1、 The Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue, New York, NY 10016-5997, USACopyright 2003 by the Institute of Electrical and Electronics Engineers, Inc.All rights reserved. Printed in the United States of America.Print:ISBN 0-7381-3616-6 SH95104PDF:ISBN 0-7381-3617-4 SS95
2、104No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher.ANSI C37.53.1-1989(R1996)(Revision of ANSI C37.53.1-1982)American National Standard High-Voltage Current-Limiting Motor-Starter Fuses Co
3、nferenceTest ProceduresApproved 1/25/89American National Standards Institute, Inc.iiForeword(This Foreword is not part of American National Standard C37.53.1-1989.)The High Voltage Apparatus Coordinating Committee (HVACC) was established July 24, 1973 by the Electrical andElectronic Technical Adviso
4、ry Board of the American National Standards Institute. In 1982, the advisory board wassuperseded by the Electrical and Electronic Standards Board. The responsibility assigned to HVACC was to reviewand evaluate existing ANSI-approved standards and other related standards for the purpose of developing
5、 a “DraftStandard” for unit substations and recommendations for (1) correlating the requirements of these standards and (2)adding requirements to these standards appropriate for product evaluation.This standard results from the evaluation of existing ANSI-approved standards and from the need to add
6、requirementsto these standards for the evaluation and conformance certification of high-voltage motor-starter fuses.The intent of this standard is to allow qualification of high-voltage motor-starter fuses for use in accordance with theAmerican National Standard National Electrical Code, ANSI/NFPA 7
7、0-1987. However, this standard does not coverinstallations under the exclusive control of electric utilities and is not intended to cover application, installation, oroperation of high-voltage motor-starter fuses.This 1989 revision of the standard was developed to modify Section 5. (Production Monit
8、oring) and to update othersections.Suggestions for improvement of this standard are welcome. They should be sent to the National ElectricalManufacturers Association, 2101 L Street, NW, Washington, DC 20037.iiiThis standard was processed and approved for submittal to ANSI by Accredited Standards Comm
9、ittee on PowerSwitchgear, C37. Committee approval of the standard does not necessarily imply that all committee members voted forits approval. At the time it approved this standard, the C37 Committee had the following members:W. E. Laubach, Chair A. K. McCabe, Executive Vice-Chair (High-Voltage Stan
10、dards)S. H. Telander, Executive Vice-Chair (Low-Voltage Standards)D. L. Swindler, Executive Vice-Chair (International Electrotechnical Commission Activities)C. H. White, Secretary M. B. Williams (Program Administrator)Organization Represented Name of RepresentativeAssociation of Iron and Steel Engin
11、eers J. M. TillmanElectric Light and Power Group R. L. Capra (Chair)D. A. DitzlerK. D. HendrixJ. H. ProvanzanaD. E. SoffrinD. T. WestonG. R. Brandenberger (Alt)T. E. Bruck (Alt)Institute of Electric and Electronics Engineers H. W. Mikulecky (Chair)W. F. HoenigmannD. M. LarsonE. W. SchmunkC. A. Schwa
12、lbeS. C. Atkinson (Alt)D. G. Kumbera (Alt)National Electrical Manufacturers Association . R. A. McMaster (Chair)T. C. BurnettR. H. MillerR. O. D. WhittH. L. Miller (Alt)Tennessee Valley Authority. R. B. RottonTesting Laboratory Group L. FrierW. T. OGradyR. W. Seelbach (Alt)U.S. Department of Agricul
13、ture Rural Electrification Administration H. L. BowlesU.S. Department of the Army Office of the Chief of Engineers W. M. JonesU.S. Department of the Interior Bureau of Reclamation. J. W. ReifU.S. Department of the Navy Naval Construction Battalion Center . R. L. ClarkWestern Area Power Administratio
14、n . G. D. BirneyivThe C37 Subcommittee on Certification Test Procedures, which reviewed and approved this standard, had thefollowing members:W. E. Laubach, Chair P. ClicknerN. DaviesR. A. McMasterM. E. NewmanA. J. SchaefferE. G. RapskeR. W. SeelbachS. H. TelanderThe Working Group of the HVACC Subcom
15、mittee on High-Voltage Fuses, which developed the major portion of thisstandard, had the following members:R. H. Arndt, Chair R. H. AmundsonJ. G. AngelisE. H. ArjeskiR. E. BennettF. L. CameronH. H. FahnoeG. P. GillH. A. NorbergW. H. RussellvCLAUSE PAGE1. Scope.11.1 General. 11.2 Insulating Evaluatio
16、n . 12. Referenced and Related Standards22.1 Referenced American National Standards . 22.2 Related Standards. 23. General Test Conditions23.1 General. 23.2 Resistance Measurement 33.3 Temperature-Rise Tests . 33.4 Melting-Time-Current Characteristics. 33.5 Interrupting Tests . 33.6 Marking 44. Treat
