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IEEE - IEEE 665 - STANDARD FOR GENERATING STATION GROUNDING Organization: IEEE
Date: 1995-01-01
Description: Guidance for the grounding of control and instrumentation equipment in generating stations can be found in IEEE Std 1050-1989. 1 Generating station grounding designs are complicated by considerations such as physically large outdoor areas with multiple buildings and associated transfer voltages, grounding effects of buried infrastructure, rotating electrical apparatus, large indoor areas, auxiliary systems with multiple voltage levels, and the need for increasingly ÒcleanÓ signal ground sources for control systems.
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 80 - GUIDE FOR SAFETY IN AC SUBSTATION GROUNDING Organization: IEEE
Date: 2013-12-11
Description: With proper caution, the methods described herein are also applicable to indoor portions of such substations, or to substations that are wholly indoors. No attempt is made to cover the grounding problems peculiar to dc substations. A quantitative analysis of the effects of lightning surges is also beyond the scope of this guide.
IEEE - IEEE 837 - QUALIFYING PERMANENT CONNECTIONS USED IN SUBSTATION GROUNDING Organization: IEEE
Date: 2014-08-21
Description: This standard provides direction and methods for qualifying permanent connections used for substation grounding. It particularly addresses the connection used within the grid system, the connection used to join ground leads to the grid system, and the connection used to join the ground leads to equipment and structures.
IEEE - IEEE 1050 - GUIDE FOR INSTRUMENTATION AND CONTROL EQUIPMENT GROUNDING IN GENERATING STATIONS Organization: IEEE
Date: 2004-09-24
Description: The concepts of equipment grounding are well covered in other IEEE standards. The concepts of grounding of instrument chassis, cable shields, signal pairs, and other related instrumentation and control items require special care in order to ensure that both personnel working on equipment are adequately protected from electrical shock and that interference signals are not inadvertently coupled into signal circuits.
NECA NEIS 331 - STANDARD FOR BUILDING AND SERVICE ENTRANCE GROUNDING AND BONDING Organization: NECA
Date: 2009-01-01
Description: This standard describes installation procedures for building and service entrance grounding as well as building interior bonding and grounding. It is intended to define what is meant by installing equipment in a "neat and workmanlike manner" as required by the National Electrical Code (NEC), Section 110.12, and in accordance with "accepted good practice" as required by National Electrical Safety Code, Rule 012.C.The installations described in this standard should be performed by qualified persons.
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: Foreword This guide is the introduction to the IEEE C62.92 series of five guides on neutral grounding in electrical utility systems.
IEEE - IEEE C62.41 - IEEE RECOMMENDED PRACTICE ON SURGE VOLTAGES IN LOW-VOLTAGE AC POWER CIRCUITS Organization: IEEE
Date: 1991-01-01
Description: The previous edition of this document, IEEE C62.41-1980, “IEEE Guide for Surge Voltages in Low-Voltages AC Power Circuits” (also known as IEEE Std 587-1980), contained similar information about the surge environment.
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: These guidelines apply to both large and small generators found in electrical utility systems. Definitions of grounding terms used in this the guide can be found in IEEE Std C62.92.1. Purpose The purpose of this guide is to provide the user with insight on 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 PC62.92.1 DRAFT - DRAFT GUIDE FOR THE APPLICATION OF NEUTRAL GROUNDING IN ELECTRICAL UTILITY SYSTEMS, PART 1 - INTRODUCTION Organization: IEEE
Date: 2016-08-01
Description: This part provides definitions and considerations that are general to all types of neutral grounding for electrical utility systems. Goals of system grounding, means of grounding and classes of grounding are addressed in this part Purpose  This guide presents basic considerations of the selection of neutral grounding parameters that will provide for the control of overvoltage and ground-fault current on all parts of three-phase electrical utility systems.
IEEE - IEEE 81.2 - GUIDE FOR MEASUREMENT OF IMPEDANCE AND SAFETY CHARACTERISTICS OF LARGE, EXTENDED OR INTERCONNECTED GROUNDING SYSTEMS Organization: IEEE
Date: 1991-01-01
Description: It covers the majority of field measurements that do not require special high-precision equipment and measuring, and that do not encounter unusual difficulties such as may be found with extensive grounding systems, abnormally high stray ac or dc currents, etc. IEEE Std 81 (Part I) has been extensively revised and updated.
