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IEEE - IEEE 1871.1 - RECOMMENDED PRACTICE FOR USING IEEE 1671.2 INSTRUMENT DESCRIPTION TEMPLATES FOR DESCRIBING SYNTHETIC INSTRUMENTATION FOR CLASSES OF INSTRUMENTS SUCH AS WAVEFORM GENERATORS, DIGITIZERS, EXTERNAL OSCILLATORS, AND UP AND DOWN CONVERTERS Organization: IEEE
Date: 2014-12-10
Description: This recommended practice provides Instrument Description templates, compliant with IEEE 1671.2, that providers of synthetic instruments should use to describe waveform generators, digitizers, external local oscillators, and up and down converter.
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: The requirements in this standard apply to all types of 60-hertz salient-pole synchronous generators and generator/motors rated 5000 kVA (kilovolt amperes) and above to be used for hydraulic turbine or hydraulic pump/turbine applications.
ANSI C50.12 - REQUIREMENTS FOR SALIENT-POLE SYNCHRONOUS GENERATORS AND GENERATOR/MOTORS FOR HYDRAULIC TURBINE APPLICATIONS Organization: ANSI
Date: 1982-01-01
Description: The requirements in this standard apply to all types of 60-hertz salient-pole synchronous generators and generator motors rated 5000 kVA (kilovolt amperes) and above to be used for hydraulic turbine or hydraulic pump turbine applications.
IEEE - IEEE 1193 - GUIDE FOR MEASUREMENT OF ENVIRONMENTAL SENSITIVITIES OF STANDARD FREQUENCY GENERATORS Organization: IEEE
Date: 2003-06-12
Description: Standard frequency generators include atomic frequency standards, quartz oscillators, dielectric resonator oscillators (DROs), yttrium-iron-garnet (YIG) oscillators, cavity oscillators, sapphire oscillators, and thinfilm resonator (TFR) based oscillators.
DS/IEC/IEEE 62271-37-013 - HIGH-VOLTAGE SWITCHGEAR AND CONTROLGEAR - PART 37-013: ALTERNATING-CURRENT GENERATOR CIRCUIT-BREAKERS Organization: DS
Date: 2015-11-20
Description: IEC/IEEE 62271-37-013:2015(E) is applicable to three-phase a.c. high-voltage generator circuit-breakers, hereafter called generator circuit-breaker, designed for indoor or outdoor installation and for operation at frequencies of 50 Hz and 60 Hz on systems having voltages above 1 kV and up to 38 kV.
IEEE - IEEE C37.013 - AC HIGH-VOLTAGE GENERATOR CIRCUIT BREAKERS RATED ON A SYMMETRICAL CURRENT BASIS Organization: IEEE
Date: 1997-03-20
Description: NOTE — Since no other national or international standard on generator circuit breakers exists, this standard is used worldwide. The revision of IEEE Std C37.013-1993 takes care of this fact by adapting its content in some places to international practice.
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.
IEEE - IEEE C62.92.3 - GUIDE FOR THE APPLICATION OF NEUTRAL GROUNDING IN ELECTRICAL UTILITY SYSTEMS, PART III-GENERATOR AUXILIARY SYSTEMS Organization: IEEE
Date: 2012-12-05
Description: The purpose of this revision is to update 5.3 with current research on equipment damage, update all references, and to ensure no intrusion or overlap with IEEE Std 1584™.1,2 1 IEEE publications are available from The Institute of Electrical and Electronics Engineers, 445 Hoes Lane, Piscataway, NJ 08854, USA (http://standards.ieee.org/).
IEEE - IEEE C62.92 - GUIDE FOR THE APPLICATION OF NEUTRAL GROUNDING IN ELECTRICAL UTILITY SYSTEMS PART II-GROUNDING OF SYNCHRONOUS GENERATOR SYSTEMS Organization: IEEE
Date: 1989-02-02
Description: The remaining four parts provide specific guidance on synchronous generator systems (IEEE Std C62.92.2-1989), generating station auxiliary systems (IEEE Std C62.92.3-1993), distribution systems (IEEE Std C62.92.4-1991), and transmission and subtransmission systems (IEEE Std C62.92.5-1992).
