% Matlab Init :noexport:ignore: current_dir='/home/thomas/MEGA/These/meas/slip-ring-test/'; %% Clear Workspace and Close figures clear; close all; clc; %% Intialize Laplace variable s = zpk('s'); % Load data % We load the data of the z axis of two geophones. sr_off = load('mat/data_008.mat', 'data'); sr_off = sr_off.data; sr_on = load('mat/data_009.mat', 'data'); sr_on = sr_on.data; sr_6r = load('mat/data_010.mat', 'data'); sr_6r = sr_6r.data; sr_60r = load('mat/data_011.mat', 'data'); sr_60r = sr_60r.data; % Time Domain % We plot the time domain data for the direct measurement (figure [[fig:sr_direct_time]]) and for the signal going through the slip-ring (figure [[fig:sr_slipring_time]]); figure; hold on; plot(sr_60r(:, 3), sr_60r(:, 1), 'DisplayName', '60rpm'); plot(sr_6r(:, 3), sr_6r(:, 1), 'DisplayName', '6rpm'); plot(sr_on(:, 3), sr_on(:, 1), 'DisplayName', 'ON'); plot(sr_off(:, 3), sr_off(:, 1), 'DisplayName', 'OFF'); hold off; xlabel('Time [s]'); ylabel('Voltage [V]'); legend('Location', 'northeast'); % #+NAME: fig:sr_direct_time % #+CAPTION: Direct measurement % #+RESULTS: fig:sr_direct_time % [[file:figs/sr_direct_time.png]] figure; hold on; plot(sr_60r(:, 3), sr_60r(:, 2), 'DisplayName', '60rpm'); plot(sr_6r(:, 3), sr_6r(:, 2), 'DisplayName', '6rpm'); plot(sr_on(:, 3), sr_on(:, 2), 'DisplayName', 'ON'); plot(sr_off(:, 3), sr_off(:, 2), 'DisplayName', 'OFF'); hold off; xlabel('Time [s]'); ylabel('Voltage [V]'); legend('Location', 'northeast'); % Frequency Domain % We first compute some parameters that will be used for the PSD computation. dt = sr_off(2, 3)-sr_off(1, 3); Fs = 1/dt; % [Hz] win = hanning(ceil(10*Fs)); % Then we compute the Power Spectral Density using =pwelch= function. [pxdir, f] = pwelch(sr_off(:, 1), win, [], [], Fs); [pxoff, ~] = pwelch(sr_off(:, 2), win, [], [], Fs); [pxon, ~] = pwelch(sr_on(:, 2), win, [], [], Fs); [px6r, ~] = pwelch(sr_6r(:, 2), win, [], [], Fs); [px60r, ~] = pwelch(sr_60r(:, 2), win, [], [], Fs); % And we plot the ASD of the measured signals (figure [[fig:sr_psd_compare]]); figure; hold on; plot(f, sqrt(pxoff), 'DisplayName', 'OFF'); plot(f, sqrt(pxon), 'DisplayName', 'ON'); plot(f, sqrt(px6r), 'DisplayName', '6rpm'); plot(f, sqrt(px60r), 'DisplayName', '60rpm'); plot(f, sqrt(pxdir), 'k-', 'DisplayName', 'Direct'); hold off; set(gca, 'xscale', 'log'); set(gca, 'yscale', 'log'); xlabel('Frequency [Hz]'); ylabel('ASD of the measured Voltage $\left[\frac{V}{\sqrt{Hz}}\right]$') legend('Location', 'northeast'); xlim([0.1, 500]);