How to build bigger S-parameter from smaller S-parameters

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Roee
Roee 2023 年 9 月 19 日
回答済み: Mark 2024 年 11 月 16 日 14:30
I have cable S4P measurements for :
  1. Through channel (S4P file)
  2. few - NEXT channels of the through channel in section 1 (Near end cross talk) S4P files
  3. few FEXT channels if the same through channel in section 1 (FAR end cross talk) S4P files
I need from these to build S16P file, with all this data.
How can I perform this task (that seems to be just placing Matrix data in the correct bigger matrix)
Example of files to use are attached
Thanks,
Roee

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回答 (2 件)

Abhimenyu
Abhimenyu 2023 年 9 月 26 日
Hi Roee,
I understand that you want to build a S16P file from the provided S4P files. Using MATLAB, you can deconstruct a bigger S-parameter file into smaller ones, e.g., S4P to S2P, but vice versa can only be done by manual array concatenation. Here is the example code for the same:
% Load the S4P file for the through channel
through_channel_data = read(rfdata.data,'THRU_Molex_TP1-TP4_2mQSFP-DD_RowA_07-2019_P1Tx4-P2Rx4.s4p');
% Load the S4P files for the NEXT channels
next_channel1_data = read(rfdata.data,'NEXT_Molex_TP1-TP4_2mQSFP-DD_RowA_07-2019_P1Tx4-P1Rx8.s4p');
next_channel2_data = read(rfdata.data,'NEXT_Molex_TP1-TP4_2mQSFP-DD_RowA_07-2019_P1Tx4-P1Rx7.s4p');
% ... (load other NEXT channel data files as needed)
% Load the S4P files for the FEXT channels
fext_channel1_data = read(rfdata.data,'FEXT_Molex_TP1-TP4_2mQSFP-DD_RowA_07-2019_P1Tx4-P2Rx5.s4p');
fext_channel2_data = read(rfdata.data,'FEXT_Molex_TP1-TP4_2mQSFP-DD_RowA_07-2019_P1Tx4-P2Rx3.s4p');
% ... (load other FEXT channel data files as needed)
% Initialize an empty S16P matrix
s16p_matrix = zeros(4, 4, length(through_channel_data.Freq));
% Place the data from the through channel S4P file into the S16P matrix
s16p_matrix(1:4, 1:4, :, :) = through_channel_data.S_Parameters;
% Place the data from the NEXT channels S4P files into the S16P matrix
s16p_matrix(1:4, 2:5, :, :) = next_channel1_data.S_Parameters;
s16p_matrix(1:4, 3:6, :, :) = next_channel2_data.S_Parameters;
%s16p_matrix(1:4, 4:7, :, :) = next_channel3_data.S_Parameters;
% ... (place other NEXT channel data into the S16P matrix as needed)
% Place the data from the FEXT channels S4P files into the S16P matrix
s16p_matrix(1:4, 9:12, :, :) = fext_channel1_data.S_Parameters;
s16p_matrix(1:4, 10:13, :, :) = fext_channel2_data.S_Parameters;
%s16p_matrix(1:4, 11:14, :, :) = fext_channel3_data.S_Parameters;
%s16p_matrix(1:4, 12:15, :, :) = fext_channel4_data.S_Parameters;
% ... (place other FEXT channel data into the S16P matrix as needed)
% Save the S16P matrix as an S16P file
save('output.s16p', 's16p_matrix');
You can substitute rest of your files accordingly and construct the S16P file. For more information follow the below links:
Thank you,
Abhimenyu.
Mark
Mark 2024 年 11 月 16 日 14:30
It is certainly possible to "concatenate" sparameter data into a larger array and then make a new sparameter. To build an 8x8 out of 4x4s, one could do:
S11 = sparameters('default.s4p');
S12 = sparameters('default.s4p');
S21 = sparameters('default.s4p');
S22 = sparameters('default.s4p');
row1Data = horzcat(S11.Parameters,S12.Parameters);
row2Data = horzcat(S21.Parameters,S22.Parameters);
data = vertcat(row1Data,row2Data); % 8 x 8 x 1496
freqs = S11.Frequencies; % 1496 x 1
SS = sparameters(data,freqs)
% >> SS
%
% SS =
%
% sparameters with properties:
%
% Impedance: 50
% NumPorts: 8
% Parameters: [8×8×1496 double]
% Frequencies: [1496×1 double]
But your use case suggests building a SPICE-like RF Toolbox circuit out of 4x4 nport elements and then "extracting" the sparameters. The nport element is the circuit container for sparameters.
I can't give you an exact answer because I'm not sure how you want to connect your pieces. But it would be something like:
c = circuit;
n = nport('default.s4p');
freqs = n.NetworkData.Frequencies;
add(c,[1 2 3 4 0 0 0 0],n)
n1 = nport('default.s2p');
add(c,[1 0],n1)
n2 = nport('default.s2p');
add(c,[2 0],n2)
n3 = nport('default.s2p');
add(c,[3 0],n3)
n4 = nport('default.s2p');
add(c,[1 0],n4)
setports(c,[1 0],[2 0],[3 0],[4 0])
S = sparameters(c,freqs)
See the example https://www.mathworks.com/help/rf/ug/mos-interconnect-and-crosstalk.html.

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