GB/T 42567.1-2023 English PDF

US$1504.00 · In stock
Delivery: <= 9 days. True-PDF full-copy in English will be manually translated and delivered via email.
GB/T 42567.1-2023: Reference conditions and procedures for testing industrial and process measurement transmitters - Part 1: General procedures for all types of transmitters
Status: Valid

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 42567.1-2023	1504	Add to Cart	9 days	Reference conditions and procedures for testing industrial and process measurement transmitters - Part 1: General procedures for all types of transmitters	Valid

Similar standards

GB/T 41251   GB/T 32828   DL/T 680   GB/T 42567.5   GB/T 42567.4   GB/T 42567.3   

Basic data

Standard ID: GB/T 42567.1-2023 (GB/T42567.1-2023)
Description (Translated English): Reference conditions and procedures for testing industrial and process measurement transmitters - Part 1: General procedures for all types of transmitters
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: N18
Classification of International Standard: 25.040
Word Count Estimation: 82,877
Date of Issue: 2023-05-23
Date of Implementation: 2023-12-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 42567.1-2023: Reference conditions and procedures for testing industrial and process measurement transmitters - Part 1: General procedures for all types of transmitters

---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.
ICS 25:040 CCSN18 National Standards of People's Republic of China Reference conditions and procedures for testing transmitters for industrial process measurements Part 1: General procedures for all types of transmitters (IEC 62828-1:2017, IDT) Released on 2023-05-23 2023-12-01 implementation State Administration for Market Regulation Released by the National Standardization Management Committee

