General Guidelines

Last updated: July 11, 2023



Due to global chassis configurations, front-access Access and Line Modules designated for global use do not require an AMIO or LMIO. To maintain proper airflow through the Total Access 5000 Series chassis, all slots must be occupied.
Install an appropriate front or rear blank panel in any slot that is not occupied with either an Access or Line Module.

Guidence is provided below to aid in identifying the available IO Modules and Blank Panels, and their compatibility with Total Access 5000 Chassis Components.

Additional information for the Components and IO Modules is provided in Quick Start Guides and the following Engineering Guides:
Optical Networking Edge (ONE) Engineering and Ordering Guide, Total Access 5000/5006 Engineering Guide, and Total Access 5004 Engineering Guide.


Total Access 5000 IO Matrix

Refer to the IO Compatibility Matrix to determine the IO Module or Blank Panel for your application - CLICK here:

Total Access 5000 IO Modules

Refer to the tables below for a listing and descriptions of all IO Modules.

Blank Panels

Front Panel Blank Modules

Chassis IO Part # IO Description # of Slots
Occupied
Total Access 5000, 5006 Chassis 1187920E1 Switch Module Blank Panel 1
Total Access 5000, 5004 & 5006 Chassis 1187921E1 AM Blank Panel 1
Total Access 5000, 5004 & 5006 Chassis 1187922E1 AM2 Blank Panel 2
Total Access 5004 Chassis 1187927F1 MSM Blank Panel 1
Total Access 5004 Chassis 1187928F1 Resource Blank Panel 1
Total Access 5004 Chassis 1187929F1 Resource 2 Blank Panel 2
Total Access 5000 & 5006 Chassis 1174510G5 Carrier Module Blank Panel 1

Rear Panel Blank Modules

Chassis IO Part # IO Description # of Slots
Occupied
Total Access 5000, 5004 & 5006 Chassis 1187923G1 AMIO Blank Panel (Dual Slot)  2
Total Access 5000, 5004 & 5006 Chassis 1187925G11 AMIO Blank Panel (Single Slot) 1
Total Access 5004 Chassis 1188924F1 ETSI Rear Blank Panel 4

1. Use only in slot 11 of Total Access 5000 Chassis

Access Module Input/Output (AMIO)

 Part #s in "red" indicate the product has been "Manufacturer Discontinued"
AMIO Module IO Part # IO Description # of Slots
Occupied
AMIO1 CH50 1187414F1 The Total Access 5000 Access Module covers one module slot on the rear of the Total Access 5000 chassis. The AMIO1 CH50 is designed to hold one standard entry 50-pin male champ connector cable. The AMIO1 CH50 allows for a single slot push through module to be installed into slot 11 of the Total Access 5000 Chassis 1
AMIO2-CH50P 1187410G1 The AMIO2-CH50P covers two module slots on the rear of the Total Access 5000 chassis. The AMIO2-CH50P is designed to hold two standard entry 50-pin male champ connector cables. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. 2
AMIO2-CH50P 1187410L1 The AMIO2- CH50P covers two module slots on the rear of the Total Access 5000 chassis. The AMIO2-CH50P is designed to hold two standard entry 50-pin male champ connector cables. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. 2
AMI02 48-PORT V2C 1187434F1 The AMI02 Dual 48-Port V2 Combo provides Input/ Output for up to 48 two wire tip/ring interfaces of VDSL2 + POTS for the Total Access 5000 Series 48-Port VDSL2 Combo card (P/N 1187130F1). The module holds two 50-pin champ connector cables. The AMI02 Dual 48-Port V2 Combo supports Board Level Vectoring (BLV) native to the Combo card, providing higher VDSL2 speeds to capable modems. 2
AMIO2-CH64P 1187450G1 The AMIO2 Dual Champ 64-Pin Push Through Panel is an interconnect for two access module slots on the rear of the Chassis. The AMIO2-CH64P holds two standard entry 64-pin champ connector cables. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. The G1 version is a RoHS compliant version of the module. 2
AMIO2-CH64P 1187450L1 The AMIO2 Dual Champ 64-Pin Push Through Panel is an interconnect for two access module slots on the rear of the Chassis. The AMIO2-CH64P holds two standard entry 64-pin champ connector cables. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. The G1 version is a RoHS compliant version of the module. 2
AMIO3-CH64P 1187451G1 The AMIO3 Triple Champ 64-Pin Push Through Panel is an interconnect for three access module slots on the rear of the Chassis. The AMIO3-CH64P holds three standard entry 64-pin champ connector cables. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. The G1 version is a RoHS compliant version of the module. 3
AMIO3-CH64P 1187451L1 The AMIO3 Triple Champ 64-Pin Push Through Panel is an interconnect for three access module slots on the rear of the Chassis. The AMIO3-CH64P holds three standard entry 64-pin champ connector cables. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. The G1 version is a RoHS compliant version of the module. 3
AMIO2 CH64P 1187452G1 The AMIO2 Dual Single Champ 64-Pin Push-Through Panel occupies two module slots on the rear of the Total Access 5000 Chassis. The AMIO2-CH64P is designed to hold one standard entry 64-Pin male champ connector cable. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. 2

