Ideal HFC Plant Configuration Issues
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JUNOSg 3.0 G10 CMTS Hardware Guide
150
Ideal HFC Plant Configuration Issues
This section provides a list of potential HFC plant issues and the procedures to resolve them.
The troubleshooting procedures in this section assume that the HFC plant is ideal and not
contributing to issues associated with the cable modems.
“HFC Plant Related Issues” on page 156 addresses issues associated with problems in the
HFC plant.
This section includes the following topics:
!
Cable Modem Cannot Successfully Range on page 150
!
Cable Modem Cannot Establish IP Connectivity on page 151
!
Cable Modem Cannot Successfully Register on page 151
!
Cable Modem Throughput is Slow on page 152
!
Cable Modem is Dropped on page 156
Cable Modem Cannot Successfully Range
If a cable modem cannot successfully range, the cause might be one or more of the following:
!
The downstream and upstream interface and port mapping are not properly aligned
with the forward and return path topology of the HFC plant. For example, suppose a
cable modem resides in cable interface 0 (MAC domain 0), which contains downstream
interface 0 and upstream interfaces 0 and 1. Also, suppose the forward and return paths
are connected to downstream port 0 and upstream port 0 of an HFC Connector Module
or SIM. If you manually reconfigured the CMTS so that upstream interface 0 is moved to
upstream port 1, but the interface still resides in cable interface 0, when upstream
interface 0 is enabled, the CMTS will be expecting the cable modem to transmit on
port 1, but the cable modem will be transmitting its ranging requests on port 0.
!
The upstream interface on which the cable modem resides is not enabled.
A high
IM
value in the flap list can be an indication of ranging issues.
The local event log might contain events that explain why a cable modem has been
de-ranged. Issue the
show log cable
command to see the local event log.
Содержание G10 CMTS
Страница 8: ... JUNOSg 3 0 G10 CMTS Hardware Guide viii ...
Страница 18: ... JUNOSg 3 0 G10 CMTS Hardware Guide 2 ...
Страница 34: ...G10 CMTS Hardware Overview JUNOSg 3 0 G10 CMTS Hardware Guide 18 ...
Страница 46: ...DOCSIS Module JUNOSg 3 0 G10 CMTS Hardware Guide 30 Figure 12 DOCSIS Module Front Panel HotSwap ...
Страница 55: ... Hardware Component Overview Chassis Control Module 39 Figure 15 Chassis Control Module Front Panel Eth0 ...
Страница 72: ...Chassis Rear Modules JUNOSg 3 0 G10 CMTS Hardware Guide 56 Figure 21 Hard Disk Module Rear Panel C O M Eth ...
Страница 82: ... JUNOSg 3 0 G10 CMTS Hardware Guide 66 ...
Страница 112: ...Rack Mounting JUNOSg 3 0 G10 CMTS Hardware Guide 96 Figure 25 Air Flow Through Chassis ...
Страница 116: ...Rack Mounting JUNOSg 3 0 G10 CMTS Hardware Guide 100 Figure 29 Rack Fully Populated with Three G10 CMTS Chassis ...
Страница 118: ...Install Power Supplies JUNOSg 3 0 G10 CMTS Hardware Guide 102 Figure 30 Power Supply Installation 1 2 ...
Страница 138: ...Connect to Power Sources JUNOSg 3 0 G10 CMTS Hardware Guide 122 Figure 39 DC Power Transition Module ...
Страница 148: ... JUNOSg 3 0 G10 CMTS Hardware Guide 132 ...
Страница 156: ...Upstream RF Measurement JUNOSg 3 0 G10 CMTS Hardware Guide 140 ...
Страница 188: ... JUNOSg 3 0 G10 CMTS Hardware Guide 172 ...
Страница 196: ...Radio Frequency RF Specifications JUNOSg 3 0 G10 CMTS Hardware Guide 180 ...
Страница 202: ...EIA Channel Plans JUNOSg 3 0 G10 CMTS Hardware Guide 186 ...
Страница 203: ... 187 Part 5 Index Index on page 189 ...
Страница 204: ... JUNOSg 3 0 G10 CMTS Hardware Guide 188 ...
Страница 209: ... Index 193 Index V ventilation 69 89 95 101 124 161 162 167 video servers 7 voltage power supply 27 ...
Страница 210: ... Index JUNOSg 3 0 G10 CMTS Hardware Guide 194 ...