table of contents

Preface VII Introduction IX 1 Scope 1 2 Normative references 1 3 Terms, Definitions and Abbreviations 4 3:1 Terms and Definitions 4 3:1:1 Terms related to accuracy 5 3:1:2 Terms related to uncertainty8 3:1:3 Terms related to work and actual installation9 3:1:4 Terms related to the test procedure 10 3:2 Abbreviations 11 3:3 References to the Common Data Dictionary (CDD) 11 4 Transmitter overview 11 5 Reference test conditions 12 5:1 Overview 12 5:2 Standard reference test conditions 12 5:2:1 Overview 12 5:2:2 Environmental test conditions 12 5:2:3 Power supply conditions 13 5:2:4 Load conditions 13 5:2:5 Installation position 13 5:3 Reference test conditions for the influence of environmental and process influence quantities 13 5:3:1 Overview 13 5:3:2 Process conditions 13 5:3:3 Ambient Atmospheric Conditions 13 5:3:4 Mechanical vibration 14 5:3:5 Shock, drop and tipping 15 5:3:6 Power supply 15 5:3:7 Electromagnetic Compatibility (EMC) 15 5:4 Reference Design Guidelines 15 5:4:1 Overview 15 5:4:2 Enclosure protection against solids, liquids (IP) and impact (IK) 15 5:4:3 Protection of enclosures against the effects of corrosion and erosion 16 5:4:4 Electrical safety (insulation resistance, dielectric strength) 16 5:4:5 Hazardous environment (for explosive environment) 16 5:4:6 Functional Safety 16 6 Test procedure 16 6:1 General 16 6:1:1 Overview 16 6:1:2 Classification of tests 16 6:1:3 Test preparation 17 6:1:4 Pre-assessment18 6:2 Type test under standard reference test conditions 24 6:2:1 General 24 6:2:2 Accuracy and correlation factors 24 6:2:3 Static properties 28 6:2:4 Dynamic characteristics 30 6:3 Type test under reference test conditions 34 6:3:1 General 34 6:3:2 Effect of ambient temperature 34 6:3:3 Effect of relative humidity 35 6:3:4 Vibration effects 35 6:3:5 Shock, drop and dumping 36 6:3:6 Accelerated life test 37 6:3:7 EMC test 37 6:3:8 Further test procedures 37 6:3:9 Additional tests for digital transmitters 37 6:4 Routine tests 39 6:5 Acceptance, integration, cycle and maintenance tests 39 6:5:1 Overview 39 6:5:2 Regular verification 39 6:5:3 Periodic calibration 39 7 Test reports and technical documents 40 7:1 Test report 40 7:2 Technical documentation 40 7:3 Total probability error 40 Appendix A (Informative) Transmitter Overview 41 A:1 Transmitter overview 41 A:2 Sensor subsystem 42 A:3 Data processing 43 A:4 Output Subsystem 43 A:5 Man-machine interface 43 A:6 External system interface 43 A:7 Power supply components 43 Appendix B (informative) Tests under standard reference conditions 44 Appendix C (informative) Tests of Influence Quantities under Environmental and Process Reference Conditions 46 Appendix D (informative) function block test 48 D:1 Overview 48 D:2 General qualitative check 48 D:3 Time-related function blocks 48 D:4 Time-independent function blocks 48 Appendix E (Informative) Measurement Uncertainty 49 E:1 Example of determination of measurement uncertainty 49 E:2 Single value affects measurement uncertainty 49 E:3 Estimation of standard measurement uncertainty (μ) 49 E:4 Combination of Uncertainties of Standard Measurements (μ) 49 E:5 Expanded measurement uncertainty (U) 49 Appendix F (Informative) Reliability Test Method 50 F:1 Overview 50 F:2 Design Analysis 50 F:3 Reference conditions 50 F:4 Fault introduction test for internal transmitter faults 51 F:5 Observation 52 F:5:1 General 52 F:5:2 Reporting and rating of failure behavior 53 F:6 Human error55 F:6:1 Error operation test 55 F:6:2 Maintenance error test 55 F:6:3 Expectations and reporting 56 Appendix G (Informative) Throughput Test of Digital Transmitter 57 G:1 General 57 G:2 Transmitter throughput under individual conditions 58 G:2:1 Reference conditions 58 G:2:2 Test conditions 58 G:2:3 Observation and measurement 58 G:3 Throughput in fieldbus configurations 58 G:3:1 Reference conditions 58 G:3:2 Test conditions 59 G:3:3 Observation and measurement 59 G:3:4 Precautions 59 Appendix H (informative) FAT, SAT and SIT 60 H:1 Overview 60 H:2 Factory acceptance test (FAT) (accuracy test and others) 60 H:3 Site acceptance test (SAT) (visual inspection and calibration test) 60 H:4 Site integration test (SIT) (additional test for communication) 60 Appendix I (Informative) Technical Documentation 61 I:1 Overview 61 I:2 Technical data sheet 61 I:3 User Manual 64 I:4 Safety Manual 64 I:5 Trial run, periodical, maintenance test 64 I:5:1 General 64 I:5:2 Storage conditions 64 I:5:3 Conditions of carriage 65 I:5:4 Mounting position 65 I:5:5 Process connections 65 I:5:6 Mechanical connection 65 I:5:7 Output connections 65 I:6 EU Declaration of Conformity65 I:7 Certification for use in hazardous areas 65 I:8 Calibration certificate 65 I:9 Spare parts list 65 I:10 Mark 66 Appendix J (Informative) Calculation of Total Probability Error 67 Reference 68 Figure 1 Example of limit operating area related to output load resistance and supply voltage10 Figure 2 Block Diagram of Universal Transmitter 12 Figure 3 Error curves corresponding to the example in Table 1726 Figure 4 Example of Step Input Response with Overshoot31 Figure 5 Example of step input response without overshoot31 Figure 6 Example of Frequency Response 1 32 Figure 7 Example of Frequency Response 2 33 Figure 8 Example of different compensation options Figure 35 Figure 9 Equipment Compatibility Level 39 of IEC 61804-2 Figure A:1 Schematic diagram of an industrial process measurement analog transmitter (example) 41 Figure A:2 Schematic diagram of an industrial process measurement smart transmitter (example) 42 Figure F:1 Schematic diagram of an industrial process measurement smart transmitter (example) 51 Figure F:2 Test tool for low-impedance circuits and shared circuits 52 Figure F:3 Matrix for failure behavior reporting 53 Figure F:4 Ranking of various failure mode types 55 Figure G:1 Transmitter in stand-alone configuration 57 Figure G:2 Example of a transmitter as a participant in a fieldbus installation 57 Table 1 Environmental test conditions12 Table 2 Common ambient temperature ranges14 Table 3 The relative humidity range of common environments14 Table 4 Vibration test level 14 Table 5 Voltage and frequency range of the power supply15 Table 6 Examples of number of test cycles, number of test points and test points17 Table 7 Example of span and lower limit value adjustment settings for analog equipment 17 Table 8 Functional Assessment Checklist 18 Table 9 Configurability Assessment Checklist 19 Table 10 Hardware Configuration Evaluation Checklist 20 Table 11 Adjustment and Adjustment Program Assessment Checklist 20 Table 12 Operability Assessment Checklist 21 Table 13 Reliability Assessment Checklist 22 Table 14 Manufacturer Support Assessment Checklist 23 Table 15 Example of function list for univariate transmitter with temperature compensation (differential pressure)23 Table 16 Example of a function list for a multivariable transmitter with temperature compensation (differential pressure with pressure and temperature) 23 Table 17 Example of Transmitter Error Table 26 Table B:1 Summary of tests under reference conditions 44 Table C:1 Summary of Tests of Influencing Quantities under Working Conditions 46 Table I:1 Example of general transmitter preparation technical data 62

