JJG 213-2003 English PDF

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JJG 213-2003: Verification Regulation of Standard Lamps for Distribution (Colour) Temperature
Status: Valid

JJG 213: Historical versions

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
JJG 213-2003	629	Add to Cart	5 days	Verification Regulation of Standard Lamps for Distribution (Colour) Temperature	Valid
JJG 213-1990	RFQ	ASK	6 days	Verification Regulation of Distribution (Colour)Temperature of Standard Lamps	Obsolete
JJG 213-1980	RFQ	ASK	3 days	Verification Regulation of Distribution (Colour) Temperature of Standard Lamp	Obsolete

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Basic data

Standard ID: JJG 213-2003 (JJG213-2003)
Description (Translated English): Verification Regulation of Standard Lamps for Distribution (Colour) Temperature
Sector / Industry: Metrology & Measurement Industry Standard
Classification of Chinese Standard: A60
Word Count Estimation: 24,270
Date of Issue: 2003-05-12
Date of Implementation: 2003-11-12
Older Standard (superseded by this standard): JJG 213-1990
Quoted Standard: GB 5702-1985
Issuing agency(ies): State Administration of Quality Supervision, Inspection and Quarantine
Summary: This standard applies to the distribution (color) temperature standard lamps initial verification, testing and use of the follow-up inspection.

JJG 213-2003: Verification Regulation of Standard Lamps for Distribution (Colour) Temperature

---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 Standard Lamps for Distribution (Colour) Temperature National Metrology Verification Regulations of the People's Republic Distribution (color) temperature standard lamp Released on.2003-05-12 Implementation of.2003-11-12 The General Administration of Quality Supervision, Inspection and Quarantine issued Distribution (color) temperature standard lamp Verification procedure (Colour)Temp Erature Replace JJG 213-1990 This regulation was approved by the General Administration of Quality Supervision, Inspection and Quarantine on May 12,.2003, and Implemented on November 12,.2003. Focal Point. National Optical Metrology Technical Committee Drafted by. China Testing Technology Research Institute This procedure entrusts the National Optical Metrology Technical Committee to explain The main drafters of this procedure. Zhang Yanhua (China Testing Technology Research Institute) Xie Xingyu (China Testing Technology Research Institute)

table of Contents

1 Scope (1) 2 Citations (1) 3 terms (1) 3.1 [Spectral] distribution temperature of the light source (1) 3.2 Color temperature of the light source (1) 4 Overview (1) 5 Metrological performance requirements (2) 5.1 Photoelectric parameters of standard lamps (2) 5.2 Annual stability of standard lamps (2) 5.3 Uncertainty of standard lamps (2) 6 General technical requirements (2) 6.1 Appearance requirements (2) 6.2 Marking (3) 6.3 Packaging (3) 7 Measuring instrument control (3) 7.1 Verification conditions (3) 7.2 Verification project (6) 7.3 Verification method (6) 7.4 Processing of verification results (10) 7.5 Verification cycle (10) Appendix A Calculation Method of Optimal Linear Slope (11) Appendix B General Formula for Calculating the Distribution Temperature of Light Sources (12) Appendix C Verification Certificate Format (13) Appendix D Uncertainty Analysis---Verification with Photoelectric Distribution Temperature Comparator (14) Appendix E Uncertainty Analysis---Verification with Spectral Radiation Illumination Measuring Device (16) Distribution (color) temperature standard lamp verification procedure

1 Scope of application

This procedure applies to the first verification, subsequent verification and inspection in use of distributed (color) temperature standard lamps.

2 Citations

GB 5702-1985 "Light source color evaluation method" At the time of citation, attention should be paid to the use of the currently valid version of the above documents.

3 terms

3.1 [Spectral] distribution temperature of the light source In a certain wavelength range [λ1, λ2], if the radiation emitted by the light source and the radiation of the black body at a certain temperature have The closest spectral power distribution, then the absolute temperature of the black body is defined as the source in the wavelength range [λ1, The spectral distribution temperature within λ2], referred to as the distribution temperature. See Appendix C for calculation steps and formulas. 3.2 Color temperature of the light source If the chromaticity of a light source emitting light is the same (match) as the chromaticity of a black body at a certain temperature, then the black body at this time The absolute temperature is called the color temperature of the light source, referred to as the color temperature.

4 Overview

Distribution (color) temperature standard lamp is used to save and reproduce the distributed temperature value, and then reproduce the visible wavelength range A measuring instrument for the internal light source relative to the spectral power distribution standard. It is specially made according to certain technical conditions, luminous performance Stable, incandescent tungsten filament lamp with colorless bulb and quartz bulb bromine tungsten lamp (hereinafter referred to as standard lamp). After igniting, It emits a continuous spectrum from the ultraviolet to the infrared wavelength range, with relative wavelengths in the visible wavelength range (380 to 780) nm. The spectral power distribution is very similar to the distribution of blackbody at a certain temperature. According to their definition, the distribution temperature and color temperature of the light source are conceptually very different, and numerically Not necessarily the same. However, for a light source whose relative spectral power distribution is the same as that of a black body, its color temperature value is numerically equal. a distribution temperature value in the visible wavelength range; a light source with a spectral power distribution similar to that of a black body, such as an incandescent tungsten lamp, The color temperature value is very small from the distribution temperature value in the visible wavelength range. It is considered to be within the range of the usual measurement error. identical. On the other hand, for general incandescent light sources, the distribution temperature values in different wavelength ranges are also different. Unless otherwise stated, it refers to the distribution temperature in the visible wavelength range. Since the temperature of each part of the filament is not exactly the same when the standard lamp is illuminated, the distribution temperature described in this specification is Refers to the distribution temperature of the radiation of each part of the filament that is uniformly mixed in the metering direction. In the normal operating temperature range, the relationship between the standard lamp lamp current iT and the corresponding distributed temperature value Td is available. The following formula indicates. ......

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