90 lines
2.0 KiB
Mathematica
90 lines
2.0 KiB
Mathematica
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%% Clear Workspace and Close figures
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clear; close all; clc;
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%% Intialize Laplace variable
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s = zpk('s');
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addpath('./src/');
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% Test with one APA
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%% Load measurement data for APA number 1
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load(sprintf('mat/frf_data_%i_sweep_lf.mat', 2), 't', 'Va', 'Vs', 'de', 'da');
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% Compute transfer functions:
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Ts = (t(end) - t(1))/(length(t)-1);
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Fs = 1/Ts;
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win = hanning(ceil(1*Fs)); % Hannning Windows
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[G_dvf, f] = tfestimate(Va, de, win, [], [], 1/Ts);
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[G_d, ~] = tfestimate(Va, da, win, [], [], 1/Ts);
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[G_iff, ~] = tfestimate(Va, Vs, win, [], [], 1/Ts);
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[coh_dvf, ~] = mscohere(Va, de, win, [], [], 1/Ts);
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[coh_d, ~] = mscohere(Va, da, win, [], [], 1/Ts);
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[coh_iff, ~] = mscohere(Va, Vs, win, [], [], 1/Ts);
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%%
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figure;
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hold on;
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plot(f, coh_dvf);
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plot(f, coh_d);
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plot(f, coh_iff);
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hold off;
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set(gca, 'XScale', 'log');
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%%
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figure;
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tiledlayout(2, 1, 'TileSpacing', 'None', 'Padding', 'None');
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ax1 = nexttile;
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hold on;
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plot(f, abs(G_dvf));
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plot(f, abs(G_d));
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hold off;
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set(gca, 'XScale', 'log'); set(gca, 'YScale', 'log');
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ylabel('Amplitude $V_{out}/V_{in}$ [V/V]'); set(gca, 'XTickLabel',[]);
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hold off;
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ax2 = nexttile;
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hold on;
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plot(f, 180/pi*angle(G_dvf));
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plot(f, 180/pi*angle(G_d));
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hold off;
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set(gca, 'XScale', 'log'); set(gca, 'YScale', 'lin');
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xlabel('Frequency [Hz]'); ylabel('Phase [deg]');
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hold off;
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yticks(-360:90:360);
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linkaxes([ax1,ax2],'x');
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xlim([5, 5e3]);
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figure;
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tiledlayout(2, 1, 'TileSpacing', 'None', 'Padding', 'None');
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ax1 = nexttile;
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plot(f, abs(G_iff));
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set(gca, 'XScale', 'log'); set(gca, 'YScale', 'log');
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ylabel('Amplitude $V_{out}/V_{in}$ [V/V]'); set(gca, 'XTickLabel',[]);
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hold off;
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ax2 = nexttile;
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plot(f, 180/pi*angle(G_iff));
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set(gca, 'XScale', 'log'); set(gca, 'YScale', 'lin');
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xlabel('Frequency [Hz]'); ylabel('Phase [deg]');
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hold off;
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yticks(-360:90:360);
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linkaxes([ax1,ax2],'x');
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xlim([0.1, 10]);
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% Comparison of all APA
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%% Load all the measurements
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meas_data = {};
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for i = 1:7
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meas_data(i) = {load(sprintf('mat/frf_data_%i.mat', i), 't', 'Va', 'Vs', 'de', 'da')};
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end
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