ANSI Z136.2 : 2012
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
SAFE USE OF OPTICAL FIBER COMMUNICATION SYSTEMS UTILIZING LASER DIODE AND LED SOURCES
19-12-2012
23-08-2023
1 General
2 Definitions
3 Hazard Evaluation and Service Group
Classification
4 Control Measures
5 Safety and Training Programs
6 Medical Surveillance of OFCS Personnel
7 Non-Beam Hazards
8 Criteria for Exposure of the Eye and Skin
9 Measurements
10 Revision of American National Standards
Referred to in this document
Tables
Figures
Appendix A
This standard addresses hazards and provides guidance for the safe use, maintenance, service, and installation (manufacturer) of optical communications systems (OCS) utilizing laser diodes or light emitting diodes (LED) operating at wavelengths between 0.6 μm and 1 mm and not intended for visual communications.
| DevelopmentNote |
Also available in a SET with ANSI Z136.1. (05/2015)
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| DocumentType |
Standard
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| PublisherName |
Laser Institute of America
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| Status |
Withdrawn
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| TIA 526-7 : A2015 | MEASUREMENT OF OPTICAL POWER LOSS OF INSTALLED SINGLE-MODE FIBER CABLE PLANT |
| MIL-STD-1678-1 Revision D:2016 | Fiber Optic Cabling Systems Requirements and Measurements (Part 1: Design, Installation and Maintenance Requirements) (Part 1 of 6 Parts) |
| MIL-STD-1678-6 Revision A:2016 | Fiber Optic Cabling Systems Requirements and Measurements (Part 6: Parts and Support Equipment Commonality and Standardization Requirements) (Part 6 of 6 Parts) |
| MIL-STD-2042-2 Revision C:2016 | Fiber Optic Cable Topology Installation Standard Methods for Surface Ships and Submarines (Equipment) (Part 2 of 7 Parts) |
| CEI EN 61280-2-5 : 1999 | FIBRE OPTIC COMMUNICATION SUBSYSTEM BASIC TEST PROCEDURES - PART 2-5: TEST PROCEDURES FOR DIGITAL SYSTEMS - JITTER TRANSFER FUNCTION MEASUREMENT |
| SCTE 186 : 2016 | PRODUCT ENVIRONMENTAL REQUIREMENTS FOR CABLE TELECOMMUNICATIONS |
| MIL-STD-1678-4 Revision C:2016 | Fiber Optic Cabling Systems Requirements and Measurements (Part 4: Test Sample Configuration and Fabrication Requirements) (Part 4 of 6 Parts) |
| MIL-STD-1678-2 Revision A:2013 | Fiber Optic Cabling Systems Requirements and Measurements (Part 2: Optical Measurements) (Part 2 of 6 Parts) |
| SAE AS 5659 : 2012 | WDM LAN STANDARD |
| 95/208078 DC : DRAFT JULY 1995 | IEC 61280-4-1 - FIBER OPTIC COMMUNICATION SUBSYSTEM BASIC TEST PROCEDURES - PART 4: TEST PROCEDURES FOR FIBER OPTIC CABLE PLANT - SECTION 1: MULTIMODE FIBER OPTIC CABLE PLANT ATTENUATION MEASUREMENT |
| ANSI INCITS 296 : 1997 : R2007 | INFORMATION TECHNOLOGY - SINGLE-BYTE COMMAND CODE SETS CONNECTION (SBCON) ARCHITECTURE |
| BS EN 61280-2-5:1998 | Fibre optic communication subsystem basic test procedures. Test procedures for digital systems Jitter transfer function measurement |
| NASA STD 8719.24 : 2011 | NASA EXPENDABLE LAUNCH VEHICLE PAYLOAD SAFETY REQUIREMENTS |
| ANSI INCITS 352 : 2002 | INFORMATION TECHNOLOGY - FIBRE CHANNEL - PHYSICAL INTERFACES (FC-PI) |
| SAE ARP5061 | Guidelines for Testing and Support of Aerospace, Fiber Optic, Inter-Connect Systems |
| MIL-STD-2042-4 Revision C:2016 | Fiber Optic Cable Topology Installation Standard Methods for Surface Ships and Submarines(Cableways) (Part 4 of 7 Parts) |
| NASA STD 8739.5 : 2015 | WORKMANSHIP STANDARD FOR FIBER OPTIC TERMINATIONS, CABLE ASSEMBLIES, AND INSTALLATION |
| MIL-STD-2042-7 Base Document:2002 | Fiber Optic Cable Topology Installation Standard Methods for Naval Ships (Pierside Connectivity Cable Assemblies and Interconnection Hardware) (Part 7 of 7 Parts) |
| MIL-STD-2042-1 Revision C:2016 | Fiber Optic Cable Topology Installation Standard Methodsfor SurfaceShips and Submarines(Cables) (Part 1of 7 Parts) |
| MIL-STD-2042-5 Revision C:2016 | Fiber Optic Cable Topology Installation Standard Methods for Surface Ships and Submarines (Connectors and Interconnections) (Part 5 of 7 Parts) |
| ANSI INCITS 404 : 2006 | INFORMATION TECHNOLOGY - FIBRE CHANNEL - PHYSICAL INTERFACES-2 (FC-PI-2) |
| SAE AIR4982A | Aerospace Fly-by-Light Actuation Systems |
| MIL-STD-2042-3 Revision C:2016 | Fiber Optic Cable Topology Installation Standard Methodsfor Surface Ships and Submarines(Cable Penetrations) (Part 3of 7 Parts) |
| ANSI INCITS 296 : 1997 : R2002 | INFORMATION TECHNOLOGY - SINGLE-BYTE COMMAND CODE SETS CONNECTION (SBCON) ARCHITECTURE |
| FAA AC 70-1 : 2004 | OUTDOOR LASER OPERATIONS |
| ARINC 807-3 : 2013 | FIBER OPTIC TRAINING REQUIREMENTS |
| TIA 570 : C2012 | RESIDENTIAL TELECOMMUNICATIONS INFRASTRUCTURE STANDARD |
| ANSI Z136.1 : 2014 | SAFE USE OF LASERS |
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