OFDM modulation how to apply in real application

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Kaitlyn Morgan
Kaitlyn Morgan am 29 Mär. 2019
Kommentiert: Kaitlyn Morgan am 29 Mär. 2019
I am looking to generate and QAM-16 OFDM signal and apply it to a LED to control the amplitude.
When I create the OFDM modulated signal as follows, it outputs complex numbers in modData. Can I simply take the real portion of this complex value to convert to a voltage to amplitude modulate the diode? Or is there some other way to convert the modulated data into a summation of sinusoids?
On the receiving end, I have a detector attached to a scope which will change the sampling rate. Can I use the corresponding demodulator with this signal or will I have to adjust the sampling rate, assuming I can find the correct start of the signal or will it fail because I don't have a complex input?
FFTlen = 256;
Guard = [28;28];
DC = false;
pilotIdx = [-88,-63,-38,-13,13,38,63,88]';
pilotIdx = pilotIdx+129;
CP = FFTlen * 0.25;
nSymb = 30;
%QAM
M = 16;
%PILOT
p1 = [0 1 0 1 1 1 0 0];
p2 = [1 0 1 0 0 0 1 1];
pilot1 = pskmod(p1,2)';
pilot2 = pskmod(p2,2)';
%OFDM MOD
ofdmMOD = comm.OFDMModulator('FFTLength',FFTlen,'NumGuardBandCarriers',Guard, ...
'InsertDCNull',DC, 'CyclicPrefixLength', CP, ...
'PilotInputPort', true, 'PilotCarrierIndices', pilotIdx,...
'NumSymbols',nSymb);
modDim = info(ofdmMOD);
%DATA
inSig = randi([0 M-1],modDim.DataInputSize(1),modDim.DataInputSize(2));
dataIn = qammod(inSig,M,'UnitAveragePower',true);
pilotIn = [repmat(pilot1,1,8), repmat(pilot2,1,9), ...
repmat(pilot1,1,2), repmat(pilot2,1,7), ...
repmat(pilot1,1,4)];
modData = step(ofdmMOD,dataIn,pilotIn);
  2 Kommentare
Akira Agata
Akira Agata am 29 Mär. 2019
Before jumping into a solution, I would recommend learning a basics on IQ modulator, such like the following page.
What is I/Q Data?
Regards,
Akira
Kaitlyn Morgan
Kaitlyn Morgan am 29 Mär. 2019
Thank you, I do understand IQ modulation, the summation of orthogonal frequencies was throwing me off. So if I use the same code as above, but set only one bit of the input data to one, I get a constant sinusoid over one OFDM symbol only.
I am currently trying to verify the sinusoidal frequencies using the fourier-transform method, I don't seem to be getting the correct frequencies. Is my definition of f below incorrect?
%% CONVERT TO OPTICAL SIGNAL and verify
RHO = abs(modData);
PHI = angle(modData);
Fc = 1.1e9; % center frequency at 1.1 GHz
dt = 1/Fc;
t = (0:dt:dt*length(PHI)-dt)';
% OPTICAL SIGNAL
OPT_sig = RHO .* cos(2*pi*Fc*t + PHI);
%%Time specifications:
N = size(t,1);
%%Fourier Transform:
X = fftshift(fft(OPT_sig));
%%Frequency specifications:
dF = Fc/N; % hertz
f = -Fc/2:dF:Fc/2-dF; % hertz
%%Plot the spectrum:
figure(1)
hold on
plot(f/1e9,abs(X)/N);
xlabel('Frequency (GHz)');
title('Magnitude Response');
hold off

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