IEEE C62.45 1987

$37.38

IEEE Guide on Surge Testing for Equipment Connected to Low-Voltage AC Power Circuits

Published By	Publication Date	Number of Pages
IEEE	1987	54

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Description

Revision Standard – Inactive – Superseded. Guidance is provided for applying surge testing to AC power interfaces of equipment connected to low-voltage ac power circuits that are subject to transient overvoltages. Signal and data lines are not addressed in this document, nor are any specifications stated on the withstand levels that might be assigned to specific equipments. An important objective of the document is to call attention to the safety aspects of surge testing.

PDF Catalog

PDF Pages	PDF Title
11	1 Scope 2 Definitions
12	Guiding Considerations for Surge Testing
13	Special Word Usage References and Document in Preparation 3.1 References
15	Document in Preparation Planning of Surge Testing: Basic Objectives 4.1 Surge Environment Types of Tests
16	Results and Consequences of the Test Unpowered Testing versus Powered Testing
17	4.5 Withstand Levels Waveshape Voltage Current 4.7 Safety Implementation of Surge Testing: Test Equipment 5.1 General 5.2 Surge Generators
18	Point of Test Surge Application Coupling the Surge to the Equipment Under Test Surge Testing Equipment Considerations
19	Monitoring the Equipment Under Test Performance of Surge Testing: Test Procedures 6.1 General
20	Monitoring within Surged Equipment with Voltage Probes in Differential Connection Monitoring within Surged Equipment with Current Transformers
21	6.2 Limiting Stresses Nature of the Equipment Under Test 6.4 Safety
22	Applying the Test Surge: Coupling and Decoupling Circuits 7.1 Gene 7.2 Requ ts for Surge Coupling Elementary Diagram of Series Coupling Elementary Diagram of Shunt Coupling
23	7.3 Impedance Considerations Requirements for Surge Decoupling Surge Coupling Modes
24	8 Grounding Grounding for Safety EUT Being Surge Tested Showing Required Interfaces Filters or Reterminations
25	Grounding Practices in Equipment Under Test (One Line and Neutral with Grounding Conductor
26	(Two Lines and Neutral with Grounding Conductor)
27	(Three Phase Wires and Neutral with Grounding Conductor)
29	Notes on Definitions and Special Considerations AC Power System (b) Connections to Both AC Power System and Signal Lines
30	Description of Surge Environment in ANSI/IEEE C62.41-1980
31	Multiple Protective Devices
32	Power Circuits Line End from Surge Applied at Line Beginning
33	Current Surge Test Example: Surging Ground or Common
34	Example of Protector with Multiple Devices
35	OCV/SCI (Peak Open-circuit Voltage)(Peak Short-circuit Current
36	ing Network
37	Different Exposures
38	Back Filter Added to Series Coupler Back Filter Added to Shunt Coupler I Applications
39	Effect of Poor or Missing Connection to Grounding Conductor Fig A13 Floating Reference (Floating Ground) Ground
40	Multiple-Point Grounding Location Categories Defined in ANSI/IEEE C62.41-1980
42	IEC Pub 664-1980 Applied to a Typical Example
46	Phase Angle Effects
47	Applied as per Categories and Waves of ANSI/IEEE C62.41-1980
48	Series Coupling of Surge Generator Shunt Coupling of Surge Generator
50	Excitation of Nonlinear Protectors
52	INDEX