ISO 16063-11:1999 img
Active standard | Published: 16/12/1999

ISO 16063-11:1999

Methods for the calibration of vibration and shock transducers — Part 11: Primary vibration calibration by laser interferometry
(Méthodes pour l´étalonnage des transducteurs de vibrations et de chocs — Partie 11: Étalonnage primaire de vibrations avec interférometre de laser)

Available languages: English

Available design: electronic design (pdf), Print design

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Detail information

Designation: ISO 16063-11:1999

Publication date: 16/12/1999

Pages: 27

Country: International technical standard

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Anotation

Description / Abstract: This part of ISO 16063 specifies the instrumentation and procedure to be used for primary vibration calibration of rectilinear accelerometers (with or without amplifier) to obtain magnitude and phase lag of the complex sensitivity by steady-state sinusoidal vibration and laser interferometry. It is applicable to a frequency range from 1 Hz to 10 kHz and a dynamic range (amplitude) from 0,1 m/s2 to 1 000 m/s2 (frequency-dependent). These ranges are covered with the uncertainty of measurement specified in clause 2. Calibration frequencies lower than 1 Hz (e.g. 0,4 Hz, which is a reference frequency used in other International Standards) and acceleration amplitudes smaller than 0,1 m/s2 (e.g. 0,004 m/s2 at 1 Hz) can be achieved using Method 3 specified in this part of ISO 16063, in conjunction with an appropriate low-frequency vibration generator. Method 1 (fringe-counting method) is applicable to sensitivity magnitude calibration in the frequency range 1 Hz to 800 Hz and, under special conditions, at higher frequencies (cf. clause 7). Method 2 (minimum-point method) can be used for sensitivity magnitude calibration in the frequency range 800 Hz to 10 kHz (cf. clause 8). Method 3 (sine-approximation method) can be used for magnitude of sensitivity and phase calibration in the frequency range 1 Hz to 10 kHz (cf. clause 9). Methods 1 and 3 provide for calibrations at fixed acceleration amplitudes at various frequencies. Method 2 requires calibrations at fixed displacement amplitudes (acceleration amplitude varies with frequency).
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