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view m-toolbox/test/test_ao_heterodyne.m @ 0:f0afece42f48
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author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Wed, 23 Nov 2011 19:22:13 +0100 |
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% Tests for ao/heterodyne % % $Id: test_ao_heterodyne.m,v 1.4 2010/07/08 08:49:37 mauro Exp $ % %% produce input signal fs = 10; nsecs = 1000; amplitude = 1e-3; noise = 1e-6; fmod = 0.1; yunits = 'V'; % carrier h = ao(plist('waveform', 'sine', 'f', fmod, 'a', 1, 'fs', fs, 'nsecs', nsecs, 'yunits', yunits)); % signal s = ao(plist('waveform', 'sine', 'f', 5e-3, 'a', 1, 'fs', fs, 'nsecs', nsecs)); % modulate the carrier m = h .* s; % add noise n = ao(plist('waveform', 'noise', 'nsecs', nsecs, 'fs', fs, 'sigma', noise, 'yunits', yunits)); a1 = m + n; %% demodulate b1_cos = a1.heterodyne(plist('f0', fmod, 'bw', fmod, 'quad', 'cos')); b1_sin = a1.heterodyne(plist('f0', fmod, 'bw', fmod, 'quad', 'sin')); iplot(s, b1_cos, b1_sin, plist('linestyles', {'-','none','none'}, 'markers', {'none','+','+'})); %% demodulate without downsampling b1_cos = a1.heterodyne(plist('f0', fmod, 'ds', false, 'bw', fmod, 'quad', 'cos')); b1_sin = a1.heterodyne(plist('f0', fmod, 'ds', false, 'bw', fmod, 'quad', 'sin')); iplot(s, b1_cos, b1_sin); %% demodulate without downsampling and low pass filtering b1_cos = a1.heterodyne(plist('f0', fmod, 'ds', false, 'lp', false, 'bw', fmod, 'quad', 'cos')); b1_sin = a1.heterodyne(plist('f0', fmod, 'ds', false, 'lp', false, 'bw', fmod, 'quad', 'sin')); iplot(s, b1_cos, b1_sin); %% demodulate without downsampling, but with low pass filtering from user input filt = miir(plist('type', 'lowpass', 'order', 2, 'fc', 0.2*fmod, 'fs', a1.data.fs)); b1_cos = a1.heterodyne(plist('f0', fmod, 'ds', false, 'lp', false, 'bw', fmod, 'quad', 'cos', 'filter', filt)); b1_sin = a1.heterodyne(plist('f0', fmod, 'ds', false, 'lp', false, 'bw', fmod, 'quad', 'sin', 'filter', filt)); iplot(s, b1_cos, b1_sin);