IEC 61280-4-4 Fibre optic communication subsystem test procedures – Part 4-4: Cable plants and links – Polarization mode dispersion measurement for installed links - Edition 1.0
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- CENELEC EN 61907 Communication network dependability engineering
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- 21
- CENELEC EN 61907 Communication network dependability engineering
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- 21.020
- CENELEC EN 61907 Communication network dependability engineering
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- CENELEC EN 61907 Communication network dependability engineering
- CENELEC EN 61907 Communication network dependability engineering
- 33
- CENELEC EN 61907 Communication network dependability engineering
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- CENELEC EN 61907 Communication network dependability engineering
- IEC 60300-3-3 Dependability management – Part 3-3: Application guide – Life cycle costing - Edition 2.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC TR 62721 Reliability of devices used in fibre optic systems – General and guidance - Edition 1.0
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- IEC TR 61292-3 Optical amplifiers Part 3: Classification, characteristics and applications - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- CEI EN 62343 Dynamic modules and devices - General and guidance
- CEI EN 62343 Dynamic modules and devices - General and guidance
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- IEC TR 61292-5 Optical amplifiers Part 5: Polarization mode dispersion parameter General information - Edition 1.0
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- JSA JIS C 6842 Measurement methods and test procedures - Polarization mode dispersion of optical fibers
- IEC TR 61282-3 Fibre optic communication system design guides – Part 3: Calculation of link polarization mode dispersion - Edition 2.0
- BSI PD IEC/TR 62000 Guideline for combining different single-mode fibres types
- IEC TR 61282-9 Fibre optic communication system design guides – Part 9: Guidance on polarization mode dispersion measurements and theory - Edition 1.0
- BSI PD IEC/TR 61282-3 Fibre optic communication system design guides - Part 3: Calculation of link polarization mode dispersion
- CENELEC EN 61907 Communication network dependability engineering
- Картотека зарубежных и международных стандартов
International Electrotechnical Commission
Fibre optic communication subsystem test procedures – Part 4-4: Cable plants and links – Polarization mode dispersion measurement for installed links - Edition 1.0
N 61280-4-4
Annotation
This part of IEC 61280 provides uniform methods of measuring polarization mode dispersion (PMD) of single-mode installed links. An installed link is the optical path between transmitter and receiver, or a portion of that optical path. These measurements may be used to assess the suitability of a given link for high bit rate applications or to provide insight on the relationships of various related transmission attributes. The principles of this document are aligned with those of the optical fibre and optical fibre cable test method, IEC 60793-1-48 (see Bibliography), which focuses on aspects related to the measurement of factory lengths. Instead, this document focuses on the measurement methods and requirements for measuring long lengths that might be installed – and that might also include other optical elements, such as amplifiers, DWDM components, multiplexers, etc.
PMD is a statistical parameter. The reproducibility of measurements depends on the particular method, but is limited also by the PMD level of the link. Gisin [3]5) derived a theoretical limit to this reproducibility, by assuming an infinite range of measured wavelengths and ideal measurement conditions.
NOTE 1 Test methods for factory lengths of optical fibres and optical fibre cables are given in IEC 60793-1-48.
NOTE 2 Test methods for optical amplifiers are given in IEC 61290-11-1 and IEC 61290-11-2.
NOTE 3 Test methods for passive optical components are given in IEC 61300-3-32.
NOTE 4 Guidelines for the calculation of PMD for links that include components such as dispersion compensators or optical amplifiers are given in IEC 61282-3.
