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IEEE - IEEE 835 DISK - IEEE STANDARD POWER CABLE AMPACITY TABLES Organization: IEEE
IEEE - IEEE 835 SET - IEEE STANDARD POWER CABLE AMPACITY TABLES (INCLUDES HARDCOPY AND DISK) *** SEE ALSO IEEE 835 AND IEEE 835 DISK *** Organization: IEEE
IEC/TR 62652 - EFFECTS OF ENGAGING AND SEPARATING UNDER ELECTRICAL LOAD ON CONNECTOR INTERFACES IN CABLING USED TO SUPPORT IEEE 802.3AF (POWER-OVER-ETHERNET) APPLICATIONS - EDITION 1.0 Organization: IEC
Date: 2010-03-01
Description: This Technical Report is intended to provide information on the effects of engaging and separating under electrical load on the connector interfaces in cabling, used to support IEEE 802.3af (Power-over-Ethernet (PoE)) applications.
DS/IEC/TR 62652 - EFFECTS OF ENGAGING AND SEPARATING UNDER ELECTRICAL LOAD ON CONNECTOR INTERFACES IN CABLING USED TO SUPPORT IEEE 802.3AF (POWER-OVER-ETHERNET) APPLICATIONS Organization: DS
Date: 2010-05-18
Description: This technical report is intended to provide information on the effects of engaging and separating under electrical load on the connector interfaces in cabling used to support IEEE 802.af (Power-over-Ethernet (PoE)) applications.
DSF/IEC 62652 TR ED. 1.0 - EFFECTS OF ENGAGING AND SEPARATING UNDER ELECTRICAL LOAD ON CONNECTOR INTERFACES IN CABLING USED TO SUPPORT IEEE 802.AF (POWER-OVER-ETHERNET) APPLICATIONS Organization: DS
Description: This technical report is intended to provide information on the effects of engaging and separating under electrical load on the connector interfaces in cabling used to support IEEE 802.af (Power-over-Ethernet (PoE)) applications.
IEC/PAS 61156-1-4 - MULTICORE AND SYMMETRICAL PAIR/QUAD CABLES FOR DIGITAL COMMUNICATIONS – PART 1-4: SYMMETRICAL PAIR/QUAD CABLES WITH TRANSMISSION CHARACTERISTICS UP TO 1 000 MHZ – CONDUCTOR HEATING OF BUNDLED DATA GRADE CABLES FOR LIMITED POWER TRANSMISSION BASED ON IEEE 802.3 - EDITION 1.0 Organization: IEC
Date: 2010-06-01
Description: This may be applicable to higher performing cable categories in cases where the user really needs the transmission of higher power levels than anticipated in the IEEE 802.3 PoE / PoEP protocol. In these cases, a verification of their conductor heating properties has to be assessed, and the cable performance has to be guaranteed by the manufacturer.
IEEE - IEEE 835 CD - POWER CABLE AMPACITY SOFTWARE WITH IEEE STD 835-1994 (R2006) VUSPEC (CD-ROM) Organization: IEEE
IEEE - IEEE 400.3 - IEEE GUIDE FOR PARTIAL DISCHARGE TESTING OF SHIELDED POWER CABLE SYSTEMS IN A FIELD ENVIRONMENT Organization: IEEE
Date: 2006-09-15
Description: This guide covers the diagnostic testing of new or service-aged installed shielded power cable systems, which include cable, joints, and terminations, using PD detection, measurement, and location.
BSI - BS DD IEC/PAS 61156-1-4 - MULTICORE AND SYMMETRICAL PAIR/QUAD CABLES FOR DIGITAL COMMUNICATIONS PART 1-4: SYMMETRICAL PAIR/QUAD CABLES WITH TRANSMISSION CHARACTERISTICS UP TO 1 000 MHZ - CONDUCTOR HEATING OF BUNDLED DATA GRADE CABLES FOR LIMITED POWER TRANSMISSION BASED ON IEEE 802.3 Organization: BSI
Date: 2010-09-30
IEEE - 835 INTRO - STANDARD POWER CABLE AMPACITY TABLES Organization: IEEE
Date: 1994-09-22
Description: Foreword(This foreword is not a part of IEEE Std 835-1994, IEEE Standard Power Cable Ampacity Tables.) The original edition of the "Current Carrying Capacity" tables was published by the Insulated Power Cable Engineers Association (IPCEA) in 1943.
