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LIA/LASER - ANSI Z136.1/Z136.8 SET - THIS SET INCLUDES THE ANSI Z136.1 SAFE USE OF LASERS AND THE ANSI Z136.8 SAFE USE OF LASERS IN RESEARCH, DEVELOPMENT OR TESTING Organization: LIA/LASER
LIA/LASER - ANSI Z136.1 - SAFE USE OF LASERS Organization: LIA/LASER
Date: 2014-01-01
Description: The ANSI Z136.1 is a parent document and cornerstone of the Z136 series of laser safety standards, the Z136.1 is the foundation of laser safety programs for industrial, military, medical, and educational applications nationwide.
LIA/LASER - ANSI Z136.4 - LASER SAFETY MEASUREMENTS FOR HAZARD EVALUATION Organization: LIA/LASER
Date: 2010-01-01
Description: In cases where the laser or laser system classification is not provided or where the class may change because of system alteration or the addition or deletion of engineering control measures, the LSO should ensure that reclassification of the laser or laser system is in accordance with ANSI Z136.1, the FLPPS, or IEC 60825-1.
LIA/LASER - ANSI Z136.5 - SAFE USE OF LASERS IN EDUCATIONAL INSTITUTION Organization: LIA/LASER
Date: 2009-01-01
Description: This standard is not a substitute for ANSI Z136.1-2007, which is required for a full understanding of laser safety officer duties and laser hazard evaluation.
BSI - BS 4803-2 - RADIATION SAFETY OF LASER PRODUCTS AND SYSTEMS PART 2: MANUFACTURING REQUIREMENTS FOR LASER PRODUCTS - AMD 4623: JULY 1984; AMD 4725: NOVEMBER 1984; AMD 4897: AUGUST 1985 Organization: BSI
Date: 1983-02-28
Description: Specifies manufacturing requirements for radiation safety of laser products. Defines laser product classes and gives requirements for classification procedure.
SAE ARP5293 - SAFETY CONSIDERATIONS FOR LASERS PROJECTED IN THE NAVIGABLE AIRSPACE Organization: SAE
Date: 2005-06-01
Description: It may be used in conjunction with AS4970, ARP5535, and ARP5572 and the ANSI Z136 series of laser safety standards. Purpose: The purpose of this document is to describe the issues, duties, and training of laser proponents specific to the use of lasers in navigable airspace.
SAE ARP5572 - CONTROL MEASURES FOR LASER SAFETY IN THE NAVIGABLE AIRSPACE Organization: SAE
Date: 2004-01-01
Description: Due to operational/mission requirements, some laser beams may exceed the maximum permissible exposure (MPE) limits or visual interference levels as defined in FAA Order 7400.2, ANSI Z136.1, and ANSI Z136.6. Control measures designed to reduce the laser beam hazards to air navigation are discussed.
SAE ARP5535 - OBSERVERS FOR LASER SAFETY IN THE NAVIGABLE AIRSPACE Organization: SAE
Date: 2015-02-01
Description: This document applies to safety observers or spotters involved with the use of outdoor laser systems. It may be used in conjunction with SAE Aerospace Standard (AS4970) "Human Factors Considerations for Outdoor Laser Operations in the Navigable Airspace."
AWS C7.2M - RECOMMENDED PRACTICES FOR LASER BEAM WELDING, CUTTING, AND ALLIED PROCESSES - 2ND EDITION Organization: AWS
Date: 2010-01-01
Description: Users of this standard should consult ANSI Z49.1, Safety in Welding, Cutting, and Allied Processes, applicable federal, state, and local regulations, and other relevant documents concerning safety and health issues not addressed herein. ANSI Z136.1, Safe Use of Lasers, is another important source for safe operation of laser equipment.
SAE ARP5674 - SAFETY CONSIDERATIONS FOR AIRCRAFT-MOUNTED LASERS PROJECTED INTO THE NAVIGABLE AIRSPACE Organization: SAE
Date: 2006-09-01
Description: It may be used in conjunction with: AS4970, ARP5535, ARP5572, ARP5293, AND THE ANSI Z136 laser safety standards. Purpose The purpose of this document is to provide guidance to regulatory and approving authorities on issues specific to the use of aircraft-mounted laser systems designed for use into navigable airspace.
BSI - BS 4803-3 - RADIATION SAFETY OF LASER PRODUCTS AND SYSTEMS PART 3: GUIDANCE FOR USERS - AMD 4824: JULY 1984; AMD 4896: AUGUST 30, 1985 Organization: BSI
Date: 1983-02-28
Description: Gives guidance on the safety precautions required for the use of laser products and systems. Contains information for calculation of radiation hazards.