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 81 - GUIDE FOR MEASURING EARTH RESISTIVITY, GROUND IMPEDANCE, AND EARTH SURFACE POTENTIALS OF A GROUNDING SYSTEM Organization: IEEE
Date: 2012-12-05
Description: The test methods and techniques used to measure the electrical characteristics of the grounding system include the following topics: a) Establishing safe testing conditions b) Measuring earth resistivity c) Measuring the power system frequency resistance or impedance of the ground system to remote earth d) Measuring the transient (surge) impedance of the ground system to remote earth e) Measuring step and touch voltages f) Verifying the integrity of the grounding system g) Reviewing common methods and procedures for performing ground testing h) Reviewing instrumentation characteristics and limitations i) Reviewing various factors that can distort test measurements IEEE Guide for Measuring Earth Resistivity, Ground Impedance, and Earth Surface Potentials of a Grounding System Purpose The purpose of this guide is to present practical instrumentation methods that may be used for measuring soil resistivity, the impedance to remote earth, step and touch voltages, and current distributions in ground grids associated with electric utility facilities.
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: When the series of documents are approved and published, they will replace IEEE Std 143-1954, IEEE Guide for Ground-Fault Neutralizers, Grounding of Synchronous Generator Systems, and Neutral Grounding of Transmission Systems.
IEEE - IEEE PC57.12.10 DRAFT - DRAFT STANDARD FOR IEEE STANDARD REQUIREMENTS FOR LIQUID-IMMERSED POWER TRANSFORMERS Organization: IEEE
Date: 2017-02-01
Description: This standard applies to all liquid-immersed power transformers and autotransformers that do not belong to the following types of apparatus: o) Instrument transformers p) Step voltage and induction voltage regulators q) Arc-furnace transformers r) Rectifier transformers s) Specialty transformers t) Grounding transformers u) Mobile transformers v) Mine transformers  
IEEE - C62.22.1 - GUIDE FOR THE CONNECTION OF SURGE ARRESTERS TO PROTECT INSULATED, SHIELDED ELECTRIC POWER CABLE SYSTEMS - IEEE 1299 Organization: IEEE
Date: 1996-12-10
Description: It is not the intent of this guide to recommend the use of surge arresters, as that is addressed in IEEE Std C62.22-1991, IEEE Guide for the Application of Metal-Oxide Surge Arresters for Alternating-Current Systems.
IEEE - IEEE 493 - RECOMMENDED PRACTICE FOR THE DESIGN OF RELIABLE INDUSTRIAL AND COMMERCIAL POWER SYSTEMS - IEEE GOLD BOOK (COLOR BOOK SERIES) Organization: IEEE
Date: 2007-02-07
Description: This IEEE Recommended Practice serves as a companion publication to the following other Recommended Practices prepared by the IEEE Industrial and Commercial Power Systems Department:— IEEE Std 141-1993, IEEE Recommended Practice for Electric Power Distribution for Industrial Plants (IEEE Red Book).— IEEE Std 142-1991, IEEE Recommended Practice for Grounding of Industrial and Commercial Power Systems (IEEE Green Book).
IEEE - IEEE C57.21 - STANDARD REQUIREMENTS, TERMINOLOGY, AND TEST CODE FOR SHUNT REACTORS RATED OVER 500 KVA Organization: IEEE
Date: 2008-03-27
Description: This standard does not apply to other devices such as1) Shunt reactors, 500 kVA and smaller2) Current-limiting reactors (see ANSI C57.16-1958 [1]1)3) Arc-suppression coils4) Neutral-grounding devices (see IEEE Std 32-1972 [22])5) Saturable reactors6) Line-resonant reactors7) Filter reactors
IEEE - IEEE C57.16 - REQUIREMENTS, TERMINOLOGY, AND TEST CODE FOR DRY-TYPE AIR-CORE SERIES-CONNECTED REACTORS Organization: IEEE
Date: 2011-10-31
Description: This standard does not apply to devices such as a) Shunt reactors (see IEEE Std C57.21™-2008)1 b) Arc suppression coils c) Neutral grounding devices (see IEEE Std 32™-1972 [B21])2 d) Line resonant reactors e) High-voltage direct current (HVDC) smoothing reactors (IEEE Std 1277™-2010 [B23]) f) Forced cooled reactorsg) Line traps and radio interference (RI) filter reactors (ANSI C93.3-1995) Purpose The purpose of this standard is to define the requirements and test code for series-connected dry-type aircore reactors and, with some restrictions, filter reactors, shunt capacitor reactors, and discharge currentlimiting reactors.
MCGRAW - ELECTRICAL POWER SYSTEMS - ELECTRICAL POWER SYSTEMS QUALITY, THIRD EDITION Organization: MCGRAW
Date: 2012-01-01
Description: Coverage includes: • Standard terms and definitions for power quality phenomena • Protecting against voltage sags and interruptions • Harmonic phenomena and dealing with harmonic distortion • Transient overvoltages • Long-duration voltage variations • Benchmarking power quality • International Electrotechnical Commission (IEC) and Institute of Electrical and Electronics Engineers (IEEE) standards • Maintaining power quality in distributed generation systems • Common wiring and grounding problems, along with solutions • Site surveys and power quality monitoring.

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