 5 Bus Extension Ethernet or Token Ring bus extension is required when exceeding three chassis. Standard bus extension may still be used. Groups of three chassis may be connected using Type B cables and then connect the groups using Ethernet or Token Ring bus extension. The Ethernet or Token Ring bus extension uses LET61B or LTR61B LAN port processors respectively;...
- Page 179 The standard bus is also extended by grouping three chassis, using the Hypercom Type B cable, and connecting these groups using the Ethernet or Token Ring bus extension. Refer to CHAPTER 4, Type B for more information about the Hypercom Type B cable. Figure 5-10 illustrates the Ethernet high-speed bus extension.
- Page 180 CHAPTER 5 5-16 IEN HARDWARE REFERENCE 940043-002...
- Page 181 IEN 1000 Configuration ........
-
Page 183: Ien 1000 Configuration
This section describes the configuration procedures for the IEN 1000 chassis and optional upgrade modules. Defining the IEN 1000 chassis to IENView is similar to defining an IEN 2000, IEN 3000, IEN 4000 or IEN 5000 chassis in that, each port is represented by a unique bus address. -
Page 184: Software Configuration
CHAPTER 6 Software Configuration The IEN 1000 chassis must be configured to set up the initial physical interface and protocol to communicate with the Hypercom Network Management System (IENView). This is a two- part process, WAN port initialization and IENView configuration. - Page 185 SYSTEM CONFIGURATION Step-By-Step To initialize the IEN 1000 chassis WAN port: 1. Set rotary switches 1 and 2 to FF. Figure 6-2 illustrates the CU Address switch set- tings. 8VÃ6qq…r††Ã†r‡Ã‡‚Ãà Y¶AA¶ Figure 6-2 CU Address Settings 2. Set rotary switches 3 and 4 to F0. Figure 6-3 illustrates the bus address switch settings.
- Page 186 The IEN 1000 chassis can be configured through the network using the Rockwell high- speed modem or the KS224 modem chip. In addition, you may connect the IEN 1000 chassis directly to the host IENView PC and configure the IEN 1000 chassis using the KS224 modem chip.
-
Page 187: Ienview Configuration
SYSTEM CONFIGURATION IENView Configuration Following the application of power, the IEN 1000 chassis begins a start-up self-test and configuration indicated by the menu display. Figure 6-6 illustrates the IEN 1000 menu display during a power-on self-test and configuration process. Figure 6-6 Power-On Self-test and Configuration Display Successful completion of the start-up self-test is indicated by the RUN indicator flashing. - Page 188 CHAPTER 6 The IEN 1000 menu display is subdivided to represent the status of the standard and optional upgrade modules installed, and the current software and version. Areas that do not contain values do not have the associated module installed. Figure 6-8 illustrates the different areas of the IEN 1000 menu display.
- Page 189 SYSTEM CONFIGURATION Serial The Serial Ports area displays the operational status of the base IEN 1000 serial port 1, and the status of the optional serial ports 2 through 4. Refer to CHAPTER 3, CPA03 for more Ports information about the CPA03 upgrade module. The Serial Port status contains the following valid values: The circuit is connected.
- Page 190 CHAPTER 6 6-10 IEN HARDWARE REFERENCE 940043-002...
- Page 191 Type V ......4-5 4-33 IEN 1000 ......6-3 Type VF .
- Page 192 CID61 Dual ..... 3-11 IEN 1000 ......2-5 3-51 CIM15H-33 .
- Page 193 T1 ....... . . 2-24 IEN 1000 ......2-5 10Base-2 .
- Page 194 Selecting A Cable ......4-3 IEN 1000 ......4-6 Selecting Cables How To .
- Page 195 Reader Comment Form Please forward any comments about this document to: Hypercom, Inc. Technical Information Development 2851 West Kathleen Road Phoenix, Arizona 85023 http://www.hypercom.com Document Number: 940043-002...
- Page 198 Network Systems Printed in the United States P/N 940043-002...
Need help?
Do you have a question about the IEN 1000 and is the answer not in the manual?
Questions and answers