By:

Kröber

vibration analysis

Acceleration measurement and determination of the relevant frequency, the acceleration and the amplitude of the oscillation Explanation of the buttons arranged on top of the screenCONTI: Continuous me

vibration analysis

Acceleration measurement and determination of the relevant frequency, the acceleration and the amplitude of the oscillation Explanation of the buttons arranged on top of the screenCONTI: Continuous measurement5 SEC: Fixed measurement duration of 5 sec, then STOP automaticallySTOP: Stop of measurement, the last 5 seconds are displayed-: In stop mode, move zoom window (1.28sec) to the left, only for PRO version+: In stop mode, move zoom window (1.28sec) to the right, only for PRO versionThere are seven figures below the buttons.Upper figure "Current acceleration values":The accelerations values are displayed. The sampling frequency of most smartphones is 50 Hz. If the actual sampling frequency deviates by ± 1 Hz, then the actual sampling frequency appears (flashing). Different times must then be corrected accordingly. The numerically displayed measured values are corrected automatically.During a swipe action "from bottom left to top right", the APP goes into a diagnostic mode. Then the actual sampling frequency, the standard deviation of the sampling frequency and an internal counter appear.Underneath figure "Accelerations over time":It shows the accelerations curve of the last 5 seconds. After pressing STOP, a window of 1.28 sec is marked (vertical black bars).in PRO version: the window can be moved by ±, after a double-tap on the figure it appears twice as large, after another double-tip it is resized again. Swipe up, swipe down to change the scaling.Underneath figure "Largest of the three acceleration components curve":It shows the acceleration component with the maximum acceleration change. The zoom window is represented by 1.28 sec. It is particularly suitable for oscillation frequencies from 1 Hz to 15 Hz. The more sinusoidal the time signal, the more secure are the determined values. In diagnostic mode, trigger points and sine approximations are visible.In PRO version: after a double tip on the figure it appears twice as large, after another double-tip it is resized again. Swipe up, swipe down to change the scaling.Underneath figure "Numerical evaluation from the time signal":Here evaluations from the time domain are displayed numerically. In the diagnostic mode, the number of detected vibrations are displayed. Sx is their standard deviation. The larger n and smaller Sx, the safer the values determined. The acceleration amplitude also specifies a standard deviation. The calculation is done with the least square method.Underneath figure "FFT-writing of the acceleration over time":Here, a plot of the acceleration spectrum over time is shown. Shown are the last 5 seconds. The zoom window is marked.In PRO version: after a double tip on the figure it appears twice as large, after another double-tip it is resized again. Swipe up, swipe down to change the intensity scale.Underneath figure "FFT spectrum of the zoom window":It shows the FFT spectrum within the zoom window. The black curve is the resulting acceleration.In PRO version: after a double tip on the figure it appears twice as large, after another double-tip it is resized again. Swipe up, swipe down to change the scaling.Underneath figure "FFT, numeric":It is the numeric output of the FFT spectrum within the zoom window. The maximum of the FFT is indicated by a cross. Frequency, Amplitude and maximum acceleration values are shown.

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