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Hlavní stránka>BS ISO 16063-42:2014 Methods for the calibration of vibration and shock transducers Calibration of seismometers with high accuracy using acceleration of gravity
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sklademVydáno: 2014-09-30
BS ISO 16063-42:2014 Methods for the calibration of vibration and shock transducers Calibration of seismometers with high accuracy using acceleration of gravity

BS ISO 16063-42:2014

Methods for the calibration of vibration and shock transducers Calibration of seismometers with high accuracy using acceleration of gravity

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Označení normy:BS ISO 16063-42:2014
Vydáno:2014-09-30
ISBN:978 0 580 80111 2
Status:Standard
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BS ISO 16063-42:2014


This standard BS ISO 16063-42:2014 Methods for the calibration of vibration and shock transducers is classified in these ICS categories:
  • 17.160 Vibrations, shock and vibration measurements

This part of ISO 16063 specifies the instrumentation and procedure to be used for the accurate calibration of seismometer sensitivity using local gravitational acceleration (local Earth’s gravitation; local value for the acceleration due to the Earth’s gravity) as a reference value.

It is intended generally to be applied to a servo-type accelerometer with/without a velocity output, which usually has a mass position output in the category of a wide-band seismometer with a bandwidth from 0,003 Hz to 100 Hz.

The method specified enables the user to obtain static sensitivity for the seismometers up to 10−5 m/s2 (which corresponds to 1 mGal and approximately 1 ppm of the gravitational acceleration).

The combined and expanded (k = 2) uncertainty of applied acceleration achieved by this method is 10−6 m/s2 (0,1 mGal). When the absolute gravimeter described in this part of ISO 16063 is used, the uncertainty of applied acceleration can be suppressed to 5 × 10−8 m/s2 (5 μGal). The relative expanded uncertainty of calibration, excluding the uncertainty due to the device under test (DUT), is 0,5 %.

The intended end-usage of the seismometer to be applied is as follows:

  1. measurement and observation for the earth science including geophysics usage;

  2. measurement and observation for disaster prevention, such as detecting the precursor of a land slide;

  3. diagnosis for the soundness of a building structure and foundation soil in civil engineering;

  4. observation for nuclear-test detection.