Cisco Model GS7000 4-Port Node 1 GHz with 42 54 Split Guide De Montage
Chapter 1 General Information
10
OL-29643-02
Module Description
Reverse
Configuration
Configuration
There are several versions of this module.
The 4x1 Reverse Configuration Module (RCM) with auxiliary
reverse RF injection combines all four reverse RF inputs (Ports
1, 2/3, 4, and 5/6) of the node and routes the signal to
Transmitter 1. An RF signal from an external source can
optionally be injected and coupled with the reverse RF inputs
on Ports 3/6 and routed to Transmitter 1.
The 4x1 Redundant Reverse Configuration Module combines all
four reverse RF signals (Ports 1, 2/3, 4 and 5/6) together, splits
this RF signal and routes it to Transmitters 1 and 2.
The 4x2 Reverse Configuration Module with auxiliary reverse
RF injection (for 8-port optical interface board) combines
reverse inputs from Ports 1 and 2/3 and routes them to
Transmitter 1; it also combines reverse inputs from Ports 4 and
5/6 and routes them to Transmitter 3. An RF signal from an
external source can optionally be injected and coupled with
reverse RF inputs from Ports 3/6 and routed to Transmitter 1.
The 4x2 Reverse Configuration Module with auxiliary reverse
RF injection (for 6-port optical interface board) combines
reverse inputs from Ports 1 and 2/3 and routes them to
Transmitter 1; it also combines reverse inputs from Ports 4 and
5/6 and routes them to Transmitter 2. An RF signal from an
external source can optionally be injected and coupled with the
reverse RF inputs from Ports 3/6 and routed to Transmitter 1.
The 4x2 Redundant Reverse Configuration Module combines
reverse inputs from Ports 1 and 2/3 and routes them to
Transmitters 1 and 2; it also combines reverse inputs from Ports
4 and 5/6 and routes them to Transmitters 3 and 4.
The 4x3 Reverse Configuration Module with auxiliary reverse
RF injection is available in two versions. The
left-combined/right-segmented version combines reverse
inputs from Ports 1 and 2/3 and routes them to Transmitter 1; it
also routes reverse inputs from Port 4 to Transmitter 3 and from
Ports 5/6 to Transmitter 4. An RF signal from an external source
can optionally be injected at Ports 3/6 and coupled with the
reverse RF input from Port 1 and routed to Transmitter 1. The
left-segmented/right-combined version combines reverse
inputs from Ports 4 and 5/6 and routes them to Transmitter 4; it
also routes reverse inputs from Port 1 to Transmitter 1 and from
Ports 2/3 to Transmitter 2. An RF signal from an external source
can optionally be injected at Ports 3/6 and coupled with the
reverse RF inputs from Ports 2/3 and 1 and routed to
Transmitter 1.
The 4x1 Reverse Configuration Module (RCM) with auxiliary
reverse RF injection combines all four reverse RF inputs (Ports
1, 2/3, 4, and 5/6) of the node and routes the signal to
Transmitter 1. An RF signal from an external source can
optionally be injected and coupled with the reverse RF inputs
on Ports 3/6 and routed to Transmitter 1.
The 4x1 Redundant Reverse Configuration Module combines all
four reverse RF signals (Ports 1, 2/3, 4 and 5/6) together, splits
this RF signal and routes it to Transmitters 1 and 2.
The 4x2 Reverse Configuration Module with auxiliary reverse
RF injection (for 8-port optical interface board) combines
reverse inputs from Ports 1 and 2/3 and routes them to
Transmitter 1; it also combines reverse inputs from Ports 4 and
5/6 and routes them to Transmitter 3. An RF signal from an
external source can optionally be injected and coupled with
reverse RF inputs from Ports 3/6 and routed to Transmitter 1.
The 4x2 Reverse Configuration Module with auxiliary reverse
RF injection (for 6-port optical interface board) combines
reverse inputs from Ports 1 and 2/3 and routes them to
Transmitter 1; it also combines reverse inputs from Ports 4 and
5/6 and routes them to Transmitter 2. An RF signal from an
external source can optionally be injected and coupled with the
reverse RF inputs from Ports 3/6 and routed to Transmitter 1.
The 4x2 Redundant Reverse Configuration Module combines
reverse inputs from Ports 1 and 2/3 and routes them to
Transmitters 1 and 2; it also combines reverse inputs from Ports
4 and 5/6 and routes them to Transmitters 3 and 4.
The 4x3 Reverse Configuration Module with auxiliary reverse
RF injection is available in two versions. The
left-combined/right-segmented version combines reverse
inputs from Ports 1 and 2/3 and routes them to Transmitter 1; it
also routes reverse inputs from Port 4 to Transmitter 3 and from
Ports 5/6 to Transmitter 4. An RF signal from an external source
can optionally be injected at Ports 3/6 and coupled with the
reverse RF input from Port 1 and routed to Transmitter 1. The
left-segmented/right-combined version combines reverse
inputs from Ports 4 and 5/6 and routes them to Transmitter 4; it
also routes reverse inputs from Port 1 to Transmitter 1 and from
Ports 2/3 to Transmitter 2. An RF signal from an external source
can optionally be injected at Ports 3/6 and coupled with the
reverse RF inputs from Ports 2/3 and 1 and routed to
Transmitter 1.