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PIP ELEMT01 - GUIDELINES FOR SELECTING IEEE AND API STANDARDS FOR AC MOTORS 250 HP (185 KW) AND LARGER Organization: PIP
Date: 2013-04-01
Description: This Practice provides guidance for selecting Institute of Electrical and Electronic Engineers (IEEE) and API standards for design, fabrication, inspection, testing, shipment, and documentation of 250 hp (185 kW) and larger AC squirrel-cage induction motors and synchronous motors. Purpose This Practice provides guidelines for selecting Institute of Electrical and Electronic Engineers (IEEE) and American Petroleum Institute (API) standards for 250 hp (185 kW) and larger AC squirrel-cage induction motors and synchronous motors.
IEEE - IEEE C37.96 - IEEE GUIDE FOR AC MOTOR PROTECTION Organization: IEEE
Date: 2012-12-05
Description: This application guide presents generally accepted methods of protection for ac motors. It identifies and summarizes the functions necessary for adequate protection of motors based on type, size, and application.
PIP ELSMT01 - AC SQUIRREL CAGE INDUCTION MOTOR SPECIFICATION (4000 VOLTS AND BELOW) - TECHNICAL CORRECTION: 4/2012 Organization: PIP
Date: 2010-01-01
Description: This Practice describes the requirements for design, construction, and testing for IEEE 841 or severe duty motors. The motors are premium-efficiency, totally enclosed, fan-cooled (TEFC) or non-ventilated (TENV), single-speed, horizontal or vertical, polyphase squirrel cage induction motors that are 4000 volts and below.
UL - 1004-9 BULLETIN - UL STANDARD FOR SAFETY FORM WOUND MEDIUM VOLTAGE MOTORS - COMMENTS DUE: DECEMBER 14, 2015 Organization: UL
Date: 2015-10-30
Description: These requirements do not cover special generators (such as hydrogen cooled (turbo) generators) rated 10 MVA and above which are covered under IEEE C50.12, IEEE Standard for Salient-Pole 50 Hz and 60 Hz Synchronous Generators and Generator/Motors for Hydraulic Turbine Applications Rated 5 MVA and Above; IEEE C50.13, IEEE Standard for Cylindrical-Rotor 50 Hz and 60 Hz Synchronous Generators Rated 10 MVA and Above; or IEC 60034-3, Rotating electrical machines - Part 3: Specific requirements for synchronous generators driven by steam turbines or combustion gas turbines.
SAE J2907 - PERFORMANCE CHARACTERIZATION OF ELECTRIFIED POWERTRAIN MOTOR-DRIVE SUBSYSTEM Organization: SAE
Date: 2017-02-01
Description: This technical report has been developed to document the consensus from industry stakeholders on acceptable motor test methods to enable a formal means of characterizing the motor as an ETDS component and communicating those characteristics.
IEEE - IEEE 334 - QUALIFYING CONTINUOUS DUTY CLASS 1E MOTORS FOR NUCLEAR POWER GENERATING STATIONS Organization: IEEE
Date: 2006-09-15
Description: This standard does not apply to motors used in valve actuators (see IEEE Std 382™-1996 [B2]1).
IEEE - IEEE 649 - QUALIFYING CLASS 1E MOTOR CONTROL CENTERS FOR NUCLEAR POWER GENERATING STATIONS Organization: IEEE
Date: 2006-09-15
Description: Purpose The purpose of this standard is to: a) Define specific qualification requirements for Class 1E motor control centers and their components in accordance with the more general qualification requirements of IEEE Std 323™- 20031, 2 and IEEE Std 344™-2004. b) Provide guidance in establishing a qualification program for demonstrating the adequacy of Class 1E motor control centers in nuclear power generating station applications.
ANSI C50.4 - AMERICAN NATIONAL STANDARD DIRECT-CURRENT GENERATORS, DIRECT-CURRENT MOTORS, AND DIRECT-CURRENT COMMUTATING MACHINES IN GENERAL Organization: ANSI
Date: 1965-01-01
Description: This standard applies to direct-current motors and generators They are arranged under six classifications according to machine size and type as follows: (1) General (2) Fractional-horsepower motors and generators (3) Integral-horsepower motors (4) Integral-horsepower generators (5) Large motors (6) Large generators Section 4-2 of this standard applies to all motors and generators Section 4-3 applies to machines built in a frame smaller than that having a continuous rating of 1 hp, open construction at 1,700-1,800 rpm.
ANSI C50.12 - REQUIREMENTS FOR SALIENT-POLE SYNCHRONOUS GENERATORS AND GENERATOR/MOTORS FOR HYDRAULIC TURBINE APPLICATIONS Organization: ANSI
Date: 1982-01-01
Description: Definitions, characteristics, and test methods not specifically covered in this standard shall comply with the following documents insofar as they are applicable: American National Standard General Requirement for Synchronous Machines, ANSI C50.10-1977 Test Procedures for Synchronous Machines, IEEE 115- 1982 (available from the Institute of Electrical and Electronics Engineers, 345 East 47 Street, New York, N.Y. 10017)
NEMA - C50.12 - REQUIREMENTS FOR SALIENT-POLE SYNCHRONOUS GENERATORS AND GENERATOR/MOTORS FOR HYDRAULIC TURBINE APPLICATIONS - THIS IS NOW COPYRIGHTED BY IEEE Organization: NEMA
Date: 1982-01-01
Description: Definitions, characteristics, and test methods not specifically covered in this standard shall comply with the following documents insofar as they are applicable: American National Standard General Requirements for Synchronous Machines, ANSI C50.10-1977 Test Procedures for Synchronous Machines, IEEE 115-1982 (available from the Institute of Electrical and Electronics Engineers, 345 East 47 Street, New York, N.Y. 10017)
IEEE - IEEE 383 - QUALIFYING ELECTRIC CABLES AND SPLICES FOR NUCLEAR FACILITIES Organization: IEEE
Date: 2015-09-03
Description: ., instruments, panels, motors) should be qualified using the requirements in the applicable device standard or IEEE Std 323TM 2003.
