ANSI UL 1072-2006 UL Standard for Safety Medium-Voltage Power Cables (Fourth Edition Reprint with Revisions Through and Including May 30 2018)《中等电压电力电缆安全性标准（推荐日期2006-2-24）》.pdf

1、UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL UL 1072 Medium-Voltage Power CablesUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM ULUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER R

2、EPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL UL Standard for Safety for Medium-Voltage Power Cables, UL 1072 Fourth Edition, Dated June 30, 2006 SUMMARY OF TOPICS This revision of ANSI/UL 1072 is being issued to incorporate the following changes in requirements: 1. Revised Supplementary Ja

3、cket Thickness Requirements Text that has been changed in any manner or impacted by ULs electronic publishing system is marked with a vertical line in the margin. Changes in requirements are marked with a vertical line in the margin and are followed by an effective date note indicating the date of p

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9、cept for those paragraphs, sections, tables, gures, and/or other elements of the Standard having future effective dates as indicated in the note following the affected item. The prior text for requirements that have been revised and that have a future effective date are located after the Standard, a

10、nd are preceded by a SUPERSEDED REQUIREMENTS notice. JUNE 19, 2013 UL 1072 tr1UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL JUNE 19, 2013 UL 1072 tr2 No Text on This PageUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DI

11、STRIBUTION WITHOUT PERMISSION FROM UL JUNE 30, 2006 (Title Page Reprinted: June 19, 2013) 1 UL 1072 Standard for Medium-Voltage Power Cables First Edition August, 1986 Second Edition May, 1995 Third Edition December, 2001 Fourth Edition June 30, 2006 This ANSI/UL Standard for Safety consists of the

12、Fourth Edition including revisions through June 19, 2013. The most recent designation of ANSI/UL 1072 as an American National Standard (ANSI) occurred on June 19, 2013. ANSI approval for a standard does not include the Cover Page, Transmittal Pages, Title Page, or effective date information. Comment

13、s or proposals for revisions on any part of the Standard may be submitted to UL at any time. Proposals should be submitted via a Proposal Request in ULs On-Line Collaborative Standards Development System (CSDS) at http:/. ULs Standards for Safety are copyrighted by UL. Neither a printed nor electron

14、ic copy of a Standard should be altered in any way. All of ULs Standards and all copyrights, ownerships, and rights regarding those Standards shall remain the sole and exclusive property of UL. COPYRIGHT 2013 UNDERWRITERS LABORATORIES INC. ANSI/UL 1072-2013UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR

15、FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL JUNE 30, 2006 MEDIUM-VOLTAGE POWER CABLES - UL 1072 2 No Text on This PageUL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL CONTENTS INTRODUCTION 1 Scope .6 2 Units of Measurement

16、 11 3 References 11 CONSTRUCTION 4 Materials 11 5 General .11 CONDUCTOR(S) 6 Materials 11 7 Resistance 12 8 Conductor Diameter 12 9 Stranding .12 10 Strand Filler 15 11 Metal Coating 15 12 Joints .15 CONDUCTOR STRESS RELIEF (CONDUCTOR SHIELDING) 13 Details .16 INSULATION 14 Material, Application, an

17、d Centering .17 15 Thicknesses 24 INSULATION SHIELDING 16 General 27 17 Conductive Nonmetallic Covering .28 18 Nonmagnetic Metal Component 31 JACKET ON INDIVIDUAL CIRCUIT CONDUCTORS FOR MULTIPLE-CONDUCTOR CABLE 19 Details .32 OPTICAL-FIBER MEMBER(S) 20 Construction .34 ASSEMBLY OF MULTIPLE-CONDUCTOR

18、 CABLE 21 Optical-Fiber Member(s) .34 22 Circuit Conductors 34 23 Grounding Conductor .35 24 Fillers .39 JUNE 30, 2006 MEDIUM-VOLTAGE POWER CABLES - UL 1072 3UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL 25 Assembly Covering .40 OVERALL CO

19、VERING(S) 26 General 41 27 Jacket .43 28 Metal Covering .55 29 Supplementary Jacket over Metal Covering 59 PERFORMANCE 30 Test or Examination for Integrity and Continuity of Non-conductive Jacket Over Insulation Shielding or Over a Metal Sheath or Armor 60 31 Physical Properties Tests 63 32 Corrosio

20、n of Uncoated Copper Conductors 63 33 Adhesion (Stripping-Tension) Test of Extruded Insulation Shielding .63 34 Deformation Test of EPCV or XLPE Insulation .64 35 Deformation Test of Non-conductive Thermoplastic Jackets 65 36 Set of Non-conductive Thermoset Jackets .67 37 Heat Shock Test of Non-cond

