Cisco GainMaker Optoelectronic Node 1GHz with 65 86 MHz Split Fiche De Données
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Data Sheet
GainMaker 1 GHz High Output 4-Port Node with
55/70 MHz Split
55/70 MHz Split
The Cisco GainMaker
®
High Output 4-Port Node with 55/70 MHz Split is designed to
serve as an integral part of today’s network architectures. The node combines the
proven Cisco
proven Cisco
®
technologies of both the Cisco GainMaker RF Amplifier and Cisco
Prisma
®
optical components. Featuring four high-level RF output ports and a
segmentable reverse path, it is an ideal platform for delivering video (digital and
analog) as well as high-speed data services over advanced hybrid fiber-coaxial (HFC)
networks.
analog) as well as high-speed data services over advanced hybrid fiber-coaxial (HFC)
networks.
Reverse traffic can be segmented and routed to Fabry-Perot (FP), distributed feedback (DFB), coarse wavelength-
division multiplexing (CWDM), dense wavelength-division multiplexing (DWDM), or 2:1 baseband digital reverse
(bdr) I reverse transmitters. The Cisco GainMaker High Output 4-Port Node (Figure 1) is also available with an
optional custom status-monitoring Hybrid Management System (HMS) transponder for use with all HMS-compliant
monitoring and control element management systems. Onboard temperature, RF switch position (wink switch),
power supply condition, as well as other features and parameters can be monitored through this module.
Figure 1. Cisco GainMaker High Output 4-Port Node with 55/70 MHz Split
Features
●
Use of plug-in accessories common to all Cisco GainMaker products
●
Two optical transmitters and one receiver positioned in the lid
●
Optional plug-in status monitoring
●
Optional transmitter redundancy (with nonsegmented option)
●
Fiber entry and management tray that provides easy access to fiber connections and folds back to provide
access to optical transmitter and receivers
●
Reverse input pad and RF test point for each reverse port, which allow optimum reverse path design and
alignment
●
Optional dual redundant receiver that provides the ability to switch to redundant optical power in case of a
fiber cut