Line Module Input/Output (LMIO)

 Part #s in "red" indicate the product has been "Manufacturer Discontinued"
LMIO Module IO Part # IO Description # of Slots
Occupied
ETOS-1 LMIO4 1174102F1 The ETOS-1 LMIO4 ANSI Rear Panel provides Control, Timing and High-speed data paths between two adjacent ETOS-1 or ETOS-1N Line Cards. The panel is 4 slots wide; it can accommodate either a pair of ETOS-1 or ETOS-1N Line cards or a combination of the two. The LMIO4 is used to provide high speed data link and handshake communications, SYNCE Timing, and automatic protection switching (APS) interlock control signals for card and ports between the adjacent ETOS-1/N Line Modules. The LMIO4 may be used with the ETOS-1 Line Module (1174101F1) and the ETOS-1N Line Module (1174101F2). 4
OTOS-2-16 LMIO4 1174111F1 The OTOS-2-16 LMIO4 ANSI Rear Panelprovides Control, Timing and High-speed data paths between two adjacent OTOS-2-16 modules. The panel is 4 slots wide accommodating a redundant pair of OTOS-2-16 modules ( 1174123F1). The LMIO4 is used to provide high speed data link and handshake communications, and automatic protection switching (APS) interlock control signals for card and ports between the adjacent OTOS-2-16 Modules. 4
OTOS-1-8 LMIO2 1174122F1 The OTOS-1-8 LMIO2 ANSI Rear Panel provides Control, Timing and High-speed data paths between two adjacent OTOS- 1-8 modules. The panel is 2 slots wide accommodating a redundant pair of OTOS-1-8 modules (1174121F1). The LMIO-2 is used to provide high speed data link and handshake communications, and automatic protection switching (APS) interlock control signals for card and ports between the adjacent OTOS-1-8 Modules. 2
ETOS-10 LMIOX 1174131F1 Optical Networking Edge (ONE) Line Module 10 Gbps Input/ Output ANSI (LMIO-X) Rear Panel provides a high-speed (80 Gbps) data path between two adjacent ETOS-10 or ETOS-10N Line Cards. In a packet ring configuration, the LMIO-X is used to provide a high speed data link and handshake communications between the Total Access 5000 ETOS-10 and ETOS-10N Line Modules. Both applications can also be used for automatic protection switching (APS). The LMIO-X supports the ETOS-10 Line Module (1174130F2) and the ETOS-10N Line Module (1174130F1). 2
LMIO2-CH64B Bridged 1187400G1 The LMIO2 Dual Champ 64-Pin Bridged Rear Panel is an interconnect for two line module slots on the rear of the Chassis. The LMIO2-CH64B provides metallic access to 32 four-wire circuits per line module. Two 64-pin male 90° champ connectors attach to the LMIO-CH64B, and provide common connection and stabilization between modules in the Chassis and external cable connections that use 64-pin connectors. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. 2