foreword

This document is in accordance with the provisions of GB/T 1:1-2020 "Guidelines for Standardization Work Part 1: Structure and Drafting Rules for Standardization Documents" drafting: This document is part 1 of GB/T 42567 "Reference Conditions and Procedures for Testing Transmitters for Industrial Process Measurement": GB/T 42567 has The following parts have been published: --- Part 1: General procedures for all types of transmitters; --- Part 2: Specific procedures for pressure transmitters; --- Part 3: Specific procedures for temperature transmitters: This document is equivalent to IEC 62828-1:2017 "Reference conditions and procedures for testing of industrial process measurement transmitters Part 1: All General Procedures for Type Transmitters": The following minimal editorial changes have been made to this document: ---Modify the obvious errors in Table 17: Correct the "upper row actual" under the "circular average" column to "upper row average": Please note that some contents of this document may refer to patents: The issuing agency of this document assumes no responsibility for identifying patents: This document is proposed by China Machinery Industry Federation: This document is under the jurisdiction of the National Industrial Process Measurement Control and Automation Standardization Technical Committee (SAC/TC124): This document was drafted by: Southwest University, Chongqing Chuanyi Automation Co:, Ltd:, Hangzhou Zhenhua Saier Instrument Co:, Ltd:, Xi'an Dingzheng Wang Zaiqi, Wu Chuanwei, Chen Jianjun, Bu Yan, Sun Jian, Ren Jianxin, Liu Bolin, Zheng Yiqun, Li Dong, Peng Zhenghong, Liu Zhonghai, Zheng Yanzhe, Guan Rongtao, Chen Delong, Xu Changhong, Qing Houyan, Han Lixin, Zhang Youhua, Wu Hongwei, Wang Qiang, Jin Guangshu, Jiang Yanfang, Feng Chunlin, Han Hengchao, Xiao Guozhuan, Mao Wenwen, Ou Wenhui, Wang Haohan, Gao Liang, Chen Wenxian, Zhang Peng, Yang Weishan, Zhou Guo, Ke Youxi, Wang Shengbin, Wen Dengfeng, Li Zujun, Zhang Gang, Zhou Songming, Cai Tieqiang, Shu Gaoxiang, Lan Ruoling, Liao Qiong, Sun Jianyu, Gong Xiaodong, Zhang Weiqun, Yuan Fei, Zhang Yongkang, Ke Youchang, Cheng Xiangguo, Zhang Mina, Qin Xichun, Chen Haidong, Zhang Nan, Xu Yongcun, He Xiaogang, Ma Bin, Lu Haidong, Xiao Honglian, Zhang Shuai, Gao Jingmei, Wang Peng, Zhang Yan, Lu Xinyu, Zhang Dengyou, Gao Jiaxing, Lu Jing, He Qiang, Huang Renjie:

Introduction

Most of the current standards for industrial process measurement transmitters are relatively old and based on analog transmitters: same At the same time, many industrial process measurement transmitters are also developing, and they are very different from analog transmitters: they are usually digital, and in the computing department Part (mainly digital electronic circuits) and measurement part (mainly mechanical structure), both include more functions and newer interfaces: currently saved There are relevant standards for measuring digital transmitters in some processes, but there is still a lack of suitable test methods for some performance aspects: Existing test standards for industrial process measurement transmitters are scattered documents, so identifying and selecting Selecting all transmitter standards for measuring a specific process quantity (pressure, temperature, flow, level, etc:) is difficult, impractical and time consuming: In order to solve the above problems, in order to be better used by manufacturers and users, and to systematically provide different types of industrial process measurement transmitters For a comprehensive test method, GB/T 42567 is proposed to be composed of the following five parts: --- Part 1: General procedures for all types of transmitters: The purpose is to provide measurement and control systems for industrial processes and machinery All types of transmitters used provide test reference conditions and a framework for the procedure: --- Part 2: Specific procedures for pressure transmitters: Intended for use in measurement and control systems for industrial processes and machinery The pressure transmitter provides specific test reference conditions and procedures: --- Part 3: Specific procedures for temperature transmitters: Intended for use in measurement and control systems for industrial processes and machinery The temperature transmitter provides specific test reference conditions and procedures: --- Part 4: Specific procedures for level transmitters: Intended for use in measurement and control systems for industrial processes and machinery The level transmitter provides specific test reference conditions and procedures: --- Part 5: Specific procedures for flow transmitters: Intended for use in measurement and control systems for industrial processes and machinery The flow transmitter provides specific test reference conditions and procedures: In the process of formulating the GB/T 42567 series of standards, GB/T 18271 "Working conditions for industrial process measurement and control devices" was adopted: Many test procedures in "Document", and made necessary improvements: Reference conditions and procedures for testing transmitters for industrial process measurements Part 1: General procedures for all types of transmitters