17、ment of Failures45. Production Monitoring55.1 Monitoring Tests 55.2 Tests for Design Deviations. 56. Retesting66.1 General. 66.2 Design Changes 67. Requalification Tests.61American National Standard for SwitchgearHigh-Voltage Current-Limiting Motor-Starter FusesConformance Test Procedures1. ScopeThi
18、s standard covers the conformance test procedures for alternating-current high-voltage motor-starter fuses coveredin the applicable American National Standards listed in 2.1. High-voltage motor-starter fuses are backup, current-limiting fuses used in conjunction with high-voltage Class E2 motor star
19、ters.This standard does not cover installations under the exclusive control of electric utilities for the purposes ofcommunication or metering, or for the generation, control, transformation, transmission, and distribution of electricenergy located in buildings used exclusively by utilities for such
20、 purposes, or located outdoors on property owned orleased by the utility or on public highways, streets, roads, and the like, or located outdoors by established rights onprivate property.1.1 GeneralThese tests shall be used to demonstrate that the motor-starter fuses being tested conform with the sp
21、ecified ratings andcharacteristics. The standard is designed to cover a product that can be used with Class E2 controllers (fused) asdescribed in Table 27.1 and elsewhere in the American National Standard Safety Standard for High Voltage IndustrialControl Equipment, ANSI/UL 347-1985.1.2 Insulating E
22、valuationInsulating materials for use in motor-starter fuses shall be evaluated with respect to their acceptability for the particularapplication. When a material is evaluated, the mechanical strength, dielectric properties, insulation resistance, and heatresistance qualities of the material are con
23、sidered in conjunction with actual service conditions. The degree to whichthe fuse is enclosed or protected and any other features having a bearing on electrical shock or dielectric failure arealso tested. All of these factors are considered with respect to thermal aging.2AMERICAN NATIONAL STANDARD
24、C37.53.1-19892. Referenced and Related Standards2.1 Referenced American National StandardsThis standard is intended for use in conjunction with the following American National Standards. When the referencedstandards are superseded by a revision approved by the American National Standards Institute,
25、Inc, the revision shallapply.ANSI C37.46-1981 (R1987), Specifications for Power Fuses and Fuse Disconnecting Switches ANSI C37.47-1981 (R1988), Specifications for Distribution Fuse Disconnecting Switches, Fuse Supports, andCurrent-Limiting Fuses ANSI/IEEE C37.40-1981 (R1988), Service Conditions and
26、Definitions for High-Voltage Fuses, Distribution EnclosedSingle-Pole Air Switches, Fuse Disconnecting Switches, and Accessories ANSI/IEEE C37.41-1989, Design Tests for High-Voltage Fuses, Distribution Enclosed Single-Pole Air Switches,Fuse Disconnecting Switches, and Accessories ANSI/IEEE C37.48-198
27、7, Guide for Application, Operation, and Maintenance of High-Voltage Fuses, DistributionEnclosed Single-Pole Air Switches, Fuse Disconnecting Switches, and Accessories ANSI/UL 347-1985, Safety Standard for High-Voltage Industrial Control Equipment2.2 Related StandardsThe following standards are list
28、ed for information only and are not necessary to complete the requirements of thisstandard.ANSI/NFPA 70-1987, National Electrical CodeNEMA SG2-1986, High-Voltage Fuses13. General Test ConditionsTests shall be conducted under conditions prevailing at the test site that shall conform to usual service
29、conditions inaccordance with 3.1 of ANSI/IEEE C37.40-1981, except that continuous current tests shall be conducted within theambient temperature range of 10 C to 40 C (50 F to 104 F).3.1 GeneralTests shall be performed on a representative number of samples to evaluate performance in the following ar
30、eas:1) Resistance2) Temperature rise3) Time-current characteristics4) Interrupting ability1Copies are available from the National Electrical Manufacturers Association, 2101 L Street, N.W., Washington, DC 20037.3AMERICAN NATIONAL STANDARD C37.53.1-1989a) Maximum interrupting capacityb) Minimum interr
31、upting capacityc) Maximum arc energyd) Let-through3.2 Resistance MeasurementThree samples of each fuse rating shall be measured. Any other samples that may be required for the purpose ofconducting the tests in 3.3, 3.4, and 3.5 shall also be subjected to this measurement.3.3 Temperature-Rise TestsOn
32、e sample of each case size, having the maximum continuous current rating for that case size, shall be subjected tothe temperature-rise test. The maximum rated continuous current shall be passed through the fuse. Temperature-risetests shall be performed in accordance with Section 11 of ANSI/IEEE C37.
