GB/T 20485.16-2018 English PDF

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GB/T 20485.16-2018: Methods for the calibration of vibration and shock transducers -- Part 16: Calibration by earth gravitation
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GB/T 20485.16-2018	244	Add to Cart	3 days	Methods for the calibration of vibration and shock transducers -- Part 16: Calibration by earth gravitation	Valid

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Basic data

Standard ID: GB/T 20485.16-2018 (GB/T20485.16-2018)
Description (Translated English): Methods for the calibration of vibration and shock transducers -- Part 16: Calibration by earth gravitation
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: J04
Classification of International Standard: 17.160
Word Count Estimation: 13,183
Date of Issue: 2018-02-06
Date of Implementation: 2018-02-06
Older Standard (superseded by this standard): GB/T 13823.19-2008
Quoted Standard: ISO 16063-1
Adopted Standard: ISO 16063-16-2014��IDT
Regulation (derived from): National Standard Notice No. 2 of 2018
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration
Summary: This standard specifies the equipment and operating procedures required for absolute calibration of accelerometers using Earth's gravity. This standard applies to linear accelerometers with dc (zero frequency) response, such as strain gauge, piezoresistive, variable capacitance, and servo accelerometers. This standard applies to the calibration of the sensitivity amplitude, and the acceleration generated by the local gravity is used as the reference value at 0 Hz. With proper calibration equipment, this standard can be used to calibrate the sensitivity amplitude, using the local acceleration component of gravity as a reference value at 0 Hz. Instrument specifications include environmental conditions and the specific performance requirements of the equipment used. The sensitivity of the dc response accelerometer obtained using this standard can be used in the flat part of the accelerometer's low frequency range. Applicable frequency

GB/T 20485.16-2018: Methods for the calibration of vibration and shock transducers -- Part 16: Calibration by earth gravitation

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Methods for the calibration of vibration and shock transducers.Part 16. Calibration by earth's gravitation ICS 17.160 J04 National Standards of People's Republic of China Replacing GB/T 13823.19-2008 Vibration and shock sensor calibration method Part 16. Earth Gravity Calibration Part 16. Calibrationbyearth'sgravitation (ISO 16063-16.2014, IDT) Published on.2018-02-06 2018-02-06 Implementation General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China China National Standardization Administration released Directory Preface III 1 Scope 1 2 Normative references 1 3 Measurement uncertainty 1 4 Equipment and other requirements 1 4.1 Overview 1 4.2 Environmental Conditions 2 4.3 Installation Platform 2 4.4 Accelerometer Output Measuring Instrument 2 4.5 Earth's Gravity 2 5 Calibration Method 3 5.1 Overview 3 5.2 0° and 180° Test Step 3 5.3 Gravity Component Test Step 3 5.4 DC Bias Considerations 4 5.5 Calibration Settings 4 6 Calibration result report 6 Appendix A (Normative) Gravimetric Calibration Uncertainty Component 7 Reference 9

