GMW GMW15626-2012 Single-Core Stranded ISO Cable Issue 2 English.pdf

1、 WORLDWIDE ENGINEERING STANDARDS General Specification GMW15626 Single-Core Stranded ISO Cable Copyright 2012 General Motors Company All Rights Reserved November 2012 Originating Department: North American Engineering Standards Page 1 of 18 1 Introduction Note: Nothing in this standard supercedes ap

2、plicable laws and regulations. Note: In the event of conflict between the English and domestic language, the English language shall take precedence. 1.1 Scope. This standard specifies the dimension, test methods, and requirements for single-core cables. The standard is based upon and refers to ISO 6

3、722-1. 1.2 Mission/Theme. This standard defines test and validation requirements for single-core cables. It also applies to individual cores in multi-core cables. 1.3 Classification. Single-core cables are classified by nominal voltage of the system where the cables are used, by the wall dimension o

4、f the cable insulation, and by the operating temperature. 1.3.1 Nominal System Voltage Classes. 60 V cables intended for use in road vehicle applications where the nominal system voltage is 6.0 mm2, GM reserves the right to request the needle scrape abrasion testing for application where abrasion re

5、sistance is desired. 5.14 Tear Propagation Resistance. Shall only be used for silicone insulation. Test in accordance with ISO 34-1, Method B Procedure (b) (Graves angle test with notch on panel material). Requirements: Temperature Class 5 (175 C) = 15 N/mm minimum. Temperature Class 6 (200 C) = 10

6、N/mm minimum. 5.15 Long Term Heat Aging, 3000 h. The test method and requirement is according to ISO 6722-1. 5.16 Short Term Aging, 240 h. The test method and requirement is according to ISO 6722-1. 5.17 Thermal Overload. The test method and requirement is according to ISO 6722-1. 5.18 Shrinkage by

7、Heat. The test method and requirement is according to ISO 6722-1. 5.19 Thermal Stability in a Wound State. a. Prepare a test sample of sufficient length. Wind at least six (6) times tightly around a mandrel with a diameter specified in Table 7. b. Store the mandrel with the test sample fixed for 1 h

8、 in a temperature chamber, at the Thermal Overload temperature specified in ISO 6722-1. Copyright General Motors Company Provided by IHS under license with General Motors CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS GMW1

9、5626 Copyright 2012 General Motors Company All Rights Reserved November 2012 Page 9 of 18 Note: Thermal Overload temperature is the operating class temperature + 50 C. c. Allow the test sample to return to room temperature and perform a visual examination of the insulation. If no exposed conductor i

10、s visible, perform the Withstand Voltage test according to 5.5, ISO 6722-1. However, make the following changes to the procedure given in 5.5: Apply the 1 kV root mean square (rms) for one (1) minute. Breakdown shall not occur. Table 7: Diameter of Mandrel Conductor Size Diameter of Mandrel (Maximum

11、 Cable Outer Diameter) (mm2) Thin Wall Thick Wall 0.13 to 6.0 4X N/A 0.50 to 6.0 N/A 4X 5.20 Fluid Compatibility. The test is carried out according to ISO 6722-1, Method 1. The list of fluids is stated in Table 8. 5.20.1 General. When any resistance to chemicals is specified, compliance for a cable

12、family may be demonstrated by testing representative conductor sizes. 5.20.2 Requirement. The insulation should not exhibit any cracks, ruptures, or other damage. No breakdown shall occur during the withstand voltage test. Table 8: Media for Fluid Compatibility Test Media Specification Samples Piece

13、s Storage time in oven at class temperature Group Fluid 1 Engine Coolant 50% ethylene glycol + 50% distilled water Note 1 8 240 h + 240 h + 240 h + 280 h Engine Oil ISO 1817, Oil Number 2 8 Salt Water (road) 5% NaCl, 95% water (mass %) 8 Windscreen Washer Fluid 50% ISO-propanol, 50% water 8 2 Gasoli

14、ne ISO 1817, liquid C Note 2 2 240 h Diesel 90% ISO 1817, Oil Number 3 + 10% p-xylene 2 Ethanol 85% Ethanol + 15% ISO 1817 liquid C Note 3 2 Power Steering Fluid ISO 1817, Oil Number 3 2 Auto. Transmission Fluid Dexron VI 2 Brake Fluid SAE RM-66-06 2 Battery Acid 25% H2SO4 and 75% H2O, density 1.26

15、2 Note 1: Brazil, 35% ethylene glycol, 65% distilled water Note 2: Brazil, E25 Note 3: Brazil, E11 (100% ethanol hydrated) 5.21 Durability of Cable Marking. The test method and requirement is according to ISO 6722-1. 5.22 Resistance to Ozone. The test method and requirement is according to ISO 6722-