IEEE - IEEE C37.13.1 - DEFINITE-PURPOSE SWITCHING DEVICES FOR USE IN METAL-ENCLOSED LOW-VOLTAGE (600 V AC AND BELOW) POWER CIRCUIT BREAKER SWITCHGEAR Organization: IEEE
Date: 2016-06-30
Description: This standard provides requirements for low-voltage (600 V ac and below) definite-purpose switching (LVDPS) devices (other than power circuit breakers) for use in metal-enclosed low-voltage power circuit breaker switchgear described in IEEE Std C37.20.1™.1 These switching devices may be used in motor control or other repetitive duty applications and have the following characteristics: a) Drawout type, three-pole construction b) Integral current-limiting fuses for short-circuit protection c) Power operated, with integral or separately mounted overcurrent protective devices In this standard, the term “LV-DPS device” denotes a low-voltage definite-purpose switching device conforming to the requirements of this standard.
IEEE - IEEE 381 - CRITERIA FOR TYPE TESTS OF CLASS 1E MODULES USED IN NUCLEAR POWER GENERATING STATIONS Organization: IEEE
Date: 1977-08-29
Description: Except for those that are part of a module, switchgear, cables, connections, motors, valve actuators, station batteries, and penetrations are not included and are covered by other IEEE documents.
UL 1004-9 - UL STANDARD FOR SAFETY FORM WOUND AND MEDIUM VOLTAGE ROTATING ELECTRICAL MACHINES - FIRST EDITION Organization: UL
Date: 2016-01-29
Description: These requirements do not cover special generators (such as hydrogen cooled (turbo) generators) rated 10 MVA and above which are covered under IEEE C50.12, IEEE Standard for Salient-Pole 50 Hz and 60 Hz Synchronous Generators and Generator/Motors for Hydraulic Turbine Applications Rated 5 MVA and Above; IEEE C50.13, IEEE Standard for Cylindrical-Rotor 50 Hz and 60 Hz Synchronous Generators Rated 10 MVA and Above; or IEC 60034-3, Rotating electrical machines - Part 3: Specific requirements for synchronous generators driven by steam turbines or combustion gas turbines.
CSA C22.2 NO 42.1 - COVER PLATES FOR FLUSH-MOUNTED WIRING DEVICES - SECOND EDITION; UPDATE NO. 1: MARCH 2016 Organization: CSA
Date: 2013-01-01
Description: This standard also applies to cover plates for flush-mounted wiring devices intended for use in marine applications in accordance with the applicable requirements of the United States Coast Guard and the Canadian Coast Guard; IEEE Recommended Practice for Electrical Installation on Shipboard, IEEE 45; the American Boat and Yacht Council; and the Standard for Pleasure and Commercial Motor Craft, NFPA 302.
UL 514D - UL STANDARD FOR SAFETY COVER PLATES FOR FLUSH-MOUNTED WIRING DEVICES - SECOND EDITION; REPRINT WITH REVISIONS THROUGH AND INCLUDING MARCH 4, 2016 Organization: UL
Date: 2013-06-28
Description: This standard also applies to cover plates for flush-mounted wiring devices intended for use in marine applications in accordance with the applicable requirements of the United States Coast Guard and the Canadian Coast Guard; IEEE Recommended Practice for Electrical Installation on Shipboard, IEEE 45; the American Boat and Yacht Council; and the Standard for Pleasure and Commercial Motor Craft, NFPA 302.
IEEE - IEEE 45.3 - RECOMMENDED PRACTICE FOR SHIPBOARD ELECTRICAL INSTALLATIONS-SYSTEMS ENGINEERING Organization: IEEE
Date: 2015-06-11
Description: This document is intended to be used in conjunction with the IEEE 45™ series of documents. Purpose IEEE Std 45.3™ provides a consensus of recommended practices for systems engineering and integration of electrical power systems as applied specifically to ships, shipboard systems, and equipment.
IEEE - IEEE C37.48.1 - GUIDE FOR THE APPLICATION, OPERATION, AND COORDINATION OF HIGH - VOLTAGE (>1000 V) CURRENT-LIMITING FUSES Organization: IEEE
Date: 2011-01-01
Description: g) Backup current-limiting fuses ("motor-starter fuses") used in conjunction with high-voltage Class E2 motor starters (see ANSI/UL 347 [B1]2).
CSA C9 - DRY-TYPE TRANSFORMERS - FOURTH EDITION Organization: CSA
Date: 2002-01-01
Description: Note: For information on the loading of dry-type transformers, see ANSI/IEEE C57.96. This Standard deals with the standardization of voltage ratings, kV•A capacities, other electrical features, certain mechanical features, and test procedures.
CSA C22.2 NO 18.1 - METALLIC OUTLET BOXES - SECOND EDITION; UPDATE NO. 1: JULY 2015 Organization: CSA
Date: 2013-01-01
Description: This standard also applies to marine products intended for installation in accordance with the manufacturer's instructions and the applicable requirements of the United States Coast Guard (USCG), IEEE Recommended Practice for Electric Installation on Shipboard, IEEE Standard 45; the American Boat and Yacht Council (ABYC); the Standard for Pleasure and Commercial Motor Craft, NFPA 302; and the Canadian Electrical Code (CEC), Part I.

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