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1 - 13 of 13 results

IEEE - IEEE POWER CAPACITORS - IEEE POWER CAPACITORS Organization: IEEE
IEEE - ANSI C37.66 - STANDARD REQUIREMENTS FOR CAPACITOR SWITCHES FOR AC SYSTEMS (1 KV TO 38 KV) IEEE 3 PARK AVENUE NEW YORK, NY 10016-5997, USA 22 MARCH 2006 IEEE POWER ENGINEERING SOCIETY SPONSORED BY THE SWITCHGEAR COMMITTEE Organization: IEEE
Date: 2005-09-22
Description: This standard applies to single- or multi-pole ac switches for rated maximum voltage above 1 kV to 38 kV for use in switching shunt capacitor banks (see the note in this clause). This standard covers the application of capacitive load switching wherein the capacitive loads are separated by sufficient inductance to limit the high-frequency transient-making peak current to the peak values shown in Table 2 and Table 3.
IEEE - IEEE 1726 - FUNCTIONAL SPECIFICATION OF FIXED-SERIES CAPACITOR BANKS FOR TRANSMISSION SYSTEM APPLICATIONS Organization: IEEE
Date: 2013-12-11
Description: This guide does not apply comprehensively to thyristor-controlled series capacitors. A more complete reference is IEEE Std 1534™-2002.1 The standard for fixed-series capacitors is IEEE Std 824™-2004.
IEEE - IEEE C37.43 - SPECIFICATIONS FOR HIGH- VOLTAGE EXPULSION, CURRENT-LIMITING, AND COMBINATION-TYPE DISTRIBUTION AND POWER CLASS EXTERNAL FUSES, WITH RATED VOLTAGES FROM 1 KV THROUGH 38 KV, USED FOR THE PROTECTION OF SHUNT CAPACITORS Organization: IEEE
Date: 2008-06-12
Description: This standard establishes specifications for high-voltage (above 1000 V) distribution and power class expulsion, current-limiting, and combination-type external capacitor fuses and accessories, with rated voltages from 1 kV through 38 kV, for protecting shunt capacitors complying with IEEE Std 18™-20021 and NEMA CP 1-2000.
ASTM D4652 - STANDARD SPECIFICATION FOR SILICONE FLUID USED FOR ELECTRICAL INSULATION Organization: ASTM
Date: 2005-10-01
Description: Information on in-service maintenance testing is available in appropriate guides.2 2IEEE C57.111, IEEE Guide for Acceptance of Silicone Insulating Fluid and its Maintenance in Transformers is published by the Insulating Fluids Subcommittee of the IEEE Power Engineering Society Transformers Committee.
IEEE - IEEE C57.16 - REQUIREMENTS, TERMINOLOGY, AND TEST CODE FOR DRY-TYPE AIR-CORE SERIES-CONNECTED REACTORS Organization: IEEE
Date: 2011-10-31
Description: With some restrictions, this standard is applicable to filter reactors, shunt capacitor reactors (used with shunt capacitor banks), and discharge current-limiting reactors (used with series capacitor banks).
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: f) Distribution class and power class current-limiting, and combination types of external capacitor fuses used with a capacitor unit, groups of units, or capacitor banks. g) Backup current-limiting fuses ("motor-starter fuses") used in conjunction with high-voltage Class E2 motor starters (see ANSI/UL 347 [B1]2).
IEEE - IEEE PC37.100.5 DRAFT - STANDARD FOR DEFINITIONS OFHIGH VOLTAGE CIRCUIT BREAKERS ABOVE 1000 VAC AND 3200 VDC, AND RECLOSERS AND OTHER DISTRIBUTION EQUIPMENT FROM 1000 VAC TO 38,000 VAC Organization: IEEE
Date: 2016-02-01
Description: Purpose The definitions of terms and explanatory notes relating thereto contained in this 158 standard are intended for the sole purpose of establishing only those meanings of 159 terms used in standards for high-voltage circuit breakers above 1000 Vac and 3200 160 Vdc, and distribution switching and overcurrent protective equipment including: 161 reclosers, sectionalizers, fault interrupters, capacitor switches, pad-mounted gear, 162 and submersible gear within the C37 series of standards.
DNVGL-RP-0043 - SAFETY, OPERATION AND PERFORMANCE OF GRID-CONNECTED ENERGY STORAGE SYSTEMS Organization: DNVGL
Date: 2015-12-01
Description: These aspects will be assessed for electricity storage systems in general, but also with emphasis on certain battery technologies (lead-acid, Li-ion and redox flow) and Li-ion capacitors. Other storage technologies, like flywheels, pumped hydro storage, compressed air and supercapacitors, are included in more general terms.
ASTM D1868 - STANDARD TEST METHOD FOR DETECTION AND MEASUREMENT OF PARTIAL DISCHARGE (CORONA) PULSES IN EVALUATION OF INSULATION SYSTEMS Organization: ASTM
Date: 2013-11-01
Description: 2 (See AEIC CS5-87, IEEE C57 113-1991, IEEE C57 124-1991, and IEEE 1434-2005.)  The test method can be applied to multi-terminal insulation systems, but at some loss in accuracy, especially where the insulation of inductive windings is involved.
IEEE - IEEE 315 - GRAPHIC SYMBOLS FOR ELECTRICAL AND ELECTRONICS DIAGRAMS (INCLUDING REFERENCE DESIGNATION CLASS DESIGNATION LETTERS) - CSA Z99-75; INCLUDES SUPPLEMENT TO ANSI Y32.2-75 AND IEEE 315-75 Organization: IEEE
Date: 1975-09-04
Description: To improve coordination with IEC publication 117, IEC approved versions of capacitor, transformer, delay, associated conductors and specialized ground symbols have been added as alternates to those long used and standardized in the United States.
IEEE - ANSI C37.06.1 - GUIDE FOR HIGH-VOLTAGE CIRCUIT BREAKERS RATED ON SYMMETRICAL CURRENT BASIS DESIGNATED “DEFINITE PURPOSE FOR FAST TRANSIENT RECOVERY VOLTAGE RISE TIMES” Organization: IEEE
Date: 2000-01-01
Description: • A circuit breaker that would meet the requirements for definite purpose for fast TRV rise times applications may or may not also meet the requirements for definite purpose circuit breakers for capacitor switching. It is the purpose of this guide to communicate the suggested values to those in the industry who are interested and who would be in a position to offer comments and suggestions for further revisions.
UL 497E OUTLINE - OUTLINE OF INVESTIGATION FOR PROTECTORS FOR ANTENNA LEAD-IN CONDUCTORS - ISSUE NUMBER 4 Organization: UL
Date: 2011-01-25
Description: They may or may not contain additional components such as inductors or blocking capacitors. These protectors are intended to protect equipment, wiring, and personnel at the premises against the effects of excessive potentials and currents on the conductors caused by lightning.

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