I tried to model a simple voltage divider and expect to get 0.5 V output. But I only get around 0.0377 V. Can anyone help me out? I do not sure what is the problem here.
Simple voltage divider using rftoolbox
7 vues (au cours des 30 derniers jours)
Afficher commentaires plus anciens
cas_circuit = rfckt.cascade('Ckts',{rfckt.seriesrlc('R',1), rfckt.shuntrlc('R',1)});
freq = [0:0.01e9:10e9];
analyze(cas_circuit, freq)
cas_circuit.AnalyzedResult
sp = sparameters(cas_circuit.AnalyzedResult)
rfplot(sp,'abs')
z0 = cas_circuit.AnalyzedResult.Z0; zS = cas_circuit.AnalyzedResult.ZS; zL = cas_circuit.AnalyzedResult.ZL;
z0 = real(z0); zS = real(zS); zL = real(zL);
%----------------------------------------------------------------------------------------
%at this point we already constructed the circuit, we will need to generate
%the input
difftf = s2tf(sp);
[rationalfunc, errdb] = rationalfit(freq,difftf)
npoles = length(rationalfunc.A);
fprintf('The derived rational function contains %d poles.\n',npoles);
%------------------------------------------------------------------------
freqsforresp = linspace(0,10e9,1001)';
resp = freqresp(rationalfunc,freqsforresp);
figure
subplot(2,1,1)
plot(freq*1.e-9,(abs(difftf)),'r',freqsforresp*1.e-9, ...
(abs(resp)),'b--','LineWidth',2)
title(sprintf('Rational Fitting with %d poles',npoles),'FontSize',12)
ylabel('Magnitude (decibels)')
xlabel('Frequency (GHz)')
legend('Original data','Fitting result')
subplot(2,1,2)
origangle = unwrap(angle(difftf))*180/pi+360*freq'*rationalfunc.Delay;
plotangle = unwrap(angle(resp))*180/pi+360*freqsforresp*rationalfunc.Delay;
plot(freq*1.e-9,origangle,'r',freqsforresp*1.e-9,plotangle,'b--', ...
'LineWidth',2)
ylabel('Detrended phase (deg.)')
xlabel('Frequency (GHz)')
legend('Original data','Fitting result')
%--------------------------------------------------------------------------
ak = [0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1];
Dk = [1,0,1,0,1,0,1,0,1,0,1,0,1,0,1,0,1];
numofSR = length(Dk);
out = [];
for k = 1:1000
out = [out,Dk(numofSR)];
newbit = mod(sum(ak.*Dk),2);
Dk(numofSR) = []; Dk = [newbit, Dk];
end
datarate = 1*1e9; % Data rate: 1 Gbps
samplespersymb = 100;
pulsewidth = 1/datarate;
ts = pulsewidth/samplespersymb;
numsamples = 5000;
numplotpoints = 100000;
t_in = double((1:numsamples)')*ts;
%out?
input_signal = out;
input_signal = repmat(input_signal,[samplespersymb, 1]);
input_signal = input_signal(:);
[output_signal,t_out] = timeresp(rationalfunc,input_signal,ts);
if ~isempty(which('commscope.eyediagram'))
if exist('eyedi','var')
close(eyedi)
end
eyedi = commscope.eyediagram('SamplingFrequency',1./ts, ...
'SamplesPerSymbol',samplespersymb,'OperationMode','Real Signal');
% Update the eye diagram object with the transmitted signal
estdelay = floor(rationalfunc.Delay/ts);
update(eyedi,output_signal(estdelay+1:end));
end
max(output_signal)
overSampleRate = round((1/ts)/datarate
Réponse acceptée
MathWorks RF & Mixed-Signal Products Team
le 7 Nov 2016
Hi Goay Chan Hong,
I think you did not take into account the source and load impedance when computing the transfer function from the S-parameters. Moreover I would build the voltage divider network using the "circuit" syntax, as I find it more intuitive.
I would change part of your code to look like the following. Notice that I used option "2" to compute the transfer function.
Hope this helps, with best regards, Giorgia
ckt = circuit('VoltageDivider');
R = 1;
add(ckt,[1 2], resistor(R))
add(ckt,[2 0], resistor(R))
freq = (0:0.01e9:10e9);
setports(ckt,[1 0],[2 0])
S = sparameters(ckt,freq);
rfplot(S,'abs')
difftf = s2tf(S,1e-12,1e12,2);
[rationalfunc, errdb] = rationalfit(freq,difftf);
freqsforresp = linspace(0,10e9,1001)';
resp = freqresp(rationalfunc,freqsforresp);
figure
plot(freq*1.e-9,((difftf)),'r',freqsforresp*1.e-9, ...
((resp)),'b--','LineWidth',2)
ylabel('Magnitude (linear)')
xlabel('Frequency (GHz)')
legend('Original data','Fitting result')
0 commentaires
Plus de réponses (1)
Voir également
Catégories
En savoir plus sur Accelerators & Beams dans Help Center et File Exchange
Produits
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
Vous pouvez également sélectionner un site web dans la liste suivante :
Amériques
- América Latina (Español)
- Canada (English)
- United States (English)
Europe
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
Asie-Pacifique
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)