The 9390 node transponder combines the reliability of AM’s temperature hardened embedded cable modem technology with the flexibility of a standard parameter interface designed by the SCTE HMS committee to operate with virtually all monitoring systems.
The 9390 transponder for the Motorola SG4000 is capable of monitoring a wide array of parameters including RF levels, power supply voltages, transponder internal temperature and lid closure, as well as a wide range of optical parameters. Alarm thresholds can be defined for each parameter, enabling a monitoring solution that is tailored to the needs of the system.
In addition to these standard features, the 9390 controls ingress switching, optical A/B switching, return power levels and return lasers.
The 9390 will connect to an existing CMTS (saving the cost of a proprietary HEC), while exchanging data with AM’s powerful BOSS™ and Omni2000™ software solutions via SNMP.
The AM Networks’ Model 9390 transponder is designed to monitor and control the Motorola SG4000 Optical Node using the latest DOCSIS 2.0 transponder technology and a standard data interface, delivering a fast and reliable link between the headend and the fielded nodes.
This flexible and rugged design allows you to deploy cost-effective DOCSIS transponder technology in every Motorola SG4000 node on your HFC network
Transponder Measurements:
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Analogs:
Optical Power Levels
Laser Current
DC Voltages
Input Line Voltage
Internal Temperature
RF Power Levels
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Status:
Tamper
Hardware Module Inventory
Hardware Status
Vendor Information
Model/Serial Number
Firmware Version
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Control:
Ingress Switching
A/B Path Switching
Return Power Level
Return Laser Control
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Supported MIBs: SCTE HMS MIBs for the Optical Node
DOCSIS 2.0 MIBs
DOCSIS Certification Version 2.0
Downstream Frequency Range 91 MHz to 857 MHz
Modulation 64, 256 QAM
Data Carrier Level -15 dBmV to 15 dBmV
Upstream Frequency 5 to 42 MHz
Output Level 8 to 58 dBmV QPSK
8 to 55 dBmV QAM
Modulation QPSK, 8/16/32/64 QAM
Impedance 75 ohms Nominal
Operating Voltage 24 Volts DC
Power Consumption 6 W Maximum
Operating Temperature -40° to 75°C
Humidity 0-100% non-condensing
Surge Test: per Specification IEEE C62.41-1991.
ESD Protection:+/-8kV air discharge,+/-6kVcontact discharge as per IEC61000-4-2
Specifications are subject to change without notice.
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