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Delivery: <= 5 days. True-PDF full-copy in English will be manually translated and delivered via email. GB/T 3785.1-2023: Electroacoustics - Sound level meters - Part 1: Specifications Status: Valid GB/T 3785.1: Historical versions
Basic dataStandard ID: GB/T 3785.1-2023 (GB/T3785.1-2023)Description (Translated English): Electroacoustics - Sound level meters - Part 1: Specifications Sector / Industry: National Standard (Recommended) Classification of Chinese Standard: A59 Classification of International Standard: 17.140.50 Word Count Estimation: 44,466 Date of Issue: 2023-05-23 Date of Implementation: 2023-12-01 Older Standard (superseded by this standard): GB/T 3785.1-2010 Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration GB/T 3785.1-2023: Electroacoustics - Sound level meters - Part 1: Specifications---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.ICS17:140:50 CCSA59 National Standards of People's Republic of China GB/T 3785:1-2023/IEC 61672-1:2013 Replacing GB/T 3785:1-2010 Electroacoustic Sound Level Meter Part 1: Specification Electroacoustics-Sound level meters- (IEC 61672-1:2013, IDT) Released on 2023-05-23 2023-12-01 implementation State Administration for Market Regulation Released by the National Standardization Management Committee table of contentsPreface III Introduction IV 1 Scope 1 2 Normative references 1 3 Terms and Definitions 2 4 Reference to environmental conditions 6 5 Performance Specifications 7 5:1 Overview 7 5:2 Adjust 8 at the calibration check frequency 5:3 Amendments to indication levels 9 5:3:1 Overview 9 5:3:2 Reflection and diffraction 9 5:3:3 Windshield 9 5:3:4 Amended data format 10 5:3:5 Correction value for period test 10 5:4 Pointing to Response 10 5:5 Frequency weighting 11 5:6-level linearity13 5:7 Self-generated noise 13 5:8 Time weighting F and S 13 5:9 Tone burst response 14 5:10 Repeat tone burst response 15 5:11 Overload indication 16 5:12 Underrange indication 16 5:13 C-weighted peak sound level16 5:14 Stability during continuous operation 17 5:15 High sound level stability 17 5:16 Reset 17 5:17 Threshold 17 5:18 Display 17 5:19 Analog or digital output 18 5:20 Timing function 18 5:21 Radio Frequency Emissions and Disturbance to Public Power 18 5:22 Crosstalk 19 5:23 Power supply 19 6 Environmental, electrostatic and radio frequency requirements 19 6:1 Overview 19 6:2 Static pressure 20 6:3 Air temperature 20 6:4 Humidity 20 6:5 Electrostatic discharge 20 6:6 Power frequency and radio frequency fields 20 6:7 Mechanical vibration 21 7 Regulations for the use of auxiliary equipment 21 8 signs 22 9 Instruction Manual 22 9:1 Overview 22 9:2 Usage information 22 9:2:1 Overview 22 9:2:2 Design points 22 9:2:3 Power supply 23 9:2:4 Adjust 23 at the calibration check frequency 9:2:5 Modification of indication level 23 9:2:6 Operation of the sound level meter 23 9:2:7 Annex 24 9:2:8 Effects of changing environmental conditions 24 9:3 Test information 24 Appendix A (informative) Relationship between tolerance intervals, corresponding acceptance intervals and maximum allowable measurement uncertainties 26 Appendix B (Normative) Maximum allowable measurement uncertainty 27 Appendix C (informative) Examples of compliance evaluation of this document 29 Appendix D (Normative) Fractional Octave Interval Frequency 31 Appendix E (Normative) Analytical expressions for frequency weighting C, A and Z 33 Reference 35 Figure 1 Main steps in forming time-weighted sound levels3 Figure A:1 The relationship between the tolerance interval, the corresponding acceptance interval and the maximum allowable measurement uncertainty 26 Figure C:1 Conformity Evaluation Example 30 Table 1 Acceptance limits for the difference between the measured windshield correction value and the corresponding correction value given in the instruction manual9 Table 2 Acceptance limits for pointing response deviations from design goals11 Table 3 Frequency weighting and acceptance limits12 Table 4 Reference 4kHz Tone Burst Response and Acceptance Limit 14 Table 5 Reference deviation and acceptance limit of C-weighted peak sound level17 Table 6 Limits for Conducted Disturbance of Public Power Supply Voltage 19 Table B:1 Contains the maximum allowable measurement uncertainty with a probability of 95% 27 Table C:1 Conformity Evaluation Example 29 Table D:1 One-third octave interval frequency 31 Table D:2 One-sixth octave interval frequency 31 Table D:3 One-twelfth octave interval frequency 32forewordThis 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 the first part of GB/T 3785 "Electroacoustic Sound Level Meter": GB/T 3785 has issued the following parts: --- Part 1: Specifications; --- Part 2: Type evaluation test; --- Part 3: Periodic test: This document replaces GB/T 3785:1-2010 "Electroacoustic Sound Level Meter Part 1: Specification": Compatible with GB/T 3785:1-2010 In addition to structural adjustments and editorial changes, the main technical changes are as follows: a) Change the criteria for judging conformity (see Introduction and 5:1:21, 5:1:19 