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GB/T 20485.43-2021 English PDF

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GB/T 20485.43-2021: Methods for the calibration of vibration and shock transducers - Part 43: Calibration of accelerometers by model-based parameter identification
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Basic data

Standard ID GB/T 20485.43-2021 (GB/T20485.43-2021)
Description (Translated English) Methods for the calibration of vibration and shock transducers - Part 43: Calibration of accelerometers by model-based parameter identification
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard J04
Word Count Estimation 18,159
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 20485.43-2021: Methods for the calibration of vibration and shock transducers - Part 43: Calibration of accelerometers by model-based parameter identification


---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 43.Calibration of accelerometers by model-based parameter identification ICS 17.160 J04 National Standards of People's Republic of China Vibration and shock sensor calibration method Part 43.Based on model parameter identification Accelerometer calibration (ISO 16063-43.2015, IDT) Released on 2021-08-20 2022-03-01 implementation State Administration of Market Supervision and Administration Issued by the National Standardization Management Committee

Table of contents

Foreword Ⅰ Introduction Ⅱ 1 Scope 1 2 Normative references 1 3 Terms and definitions 2 4 Symbol 2 5 Typical frequency response and transient excitation analysis 3 6 General method 5 7 Linear mass-spring-damping model 5 7.1 Model 5 7.2 Parameter identification based on sinusoidal calibration data 5 7.3 Identification based on frequency domain shock calibration data 8 8 Attention in use 12 8.1 Influence of the measuring chain 12 8.2 Synchronization of measurement channels 12 8.3 Characteristics of the source data used for identification 12 8.4 Validation test of the model and the validity of the parameters 12 8.5 Statistical Test of Model Effectiveness 13 9 Results report 13 9.1 General considerations of the report 13 9.2 Results and conditions of the report 14 Reference 15

Foreword

GB/T 20485 "Vibration and shock sensor calibration method" mainly consists of basic concepts, absolute calibration, comparison calibration, and environmental simulation calibration. Standards and other five major categories, the published parts are as follows. ---Part 1.Basic concepts; ---Part 11.Absolute Vibration Calibration by Laser Interferometry; ---Part 12.Absolute Vibration Calibration by Reciprocity Method; ---Part 13.Absolute calibration of impact by laser interferometry; ---Part 15.Absolute calibration of angular vibration by laser interferometry; ---Part 16.Earth Gravity Method Calibration; ---Part 21.Vibration comparison method calibration; ---Part 22.Impact comparison method calibration; ---Part 31.Transverse vibration sensitivity test; ---Part 33.Magnetic Sensitivity Test; ---Part 41.Laser Vibrometer Calibration; ---Part 42.Gravitational acceleration method calibration of high-precision seismometers; ---Part 43.Accelerometer calibration based on model parameter recognition. The parts planned to be released are. ---Part 17.Centrifuge method absolute calibration; ---Part 32.Response test of accelerometer frequency and phase response test of shock excitation method; ---Part 44.On-site vibration calibrator calibration; ---Part 45.Vibration sensor calibration with built-in calibration coil. This part is part 43 of GB/T 20485. This section was drafted in accordance with the rules given in GB/T 1.1-2009. The translation method used in this part is equivalent to the ISO 16063-43.2015 (revised in.2016) "Vibration and shock sensor calibration method" Part 43.Accelerometer calibration based on model parameter identification". The Chinese documents that have a consistent correspondence with the international documents cited 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); ---GB/T 20485.11-2006 Vibration and shock sensor calibration method part 11.laser interferometry vibration absolute calibration (ISO 16063-11.1999,IDT); ---GB/T 20485.13-2007 Vibration and shock sensor calibration method part 13.laser interferometric shock absolute calibration (ISO 16063-13.2001,IDT); ---GB/T 20485.21-2007 Vibration and shock sensor calibration method Part 21.Vibration comparison method calibration (ISO 16063-21.2003, IDT); ---GB/T 20485.22-2008 Vibration and shock sensor calibration method part 22.shock comparison method calibration (ISO 16063-22.2005, IDT); ---JJF1059.1-2012 Measurement Uncertainty Evaluation and Expression (ISO /IEC GUIDE98-3.2008); ---JJF1059.2-2012 Monte Carlo method is used to evaluate measurement uncertainty (ISO /IEC GUIDE98-3-SP1.2008). Please note that some of the contents of this document may involve patents. The issuing agency of this document is not responsible for identifying these patents. This part is proposed and managed by the National Mechanical Vibration, Shock and Condition Monitoring Standardization Technical Committee (SAC/TC53). Drafting organizations of this section. China Academy of Metrology, Shanghai Institute of Metrology and Testing Technology, Suzhou Integrated Calibration Testing and Certification Co., Ltd. The company, Beijing Institute of Metrology and Testing Science, Beijing Institute of Technology. The main drafters of this section. Hu Hongbo, Yu Mei, Liu Liqun, Zhou Lunbin, Zhang Hongyu, Zhang Zhenhai.

