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PD IEC PAS 62129:2004

Superseded
Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

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superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

Calibration of optical spectrum analyzers
Available format(s)

Hardcopy , PDF

Superseded date

05-31-2006

Language(s)

English

Published date

04-23-2004

FOREWORD
1 Scope
2 Normative references
3 Definitions
4 Calibration test requirements
  4.1 Preparation
  4.2 Reference test conditions
  4.3 Traceability
5 Resolution bandwidth (spectral resolution) test
  5.1 Overview
  5.2 Resolution bandwidth (spectral resolution) test
      5.2.1 Equipment for resolution bandwidth (spectral
            resolution) test
      5.2.2 Test procedure for resolution bandwidth
            (spectral resolution)
6 Displayed power level calibration
  6.1 Overview
  6.2 Displayed power level (DPL) calibration under
      reference conditions
      6.2.1 Equipment for DPL calibration under reference
            conditions
      6.2.2 Test procedure for DPL calibration under
            reference conditions
      6.2.3 Calculation of DPL uncertainty under reference
            conditions
  6.3 Displayed power level (DPL) calibration for operating
      conditions
      6.3.1 Wavelength dependence
      6.3.2 Polarization dependence
      6.3.3 Linearity
      6.3.4 Temperature dependence
  6.4 Calculation of expanded uncertainty in displayed
      power level
7 Wavelength calibration
  7.1 Overview
  7.2 Wavelength calibration under reference conditions
      7.2.1 Equipment for wavelength calibration under
            reference conditions
      7.2.2 Test procedure for wavelength calibration
            under reference conditions
      7.2.3 Calculations of wavelength uncertainty under
            reference conditions
  7.3 Wavelength calibration for operating conditions
      7.3.1 Wavelength dependence
      7.3.2 Temperature dependence
  7.4 Calculation of expanded uncertainty in wavelength
8 Documentation
  8.1 Measurement data and uncertainty
  8.2 Measurement conditions
Annex A (normative) Mathematical basis for calculation
        of calibration uncertainty
  A.1 Deviations
  A.2 Uncertainty type A
  A.3 Uncertainty type B
  A.4 Accumulation of uncertainties
  A.5 Reporting
Annex B (informative) Examples of calculation of
        calibration uncertainty
  B.1 Displayed power level calibration
      B.1.1 Uncertainty under reference conditions:
            sigma[delta Pref]
      B.1.2 Uncertainty under operating conditions
      B.1.3 Expanded uncertainty calculation
  B.2 Wavelength calibration
      B.2.1 Uncertainty under reference conditions:
            sigma[delta lambda ref]
      B.2.2 Uncertainty under operating conditions
      B.2.3 Expanded uncertainty calculation
Annex C (informative) Using the calibration results
  C.1 General
      C.1.1 Scope
      C.1.2 Parameters
      C.1.3 Restrictions
  C.2 Additive corrections
      C.2.1 Parameters
      C.2.2 Measurements close to a calibration reference
            wavelength
      C.2.3 Measurements at other wavelengths
  C.3 Multiplicative corrections
      C.3.1 Parameters
      C.3.2 Measurements close to a calibration reference
            wavelength
      C.3.3 Measurements at other wavelengths
  C.4 OSA calibration results (additive correction)
Annex D (informative) Wavelength references
  D.1 Gas laser lines
  D.2 Noble gas reference lines
  D.3 Molecular absorption lines
  D.4 Reference documents
Annex E (informative) Further reading and references for
                      calibration of wavelength scale

Provides procedures for calibrating an optical spectrum analyzer designed to measure the power distribution of an optical spectrum; this analyzer is equipped with an input port for use with a fibre-optic connector.

Provides procedures for calibrating an optical spectrum analyzer designed to measure the power distribution of an optical spectrum; this analyzer is equiped with an input port for use with a fibre-optic connector. This document applies to optical spectrum analyzers developed for use in fibre-optic communications and is limited to equipment that can directly measure the optical spectrum output from an optical fibre, where the optical fibre is connected to an input port installed in the optical spectrum analyzer through a fibre-optic connector.

Committee
GEL/86
DocumentType
Standard
Pages
0
PublisherName
British Standards Institution
Status
Superseded
SupersededBy

Standards Relationship
IEC PAS 62129:2004 Identical

IEC 60825-2:2004+AMD1:2006+AMD2:2010 CSV Safety of laser products - Part 2: Safety of optical fibre communication systems (OFCS)
IEC 60793-1:1992 Optical fibres - Part 1: Generic specification
IEC 60825-1:2014 Safety of laser products - Part 1: Equipment classification and requirements
IEC 61290-3-1:2003 Optical amplifiers - Test methods - Part 3-1: Noise figure parameters - Optical spectrum analyzer method
ISO 9000:2015 Quality management systems — Fundamentals and vocabulary
IEC 60359:2001 Electrical and electronic measurement equipment - Expression of performance

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