21、uctive PVC and TPE Jackets 68 38 Cold Bend Test of Complete Cable .69 39 Cold-Impact Test .70 40 Accelerated Water Absorption Electrical Method Tests of DREP, EP, and XLPE Insulations .70 41 Room-Temperature Relative Permittivity and Power Factor Tests at Rated Voltage for EP, DREP, and XLPE Insulat

22、ions on 8 35-kV Circuit Conductors .72 42 Dry Electrical Test 74 43 Environmental Cracking Test of Non-conductive PE Jacket 75 44 Volume Resistivity of Conductive Conductor Shielding 76 45 Relative Permittivity and Dielectric Withstand Stress of Extruded Nonconducting Conductor Stress Control 77 46

23、Volume Resistivity of Insulation Shielding 79 47 Specic Surface Resistivity of Nonshielded Single-Conductor Cable 80 48 Alternative Tests for Resistance to Tracking of Nonshielded Dry-Locations 2400 V Single-Conductor Cable Insulated with EPCV or XLPE 81 49 U-Bend Discharge Test of Nonshielded Singl

24、e-Conductor Cable 83 50 Copper Sulphate Test of Zinc Coating on Steel Strip for and from Steel Armor .84 51 Weight of Zinc Coating on Steel Strip for Steel Armor .86 52 Tension Test of Interlocked Armor 88 53 Flexibility Test for Cable Having Interlocked Armor or a Smooth or Corrugated Metal Sheath

25、.92 54 Tightness of Armor or Metal Sheath .94 55 Partial Discharge (Corona) Level of Each Circuit Conductor Having Insulation Shielding .96 55.1 Requirement .96 55.2 Denitions .96 55.3 Test apparatus .97 55.4 Calibration of test equipment 97 55.5 Items to be tested 98 55.6 Test procedure .99 56 A-C

26、Dielectric Withstand Test of Each Conductor Having Insulation Shielding 99 57 A-C Dielectric Withstand Test of Each Nonshielded Conductor 101 58 Partial Discharge (Corona) Resistance of DREP Insulation .102 58.1 Requirement 102 58.2 Method and apparatus .102 59 Insulation Resistance of Each Conducto

27、r Having Insulation Shielding 103 JUNE 30, 2006 MEDIUM-VOLTAGE POWER CABLES - UL 1072 4UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL 60 Insulation Resistance of Each Nonshielded Conductor .104 61 Test Procedure for Determining the Multiply

28、ing-Factor Column for Adjusting Insulation Resistance 104 62 Vertical-Tray Flame Test .106 63 Limited Smoke Test 107 64 Sunlight Resistance 107 65 Hot Creep Tests .108 66 Durability of Ink Printing 112 MARKINGS 67 Intervals 112 68 Color of Circuit Conductor(s) 112 69 Identication of Conductive Nonme

29、tallic Covering Portion of Insulation Shielding 113 70 On or in the Cable .113 71 Responsibility for the Insulated Conductors .117 72 On the Tag, Reel, or Carton 117 73 Marking of Direct-Burial Cable .118 74 Date of Manufacture .119 JUNE 30, 2006 MEDIUM-VOLTAGE POWER CABLES - UL 1072 5UL COPYRIGHTED

30、 MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL INTRODUCTION 1 Scope 1.1 These requirements cover the shielded and nonshielded medium-voltage power cables that are described in Tables 1.1 (single-conductor) and 1.2 (multiple-conductor). Multiple-conductor

31、 cables may include one or more individually jacketed non-conductive optical-ber members. These electrical and hybrid electrical and optical-ber cables are for use (optical and electrical functions associated in the case of a hybrid cable) in accordance with Article 328 and other applicable parts of

32、 the National Electrical Code (NEC), ANSI/NFPA 70. 1.1 revised September 19, 2007 1.2 These cables have one or more stranded copper or aluminum conductors that are insulated with a solid, extruded dielectric. Cables that have a metal sheath or interlocked armor incorporate an effective grounding pat

33、h. A grounding conductor is optional in other cables. Cables for direct burial are so marked and have an overall covering (see 1.4 for direct-burial cables that are not covered). Cables that are for use in cable trays generally are so marked (see 62.1 and 62.2). Cables that are sunlight-resistant ge

34、nerally are so marked (see 64.1 64.3). Cables that are marked “MV-90” or “MV-90 dry” have a maximum operating temperature of 90C (194F). Cables that are marked “MV-105” have a maximum operating temperature of 105C (221F) for use where design conditions require a maximum conductor temperature above 9

35、0C (194F). Cables that are marked “dry” have insulation for use only in dry locations. All other cables have insulation that is for use in both wet and dry locations. Multiple-conductor cables that include one or more optical-ber members are surface marked to so indicate. Cables that are marked “oil

36、 resistant II” are for exposure to mineral oil at temperatures not in excess of 75C (167F). Cables that are marked “oil resistant I” are for exposure to mineral oil at temperatures not in excess of 60C (140F). 1.3 A multiple-conductor Type MV cable that has a smooth (other than lead) or corrugated m

