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UL 1651 - UL STANDARD FOR SAFETY OPTICAL FIBER CABLE - FOURTH EDITION Organization: UL
Date: 2015-05-15
Description: Type OFCG and OFNG cables are to comply with the FT4/IEEE 1202 test. Cables covered in these requirements are not required by the NEC to be used in raceway.
ASTM D5424 - STANDARD TEST METHOD FOR SMOKE OBSCURATION OF INSULATING MATERIALS CONTAINED IN ELECTRICAL OR OPTICAL FIBER CABLES WHEN BURNING IN A VERTICAL CABLE TRAY CONFIGURATION Organization: ASTM
Date: 2014-11-01
Description:   This test method provides a means to measure the smoke obscuration resulting from burning electrical insulating materials contained in electrical or optical fiber cables when the cable specimens, excluding accessories, are subjected to a specified flaming ignition source and burn freely under well ventilated conditions.
IEEE - IEEE 1682 - STANDARD FOR QUALIFYING FIBER OPTIC CABLES, CONNECTIONS, AND OPTICAL FIBER SPLICES FOR USE IN SAFETY SYSTEMS IN NUCLEAR POWER GENERATING STATIONS Organization: IEEE
Date: 2011-09-10
Description: Purpose The principal purpose of this standard is to provide specific directions for the implementation of IEEE Std 323TM-2003 for qualification of fiber optic cables, including hybrid cables, connections, and optical fiber splices.
ASTM D5537 - STANDARD TEST METHOD FOR HEAT RELEASE, FLAME SPREAD, SMOKE OBSCURATION, AND MASS LOSS TESTING OF INSULATING MATERIALS CONTAINED IN ELECTRICAL OR OPTICAL FIBER CABLES WHEN BURNING IN A VERTICAL CABLE TRAY CONFIGURATION Organization: ASTM
Date: 2014-12-15
Description: This test method provides a means to measure the heat released and smoke obscuration by burning the electrical insulating materials contained in electrical or optical fiber cables when the cable specimens, excluding accessories, are subjected to a specified flaming ignition source and burn freely under well ventilated conditions.
UL 1690 - UL STANDARD FOR SAFETY DATA-PROCESSING CABLE - FOURTH EDITION Organization: UL
Date: 2015-07-07
Description: These electrical and composite electrical/optical-fiber cables are intended for use (optical and electrical functions associated in the case of a hybrid cable) in accordance with Article 645 and other applicable parts of the National Electrical Code (NEC) under the raised floor of a computer room.
UL 854 - UL STANDARD FOR SAFETY SERVICE-ENTRANCE CABLES - ELEVENTH EDITION; REPRINT WITH REVISIONS THROUGH AND INCLUDING NOVEMBER 18, 2014 Organization: UL
Date: 2004-10-19
Description: Type SE cables that are marked for use in cable trays comply with a 70,000 Btu/h (20.5 kW) vertical-tray flame test as described in Sections 4 – 11 of the Standard for Vertical-Tray Fire-Propagation and Smoke-Release Test for Electrical and Optical-Fiber Cables, UL 1685 or the FT4/IEEE 1202 flame test as described in Sections 12 – 19 of UL 1685.
NECA NEIS 568 - STANDARD FOR INSTALLING COMMERICAL BUILDING TELECOMMUNICATIONS CABLING Organization: NECA
Date: 2006-01-01
Description: This Standard describes minimum requirements and procedures for installing the infrastructure for telecommunications including balanced twisted pair copper cabling and optical fiber cabling that transport telecommunications signals (e.g., voice, data, video).
ITU-T J.185 - TRANSMISSION EQUIPMENT FOR TRANSFERRING MULTI-CHANNEL TELEVISION SIGNALS OVER OPTICAL ACCESS NETWORKS BY FREQUENCY MODULATION CONVERSION - STUDY GROUP 9 Organization: ITU-T
Date: 2012-06-01
Description: This FM signal is then transmitted through the optical access network by using the intensity modulation technique. The video-optical network terminal (V-ONT) at the customer premises converts the received single FM signal into the original multi-channel FDM video signals, i.e., coaxial cable television (CATV) signals.
UL 1655 - UL STANDARD FOR SAFETY COMMUNITY-ANTENNA TELEVISION CABLES - SECOND EDITION; REPRINT WITH REVISIONS THROUGH AND INCLUDING NOVEMBER 3, 2014 Organization: UL
Date: 2009-04-21
Description: These paragraphs apply the test method described as the FT4/IEEE 1202 Type of Flame Exposure (smoke measurements are not applicable) in the Standard for Vertical-Tray Fire-Propagation and Smoke-Release Test for Electrical and Optical-Fiber Cables, UL 1685. A cable that complies is eligible to be marked "FT4/IEEE 1202" or "FT4" on the surface or on a marker tape as indicated in 37.1(h).
