IEEE C62.11 2006

$44.96

IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)

Published By	Publication Date	Number of Pages
IEEE	2006	86

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Description

Revision Standard – Inactive – Superseded. This standard applies to metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically limiting the flow of system power current. This standard applies to devices for separate mounting and to devices supplied integrally with other equipment. The tests demonstrate that an arrester can survive the rigors of reasonable environmental conditions and system phenomena while protecting equipment and/or the system from damaging overvoltages caused by lightning, switching, and other undesirable surges.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std C62.11-2005_Front Cover
3	IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (>1 kV)
6	Introduction Notice to users Errata Interpretations
7	Patents Participants
9	Contents
11	IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (>1 kV) 1. Scope 2. Normative references
13	3. Definitions
19	4. Service conditions 4.1 Usual service conditions 4.1.1 Physical conditions 4.1.2 System conditions 4.2 Unusual service conditions 4.2.1 Physical conditions
20	4.2.2 System conditions 5. Standard voltage ratings: duty-cycle voltage and maximum continuous operating voltage (MCOV)
21	6. Performance characteristics and tests
22	7. Test requirements 7.1 Complete arrester test samples
23	7.2 Prorated section 7.2.1 Prorating for discharge voltage tests 7.2.2 Prorating for design tests involving demonstration of thermal recovery
26	7.3 Test measurements 7.4 Impulse test-wave tolerances
27	7.5 Power-frequency test voltages 8. Design tests 8.1 Arrester insulation withstand test 8.1.1 Samples 8.1.2 Procedure
29	8.1.3 Evaluation 8.2 Power-frequency sparkover test
30	8.2.1 Samples 8.2.2 Procedure 8.2.3 Evaluation 8.3 Discharge-voltage characteristics test 8.3.1 Samples 8.3.2 Procedure
32	8.3.3 Evaluation 8.4 Impulse protective level voltage-time characteristic test 8.4.1 Samples 8.4.2 Procedure
35	8.4.3 Evaluation 8.5 Accelerated aging procedure
36	8.5.1 Samples 8.5.2 Procedure
37	8.5.3 Evaluation 8.6 Accelerated aging test of polymer-housed distribution arresters with exposure to light and electrical stress 8.6.1 Accelerated aging by exposure to light 8.6.2 Accelerated aging by exposure to electrical stress
39	8.7 Accelerated aging test of polymer-housed arresters with exposure to salt fog 8.7.1 Samples 8.7.2 Initial measurements 8.7.3 Procedure
40	8.7.4 Evaluation 8.8 Contamination test 8.8.1 Samples
41	8.8.2 Procedure
42	8.8.3 Evaluation 8.9 Distribution arrester seal integrity design test 8.9.1 Samples 8.9.2 Initial measurements 8.9.3 Procedure
43	8.9.4 Evaluation 8.10 Radio-influence voltage (RIV) test 8.10.1 Samples
44	8.10.2 Procedure 8.10.3 Evaluation 8.11 Partial discharge (PD) test 8.11.1 Samples 8.11.2 Procedure 8.11.3 Evaluation 8.12 High-current short-duration withstand test
45	8.12.1 Samples 8.12.2 Procedure 8.12.3 Evaluation 8.13 Low-current long-duration withstand test
46	8.13.1 Transmission-line discharge test for station and intermediate arresters
50	8.13.2 Low-current long-duration test for distribution arresters
51	8.14 Duty-cycle test 8.14.1 Samples 8.14.2 Initial measurements 8.14.3 Procedure
52	8.14.4 Evaluation 8.15 Temporary overvoltage (TOV) test 8.15.1 Samples 8.15.2 Initial measurements
53	8.15.3 Procedure
54	8.15.4 Evaluation 8.16 Pressure-relief test for station and intermediate arresters 8.16.1 Samples
55	8.16.2 Procedure
57	8.16.3 Evaluation 8.17 Short-circuit test for porcelain-housed distribution arresters 8.17.1 Samples
58	8.17.2 Procedure
59	8.17.3 Evaluation 8.18 Short-circuit test for polymer-housed distribution arresters 8.18.1 Samples
60	8.18.2 Procedure
62	8.18.3 Evaluation 8.19 Failure mode test for liquid-immersed arresters 8.19.1 Samples
63	8.19.2 Procedure 8.19.3 Evaluation 8.20 Deadfront arrester failure mode test
64	8.20.1 Samples 8.20.2 Procedure 8.20.3 Evaluation 8.21 Distribution arrester disconnector test 8.21.1 Samples
65	8.21.2 Procedure
66	8.21.3 Evaluation 8.22 Maximum design cantilever load (MDCL) and moisture ingress test for polymer-housed arresters
67	8.22.1 Samples 8.22.2 Initial measurements
68	8.22.3 Procedure
71	8.22.4 Evaluation
72	8.23 Ultimate mechanical strength-static (UMS-static) test for porcelain-housed arresters 8.23.1 Samples 8.23.2 Procedure 8.23.3 Evaluation 9. Conformance tests 9.1 Power-frequency sparkover test 9.2 Front-of-wave impulse protective level
73	9.3 Discharge-voltage test 9.4 RIV test 10. Construction 10.1 Identification data 10.2 Standard mountings
74	10.2.1 Station and intermediate arresters 10.2.2 Distribution arresters 10.3 Iron and steel parts 10.4 Terminal connections 10.4.1 Station and intermediate class arresters 10.4.2 Distribution arresters 10.5 Housing leakage distance
75	11. Protective characteristics 12. Certification test procedures for arresters applied to unit substations 12.1 General 12.2 Tests 12.2.1 Discharge voltage
76	12.2.2 Duty-cycle tests 12.2.3 High-current short-duration test 12.3 Evaluation procedure 12.4 Certification 12.5 Production monitoring and product retest requirements 12.5.1 General 12.5.2 Production monitoring 12.5.3 Product retest requirements
77	13. Routine tests 13.1 Current sharing test 13.1.1 Current measurements
78	13.1.2 Voltage measurements 13.2 Discharge-voltage test 13.3 PD test 13.4 Seal test
79	13.5 Power-frequency test 13.6 Power-frequency sparkover
80	Annex A (informative) Basis for accelerated aging procedure
82	Annex B (informative) Surge arrester classification prescribed test requirements
83	Annex C (informative) Accelerated aging tests for polymer-housed arresters C.1 Samples C.2 Initial measurements C.3 Procedure
86	C.4 Evaluation