DSLAM Configuration in a Cabinet

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Title: DSLAM Configuration in a Cabinet

1
DSLAM Configuration in a Cabinet

2
DSLAM Configuration in a Cabinet

What we propose to demonstrate is
what heat testing involves
our results to date in terms of what can fit into
the cabinet and
what the overall process needs to cover.
This process is still at a very early stage of
establishment. There will be consultation on
various aspects of the details as we go forward.

3
What Sets the Heat Dissipation Limit

The following factors set the heat dissipation
limit
the overriding factor is ensuring that the
external noise levels remain within the RMA/NES
limits
heat exchanger design and associated fans
the temperature the equipment bay is maintained
at, currently set to 45oC and
maximum outside temperature and solar gain.

4
Heat Testing and Cabinet Configuration

Certification of a particular combination of
DSLAMs in a cabinet comprises two processes
Sub rack configuration testing
This is the work currently carried out at Eaton
industries and
Card configuration
This is a modeled exercise based on manufacturing
specifications.
Supported where possible by in-the-field
measurements.

5
Sub Rack Configuration Testing

The aim is establish a layout of all the proposed
equipment in the cabinet to
avoid hot spots within the equipment chamber
establish the maximum heat loading for the
cabinet with this configuration (the aim is to
maintain the cabinets rating, e.g. 1200 watts)
and
confirm that the noise level associated with the
cabinet is still within allowable limits.
The DSLAM and cards cannot be fully loaded at
Eaton. Therefore, to achieve the heat loading,
we
power up all DSLAMs and
add additional heat loadings to bring the total
heat load up to the cabinet rating.

6
Sub Rack Testing - Method

All DSLAMs involved are fully carded to create
maximum resistance to air flow.
An initial configuration is proposed and mounting
iron work arranged.
The test cabinet is then installed in a heat
chamber with about 19 probes, which
measure temperature at critical points and
monitor the cabinet fan voltages.
The cabinet is cycled through the temperature
range with continual measurement recording.
The cabinet is then taken to a quiet location to
test for noise.

7
Sub Rack Testing Method (cont)

If a problem is encountered with this
configuration, then alternative configurations
are tried.
If an alternative can not be established then
Eaton will advise both the applicant and Chorus,
and provide recommendations.
These recommendations could include de-rating the
cabinet for this configuration, raising the
ambient temperature etc.
The exact process is yet to be established and
further consultation on this is required.

8
Sub Rack Testing Results
Alcatel 7302
Alcatel 7356 DSLAM
Huawei 5603T DSLAM
9
Sub Rack Testing Results

10
Sub Rack Testing - Output

11
Card Configuration Certification

Having established the cabinet heat capacity for
this configuration, the allowable card
combinations can be derived.
The process for certifying card configuration is
yet to be confirmed, following consultation.
The following is a summary of how we expect the
process will operate
certification will be based on the manufacturers
power rating for each type of card and DSLAM with
input from in-the-field measurements
the assumption is that the card is fully
utilised and
The results of each combination will be modeled
in Excel.

12
Card Configuration Modeled output for a Single
Bay

Based on known specifications, the table below
has been calculated from the model to show the
heat loading for the maximum possible subscribers
as the technology progresses.

The cabinet heat capacity for this configuration
is 1,200 Watts
13
Card Configuration Modeled output for a Single
Bay (continued)

VDSL and Voice emulation represents the highest
heat loading
384 is the absolute maximum number of customers
per cabinet, average is 210 and normal targeted
maximum is 330
For ADSL 2 only, the maximum capacity for this
combination of DSLAMs is 384 192 96 672
ports. This is 75 above the maximum lines and
over three times the average cabinet size.
This is at the limit, but on the basis that this
may only be a problem on maximum temperature
days, it would be satisfactory
No specialised cards included in this modeling.

14
Card Configuration Modeled output for a Double
Bay

Double Bay two DSLAMs Alcatel 7302 and Huawei
5603T330 lines split 264/66
All cards are VDSL
Telecom Wholesale using Nokia Voice Mux
2nd provider has voice emulation cards used for
80 of the lines
No specialised cardsCabinet heat loading
1,184 watts
330 is the absolute maximum lines on a double bay
For ADSL 2 only, the maximum capacity for this
combination of DSLAMs and Nokia voice Mux is 336
128 464 ports. This is 21 above the maximum
lines and over twice the average cabinet size.

15
Problem Resolution

There are a number of ways that problem
configurations can be addressed and, in some
cases, solved.
These should be treated on a case-by-case basis
which allows for flexibility our aim is to
satisfy as many of our customers as we can.
Solutions may involve
allowing the internal temperature to increase by
a few degrees
recognising that while the cabinet design is for
a maximum outside temperature of 35oC, the
cabinet may not be located in an area where this
temperature is expected and
checking the DSLAM manufacturers heat
specifications against real world scenarios.
Need to reiterate that this process is at an
early stage of establishment.