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JJF 1946-2021: Calibration Specification for Wave Measuring Devices (Acoustic method)
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Calibration Specification for Wave Measuring Devices (Acoustic method)
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JJF 1946-2021
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Standard similar to JJF 1946-2021 JJF 1033 JJF 1050 JJF 1030 Basic data | Standard ID | JJF 1946-2021 (JJF1946-2021) | | Description (Translated English) | Calibration Specification for Wave Measuring Devices (Acoustic method) | | Sector / Industry | Metrology & Measurement Industry Standard | | Word Count Estimation | 18,190 | | Issuing agency(ies) | State Administration for Market Regulation | JJF 1946-2021: Calibration Specification for Wave Measuring Devices (Acoustic method)---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.
Calibration Specification for Wave Measuring Devices (Acoustic method)
National Metrology Technical Specification of the People's Republic of China
Specification for calibration of wave measuring instruments (acoustic method)
Published on 2021-12-28
2022-06-28 Implementation
Released by the State Administration for Market Regulation
Specification for calibration of wave measuring instruments (acoustic method)
Focal Point. National Acoustic Metrology Technical Committee
Drafting unit. No. 701 Research Institute of China Shipbuilding Industry Corporation
China Institute of Metrology
Shenzhen Institute of Metrology and Testing Technology
Wuhan Bihai Yuntian Technology Co., Ltd.
Tianjin Institute of Water Transport Engineering Science, Ministry of Transport
This specification is entrusted to the National Acoustic Metrology Technical Committee to be responsible for the interpretation
Drafters of this specification.
Zhu Chuanhuan (No.701 Research Institute of China Shipbuilding Industry Corporation)
Tang Jun (No.701 Research Institute of China Shipbuilding Industry Corporation)
Yang Ping (China Institute of Metrology)
Zhang Guoqing (Shenzhen Institute of Metrology and Testing Technology)
Zhang Hengping (No.701 Research Institute of China Shipbuilding Industry Corporation)
Yang Lequn (Wuhan Bihai Yuntian Technology Co., Ltd.)
Liu Yicheng (Tianjin Institute of Water Transport Engineering Science, Ministry of Transport)
Table of contents
Introduction (Ⅱ)
1 Scope(1)
2 References (1)
3 Terms (1)
4 Overview(1)
5 Metrology Characteristics(1)
5.1 Wave height(1)
5.2 Cycle(2)
5.3 Center frequency of transmitted signal(2)
5.4 Transmit signal pulse width(2)
5.5 Sound transducer beam angle(2)
6 Calibration Conditions(2)
6.1 Environmental conditions (2)
6.2 Main standards and other equipment(2)
7 Calibration items and calibration methods (3)
7.1 Calibration items(3)
7.2 Calibration method(3)
8 Expression of calibration results (5)
8.1 Calibration records (5)
8.2 Calibration data processing(5)
8.3 Calibration certificate(5)
8.4 Measurement uncertainty of calibration results(5)
9 Recalibration interval(6)
Appendix A Contents of Calibration Records(7)
Appendix B Contents of Calibration Certificate(9)
Appendix C Measurement Uncertainty Evaluation Example(11)
Introduction
JJF 1071-2010 "Rules for Compilation of National Metrology Calibration Specifications", JJF 1001 "General Metrology Terms and Definitions",
JJF 1059.1-2012 "Assessment and Representation of Measurement Uncertainty" together constitute the basis for the preparation of this specification
Series Specifications. This specification mainly refers to GB/T 14914.2-2019 "Ocean Observation Specification No. 2" in terms of technology.
Part. Seashore Observation Technical Requirements for Wave Observation.
This specification is published for the first time.
Specification for calibration of wave measuring instruments (acoustic method)
1 Scope
This specification applies to the ultrasonic ranging principle of wave measuring instrument (hereinafter referred to as "acoustic wave measuring instrument")
calibration.
2 Reference documents
This specification references the following documents.
JJF 1001-2011 General Metrology Terms and Definitions
JJF 1034 Acoustic Metrology Terms and Definitions
JJF 1059.1-2012 Evaluation and representation of measurement uncertainty
GB 3102.5-1993 Electrical and Magnetic Quantities and Units
GB 3102.7-1993 Quantities and Units of Acoustics
GB/T 14914.2-2019 Ocean Observation Specification Part 2.Coastal Observation
For dated references, only the dated version applies to this specification; for undated references
The latest version (including all amendments) applies to this specification.
3 Terminology
Terms defined in JJF 1001-2011, JJF 1034 and GB/T 14914.2-2019 apply to this specification.
4 Overview
The acoustic wave measuring instrument usually consists of an acoustic transducer, a transmitter, a receiver, a preamplifier module, a filter module,
control system, etc. The acoustic wave measuring instrument is based on the principle of sound wave ranging, and the transmitter transmits a wave to the water surface.
A beam of narrow pulsed sound waves, reflected by the water surface, returned to the receiving transducer at the same position as the transmitting transducer to receive, through
Accurate wave height can be obtained from wave speed and time, and parameters such as wave period can be obtained from the sequence value of wave height changing with time. acoustic method
The wave measuring instrument is mainly used for wave measurement of ocean stations, ports, docks, offshore platforms, rivers, lakes, reservoirs, etc.
High, period and waveform measurements.
5 Metrology characteristics
5.1 Wave height
a) The upper limit of the wave height measurement range generally does not exceed 20m;
b) The maximum allowable error of measurement. when the wave height is not greater than 1m, generally not more than ±0.10m; when the wave height is greater than
1m, generally not more than ± (0.1 × H 0.1m), where H is the measured value of wave height, the unit is meters.
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