of the:2010 edition); b) Added relative directional response, directivity factor, directivity index, relative frequency weighted free field response, relative frequency weighted random Terms and definitions such as acoustic incident response, inclusion probability and acceptance limit (see 3:17~3:21, 3:32 and 3:33); c) Added the requirement that Class 1 sound level meters should also have C frequency weighting and not limited to type evaluation tests (see 5:1:10); d) Added the acceptance limit for the difference between the measured windshield correction value and the corresponding correction value given in the instruction manual (see 5:3:3:5); e) Deleted the optional FLAT (flat) frequency response requirements (see 5:4:13 of the:2010 edition); f) Changed the design target of the decay rate corresponding to the time-weighted sound level (see 5:8:1, 5:7:2 of the:2010 edition); g) The requirements for stability during continuous operation are added (see 5:14); h) Added the requirement for high sound level stability (see 5:15); i) Changed the test frequency range for immunity to the effects of exposure to radio frequency fields (see 6:6:4 and 6:6:5, 6:6:4 of the:2010 edition); j) Increased mechanical vibration requirements (see 6:7); k) An explanation of the relationship between the tolerance interval, the corresponding acceptance interval and the maximum allowable measurement uncertainty has been added (see Appendix A); l) Deleted the content of AU weighting (see Appendix B of the:2010 edition); m) Delete the specification of time weighting I (impulse) (see Appendix C of the:2010 edition); n) Added the content of fractional octave interval frequency (see Appendix D): This document is equivalent to IEC 61672-1:2013 "Electroacoustic Sound Level Meter Part 1: Specification": 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 the Ministry of Industry and Information Technology of the People's Republic of China: This document is under the jurisdiction of the National Electroacoustics Standardization Technical Committee (SAC/TC23): This document is drafted by: Hangzhou Aihua Instrument Co:, Ltd:, Hunan Shengyi Measurement and Control Technology Co:, Ltd:, China Institute of Metrology, Institute of Acoustics, Chinese Academy of Sciences, Jiaxing Branch of State-owned Hongsheng Equipment Factory, Shenzhen Institute of Metrology and Quality Inspection, China Electronics Technology Group Corporation Division III Research Institute, Zhejiang Academy of Metrology: The main drafters of this document: Zhang Shaodong, Liu Xiangheng, Niu Feng, Li Xiaodong, Shu Guohua, Zhang Guoqing, Zhang Xudong, Qiu Jianmin, Xiong Wenbo, Zhang Ning: The release status of previous versions of this document and the documents it replaces are as follows: ---In 1983, GB/T 3785-1983 "Electrical and Acoustic Performance and Test Methods of Sound Level Meter" was released for the first time; --- GB/T 17181-1997 "Integral Average Sound Level Meter" was incorporated into GB/T 17181-1997 when it was revised for the first time in:2010, and it is divided into 3 parts: This document For GB/T 3785:1-2010; --- This is the second revision:IntroductionGB/T 3785 "Electroacoustic Sound Level Meter" aims to specify the performance specification of the sound level meter and the verification method for its compliance: It consists of three parts constitute: --- Part 1: Specifications: The purpose is to standardize the electroacoustic performance of sound level meters: --- Part 2: Type evaluation test: The aim is to ensure that all laboratories perform type evaluation of sound level meters in a consistent manner: price test: --- Part 3: Periodic test: The aim is to ensure that all laboratories perform periodic testing of sound level meters in a consistent manner: In order to verify compliance with the performance specification, this document uses different criteria from the:2010 edition: The national standards for sound level meters published during 1983-1997 do not provide any information on the uncertainty of measurement when verifying compliance with the specification: requests and suggestions: Due to the lack of requirements and recommendations on measurement uncertainty, when the measured deviation from the design target is close to the allowable deviation limit, the specification Conformity becomes blurred: If compliance is based on whether the measurement deviation exceeds or does not exceed the limit value, the end user of the sound level meter will Risk of being exposed to actual deviations from design goals exceeding limits: In order to eliminate this ambiguity, GB/T 3785-2010 adopts the principle of taking into account the uncertainty of measurement when evaluating conformity in international standards: It provides two clear criteria for determining compliance with the specification: The two judging criteria are: a) The measured deviation from the design target plus the expanded measurement uncertainty does not exceed the applicable tolerance limit; b) The expanded measurement uncertainty does not exceed the specified maximum value: For most performance