33、41-1989.Acceptable performance and limiting conditions shall be as specified in 4.4, 4.4.1, and 4.4.2 of ANSI C37.46-1989.3.4 Melting-Time-Current Characteristics3.4.1 Two samples of the intermediate (or minimum, if only two ratings are involved) continuous current rating selectedfrom each case size
34、 shall be subjected to melting-time-current tests in accordance with 12.2.1 of ANSI/IEEE C37.41-1989.3.4.2 Test currents shall be selected to produce melting times of approximately 15 seconds to 35 seconds. In each case, themelting-time-current characteristics shall be as specified in 3.4.2 of ANSI
35、C37.46-1989.3.5 Interrupting Tests3.5.1 Test PracticesInterrupting-test practices shall be as specified for back up fuses in Section 6 of ANSI/IEEE C37.41-1989 except thatTable 1 of this standard shall be used rather than Table 4 of ANSI/IEEE C37.41-1989.3.5.2 Test DescriptionTests shall be conducte
36、d in accordance with Table 1 of this standard and shall consist of the three series of testsdescribed in 6.1.2.3 of ANSI/IEEE C37.41-1989.3.5.3 Characteristics of the Test CircuitThe interrupting tests shall be conducted as described in 6.1.3 of ANSI/IEEE C37.41-1989, except that the parametersof th
37、e test circuits shall be as specified in Table 1 of this standard rather than Tables 2 through 6 of ANSI/IEEE C37.41-1989.4AMERICAN NATIONAL STANDARD C37.53.1-19893.5.4 Test ProcedureInterrupting tests shall be conducted as described in 6.2 of ANSI/IEEE C37.41-1989.3.5.4.1 Tests on the DeviceThe tes
38、ts shall be performed as shown in 6.2.2 of ANSI/IEEE C37.41-1989, except the conditions specified in Table 1of this standard shall be observed rather than the conditions in Tables 2, 3, or 4 of ANSI/IEEE C37.41-1989.3.5.4.2 Condition after Interrupting Performance TestsThe condition of the fuses sha
39、ll he as described in 6.4 of ANSI/IEEE C37.41-1989.3.5.4.3 Peak OvervoltagesThe peak overvoltages shall be in accordance with the requirements in 4.2.1.1 of ANSI/IEEE C37.46-1981, except thatthe notation to “E-rated voltages” does not apply.3.5.4.4 Cutoff (Peak Let-Through) Current for Current-Limit
40、ing Power and Distribution FusesThis current shall be determined as specified in 4.2.3 of ANSI/IEEE C37.46-1981. Peak let-through current andclearing I2t shall be measured by oscillograms. If the performance of the fuses makes the data obtained from themagnetic oscillograph record questionable, a ca
41、thode-ray oscillograph may be necessary to verify the test results.3.6 MarkingA high-voltage motor circuit fuse shall be provided with the following marking:1) Manufacturers name2) Catalog number3) Maximum voltage rating4) Ampere rating or R-rating,2 or both5) Frequency6) Maximum interrupting rating
42、7) Minimum interrupting rating4. Treatment of FailuresIf failures occur during testing, the failure shall be evaluated and corrected, and retesting conducted. A design changemade to motor-starter fuses to correct a failure in a test shall be evaluated for its effect on any other test.2In accordance
43、with ANSI C37.46-1981.5AMERICAN NATIONAL STANDARD C37.53.1-19895. Production Monitoring5.1 Monitoring TestsUnless otherwise specified, all production monitoring shall be done by the manufacturer at the factory on thecompleted fuses or their component parts for the purpose of checking the correctness
44、 of manufacturing operations andmaterials. Production monitoring shall include, but not be limited to, the following tests:5.1.1 Incoming parts and materials shall be subjected to standard visual, mechanical, and electrical inspection, asappropriate.5.1.2 Conventional control of material purchase sp
45、ecifications shall be utilized.5.1.3 A cold resistance measurement shall be made on each completed fuse. The cold resistance shall be within thetolerances specified by the manufacturer.5.1.4 Each completed fuse shall be checked to see that its overall dimensions are within the tolerances specified b
46、y themanufacturer.5.1.5 On an audit basis, a completed fuse shall be subjected to a test to determine that the filler has been compacted to thedegree specified by the manufacturer.5.2 Tests for Design DeviationsOn a routine basis (not longer than 1 year), a completed fuse shall be disassembled and e
47、xamined for any deviationsfrom the intended design. At this time, the following routine procedures shall be observed:5.2.1 Samples of the link shall be examined for any deviations from the intended design.5.2.2 Samples of the fuse housing shall be subjected to mechanical strength tests (either burst
48、 or crush tests) to demonstratethe integrity of the fuse housing.5.2.3 Samples of the assembly of ferrule and housing shall be subjected to a test verifying the mechanical integrity of theferrule attachment.6AMERICAN NATIONAL STANDARD C37.53.1-19896. Retesting6.1 GeneralThe retesting of a specific d
49、esign fuse shall be conducted as described in the following paragraphs:6.1.1 Annually, fuses shall be selected and subjected to temperature and melting-time-current characteristic tests inaccordance with 3.3 and 3.4 of this standard.6.1.2 Interrupting tests (see 3.5 and 3.6) shall be conducted after a period of 10 years.6.2 Design ChangesA design change made to a high-voltage motor-starter fuse shall be evaluated for its effect on rated performance andonly the relevant design tests should be conducted.7. Requalification TestsRequalification testing shall be required every 1