LIA/LASER - ANSI Z136.2 - SAFE USE OF OPTICAL FIBER COMMUNICATION SYSTEMS UTILIZING LASER DIODE AND LED SOURCES Organization: LIA/LASER
Date: 2012-01-01
Description: NOTE—LEDs are included in the scope of this standard for the following reasons: 1) The optical energy emitted by an LED (usually an edge-emitter) launched into an optical fiber results in a worstcase viewing condition approximately the same as if the source were a laser. 2) Although the spectral bandwidth of an LED is much larger than that of a laser, the spectral emission is still relatively narrow and the tables for the maximum permissible exposure (MPE) values and accessible emission limits (AEL) can still be used satisfactorily to provide conservative results.
CSA T568.3-1 - OPTICAL FIBER CABLING COMPONENTS STANDARD — ADDENDUM 1 — ADDITIONAL TRANSMISSION PERFORMANCE SPECIFICATIONS FOR 50/125 ΜM OPTICAL FIBER CABLES - FIRST EDITION Organization: CSA
Date: 2005-05-01
Description: Purpose This Addendum specifies additional component and transmission requirements for a 50/125 μm optical fiber cable capable of supporting 10 Gb/s serial transmission up to 300 m (984 ft) using 850 nm nominal wavelength lasers. These cables are suitable for use in accordance with ANSI/TIA/EIA-568-B.1.
ASTM E1683 - STANDARD PRACTICE FOR TESTING THE PERFORMANCE OF SCANNING RAMAN SPECTROMETERS Organization: ASTM
Date: 2002-03-10
Description: Because of the significant dangers associated with the use of lasers, ANSI Z136.1 should be followed in conjunction with this practice.
ASTM E2529 - STANDARD GUIDE FOR TESTING THE RESOLUTION OF A RAMAN SPECTROMETER Organization: ASTM
Date: 2006-12-01
Description: Because of the significant dangers associated with the use of lasers, ANSI Z136.1 shall be followed in conjunction with this practice.
ATIS T1.TR.09 - MAXIMUM SKEW ONE-TENTH MAXIMUM (MSTM) MODEL FOR MODE-PARTITION NOISE (MPN) Organization: ATIS
Date: 1991-02-01
Description: Purpose This Technical Report presents the background material that was used to model some of the specifications for MLM lasers operating up to OC-12 found in ANSI T1.106-1988, American National Standard for Telecommunications-Digital Hierarchy-Optical Interface Specifications (Single-Mode).
ASTM E2911 - STANDARD GUIDE FOR RELATIVE INTENSITY CORRECTION OF RAMAN SPECTROMETERS Organization: ASTM
Date: 2013-07-01
Description: Because of the significant dangers associated with the use of lasers, ANSI Z136.1 or suitable regional standards should be followed in conjunction with this practice.
IES RP-27.1 - RECOMMENDED PRACTICE FOR PHOTOBIOLOGICAL SAFETY FOR LAMPS AND LAMP SYSTEMS –GENERAL REQUIREMENTS Organization: IES
Date: 2015-08-18
Description: This Recommended Practice covers the evaluation and control of optical radiation hazards from all electrically powered sources of optical radiation that emit in the wavelength range from 200 nm through 3,000 nm (3.0 um [micrometers]) except for light emitting diodes (LEDs) used in optical fiber communication systems and for lasers which are covered in a separate series of ANSI (American National Standards Institute) standards (Series Z136).
TIA-455-47 - FOTP-47 OUTPUT FAR-FIELD RADIATION PATTERN MEASUREMENT Organization: TIA
Date: 1992-08-01
Description: Hazards This method may employ laser sources and requires fiber alignment. Conform the design and operation of test equipment to the requirements of ANSI Z136.1 and/or Z136.2.
AWS A5.32M/A5.32 - WELDING CONSUMABLES—GASES AND GAS MIXTURES FOR FUSION WELDING AND ALLIED PROCESSES - 2ND EDITION Organization: AWS
Date: 2011-01-01
Description: This Standard specifies requirements for the classification of gases and gas mixtures used in fusion welding and allied processes including, but not limited to: — gas tungsten arc welding — GTAW; — gas metal arc welding — GMAW;flux cored arc weldingFCAW; — plasma arc welding — PAW; — plasma arc cutting — PAC; — laser beam welding — LBW;laser beam cutting — LBC;arc braze weldingABW; — electrogas welding — EGW.

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