IEC/IEEE 62582-5 - NUCLEAR POWER PLANTS - INSTRUMENTATION AND CONTROL IMPORTANT TO SAFETY - ELECTRICAL EQUIPMENT CONDITION MONITORING METHODS - PART 5: OPTICAL TIME DOMAIN REFLECTOMETRY - EDITION 1.0 Organization: IEC
Date: 2015-06-01
Description: Scope and object This part of IEC/IEEE 62582 contains methods for monitoring the attenuation condition of optical fibres and cables in instrumentation and control systems using optical time domain reflectometer (OTDR) measurements in the detail necessary to produce accurate and reproducible measurements.
IEEE - IEEE 62582-5 - NUCLEAR POWER PLANTS – INSTRUMENTATION AND CONTROL IMPORTANT TO SAFETY – ELECTRICAL EQUIPMENT CONDITION MONITORING METHODS – PART 5: OPTICAL TIME DOMAIN REFLECTOMETRY Organization: IEEE
Date: 2015-06-01
Description: Scope and object This part of IEC/IEEE 62582 contains methods for monitoring the attenuation condition of optical fibres and cables in instrumentation and control systems using optical time domain reflectometer (OTDR) measurements in the detail necessary to produce accurate and reproducible measurements.
UL 1425 - UL STANDARD FOR SAFETY CABLES FOR NON-POWER-LIMITED FIRE-ALARM CIRCUITS - THIRD EDITION Organization: UL
Date: 2015-01-26
Description: These paragraphs apply the test method described as the UL Flame Exposure (smoke measurements are not applicable) in the Standard for Vertical-Tray Fire-Propagation and Smoke-Release Test for Electrical and Optical-Fiber Cables, UL 1685. 2) The FT4/IEEE 1202 test referenced in 24.1.2 and 24.4.1.
IEEE - IEEE 525 - GUIDE FOR THE DESIGN AND INSTALLATION OF CABLE SYSTEMS IN SUBSTATIONS Organization: IEEE
Date: 2016-06-30
Description: acceptance testing, cable, cable installation, cable selection, communication cable, electrical segregation, fiber-optic cable, handling, IEEE 525™, power cable, pulling tension, raceway, recommended maintenance, routing, separation of redundant cable, service conditions, substation, transient protection Purpose The purpose of this guide is to provide guidance to the substation engineer in established practices for the application and installation of metallic and optical cables in electric power transmission and distribution substations with the objective of helping to minimize cable failures and their consequences.
IEEE - IEEE 1428 - GUIDE FOR INSTALLATION METHODS FOR FIBER-OPTIC CABLES IN ELECTRIC POWER GENERATING STATIONS AND IN INDUSTRIAL FACILITIES Organization: IEEE
Date: 2004-11-15
Description: It is not the intention of this guide to establish requirements for cables designed for installation in a highvoltage environment, such as optical ground wire and all-dielectric, self supporting.
IEC 61918 - INDUSTRIAL COMMUNICATION NETWORKS – INSTALLATION OF COMMUNICATION NETWORKS IN INDUSTRIAL PREMISES - EDITION 3.0 Organization: IEC
Date: 2013-08-01
Description: This standard does not recognise implementations of power distribution through Ethernet balanced cabling systems that are not specified in IEEE 802.3 and in IEEE 802.3at. This standard deals with the roles of planner, installer, verifier, and acceptance test personnel, administration and maintenance personnel and specifies the relevant responsibilities and/or gives guidance.
CENELEC - EN 61918 - INDUSTRIAL COMMUNICATION NETWORKS - INSTALLATION OF COMMUNICATION NETWORKS IN INDUSTRIAL PREMISES - INCORPORATING CORRIGENDUM MAY 2014 Organization: CENELEC
Date: 2013-12-01
Description: This standard does not recognise implementations of power distribution through Ethernet balanced cabling systems that are not specified in IEEE 802.3 and in IEEE 802.3at. This standard deals with the roles of planner, installer, verifier, and acceptance test personnel, administration and maintenance personnel and specifies the relevant responsibilities and/or gives guidance.
IETF RFC 2835 - IP AND ARP OVER HIPPI-6400 (GSN) Organization: IETF
Date: 2000-05-01
Description: HIPPI-6400-PH [1] defines the encapsulation of IEEE 802.2 LLC PDUs [10] and by implication, IP on GSN.
TIA TSB-4979 - PRACTICAL CONSIDERATIONS FOR IMPLEMENTATION OF ENCIRCLED FLUX LAUNCH CONDITIONS IN THE FIELD Organization: TIA
Date: 2013-08-01
Description: The EF guidelines can be used for field testing optical attenuation of installed multimode cabling for 850 nm and 1300 nm containing 50 μm and, when required, 62.5 μm graded-index fibers.

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