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Re: [10GBASE-T] channel model




Larry,

Thanks for getting this started.

Your contribution addresses (at least) three significant elements of the 
channel model development: 

1. frequency range of channel characterization
2. the use of temperature dependent transmission models
3.proposed model limits (with supporting measurement data)

We should try to reach consensus on the elements.

1. The modeling ad hoc should reach a consensus on the frequency range of 
channel characterization.
Note:We should limit the channel characterization to account for relevant 
signal spectrum and 
minimize excess bandwidth characterization. 

2. The 10GBASE-T study group should reach consensus on temperature 
dependencies (in the objectives?).

3. I'm in the process of developing a straw proposal for the cabling ad hoc 
to address 
the generation of measurement  data.  Note: We need the resolution of the 
frequency range of channel 
charcterization (1).

Regards,

Chris DiMinico
Chair Cabling Ad Hoc
MC Communications
e-mail: cdiminico@ieee.org
phone:978-441-1051

In a message dated 1/29/03 1:33:04 AM Eastern Standard Time, 
lcohen@solarflare.com writes:

<< Attached is a proposed 100 meter Cat 5e channel model for 10GBaseT study 
(CHANMOD.TXT).  This model is defined by complex-valued (X + jY format) 
insertion gain in the at 500 kHz intervals from DC to 1 GHz.   
 
 The proposed model is derived from measurement (at 20 C) of a 100 meter 
channel (with Cat 5e patch cords and 4 Cat 5e RJ45 connector interfaces).  
The baseline 100 meter channel model was temperature corrected to 50 C. (122 
F.) using the procedure defined in ASTM D4566 Section 26.4.  The above 
mentioned temperature correction method modifies the magnitude but not the 
phase of the insertion loss.  Experimental measurements confirm that 
temperature effects on the phase are minimal so the approximation is 
sufficiently accurate.  
 
 The most recent proposed model is an extrapolation of the ISO 11801 Class D 
channel loss limit.  The ISO 11801 Class D limit is designed to accommodate 
expected worst-case measurements below 100 MHz and consequently includes some 
additional margin to meet this requirement.  Since this limit is only 
specified below 100 MHz, extrapolation of the limit through smooth curve 
fitting becomes less accurate as it is extended farther beyond its defined 
boundaries.  The new proposed model is based upon measurements beyond 500 MHz 
and thus validated to at least 500 MHz (and somewhat beyond 500 MHz).  As 
shown in the attached graphs (CHANMOD.DOC), the insertion loss for the 
proposed model differs from the ISO 11801 Class D 2002 channel limit by less 
than 0.2 dB from DC to 50 MHz and less than 0.5 dB from 50 to 100 MHz.  While 
it does not represent an absolute worst-case channel, it represents a 
reasonable model for a feasibility study simulating a maximum length channel 
under worst-case temperature conditions.
 
 -Larry
  >>