37、etal sheath or that has interlocked metal armor may be marked for use also as Type MC cable. 1.4 This standard does not include requirements for cables with concentric neutral conductors. However, it is possible to have a single-conductor cable with a concentric neutral conductor manufactured in acc

38、ordance with the requirements of other standards, that meets the requirements for jacketed single-conductor shielded cable in this standard. SEPTEMBER 19, 2007 MEDIUM-VOLTAGE POWER CABLES - UL 1072 6UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FR

39、OM UL Table 1.1 Single-conductor Type MV cables Table 1.1 effective June 30, 2007 Voltage rating Size Use Insulation material Percent insulation level Insulation thicknesses Shield Overall covering 8 AWG 1000 kcmil 90C (194F) dry XLPE or EPCV Column A Table 15.3 nonshielded None 2400 90C (194F) dry

40、XLPE, EPCV, DREP, or EP Column B Table 15.3 nonshielded Nonconductive jacket Column B Table 27.20 90C (194F) wet or dry XLPE, DREP, or EP Column C Table 15.3 nonshielded Nonconductive jacket Column C Table 27.20 5000 8 AWG 2000 kcmil 90C (194F) or 105C (221F) wet or dry XLPE, DREP, or EP 100 or 133

41、Table 15.1 or Table 15.2 Shielded a 8000 6 AWG 2000 kcmil 90C (194F) or 105C (221F) wet or dry XLPE, DREP, or EP 100, 133, or 173 Table 15.1 or Table 15.2 Shielded a 15000 2 AWG 2000 kcmil 90C (194F) or 105C (221F) wet or dry XLPE, DREP, or EP 100, 133, or 173 Table 15.1 or Table 15.2 Shielded a 250

42、00 1 AWG 2000 kcmil 90C (194F) or 105C (221F) wet or dry XLPE, DREP, or EP 100, 133, or 173 Table 15.1 or Table 15.2 Shielded a 28000 1 AWG 2000 kcmil 90C (194F) or 105C (221F) wet or dry XLPE, DREP, or EP 100, 133, or 173 Table 15.1 or Table 15.2 Shielded a 35000 1/0 AWG 2000 kcmil 90C (194F) or 10

43、5C (221F) wet or dry XLPE, DREP, or EP 100, 133, or 173 Table 15.1 or Table 15.2 Shielded a a The overall covering consists of one of the following (see Table 26.1 for complete descriptions): 1) Conductive nonmetallic insulation covering (Table 17.3) as part of shielding, with or without nonmagnetic

44、 metal sheath or armor over conductive nonmetallic insulation covering as part of shielding, with or without supplementary non-conductive jacket (Table 29.1) over metal sheath or armor. 2) Non-conductive jacket (Table 27.18) over shielding, with or without nonmagnetic metal sheath or armor over non-

45、conductive jacket, with or without supplementary non-conductive jacket (Table 29.1) over metal sheath or armor. 3) Nonmagnetic metal sheath or armor as part of shielding, with or without supplementary non-conductive jacket (Table 29.1) over metal sheath or armor. SEPTEMBER 19, 2007 MEDIUM-VOLTAGE PO

46、WER CABLES - UL 1072 7UL COPYRIGHTED MATERIAL NOT AUTHORIZED FOR FURTHER REPRODUCTION OR DISTRIBUTION WITHOUT PERMISSION FROM UL Table 1.2 Multiple-conductor Type MV cables Table 1.2 effective June 30, 2007 Voltage rating Circuit conductors Grounding conductor Overall covering Size Use Insulation ma

47、terial Percent insulation level Insulation thicknesses Shield Individual covering 2400 8 AWG 1000 kcmil 90C (194F) dry XLPE or EPCV Column A Table 15.3 nonshielded None Optional Covered 23.1 None assembly of single- conductor cables 90C (194F) dry XLPE, EPCV, DREP, or EP Column B Table 15.3 nonshiel

48、ded Non- conductive jacket Column B Table 27.20 Optional Covered 23.1 None assembly of single- conductor cables 90C (194F) wet or dry XLPE, DREP, or EP Column C Table 15.3 nonshielded Non- conductive jacket Column C Table 27.20 Optional Covered 23.1 None assembly of single- conductor cables 90C (194

49、F) or 105C (221F) wet or dry XLPE, DREP, or EP Column C Table 15.3 nonshielded None or Non- conductive jacket (Table 19.1) Optional Bare 23.5 Non- conductive jacket (Table 27.18) Required Bare 23.1 Interlocked armor with or without Supple- mentary jacket May be required Bare 23.3 and 23.4 Metal sheath with or without Supple- mentary jacket JUNE 30, 2006 MEDIUM-VOLTAGE POWER CABLES - UL 1072 8 Table 1.2 Continued on Next PageUL COPY