IEC TR 61282-9 Fibre optic communication system design guides – Part 9: Guidance on polarization mode dispersion measurements and theory - 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 system design guides – Part 9: Guidance on polarization mode dispersion measurements and theory - Edition 1.0
N TR 61282-9
Annotation
This technical report applies to all commercially available fibre optic products sensitive to polarization mode dispersion (PMD).
This report presents general information about PMD, the mathematical formulation related to the application of the generally accepted methods to test PMD, and some considerations related to the sampling theory regarding the use of different light sources and detection systems.
This report is complementary to the International Standards describing the PMD procedures (IEC 60793-1-48, IEC 61280-4-4, IEC 61290-11-1, IEC 61290-11-2 and IEC 61300-3-32) and other design guides on PMD (IEC 61282-3 and IEC 61292-5).
Автоматический перевод:
Оптоволоконные руководства по проектированию системы связи – Часть 9: Руководство на измерениях дисперсии способа поляризации и теории - Издание 1.0
Этот технический отчет относится ко всем коммерчески доступным волоконно-оптическим продуктам, чувствительным к дисперсии режима поляризации (PMD).
Этот отчет представляет общую информацию о PMD, математическая формулировка, связанная с применением общепринятых методов для тестирования PMD и некоторых соображений, связанных с теорией выборки относительно использования различных источников света и систем обнаружения.
