IEEE C37.011 1980

$26.54

IEEE Application Guide for Transient Recovery Voltage for AC High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis

Published By	Publication Date	Number of Pages
IEEE	1980	34

Guaranteed Safe Checkout

Category: IEEE

If you have any questions, feel free to reach out to our online customer service team by clicking on the bottom right corner. We’re here to assist you 24/7.
Email:[email protected]

Description

New IEEE Standard – Inactive – Superseded. Superseded by C37.011-1994. Transient recovery voltage requirements for AC high-voltage circuit breakers rated above 1000 V and on a symmetrical current basis are addressed. The effect of circuit parameters and the circuit breaker on the transient recovery voltage is considered, and transient recovery voltage tests are specified. Circuit breaker rating and application, calculation of transient recovery voltages, a short method of calculating TRV limits, and typical values of capacitance and its calculation for various equipment are covered.

PDF Catalog

PDF Pages	PDF Title
11	1.Scope 2.Purpose 3 Transient Recovery Voltage 3.1Gener al
12	3.2 Transient Recovery Voltage Considerations 3.2.1 Effect of Circuit Parameters on Transient Recovery Voltage 3.2.2 Effect of Circuit Breaker on Transient Recovery Voltage Selection of a Circuit Breaker
13	3.3.2 Effect of the Asymmetry on Transient Recovery Voltage 3.4 Calculating Circuit Transient Recovery Voltages Transient Recovery Voltages
14	3.4.1 Examples of Circuit Equivalent Determination System Reactive Ohmic Values and Voltage Assumptions Fig Measured Capacitance of an Autotransformer
15	13.8-1 38 kV Generator Transformer Measured Capacitances of Generator Transformer Fig
16	3.4.1.3 Bus Capacitance Equivalent 3.4.1.4 Effective Source Inductance Line Conductor Configuration
17	3.4.1.7 Line Reactor Representation 3.4.2 Examples of Transient Recovery Voltage Calculations 3.4.2.1 Oscillatory Consideration Traveling Waves at Discontinuity Fig 7 Equivalentcircuit Fig 8 Equivalent Circui d Reactor ase Equivalent of System Fig
18	Buscircuit Breaker Transient Equivalent of a Bus Fault
19	LineSideTerminals Bus Point (A) of
20	3.4.2.4 Three-phase Grounded Fault at Line Side of Series Reactor a Fault at the Line Terminals of a Circuit Breaker ofFig1 r
21	Fig 14 Transient Equivale eactor Fault onsidered) Transient Equivalent of an Ungrounded Line Reactor Fault
22	3.4.2.5 Three-phase Ungrounded Bus Fault Tie Transformer Circuit Breaker Line Side Circuit Breaker Transient Equivalent for the Tie Transformer Bus Fault Transient Equivalent of Fig Breaker TRV for Fig Line Voltage Distribution
23	vs Time
24	3.4.2.6 Single-phase Grounded and Three-phase Ungrounded Short Line Faults Fig 21B Single-phase Equiv Fault Line Terminal Voltage vs Time
25	Three-phase Equivalent of a Short-Line Fault Fig 23 Line Voltage Dist n for a Three-phase unded Short-Line Fault
26	Terminal Voltage vs Time
27	3.5 Circuit Breaker Application Short-Line Fault Recovery Voltage at Point (E) of Fig
28	of Rated Current Rate and Voltage Multipliers f
29	3.6 Short Method of Calculating TRV Limits for Different Circuits Ratios of Lumped Eq
30	3.7 Typical Values of Capacitance for Various Equipment 3.7.1 Typical Values of Capacitance for Apparatus
31	Various BILs of the Highest Vol
32	3.7.2.2 Method for Generators 3.7.2.3 Method for Circuit Breakers 3.7.2.4 Method for Instrument Transformers 3.7.2.5 Method for Current-Limiting Reactors Table 1 Outdoor Bushing Capacitance to Ground
33	Table 2 Generator Armature Capacitance to Ground Secondary with Its Terminals Shorted and Grounded)
34	4.References 5 Revision of American National Standards Referred to in this Document Table 4 Phase Bus Capacitance

Additional information

Standard Title	IEEE Application Guide for Transient Recovery Voltage for AC High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis
Published Code	IEEE
Publication Date	1980
Pages Count	34

Preview PDF


PDF Format	Searchable	Printable	Preview Now

IEEE C37.011 1980

PDF Catalog

Related products