16、1. 5.23 Resistance to Hot Water. The test method and requirement is according to ISO 6722-1. Copyright General Motors Company Provided by IHS under license with General Motors CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS

17、 GMW15626 Copyright 2012 General Motors Company All Rights Reserved November 2012 Page 10 of 18 5.24 Temperature Humidity Cycling. The test method and requirement is according to ISO 6722-1. 5.25 Resistance to Flame Propagation. The test method and requirement is according to ISO 6722-1. 5.26 Tensil

18、e Strength. This test is only required for cables 0.35 mm2. 5.26.1 Apparatus. Tensile tester, 25 mm to 100 mm/minute. 5.26.2 Requirements. The minimum required tensile strength for the cable is shown in Table 9. Table 9: Tensile Strength Conductor Size (mm2) Force (N) 0.35 80 0.22 50 0.13 Note 1 80

19、Note 1: For 0.13 mm2, the requirement value is for copper alloys. Annealed copper is not allowed for 0.13 mm2. 5.27 Mycological Test. Test in accordance with DIN EN ISO 846, Method A. The growth on the insulation shall not exceed rating three (3) (growth visible with the naked eye, up to 50% of the

20、sample surface may be covered by growth) in accordance with DIN EN ISO 846, Method A. 5.27.1 Fungus Growth Test. The mean values for tensile strength and elongation at break shall not change under growth stage 2 by more than 50%. Note: Inquire to GM Materials Engineering for the specific cable to be

21、 qualified for. 5.28 Column Strength. This test is for wire sizes 0.5 mm2 and smaller. 5.28.1 Apparatus. The test shall be conducted by the use of a tensile test machine and the test fixture described in Figure 1. 5.28.2 Test Sample. Prepare 25 test samples 40 mm 0.5 mm long. Do not bend the wire pr

22、ior to testing. Insert the test wire in the appropriate cavities of the test fixture. The hole diameter shall not exceed the maximum cable diameter for a specific wire size by more than + 0.03 mm. Ensure that the fixture and the wire are vertically aligned with each other. The wire sample shall fit

23、into the hole of the fixtures and extend to the depth as shown in Figure 1. Apply a compressive force at the constant speed of 50 mm 0.5 mm/minute and record the highest force attained as the wire is being compressed. 5.28.3 Requirement. The force shall be higher than 15 N. Copyright General Motors

24、Company Provided by IHS under license with General Motors CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS GMW15626 Copyright 2012 General Motors Company All Rights Reserved November 2012 Page 11 of 18 Figure 1: Test Fixture

25、 for Column Strength 6 Provisions for Shipping Not applicable. 7 Notes 7.1 Glossary. Not applicable. 7.2 Acronyms, Abbreviations, and Symbols. ASTM ASTM International CCS Copper Clad Steel DB Data Bus HV High Voltage ID Identification IMDS International Material Data System ISO International Organiz

26、ation for Standardization IVED Integrated Vehicle Electrical Design NaCI Sodium Chloride OD Outer Diameter Copyright General Motors Company Provided by IHS under license with General Motors CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEE

27、RING STANDARDS GMW15626 Copyright 2012 General Motors Company All Rights Reserved November 2012 Page 12 of 18 PSDS Power and Signal Distribution System RM Reference Material RMS Root Mean Square RT Room Temperature SAE SAE International SB Silicone Blocked 8 Additional Paragraphs 8.1 All parts or sy

28、stems supplied to this standard must comply with the requirements of GMW3059, Restricted and Reportable Substances for Parts. 9 Coding System This standard shall be referenced in other documents, drawings, etc., as follows: GMW15626 10 Release and Revisions This standard was originated in June 2007.

29、 It was first approved by Global Technology Engineering in October 2007. It was first published in February 2008. Issue Publication Date Description (Organization) 1 FEB 2008 Initial publication. 2 NOV 2012 Revised page format from dual columns to single column. Text corrections. Revised needle scra

30、pe abrasion requirement. Revised “mandrel diameter” in Thermal Stability in the Wound State test requirement. Revised media for fluid compatibility test table. Revised mycological test procedure and requirement. Updated Appendix A. Revised Appendix B. Updated Appendix C. (Electrical Global Subsystem

31、 Leadership Team) Copyright General Motors Company Provided by IHS under license with General Motors CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS GMW15626 Copyright 2012 General Motors Company All Rights Reserved Novembe

32、r 2012 Page 13 of 18 Appendix A Table A1: Tests Required Section Test Description In Process Test Certification If Required Initial Periodic Note 1, Note 2 Initial Periodic Note 1, Note 2 5 Test and Performance Requirements 5.1 Outside Cable Diameter X X 5.2 Insulation Thickness X X 5.3 Conductor Di

