IEEE C37.41 2016
$80.17
IEEE Standard Design Tests for High-Voltage (>1000 V) Fuses and Accessories
| Published By | Publication Date | Number of Pages |
| IEEE | 2016 | 141 |
Revision Standard – Active. Required procedures for performing design tests for high-voltage fuses, as well as for fuse disconnecting switches, are specified. These design tests, as appropriate to a particular device, include the following test types: dielectric, interrupting, radio-influence, temperature-rise, time-current, manual-operation, liquid-tightness, theremal-cycle, bolt-torque, withstand tests for motor circuit fuses, expulsion fuses using polymeric insulators, load-break, and short-time current.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | IEEE Std C37.41™-2016 Front Cover |
| 2 | Title page |
| 4 | Important Notices and Disclaimers Concerning IEEE Standards Documents |
| 7 | Participants |
| 8 | Introduction |
| 9 | Contents |
| 12 | 1. Overview 1.1 Scope 1.2 Purpose |
| 13 | 1.3 Background |
| 14 | 1.4 Description of fuse-enclosure packages (FEPs) |
| 15 | 2. Normative references 3. Definitions |
| 27 | 4. Normal (usual) and special (unusual) service conditions 4.1 General 4.2 Normal service conditions |
| 28 | 4.3 Special service conditions 4.4 Altitude |
| 29 | 5. Classifications, ratings, and characteristics 5.1 Classifications 5.2 Ratings |
| 31 | 5.3 Characteristics |
| 34 | 6. Required design (type) tests 6.1 General |
| 35 | 6.2 Requirements for re-testing modified devices |
| 36 | 6.3 Parallel fuses 6.4 FEP tests 6.5 Fuses fitted with an exhaust-control device 7. Common test requirements for all design tests 7.1 General 7.2 Test values |
| 37 | 7.3 Testing responsibility 7.4 Test report 7.5 Test site conditions |
| 38 | 7.6 Frequency and wave shape of test voltage 7.7 Devices to be tested 7.8 Acceptance criteria |
| 39 | 7.9 Test-conductor dimensions |
| 40 | 7.10 Mounting and grounding of the device for tests |
| 42 | 8. Dielectric tests 8.1 Requirements common to all dielectric tests |
| 43 | 8.2 Power-frequency dry-withstand voltage tests |
| 44 | 8.3 Power-frequency wet-withstand voltage tests on outdoor devices 8.4 Power-frequency dew-withstand voltage tests on indoor devices |
| 45 | 8.5 Lightning impulse withstand voltage tests 8.6 Fuses and fuse disconnecting switches used in FEPs |
| 47 | 8.7 External fuses for shunt capacitors 9. Interrupting tests 9.1 Requirements common to all interrupting tests |
| 50 | 9.2 Interrupting tests for expulsion fuses |
| 60 | 9.3 Interrupting tests for current-limiting fuses |
| 71 | 9.4 Interrupting tests for FEPs |
| 76 | 9.5 Description of interrupting tests for external fuses for shunt capacitors |
| 85 | 10. Radio-influence tests 10.1 Procedures common to all radio-influence tests |
| 87 | 10.2 Description of radio-influence tests on a single device 10.3 Description of radio-influence tests on multiple devices 10.4 Description of radio-influence tests for assembled apparatus 11. Temperature-rise tests 11.1 Procedures common to all temperature-rise tests |
| 88 | 11.2 Description of temperature-rise tests 11.3 Description of temperature-rise tests for air-insulated FEPs using expulsion indoor Class B fuses |
| 89 | 12. Time-current tests 12.1 Procedures common to all time-current tests |
| 91 | 12.2 Description of melting time-current tests 12.3 Description of clearing time-current tests 13. Manual-operation, thermal-cycle, and bolt-torque tests 13.1 General |
| 92 | 13.2 Description of manual-operation tests 13.3 Description of thermal-cycle tests |
| 93 | 13.4 Description of torque tests 14. Liquid-tightness tests for current-limiting fuses and FEPs 14.1 General |
| 94 | 14.2 Description of liquid-tightness tests |
| 98 | 15. Static-relief pressure tests for expulsion fuses that use expendable caps |
| 99 | 16. Lightning surge impulse withstand test for fuse links 16.1 General 16.2 Test sample 16.3 Arrangement of the equipment 16.4 Test procedure 16.5 Acceptance criteria |
| 100 | 17. Withstand tests for fuses intended for motor circuit applications 17.1 General 17.2 Withstand requirements 17.3 Withstand tests |
| 103 | 18. Tests for expulsion fuses having cutout fuse supports utilizing polymeric insulators 18.1 Mechanical tests |
| 105 | 18.2 Environmental tests |
| 108 | 18.3 Water penetration and void tests |
| 109 | 18.4 Interrupting tests at temperature extremes |
| 111 | Annex A (normative) Test requirements for additional devices A.1 Definitions |
| 113 | A.2 Expulsion fuses |
| 122 | A.3 Current-limiting fuses—motor-starter fuses (historical) |
| 124 | A.4 Short-time withstand current tests for disconnecting switches |
| 127 | A.5 Load-break tests |
| 128 | Annex B (informative) Recommended methods for determining the value of a sinusoidal current wave and a power-frequency recovery voltage B.1 Current waves |
| 129 | B.2 Power-frequency recovery voltage |
| 131 | Annex C (informative) Recommended method of determining the equivalent steady-state rms current for plotting time-current curves |
| 132 | Annex D (informative) Simplified fault-current calculation |
| 134 | Annex E (informative) Transient recovery voltage (TRV) parameters E.1 Test circuits |
| 135 | E.2 Measurement of peak factor |
| 138 | Annex F (normative) Criteria for determining It testing validity for current-limiting fuses F.1 Introduction F.2 Interrupting processes |
| 140 | Annex G (informative) Bibliography |
| 141 | Back Cover |
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