IEEE - IEEE 125 - RECOMMENDED PRACTICE FOR PREPARATION OF EQUIPMENT SPECIFICATIONS FOR SPEED-GOVERNING OF HYDRAULIC TURBINES INTENDED TO DRIVE ELECTRIC GENERATORS Organization: IEEE
Date: 2007-06-07
Description: Foreword (This Foreword is not a part of ANSI/IEEE Std 125-1988, IEEE Recommended Practice for Preparation of Equipment Specifications for Speed-Governing of Hydraulic Turbines Intended to Drive Electric Generators).The 1977 revision of IEEE Std 125 was prepared by a joint IEEE-ASME Working Group formed in December of 1971.
IEEE - IEEE PC62.92.2 DRAFT - DRAFT TRIAL-USE GUIDE FOR THE APPLICATION OF NEUTRAL GROUNDING IN ELECTRICAL UTILITY SYSTEMS PART II - GROUNDING OF SYNCHRONOUS GENERATOR SYSTEMS Organization: IEEE
Date: 2016-12-15
Description: The scope of this document is to provide the basic factors and general considerations in selecting the class and means of neutral grounding for synchronous generator systems connected to electrical utility systems.
IEEE - IEEE 1661 - IEEE GUIDE FOR TEST AND EVALUATION OF LEAD-ACID BATTERIES USED IN PHOTOVOLTAIC (PV) HYBRID POWER SYSTEMS Organization: IEEE
Date: 2007-09-27
Description: This guide is applicable to all PV hybrid power systems where PV and an engine generator are the only charging sources. This guide does not include stand-alone PV-only systems.
UL 3200 OUTLINE - OUTLINE OF INVESTIGATION FOR PERFORMANCE TESTING OF ENGINE AND TURBINE GENERATORS - ISSUE 2 Organization: UL
Date: 2008-12-19
Description: This outline does not cover the performance testing of distributed energy products with respect to: a) The electric utility interconnection requirements of IEEE 1547 or the Standard for Inverters, Converters and Controllers for Use in Independent Power Systems, UL 1741.
IEEE - IEEE 45.7 - RECOMMENDED PRACTICE FOR ELECTRICAL INSTALLATIONS ON SHIPBOARD-AC SWITCHBOARDS Organization: IEEE
Date: 2012-03-29
Description: This document is intended to be used in conjunction with IEEE Std 45-2002, IEEE Recommended Practice for Electric Installations on Shipboard.
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.
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.
IEEE - ANSI C37.09 - STANDARD TEST PROCEDURE FOR AC HIGH-VOLTAGE CIRCUIT BREAKERS RATED ON A SYMMETRICAL CURRENT BASIS Organization: IEEE
Date: 1999-06-26
Description: This test procedure summarizes the various tests that are made on ac high-voltage indoor and outdoor circuit breakers, except for generator circuit breakers, which are covered in IEEE Std C37.013-1997. It describes accepted methods used in making the tests and specifies the tests that will verify assigned ratings under ANSI/IEEE standards.
IEEE - IEEE C37.90.3 - ELECTROSTATIC DISCHARGE TESTS FOR PROTECTIVE RELAYS Organization: IEEE
Date: 2001-06-14
Description: Annex C is an explanation of an ESD generator. Annex D contains a comparison of IEEE Std C37.90.3-2001 with IEC 60255-22-2 Ed.2.0 (1996-09) [B4].
IEEE - IEEE C62.92.5 - GUIDE FOR THE APPLICATION OF NEUTRAL GROUNDING IN ELECTRICAL UTILITY SYSTEMS, PART V—TRANSMISSION SYSTEMS AND SUBTRANSMISSION SYSTEMS Organization: IEEE
Date: 2009-03-19
Description: In the new series of documents, individual considerations and practices have been given to the grounding of synchronous generator systems, generator-station auxiliary systems, and distribution systems. IEEE Std 143-1954 is a revision of AIEE No. 954, October 1954, which was a compilation of the following three AIEE Transaction papers: — AIEE Committee Guide Report, “Application of Ground-Fault Neutralizers,” AIEE Transactions (Power Apparatus and Systems), vol. 72, pt.
IEEE - IEEE 1139 - DEFINITIONS OF PHYSICAL QUANTITIES FOR FUNDAMENTAL FREQUENCY AND TIME METROLOGY-RANDOM INSTABILITIES Organization: IEEE
Date: 2008-09-26
Description: In 1988, an updated IEEE standard on frequency stability was published by the IEEE as IEEE Std 1139-1988, Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology.

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