JJG 834-2006 English PDFUS$449.00 · In stock
Delivery: <= 3 days. True-PDF full-copy in English will be manually translated and delivered via email. JJG 834-2006: Verification Regulation of Dynamical Signal Analyzer Status: Valid JJG 834: Historical versions
Basic dataStandard ID: JJG 834-2006 (JJG834-2006)Description (Translated English): Verification Regulation of Dynamical Signal Analyzer Sector / Industry: Metrology & Measurement Industry Standard Classification of Chinese Standard: A53 Classification of International Standard: 17.100 Word Count Estimation: 17,127 Date of Issue: 2006-09-06 Date of Implementation: 2007-03-06 Older Standard (superseded by this standard): JJG 834-1993 Quoted Standard: GB/T 2298-1991 Regulation (derived from): China Measurement 2006. 11 Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine Summary: This standard applies to the following analysis of the frequency range of 200kHz FFT Dynamic Signal Analyzer initial verification, testing and use of follow-up inspection. JJG 834-2006: Verification Regulation of Dynamical Signal Analyzer---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.Verification Regulation of Dynamical Signal Analyzer National Metrology Verification Regulations of the People's Republic Dynamic signal analyzer Released on.2006-09-06 2007-03-06 implementation The General Administration of Quality Supervision, Inspection and Quarantine issued Dynamic signal analyzer verification procedure SignalAnaly Replace JJG 834-1993 This regulation was approved by the General Administration of Quality Supervision, Inspection and Quarantine on September 6,.2006, and since.2007. It will take effect on March 6th. Focal Point. National Vibration Shock Velocity Measurement Technical Committee Main drafting unit. 704 Institute of China Aviation Industry First Group Corporation Participated in the drafting unit. China Institute of Metrology Beijing Aerospace University This regulation entrusts the National Vibration Shock Velocity Measurement Technical Committee to explain The main drafters of this procedure. Zeng Wu (The 704 Institute of China Aviation Industry First Group Corporation) Hong Baolin (The 704 Institute of China Aviation Industry First Group Corporation) Participate in the drafters. Xu Yin (China Institute of Metrology) Li Chuanri (Beijing University of Aeronautics and Astronautics) table of Contents1 Scope (1) 2 Citations (1) 3 Overview (1) 4 Metrology performance requirements (1) 4.1 Frequency indication and frequency resolution error (1) 4.2 Spectrum amplitude indication error (1) 4.3 Dynamic Range (1) 4.4 Channel Consistency (2) 4.5 Power spectral density indication error (2) 4.6 Autocorrelation function amplitude indication (2) 4.7 Amplitude linearity (2) 4.8 window function (2) 4.9 Probability density curve or probability distribution curve (3) 4.10 Transient Capture (3) 5 General technical requirements (3) 5.1 Appearance (3) 5.2 Technical indicators to be given by the manufacturer (3) 6 measuring instrument control (3) 6.1 Verification conditions (3) 6.2 Verification project (3) 6.3 Verification method (4) 6.4 Processing of verification results (10) 6.5 Verification cycle (10) Appendix A Calibration Certificate Page Format (11) Appendix B Sinusoidal Waveform Probability Density, Probability Distribution Curve (12) Dynamic signal analyzer verification procedure1 ScopeThis procedure is applicable to the first verification and follow-up of FFT dynamic signal analyzers with an analysis frequency range below.200 kHz. Verification and in-use inspection.2 CitationsGB/T 2298-1991 Mechanical Vibration and Shock---Glossary When using this procedure, care should be taken to use the current valid version of the above cited documents.3 OverviewThe FFT dynamic signal analyzer (hereinafter referred to as the analyzer) is composed of hardware and analysis software, and can be represented from An instrument that analyzes its characteristic parameters in a physical quantity of electrical signals, which can analyze the measured signal from the time domain, the frequency domain, and the amplitude domain. It is widely used in features such as full function, fast analysis speed, many measurement parameters, high frequency resolution and high amplitude accuracy. Measurement and analysis of mechanical quantities such as vibration and shock.4 Metrological performance requirements4.1 Frequency indication and frequency resolution error In the operating frequency range of the analyzer, the frequency indication and frequency resolution error shall comply with the requirements of Table 1. Table 1 Frequency indication and frequency resolution error Frequency indication and frequency resolution error Class A B ±0.01% ±0.1% 4.2 Spectrum amplitude indication error In the operating frequency range of the analyzer, the spectral amplitude indication error shall comply with the requirements of Table 2. Table 2 Spectrum amplitude indication error Spectral amplitude indication error Class A B ±2% ±5% 4.3 Dynamic range The analyzer dynamic range (FFT) should be in accordance with Table 3. ...... |