Foreword

GB/T 20485 "Calibration of vibration and shock sensor calibration" series of standards mainly by the basic concept, absolute calibration, comparison method calibration, ring Simulation Calibration and other five major categories of components, the published sections are as follows. --- Part 1. Basic concepts; --- Part 11. Laser interference absolute calibration; --- Part 12. Absolute calibration of reciprocal vibration; --- Part 13. Laser interferometer absolute calibration; --- Part 15 . Absolute calibration of angular vibration by laser interferometry ; --- Part 16. Earth Gravity Calibration; --- Part 21. Calibration of the vibration comparison method; --- Part 22. Impact Comparison Calibration; --- Part 31. Transverse vibration sensitivity test; --- Part 33. Magnetic sensitivity tests; --- Part 41. Calibration of laser vibrometers; --- Part 42 . Calibration of the gravitational acceleration method for high precision seismometers . The planned release sections are. --- Part 17. Absolute calibration by centrifuge method; --- Part 32. Accelerometer frequency and phase response tests for impact test excitation methods; --- Part 43. Calibration of accelerometers based on model parameter identification; --- Part 44. On-site vibration calibrator calibration; --- Part 45. Calibration of vibration sensors with built-in calibration coils. This part is Part 16 of GB/T 20485. This section was drafted in accordance with the rules given in GB/T 1.1-2009. This Part replaces GB/T 13823.19-2008 "Calibration of Earthquake Gravity and Shock Sensor Calibration Methods". This section compared with GB/T 13823.19-2008, except for editorial changes, the main technical differences are as follows. --- A more detailed description of the scope of application, the uncertainty is written separately as Chapter 3 (see Chapter 1 and Chapter 3, Chapter 1 of GB/T 13823.19-2008); --- Added -30° and 30°, 150° and 210°, -45° and 45°, 135° and 225°, -60° and in the mounting platform At angles of 60°, 120°, and 240°, the platform angle error increases from ±0.5° to ±0.1°, which increases the calculation of the earth's gravity. (see Chapter 4, GB/T 13823.19-2008 Chapter 3); --- Added additional test steps in the calibration method, added DC bias considerations and schematic diagram of the calibration structure (see Chapter 5, chapter 5 of GB/T 13823.19-2008); --- Modify the description of the calibration uncertainty assessment in the Appendix (see Appendix A, Appendix A of GB/T 13823.19-2008); --- Deleted the preferred value (see Chapter 4 of GB/T 13823.19-2008). This section uses the translation method equivalent to the use of ISO 16063-16.2014 "Vibration and shock sensor calibration method Part 16. Earth weight Force Calibration (in English). The Chinese documents that are consistent with the normatively quoted international documents in this section are as follows. --- GB/T 20485.1-2008 Vibration and shock sensor calibration method Part 1. Basic concepts (ISO 16063-1. 1998, IDT) This part is proposed and managed by the National Standardization Technical Committee for Machinery Vibration, Impact and Condition Monitoring (SAC/TC53). This section was drafted by. China Aviation Industry Corporation Beijing Great Wall Metrology and Measurement Technology Institute, Suzhou integrated calibration testing and certification Limited company, Guangzhou Dynamic Integrated Testing and Certification Co., Ltd. The main drafters of this section. Zeng Wu, Yang Hailong, Zhou Lunbin, Bi Haiyan. The previous versions of the standards replaced in this section were. --- GB/T 13823.19-2008. Vibration and shock sensor calibration method Part 16. Earth Gravity Calibration

1 Scope

This part of GB/T 20485 specifies the equipment and operation required for absolute calibration of an accelerometer using Earth's gravity. program. This section applies to linear accelerometers with DC (zero frequency) response, such as strain gauge, piezoresistive, variable capacitance, and servo acceleration Meter. This section applies to the calibration of the sensitivity amplitude, using the acceleration generated by the local gravity as a reference value at 0 Hz. With proper calibration equipment, this section can be used to calibrate the sensitivity amplitude, using the local gravity component of acceleration The reference value is 0Hz. Instrument specifications include environmental conditions and the specific performance requirements of the equipment used. The sensitivity of the dc response accelerometer obtained using this section can be used in the flat part of the accelerometer's low frequency range. Applicable The flatness of the frequency range will be calculated into the measurement uncertainty (UoM). This section applies to reference standard accelerometers and working standard accelerometers, as well as complete accelerometers (accelerometers included Bigger and reading unit).

2 Normative references

The following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article Pieces. For undated references, the latest version (including all amendments) applies to this document. ISO 16063-1 Vibration and Shock Sensor Calibration Methods Part 1. Basic Concepts (Methods for the calibration of vibrationandshocktransducers-Part 1.Basicconcepts)

3 Measurement uncertainty

It is hoped that all users in this section will perform an uncertainty assessment in accordance with Appendix A to provide a measurement uncertainty assessment report. Given A calibration example is provided to help establish a system that meets different uncertainty requirements. When the local gravitational acceleration value gl is known and used, a measurement uncertainty of 0.1% can be obtained. When the local gravitational acceleration value, gl, is unknown, the standard gravitational acceleration gn (ignoring the influence of latitude and altitude) can be used. 0.5% measurement uncertainty. This estimate assumes that the Earth's gravitational acceleration is 9.80665 m/s2 ± 0.026 m/s2. The uncertainty limits mentioned in this chapter apply to devices with a maximum lateral sensitivity of 5%. A more detailed description of the uncertainty component is given in Appendix A. The measurement uncertainty is expressed as the expanded measurement uncertainty (hereinafter referred to as the uncertainty) in accordance with the requirements of ISO 16063-1.

4 Equipment and other requirements

4.1 Overview In order to comply with the scope of Chapter 1 and obtain the uncertainty of Chapter 3, this chapter recommends the necessary performance of the equipment and is listed below. ......

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