specifications, GB/T 3785-1983 and GB/T 3785-1983 and The design and manufacturing tolerances in GB/T 17181-1997 are used to calculate the tolerance limits: The tolerance limit is used to express the true deviation from the design target The limit value contains a probability of 95%: This document uses the Modified Code Conformity Assessment Criteria: Conformity is confirmed when the following conditions are met simultaneously: a) the measured deviation from the design target does not exceed the applicable acceptance limit; b) The measurement uncertainty does not exceed the corresponding maximum allowable uncertainty: Acceptance limits are similar to the design and manufacturing tolerances implied in GB/T 3785-2010: The actual uncertainty and the maximum allowable uncertainty are determined according to the inclusion probability of 95%: Improved conformity assessment criteria, not required for compliance with this make any changes to the sound level meter design: The maximum permissible measurement uncertainty is not equal to the uncertainty associated with sound level measurements: The uncertainty of measuring sound level is determined by the electroacoustic Performance is assessed against expected deviations from the relevant design goals, and uncertainties associated with specific measurement conditions are also assessed: Unless more specific letters If the information is available, the contribution of the specific sound level meter to the total measurement uncertainty can be based on the acceptance limits and the maximum allowable uncertainty specified in this document: Make an evaluation: Electroacoustic Sound Level Meter Part 1: Specification1 ScopeThis document gives the electroacoustic performance specifications for the following three types of acoustic measuring instruments: --- Time-weighted sound level meters for measuring exponential time-weighted and frequency-weighted sound levels; --- Integral average sound level meter for measuring time-averaged and frequency-weighted sound levels; --- Integrating sound level meter for measuring frequency-weighted sound exposure level: Sound level meters complying with the requirements of this document, when the sound is incident on the microphone from a main direction in a free sound field or continuously from random directions , it should have the specified frequency response: The sound level meter specified in this document is used to measure sound in the range of normal hearing of the human ear: Note: The AU frequency weighting specified in IEC 61012 can be used to measure the A-weighted sound level 1) of audible sound containing spectral component sound sources with frequencies greater than 20 kHz: This document specifies two performance classes: Class 1 and Class 2: Typically, the specifications for Class 1 and Class 2 sound level meters have the same design goals, mainly are acceptance limits and operating temperature ranges: The acceptance limit for level 2 is greater than or equal to the acceptance limit for level 1: This document applies to various forms of sound level meters: A sound level meter may be a hand-held instrument that itself contains a microphone and display, or it may An instrument consisting of one or more separate components and capable of displaying a variety of sound signal levels: Sound level meters can include extended analog and digital Signal processors, which can be separate or combined, can have multiple analog and digital outputs: Sound level meters can include pass Use computers, recorders, printers and other necessary equipment: The sound level meter can be designed to be operated by the operator on site, or it can be used to automatically and continuously measure the sound level without the user on site: This document is for The specification for acoustic response applies when the operator is not present in the sound field:2 Normative referencesThe 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 17626:2-2018 Electromagnetic compatibility test and measurement technology Electrostatic discharge immunity test (IEC 61000-4-2:2008, IDT) ISO /IEC Guide98-4:2012 Uncertainty of measurement Part 4: Application of uncertainty of measurement in conformity assessment (Un- ISO /IEC Guide99 International Vocabulary of Metrology Basic and common concepts and related terms (VIM) [Internationalvo- IEC 60942 Electroacoustics-Soundcalibrators Note: GB/T 15173-2010 Electroacoustic calibrator (IEC 60942:2003, IDT) 1) IEC 61012, Filters for the measurement of audible sound in the presence of ultrasound: IEC 61000-6-2:2005 Electromagnetic Compatibility (EMC) Part 6-2: Generic Standards for Immunity in Industrial Environments [Electro- Note: GB/T 17799:2-2003 Electromagnetic Compatibility General Standard Immunity Test in Industrial Environment (IEC 61000-6-2:1999, IDT) ......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of GB/T 3785.1-2023_English be delivered?Answer: Upon your order, we will start to translate GB/T 3785.1-2023_English as soon as possible, and keep you informed of the progress. 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