LMIO2-CH50D Divided Pair 1187401L1 / G1 The LMIO2 Dual Champ 50-Pin Divided Rear Panel is an interconnect for two line module slots on the rear of the Chassis. The module provides metallic access to eight four-wire circuits per line module installed, for a maximum of 16 four wire circuits. Two 50-pin male 90° champ connectors attach to the module, and provide connection and stabilization between modules in the Total Access 5000/ 5006 Chassis and external cable connections that use 50-pin connectors. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. 2
LMIO2-CH50S Sequential 1187401G2 The LMIO2 Dual Champ 50-Pin Sequential Rear Panel is an interconnect for two line module slots on the rear of the Chassis. The module provides metallic access to eight four-wire circuits per line module installed, for a maximum of 16 four wire circuits. Two 50-pin male 90° champ connectors attach to the module, and provide connection and stabilization between modules in the Chassis and external cable connections that use 50-pin connectors. For standard entry, the cable exits the 90° connector hood on the pin 1 end of the male champ connector. 2
LMIO2-HD DS1 Divided Pair 1187402G1 The Line Module Input/Output Dual HD DS1 Divided Pair Rear Panel is an interconnect for two line module slots on the rear of the Chassis. The module provides metallic access to 32 four-wire circuits per line module. Four 2 mm connectors provide access to DSX loops. The upper connectors provide the transmit pair, and the lower connectors provide the receive pair. 2
LMI02 DS3 1R 1187440L1 The LMIO2 DS3 1R Redundant Rear Panel provides Transmit/Out (Tx) and Receive/In (Rx) BNC connectors for the DS3 ATM (1187200L1) in redundant operation.
2
LMI02 DS3 2NR1 1187441L1 The LMIO2 DS3 2NR Non-Redundant Rear Panel provides Transmit/Out (Tx) and Receive/In (Rx) BNC connectors for the DS3 ATM (187200L1) in non-redundant operation. 2
LMI02 DS3 8NR1 1187442E1 The LMIO2 DS3 8NR Non-Redundant Rear Panel provides Transmit/Out (Tx) and Receive/In (Rx) BNC connectors for the Quad DS3 ATM (187201L1), or DS3 PPP 3-Port (1187220G1) in non-redundant operation. 2
LMI02 DS3 4R 1187443L1 The LMIO2 DS3 4R Redundant Rear Panel provides Transmit/Out (Tx) and Receive/In (Rx) BNC connectors for the Quad DS3 ATM (187201L1), DS3 PPP 3-Port (1187220G1), Quad DS3 EFM (1187260G1), or DS3 Channelized EFM 3‐Port (1187810G1) in redundant operation. 2
LMI01 DS3 4NR1,2 1187444E1 The LMIO1 DS3 4NR Non-Redundant Rear Panel provides Transmit/Out (Tx) and Receive/In (Rx) BNC connectors for the DS3 ATM (1187200L1), Quad DS3 ATM (187201L1), or DS3 PPP 3-Port (1187220G1) in non-redundant operation. 1
LMIO2 High Speed 1187460E1 The LMIO2 High-Speed Rear Panel provides a high-speed data path from a front panel Small Form-factor Pluggables (SFPs) to an adjacent GE 4-Port or RPR Line Module. In a packet ring configuration, the LMIO2 is used to provide a high speed data link and handshake communications between two RPR Line Modules. Both applications can also be used for automatic protection switching (APS). 2

