IEEE C62.1-1989

$76.92

IEEE Standard for Gapped Silicon-Carbide Surge Arresters for AC Power Circuits

Published By	Publication Date	Number of Pages
IEEE	1989

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Description

Revision Standard – Inactive-Withdrawn. This standard describes the service conditions, classifications and voltage ratings, design tests with corresponding performance characteristics, conformance tests, and certification test procedures for station, intermediate, distribution and secondary class arresters. Terminal connections, housing leakage distance, mounting and identification requirements are defined. Definitions are provided to clarify the required test procedures and other portions of the text.

PDF Catalog

PDF Pages	PDF Title
1	Title page
3	Introduction Participants
6	CONTENTS
8	1. Scope 2. Definitions
12	3. References 4. Service Conditions 4.1 Usual Service Conditions 4.2 Unusual Service Conditions
13	5. Classification and Voltage Rating of Arresters 5.1 Voltage Ratings 5.2 Test Requirements 6. Performance Characteristics and Tests 6.1 Voltage Withstand Tests
14	6.2 Power-Frequency Sparkover Test 6.3 Discharge-Current Withstand Tests 6.4 Impulse Sparkover Voltage-Time Characteristics 6.5 Discharge-Voltage Tests
16	6.6 Duty-Cycle Test 6.7 Radio-Influence Voltage Test 6.8 Internal-Ionization Voltage Test 6.9 Pressure-Relief and Fault-Current Withstand Tests 6.10 Contamination Tests 6.11 Disconnector Tests 7. Test Procedures 7.1 Complete Arrester Test Specimens
17	7.2 Prorated Arrester Test Section 7.3 Test Measurements 7.4 Impulse Test-Wave Tolerances
18	7.5 Power-Frequency Test Voltages 8. Design Tests for Secondary, Intermediate, and Station Class Arresters 8.1 Voltage Withstand Tests of Arrester Insulation
19	8.2 Power-Frequency Sparkover and Withstand Tests of Complete Arresters
20	8.3 Impulse Sparkover Voltage-Time Characteristics
22	8.4 Discharge-Voltage Characteristics 8.5 Switching-Impulse Discharge-Voltage Test
23	8.6 Discharge-Current Withstand Tests
28	8.7 Duty-Cycle Tests
29	8.8 Internal-Ionization Voltage and Radio-Influence Voltage (RIV)
30	8.9 Pressure-Relief Tests for Station and Intermediate Arresters
33	8.10 Contamination Tests
35	9. Design Tests for Distribution Class Surge Arrester 9.1 Voltage Withstand Tests of Arrester Insulation 9.2 Power-Frequency Sparkover and Withstand Tests of Complete Arresters 9.3 Impulse Sparkover Voltage-Time Characteristics
36	9.4 Discharge-Voltage Characteristics
37	9.5 Discharge-Current Withstand Tests
38	9.6 Duty-Cycle Tests
40	9.7 Internal-Ionization Voltage and Radio-Influence Voltage (RIV) Tests 9.8 Fault Current Withstand Tests
42	9.9 Disconnector Tests
44	9.10 Contamination Tests
45	9.11 Sealing System Test
46	10. Routine Tests for Distribution Class Surge Arrester 10.1 Routine Tests
47	11. Conformance Tests 11.1 Conformance Tests 12. Construction 12.1 Identification Data
48	12.2 Standard Mountings 12.3 Iron and Steel Parts 12.4 Terminal Connections
49	12.5 Housing Leakage Distance 13. Protective Characteristics 14. Certification Test Procedures for Arresters Applied to Unit Substations 14.1 General 14.2 Tests
50	14.3 Evaluation Procedure 14.4 Certification
51	14.5 Production Monitoring and Product Retest Requirements