1 Scope

This document establishes a general framework for defining all Types of reference conditions and procedures for testing transmitters for industrial process measurements: These reference conditions are divided into "standard reference conditions" and "environmental and process "Process reference conditions": The former is used to determine the accuracy of the measurement, and the latter is used to evaluate the impact of external influences on the measurement: In this document, an analog transmitter is a process measurement transmitter with an analog current or voltage output, which is a comparison of the techniques and circuits used: Complexity is irrelevant: All other transmitters with only digital outputs or with mixed analog and digital outputs (e:g: HART) are considered digital word transmitter: This document provides general test procedures for transmitters, applicable to all types of industrial process measurement transmitters: The remainder of this series of standards gives additional specific test procedures for specific types of transmitters (pressure, temperature, level, flow): Note 1: In industrial process applications, the term "industrial transmitter" or "process transmitter" is often used to indicate a process measurement transmitter: Note 2: In order to simplify the expression, the abbreviation "transmitter" is used instead of "industrial process measurement transmitter": Similar devices (such as sensors) with analog outputs are outside the scope of this document:

2 Normative references

The contents of the following documents constitute the essential provisions of this document through normative references in the text: Among them, dated references For documents, only the version corresponding to the date is applicable to this document; for undated reference documents, the latest version (including all amendments) is applicable to this document: GB/T 4208-2017 Enclosure protection level (IP code) (IEC 60529:2013, IDT) GB/T 17214:1-1998 Working conditions for industrial process measurement and control devices Part 1: Climatic conditions (idtIEC 60654- 1:1993) GB/T 17214:3-2000 Working conditions of industrial process measurement and control devices Part 3: Mechanical influence (IEC 60654-3: 1983, IDT) GB/T 17214:4-2005 Working Conditions for Industrial Process Measurement and Control Devices Part 4: Effects of Corrosion and Erosion (IEC 60654-4:1987, IDT) GB/T 18271:1-2017 General performance evaluation methods and procedures for process measurement and control devices Part 1: General (IEC 61298-1:2008, IDT) GB/T 18271:4-2017 General performance evaluation methods and procedures for process measurement and control devices Part 4: Evaluation report Content (IEC 61298-4:2008, IDT) GB/T 20138-2006 Degree of protection of electrical equipment enclosures against external mechanical impacts (IK code) (IEC 62262:2002, IDT) GB 28526-2012 Functional safety of electrical, electronic and programmable electronic control systems related to electrical safety of machinery (IEC 62061:2005, IDT) ISO /IEC Guide98-3:2008 Uncertainty of Measurement Part 3: Guidelines for the Expression of Uncertainty in Measurement (GUM:1995) [Un- ......

Image     

Tips & Frequently Asked Questions:

Question 1: How long will the true-PDF of GB/T 42567.1-2023_English be delivered?

Answer: Upon your order, we will start to translate GB/T 42567.1-2023_English as soon as possible, and keep you informed of the progress. The lead time is typically 6 ~ 9 working days. The lengthier the document the longer the lead time.

Question 2: Can I share the purchased PDF of GB/T 42567.1-2023_English with my colleagues?

Answer: Yes. The purchased PDF of GB/T 42567.1-2023_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.

Question 3: Does the price include tax/VAT?

Answer: Yes. Our tax invoice, downloaded/delivered in 9 seconds, includes all tax/VAT and complies with 100+ countries' tax regulations (tax exempted in 100+ countries) -- See Avoidance of Double Taxation Agreements (DTAs): List of DTAs signed between Singapore and 100+ countries

Question 4: Do you accept my currency other than USD?

Answer: Yes. If you need your currency to be printed on the invoice, please write an email to Sales@ChineseStandard.net. In 2 working-hours, we will create a special link for you to pay in any currencies. Otherwise, follow the normal steps: Add to Cart -- Checkout -- Select your currency to pay.