|
US$329.00 · In stock
Delivery: <= 3 days. True-PDF full-copy in English will be manually translated and delivered via email.
JJG 1035-2022: Optical Spectrum Analyzers in Telecommunication
Status: Valid JJG 1035: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| JJG 1035-2022 | English | 329 |
Add to Cart
|
3 days [Need to translate]
|
Optical Spectrum Analyzers in Telecommunication
| Valid |
JJG 1035-2022
|
| JJG 1035-2008 | English | 559 |
Add to Cart
|
3 days [Need to translate]
|
Verification Regulation of Optical Spectrum Analyzers in Telecommunication
| Obsolete |
JJG 1035-2008
|
| JJG 1035-1992 | English | RFQ |
ASK
|
3 days [Need to translate]
|
Metrological Terms and Their Definitions for Ionizing Radiation
| Obsolete |
JJG 1035-1992
|
Standard similar to JJG 1035-2022 JJF 1033 JJF 1050 JJF 1030 Basic data | Standard ID | JJG 1035-2022 (JJG1035-2022) | | Description (Translated English) | Optical Spectrum Analyzers in Telecommunication | | Sector / Industry | Metrology & Measurement Industry Standard | | Word Count Estimation | 15,180 | | Date of Issue | 2022-06-28 | | Date of Implementation | 2022-12-28 | | Issuing agency(ies) | State Administration for Market Regulation | JJG 1035-2022: Optical Spectrum Analyzers in Telecommunication---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.
Optical Spectrum Analyzers in Telecommunication
National Metrology Verification Regulations of the People's Republic of China
Communication Spectrum Analyzer
Released on 2022-06-28
2022-12-28 Implementation
Released by the State Administration for Market Regulation
Communication Spectrum Analyzer
Verification Regulations
Replace JJG 1035-2008
Responsible unit. National Optical Metrology Technical Committee
Main drafting unit. China Institute of Metrology
National Communication Metering Station
Participating in the drafting unit. China Jiliang University
Shaanxi Institute of Metrology
Wuxi Metrology and Testing Institute
This regulation entrusts the National Optical Metrology Technical Committee to be responsible for interpretation
The main drafters of this regulation.
Xu Nan (National Institute of Metrology)
Li Jian (National Institute of Metrology)
Zhang Yingyan (National Communications Metrology Station)
Wang Yangyang (National Institute of Metrology, China)
Participating drafters.
Gong Huaping (China Jiliang University)
Li Rong (Shaanxi Institute of Metrology)
Wang Guanjun (Wuxi Metrology and Testing Institute)
Table of contents
Introduction (Ⅱ)
1 Scope(1)
2 References(1)
3 Overview(1)
4 Metrological performance requirements (2)
4.1 Wavelength(2)
4.2 Optical Power(2)
5 General technical requirements (2)
5.1 Appearance(2)
5.2 Optical system(2)
6 Measuring Instrument Control(2)
6.1 Test conditions (2)
6.2 Verification items (3)
6.3 Verification method (3)
7 Processing of test results (6)
8 test cycles(6)
Appendix A Verification Original Record Format (7)
Appendix B Format of the inner page of the verification certificate (9)
Introduction
JJF1002 "Rules for Writing National Metrology Verification Regulations", JJF1001 "General Metrology Terms and Definitions",
JJF1059.1 "Assessment and Expression of Measurement Uncertainty" together constitute the basic series of specifications for the revision of this regulation.
This regulation is a revision of JJG 1035-2008 "Spectrum Analyzer for Communication". Compatible with JJG 1035-2008
In addition to editorial modifications, the main technical changes are as follows.
--- Deleted the limitation on the wavelength range;
--- Properly relax the measurement uncertainty requirements of the main standard optical wavelength meter according to actual needs;
--- Simplified the measurement steps of resolution bandwidth and the expression of measurement results;
---Increase the error of the indication value of the wavelength measured by the beam splitter method, and reduce the measurement uncertainty caused by the change of the wavelength of the light source;
---Optical power indication and nonlinear verification of the optical spectrum analyzer directly refer to JJG 813 "Fiber Optic Optical Power Meter"
implement;
--- The verification requirements for polarization-dependent loss are deleted.
The previous releases of this regulation are as follows.
---JJG 1035-2008.
Verification Regulations for Optical Spectrum Analyzer for Communication
1 Scope
This regulation applies to the initial verification, follow-up verification and
Check in use.
2 References
This procedure references the following documents.
JJG 813 Fiber Optic Power Meter
IEC 62129-1 Calibration of wavelength/optical frequency measuring equipment Part 1.Optical spectrum analyzer (Calibration
analyzers)
For dated references, only the dated version applies to this regulation; for undated references
document, its latest version (including all amendments) applies to this regulation.
3 Overview
A spectrum analyzer is a measuring instrument used to measure the spectral power distribution of an optical signal. Optical spectrum analyzers can measure light sources
It can also measure the spectral transmission characteristics of some passive devices.
At present, there are two main measurement methods for spectrum analyzers. grating method and interferometry. The main advantage of the grating method is that the scanning
The scanning speed is fast and the cost is low. The schematic structure of the grating spectrum analyzer is shown in Figure 1.The main advantage of interferometry is that the wavelength
The test accuracy is high, but the dynamic range is limited, the scanning speed is slow, and the cost is high. Schematic diagram of the structure of the interferometric spectrum analyzer
as shown in picture 2.
Fig.1 Schematic diagram of grating spectrum analyzer
|