UL 1424 - UL STANDARD FOR SAFETY CABLES FOR POWER-LIMITED FIRE-ALARM CIRCUITS - FOURTH EDITION Organization: UL
Date: 2015-01-22
Description: For compliance, this test damages less than 150 cm (59 inches) of cable. A cable that complies either is not marked or it bears the designation "FT4/IEEE 1202" or "FT4" legible on or through the outer surface or on a marker tape [see marking in 44.1(i)].
UL 1425 - UL STANDARD FOR SAFETY CABLES FOR NON-POWER-LIMITED FIRE-ALARM CIRCUITS - THIRD EDITION Organization: UL
Date: 2015-01-26
Description: Optical-fiber cables without electrical conductors are covered in the Standard for Optical Fiber Cable, UL 1651. 1.10 These requirements do not cover cables for electric-light, power, control, Class 1, Class 2, or Class 3 circuits.
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: This guide is intended for cables designed for use in power generating stations and industrial facilities, in both the outside plant environment and indoor applications-the latter with adequate consideration for requirements of the National Electrical Code® (NEC®) (NFPA 701).
IEEE - IEEE 400 - GUIDE FOR FIELD TESTING AND EVALUATION OF THE INSULATION OF SHIELDED POWER CABLE SYSTEMS RATED 5 KV AND ABOVE Organization: IEEE
Date: 2012-03-29
Description: This guide lists the various field test methods that are currently available or under development. The guide covers shielded, insulated power cable systems rated 5 kV and above. The guide describes the tests and gives advantages and disadvantages, suggested applications, and typical results.
UL 1690 - UL STANDARD FOR SAFETY DATA-PROCESSING CABLE - FOURTH EDITION Organization: UL
Date: 2015-07-07
Description: b) TYPE DP-1, DP-2, and DP-3 CABLESCables comply with a 70,000 Btu/h (20.5 kW) vertical-tray flame test. The cable manufacturer chooses one of the following tests: 1) THE UL TEST REFERENCED IN 30.2.1 – This paragraph applies 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.
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: ANSI/NFPA 70-2005; National Electrical Code ANSI/TIA 455-78-B-2002; Optical Fibres – Part 1-40: Measurement Methods and Test Procedures – Attenuation ANSI/TIA 598-C-2005; Optical Fiber Cable Color Coding ANSI/TIA 526-7-1998; Optical Power Loss Measurements Of Installed Single-mode Fiber Cable Plant ANSI/TIA 526-14-A-1998; Optical Power Loss Measurements Of Installed Multimode Fiber Cable Plant ANSI/TIA 568-B Series-2001; Commercial Building Telecommunications Cabling Standard ANSI/TIA 606-A-2002; Administration Standard for the Telecommunications Infrastructure of Commercial Buildings ANSI/J-STD 607-A-2002; Commercial Building Grounding (Earthing) and Bonding Requirements for Telecommunications ANSI/TIA 569-B-2004; Commercial Building Standard for Telecommunications Pathways and Spaces TIA/TSB 140-2004; Additional Guidelines for Field-Testing Length, Loss and Polarity of Optical Fiber Cabling Systems Local code requirements Local code requirements shall be followed.
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.
IEEE - IEEE 1048 - GUIDE FOR PROTECTIVE GROUNDING OF POWER LINES Organization: IEEE
Date: 2016-01-29
Description: Purpose This guide suggests several practices, technical information, and safety criteria for temporary protective grounding of power lines during de-energized maintenance. As an IEEE guide, this document does not have mandatory requirements.
IEEE - IEEE 45.8 - RECOMMENDED PRACTICE FOR ELECTRICAL INSTALLATIONS ON SHIPBOARD - CABLE SYSTEMS Organization: IEEE
Date: 2016-01-29
Description: The scope of this document is to provide recommendations for selection, application, and installation of electrical power, signal, control, data, and specialty marine cable systems on shipboard. These recommendations include the present day technologies, engineering methods, and engineering practices.

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