Introduction

ISO 16063 (all parts) in its different parts (ISO 16063-1, ISO 16063-11, ISO 16063-13, ISO 16063-21 And ISO 16063-22) specify the device and procedures for calibrating vibration sensors. The methods used can be divided into two categories, the first category is The steady-state signal is a sine or multi-sine excitation; the second type is a transient signal, which is an impulse excitation. The former is due to its inherent periodic repetitiveness The optimal measurement uncertainty can be obtained; while the latter is mainly aimed at the high frequency that the periodic excitation cannot be achieved due to the power limitation of the calibration system. Intensive motivation. The result of the first type of calibration is given in the form of complex transfer sensitivity in the frequency domain, so it cannot be directly used for time-domain transient signals. The result of the second type of calibration is a single value, the real-time domain peak ratio. This ratio (intentionally) ignores the sensor pair in its resonance frequency band. There is a frequency-dependent dynamic response of the component of the transient input signal. Because of this "peak ratio feature", the calibration result is usually The shape of the transient input signal used has a strong correlation with the device used. This will have the following two serious consequences. a) The impact excitation calibration according to ISO 16063-13 or ISO 16063-22 is limited in the use of value transfer. That is, the shock sensitivity Ssh obtained by the laboratory calibration using the absolute method may be installed in the laboratory using the comparison method. It cannot be used if it is placed on top. The reason is that the shape of the input excitation signal is different, which leads to the generation of the spectral structure of the impact excitation signal of the comparison method. The difference. b) If the calibration device uses input signals with different frequency components, such as in the verification of the effectiveness of a certain approval process, discuss the measurement It is not feasible to compare the calibration results obtained by different calibration devices when the uncertainty of measurement is used to evaluate the consistency problem. The method adopted in this section is to use the accelerometer as a dynamic system described by a mathematical model with mechanical input and electrical output. This power output is assumed to be proportional to the inherent mechanical quantity (such as deformation) of the accelerometer. In the established method (ISO 16063- 11.Based on the data obtained from the calibration of ISO 16063-13, ISO 16063-21 and ISO 16063-22), determine the estimated values of the model parameters to And the corresponding uncertainty. The quantified parameters and their corresponding uncertain complete models can be used to calculate the sensor's response to any transient information. The time domain response of the signal (including the uncertainty related to time), or the time output signal (ISO 16063-11 Or ISO 16063-13) to estimate the unknown sensor transient input signal. In addition, this method can also provide the continuous frequency domain transfer sensitivity estimation of this model. In short, the methods and processes specified in this section can enable users to perform the following tasks. ---Calibrate the vibration sensor used to accurately measure the transient input; ---Using transient excitation to compare and measure effectiveness; ---Predict the transient input signal and its measurement uncertainty over time; ---Compensate the frequency response characteristics of the vibration sensor (real-time), thereby expanding the applicable bandwidth of the sensor. Vibration and shock sensor calibration method Part 43.Based on model parameter identification Accelerometer calibration

1 Scope

This part of GB/T 20485 specifies the parameter estimation and the corresponding error in the mathematical model used to describe the input and output characteristics of the vibration sensor. Terminology and methods of certainty assessment. The methods described are based on ISO 16063-11, ISO 16063-13, ISO 16063-21 and ISO 16063-22 The specified calibration procedure is based on the parameter estimation of the collected calibration data. This part is about the existing procedures and definitions in the above standards The described uncertainty assessment is in accordance with ISO /IEC GUIDE98-3 and ISO /IEC GUIDE98-3-SP1 method. The new features described in this section are used to improve the quality of calibration and measurement applications for broadband/transient input signals (such as shocks). This part The characteristic description method of the response of the vibration sensor to the transient input signal is given, and the input signal is predicted by using the obtained output signal, as Accurate measurement of transient vibration signals provides a basis. In order to provide single-valued characteristics beyond the requirements of ISO 16063-13 and ISO 16063-22 The measurement capability and uncertainty of the range, the accelerometer calibration data of the above application areas should be evaluated and recorded according to the following methods.

2 Normative references

The following documents are indispensable for the application of this document. For dated reference documents, only the dated version applies to this article Pieces. For undated reference documents, the latest version (including all amendments) is applicable to this document. ISO 2041 Mechanical vibration, shock and condition monitoring vocabulary (Mechanicalvibration, shockandconditionmonito- ring-Vocabulary) ISO 16063-1 Vibration and shock sensor calibration methods Part 1.Basic concepts (Methods for the calibration ofvibrationandshocktransducers-Part 1.Basicconcepts) ISO 16063-11 Vibration and Shock Sensor Calibration Methods Part 11.Laser Interferometry Vibration Absolute Calibration (Methods forthecalibrationofvibrationandshocktransducers-Part 11.Primaryvibrationcalibrationbylaser interferometry) ISO 16063-13 Vibration and shock sensor calibration methods Part 13.Laser interferometric shock absolute calibration (Methodsfor thecalibrationofvibrationandshocktransducers-Part 13.Primaryshockcalibrationusinglaserin- terferometry) ISO 16063-21 Vibration and shock sensor calibration methods Part 21.Vibration comparison method calibration (Methods for the calibrationofvibrationandshocktransducers-Part 21.Vibrationcalibrationbycomparisontoaref- erencetransducer) ISO 16063-22 Vibration and shock sensor calibration methods part 22.shock comparison method calibration (Methodsforthecali- brationofvibrationandshocktransducers-Part 22.Shockcalibrationbycomparisontoareference transducer) ISO /IEC GUIDE98-3 Measurement Uncertainty Part 3.Guidelines for Expression of Measurement Uncertainty (GUM.1995) [Uncer- taintyofmeasurement-Part 3.Guidetotheexpressionofuncertaintyinmeasurement(GUM.1995)] ISO /IEC GUIDE98-3-SP1 Measurement Uncertainty Part 3.Guidelines for Expression of Measurement Uncertainty (GUM.1995)-Attached

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