1 For non‐redundant configurations using only one DS3 ATM, a blank front panel (P/N 1187921L1) must be installed in the empty module slot that corresponds to the LMIO DS3 BNC Rear Panel slot.

2 The LMIO1 DS3 4NR Non‐Redundant rear panel only provides support for slot 11 of the Total Access 5000 chassis.

Vector Input/Output (VIO)

 
VIO Module IO Part # IO Description # of Slots
Occupied
VIO10 Vector IO Overlay Module 1187432F1 The VIO10 Vector Input/Output 10 Card Overlay Module is mounted on the rear of the 23-inch Total Access 5000 Chassis to provide POTS and VDSL+POTS cable access for 1 to 4 Total Access 5000 VDSL2 48-Port Access Modules (P/N: 1187133F1) and 1 to 4 Total Access 5000 VDSL2 48-Port Splitter Access Modules (P/N: 1187431F1). This configuration provides System Level Vectoring (SLV) for up to 192 lines. The VIO10 supports System Level Vectoring (SLV) when interconnected with the Total Access 5000 VDSL2 384-Port Vectoring Module (P/N: 1187194F1) installed in the same Total Access 5000 chassis. 10
VIO8 Vector IO Overlay Module 1187432F2 The VIO8 Vector Input/Output 8 Card Overlay Module is mounted on the rear of the 23-inch Total Access 5000 Chassis to provide POTS and VDSL+POTS cable access for 1 to 4 Total Access 5000 VDSL2 48-Port Access Modules (P/N: 1187133F1) and 1 to 4 Total Access 5000 VDSL2 48-Port Splitter Access Modules (P/N: 1187431F1). The addition of the VIO8 to a configured Vector Input/Output 10 Card Overlay Module (VIO10) increases System Level Vectoring (SLV) from 192 lines to the full 384 lines that can be supported by the Vectoring Resource Module (P/N 1187194F1).  8
48-Port Overlay Splitter I/O 1187432F3 The 48-Port Overlay Splitter I/O is an I/O board connector that connects the front of the 48-Port VDSL2 Access Module (P/N 187133F1) to the front of the VDSL2 48-Port Splitter Access Module (P/N 1187431F1). Two 48-Port Overlay Splitter I/Os are required for a successful connection between the 48-Port VDSL2 Access Module and the 48-Port Splitter Access Module.  2
VIO2 for Overlay VDSL 1187432F4 The Total Access 5000 VIO 2-Slot Module for Overlay VDSL (VIO2) is mounted on the rear of the 23-inch Total Access 5000 Chassis to provide POTS and VDSL+POTS cable access for one Total Access 5000 VDSL2 48-Port Access Module (P/N: 1187133Fx) and one Total Access 5000 VDSL2 48-Port Splitter Access Module (P/N: 1187431F1).  2
VIO10C Combo Vector IO 1187437F1 The VIO10C Combo Vector IO module is mounted on the rear of the 23-inch Total Access 5000 Chassis to provide VDSL+POTS cable access for 1 to 4 Total Access 5000 Combo VDSL2 48-Port Access Modules (1187130F1). This configuration provides System Level Vectoring (SLV) for up to 192 lines. For SLV for up to 384 Lines, you must add the VIO8C Combo Vector IO (1187437F2) and VDSL 48-Port Access Module (x4) (1187130F1). 10
VIO8C Combo Vector IO 1187437F2 The VIO8C Vector Input/Output 8-Card Combo module is mounted on the rear of the 23-inch Total Access 5000 Chassis to provide VDSL+POTS cable access for 1 to 4 Total Access 5000 Combo VDSL2 48-Port Access Modules (P/N: 1187130F1). The addition of the VIO8C to a configured VIO10C increases System Level Vectoring (SLV) from 192 lines to the full 384 lines that can be supported by the Vectoring Resource Module (P/N: 1187194F1).  8
VIO10 Overlay Vector IO 1187438F1 The VIO10 Overlay Vector IO Module (VIO10 Module) mounts to the rear of the Total Access 5000 Chassis to interconnect up to eight, VDSL2 48 Port Vectoring Access Modules (P/N: 1187133F1). The VIO10 Module Rear Panel supports system Level Vectoring (SLV) when interconnected with the VDSL2 384-Port Vector Access Module (P/N: 1187194F1) installed in the same Total Access 5000 chassis. 10
VIO4 Overlay Vector IO 1187490F1 The VIO4 Overlay Vector IO Rear Panel mounts to the rear of the Total Access 5004 Chassis to interconnect to four VDSL2 48-Port Access Modules and one Total Access 5004 VDSL2 192-Port Vector Module. The VIO4 Rear Panel supports system Level Vectoring (SLV) when interconnected with the Total Access 5004 VDSL2 192-Port Vector Module (1187190F1) installed in the same Total Access 5004 Chassis. The VDSL2 192-Port Vector Module connects into the rear panel resource connector.  4
VIO4C Combo Vector IO 1187491F1 The VIO4C Combo Vector IO backplane mounts to the rear of the Total Access 5004 Chassis (1187004F1) to provide Input/Output for the Total Access 5000 Combo V2 48-Port Access Module (P/N 1187130F1), for up to 96 two-wire Tip/Ring interfaces of VDSL2 + POTS. The Input/Output connections are provided via four 50-pin female Champ connectors. The VIO4C Rear Panel supports System Level Vectoring (SLV) when interconnected with a Total Access 5004 VDSL2 192-Port Vector Module (P/N 1187190F1) installed in the same Total Access 5004 Chassis.  4