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JJG 840-2015: Function Generators
Status: Valid JJG 840: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| JJG 840-2015 | English | 809 |
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5 days [Need to translate]
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Function Generators
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JJG 840-2015
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| JJG 840-1993 | English | 999 |
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Verification Regulation of Function Generator
| Obsolete |
JJG 840-1993
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PDF similar to JJG 840-2015
Basic data | Standard ID | JJG 840-2015 (JJG840-2015) | | Description (Translated English) | Function Generators | | Sector / Industry | Metrology & Measurement Industry Standard | | Classification of Chinese Standard | A57 | | Word Count Estimation | 35,382 | | Date of Issue | 2015-12-07 | | Date of Implementation | 2016-06-07 | | Older Standard (superseded by this standard) | JJG 840-1993 | | Regulation (derived from) | ?AQSIQ 2015 Nian (No.148) | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine | | Summary | This standard is applicable to the first verification, subsequent verification, and in-service inspection of function generators with frequencies below 250 MHz. | JJG 840-2015: Function Generators---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.
Function Generators
National Metrological Verification Regulation of the People's Republic of China
Function generator
2015-12-07 released
2016-06-07 implementation
State Administration of Quality Supervision, Inspection and Quarantine issued
Function generator verification procedure
Replacing JJG 840-1993
Coordinate Unit. National Radio Measurement Technology Committee
The main drafting unit. China Institute of Metrology
Shanghai Institute of Metrology and Testing Technology
Jiangsu Institute of Metrology
Participated in the drafting unit. Henan Institute of Metrology
This procedure entrusts the National Radio Measurement Technology Committee to explain
The main drafters of this procedure.
Yu Yuhua (China Institute of Metrology)
Zhu Jianang (Shanghai Institute of Metrology and Testing Technology)
Wu Jun (Jiangsu Institute of Metrology)
Participate in the drafters.
Miao Jingyuan (China Institute of Metrology)
Huang Zhiming (China Institute of Metrology)
Du Jianguo (Henan Institute of Metrology)
table of Contents
Introduction (II)
1 Scope (1)
2 Overview (1)
3 Measurement performance requirements (1)
3.1 Frequency (1)
3.2 magnitude (1)
3.3 Distortion (1)
3.4 Triangular wave/ramp linearity (1)
3.5 square wave/pulse characteristics (1)
4 General technical requirements (2)
5 Measuring instruments (2)
5.1 Test conditions (2)
5.2 Test items and verification methods (3)
5.3 Processing of Verification Results (13)
5.4 Verification cycle (13)
Appendix A Function Generator Verification Result Original Record Format (14)
Appendix B Verification Certificate Inside Page Format (20)
Appendix C Results of Notification of Notification (27)
Appendix D least squares method to calculate triangular wave linearity and measurement process (29)
Introduction
This procedure is a revised version of the JJG 840-1993 function signal generator verification procedure. The amendments are as follows.
The original procedure name is "function signal generator", now changed to "function generator".
The original program "output amplitude of the test", with the oscilloscope to measure the amplitude, the function generator output amplitude technical indicators
More than 1% is no longer applicable, revised directly with a digital voltmeter to detect the effective amplitude of the waveform amplitude; by the waveform coefficient
Calculate the peak and peak values of the measured waveform amplitude.
The original program with a voltmeter and oscilloscope test "sine wave amplitude flatness", no longer meet the frequency up to several hundred trillion
Hertz, frequency response indicators up to 1% of the function generator, revised directly with a power meter or measurement receiver test is
The amplitude of the sine wave amplitude.
Distortion parameters. to retain the original program "sine wave total distortion coefficient of the test", revised after the increase in harmonic distortion
Number, and as a selected item.
The original procedure "triangular wave linear test", the matching load connection complex, general formula, easy to operate, repair
After the replacement with 50Ω matching load; the formula was refined, and in Appendix D gives the least squares fitting
Formula and measurement program reference flow.
Since most of the function generator technical specifications do not give the technical indicators of the modulation function and only given the modulation model
Or the relevant function of the parameters, so the procedures for the modulation function only for the normal check.
The currently produced function generator does not require the attenuator specification, and the revised procedure has canceled this parameter.
The previous release of this order is.
--- JJG 840-1993.
Function generator verification procedure
1 Scope
This procedure applies to the first verification of the function generator at frequencies below 250 MHz, subsequent verification and use
Check in.
2 Overview
Function generator is a direct digital synthesis (DDS) generated sine wave, square wave, triangular wave, pulse wave and tune
(AM), FM (FM), phase modulation (PM), frequency shift keying (FSK), group pulse (BURST), sweep
(SWEEP) and other time function waveform instruments, widely used in radio frequency measurement parameters.
3 Measurement performance requirements
3.1 Frequency
Frequency range. 0.1Hz ~ 250MHz
Frequency accuracy. 5 × 10-3 ~ 1 × 10-8
3.2 range
DC voltage amplitude. ± 20V
DC voltage amplitude error. ± 0.1% ~ ± 10%
AC voltage amplitude. 5mV ~ 55V (peak and peak) (high impedance load 1kHz)
5mV ~ 10V (peak and peak) (50Ω load 1kHz)
AC voltage amplitude error. ± 0.5% ~ ± 10%
Sine wave amplitude flatness. 100mV ~ 10V (peak and peak) (1kHz ~ 250MHz);
± 0.1dB ~ ± 1dB
3.3 Distortion
Total harmonic distortion. 0.02% to 1.0% (frequency range 20Hz ~ 20kHz, peak-to-peak voltage 1V)
Harmonic distortion. -70dBc ~ -25dBc (frequency range 0.1Hz ~ 250MHz, peak-to-peak voltage 1V
Time)
3.4 Triangular wave/oblique linearity
Triangular wave/oblique linearity. 0.1% to 0.5% (1V peak to peak, 1kHz)
3.5 square wave/pulse characteristics
Rise time. 1ns ~ 10μs (5V peak and peak)
Overshoot. 1% to 20%
Air ratio. 5% to 95%
Air ratio accuracy. better than 2%
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