GR 2882 CORE : ISSUE 1
Current
The latest, up-to-date edition.
GENERIC REQUIREMENTS FOR OPTICAL ISOLATORS AND CIRCULATORS
01-12-2013
Preface
1 Introduction
1.1 Purpose and Scope of Document
1.2 Requirements Terminology
1.3 Requirement Labeling Conventions
1.3.1 Numbering of Requirement and Related Objects
1.3.2 Requirement, Conditional Requirement and
Objective Object Identification
1.4 Organization
2 General Information
2.1 General Product Description
2.2 Isolator and Circulator Classes
2.2.1 Polarizer/analyzer Isolators
2.2.2 Walk-off Isolators
2.2.3 Optical Circulators
2.3 Isolator Technology
2.4 Isolator Parameters
2.4.1 Isolation
2.4.2 Insertion Loss
2.4.3 Reflectance
2.4.4 Polarization
2.4.4.1 Polarization-Dependent Loss
2.4.4.2 Polarization-Mode Dispersion
2.5 Isolator Applications
2.5.1 Transmitter Protection
2.5.2 Optical Amplifiers
2.5.3 In-line Noise Reduction
2.5.4 Circulator Applications
2.5.5 Bidirectional Transmission
2.5.6 Optical Amplifiers and Systems
2.5.7 Optical MUX/DEMUX
2.6 Environmental Conditions
3 General and Design Criteria
3.1 Documentation
3.1.1 General Documentation
3.1.2 Workcenter Information Package
3.2 Marking, Packaging and Shipping
3.3 Physical Design Criteria
3.3.1 Optical Fiber
3.3.2 Optical Connectors
3.3.3 Materials
3.3.3.1 Toxicity
3.3.3.2 Corrosion Resistance
3.3.3.3 Dissimilar Metals
3.3.3.4 Fungus Resistance
3.3.3.5 Flammability
3.3.4 Safety
3.3.5 Mounting
3.3.5.1 Central Office Location
3.3.5.2 Outside Plant Location
4 Performance Criteria
4.1 Optical Criteria
4.1.1 Optical Bandpass
4.1.2 Insertion Loss
4.1.3 Isolation
4.1.4 Circulator Directivity
4.1.5 Reflectance
4.1.6 Polarization-Dependent Loss (PDL)
4.1.7 Polarization Mode Dispersion (PMD)
4.2 Environmental Criteria
4.2.1 Operating Environment
4.2.2 Non-Operating Environment
4.2.3 Shock Criteria
4.2.3.1 Shipment from Manufacturer
4.2.3.2 Local Transportation
4.2.3.3 During Use
4.2.4 Vibration Test
4.2.5 Airborne Contaminants
4.2.6 Flex Test
4.2.7 Twist Test
4.2.8 Side Pull
4.2.9 Cable Retention
5 Performance Verification/Test Procedures
5.1 Optical Testing
5.1.1 Optical Bandpass
5.1.2 Insertion Loss
5.1.3 Isolation
5.1.4 Circulator Directivity
5.1.5 Reflectance
5.1.6 Polarization-Dependent Loss (PDL)
5.1.7 Polarization-Mode Dispersion
5.2 Environmental Testing
5.2.1 Operating Environment
5.2.2 Non-Operating Environment
5.2.3 Shock Tests
5.2.3.1 Shipment from Manufacturer
5.2.3.2 Local Transportation
5.2.3.3 In Use
5.2.4 Vibration Test
5.2.5 Airborne Contaminants Test
5.2.6 Flex Test
5.2.7 Twist Test
5.2.8 Side Pull
5.2.9 Cable Retention
6 Reliability and Quality Assurance Program
6.1 Reliability Assurance Requirements Philosophy
6.2 Overview of Reliability Assurance
6.3 Qualification Criteria
6.3.1 Characterization
6.3.2 Reliability Tests
6.3.3 Failure Rate Prediction
6.3.4 Optical Adhesives
6.3.5 Quality Assurance and Lot Controls
6.3.5.1 Visual Inspection
6.3.5.2 Optical Testing
6.3.5.3 Stress Screening
6.3.6 Optical Adhesives
6.3.7 Optical Connectors
6.3.8 Optical Fiber
6.4 Quality and Reliability Criteria
6.4.1 Reliability Assurance
6.4.2 Quality Technology Program
Appendix A: The Transfer Matrix
A.1 Definition of Terms
References
Glossary
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