33、ameter X X 5.4 Strand Diameter and Number of Strands X X 5.5 Conductor Resistance X X 5.6 Withstand Voltage X X 5.7 Insulation Faults X 5.8 Insulation Volume Resistivity X X 5.9 Pressure Test at High Temperature X 5.10 Strip Force X X 5.11 Low Temperature Winding X X 5.12 Cold Impact X 5.13.1 Sandpa

34、per Abrasion X 5.13.2 Scrape Abrasion X 5.14 Tear Propagation X X X 5.15 Long Term Aging, 3000 h X 5.16 Short Term Aging, 240 h X X 5.17 Thermal Overload X X 5.18 Shrinkage by Heat X X 5.19 Thermal Stability in a Wound State X 5.20 Fluid Compatibility Note 2 X 5.21 Durability of Cable Marking X 5.22

35、 Resistance to Ozone X 5.23 Resistance to Hot Water X 5.24 Temperature Humidity Cycling X 5.25 Resistance to Flame Propagation X X 5.26 Tensile Strength X X 5.27 Mycological Test X X X 5.28 Column Strength X X Note 1: Periodic testing at least every third year. Note 2: When changing location of the

36、same cable manufacturer and the same, already approved compound, a periodic test is needed. Copyright General Motors Company Provided by IHS under license with General Motors CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS

37、GMW15626 Copyright 2012 General Motors Company All Rights Reserved November 2012 Page 14 of 18 Appendix B GM Wire Name Code System: For the purposes of identification on Engineering Drawings, wire name code shall be specified in the following manner: Table B1: Conductor Type Code Bare Copper (Anneal

38、ed) CU Tin plated Copper TC Silver plated Copper SC Nickel plated Copper NC Aluminum AL Copper-Magnesium Alloy CUMG Copper-Silver Alloy CUAG Copper-Tin Alloy CUSN Copper Clad Steel CCS Copper Alloy CUA Table B2: Insulation Wall Thickness Code Ultra-Thin Wall U Reduced (thin) Wall R Heavy (thick) Wal

39、l H Un-Insulated (Bare Wire) X Copyright General Motors Company Provided by IHS under license with General Motors CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS GMW15626 Copyright 2012 General Motors Company All Rights Res

40、erved November 2012 Page 15 of 18 Table B3: Temperature Class Code All Temperature (for bare wire) 0 -40 C to 85 C 1 -40 C to 100 C 2 -40 C to 125 C 3 -40 C to 150 C 4 -40 C to 175 C 5 -40 C to 200 C 6 -40 C to 225 C 7 -40 C to 250 C 8 Table B4: Insulation Material Type Code Polyvinyl Chloride PVC C

41、ross-linked PVC XPVC Polyethylene PE Polyphenylene Ether PPE Cross-linked Polyethylene XLPE Polypropylene PP Polyurethane PUR Thermoplastic Elastomer TPE Ethylene Propylene Diene Monomer EPDM Polyamide PA Cross-linked Polyolefin XLPO Polyvinylidene Fluoride PVDF Crosslinked Polyester XPES Cross-Link

42、ed Fluoro Elastomer XLFE Ethylene-tetrafluoroethylene ETFE Silicone Rubber SIR Fluorinated Ethylene Propylene FEP Cross-linked Fluoropolymer XLFP Perfluoroalkoxy PFA Tetrafluoroethylene PTFE Copyright General Motors Company Provided by IHS under license with General Motors CompanyNot for ResaleNo re

43、production or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS GMW15626 Copyright 2012 General Motors Company All Rights Reserved November 2012 Page 16 of 18 Table B5: Special Application Cable Code 600 V (High Voltage) HV Silicone Blocked SB Note 1 Data Bus Cable

44、 DB Note 2 Note 1: Cable with silicone blocking agent applied between and around each strand to prevent fluid wicking through the conductor. Note 2: “Data Bus” cable must meet the requirements of GMW3173. Table B6: Conductor Stranding Configuration Code Symmetrical A Asymmetrical B Flexible Strand A

45、nnealed C Compressed Core Note 1 K Note 1: Compressed Core conductor not in current wire strategy. Table B7: Colors Code Black BK Brown BN Red RD Orange OG Yellow YE Green GN Blue BU Violet (Purple) VT White WH Gray GY Copyright General Motors Company Provided by IHS under license with General Motor

46、s CompanyNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-GM WORLDWIDE ENGINEERING STANDARDS GMW15626 Copyright 2012 General Motors Company All Rights Reserved November 2012 Page 17 of 18 Table B8: GM Wire Name Code Examples Old Code New Code IVED Drawing Code FLRY-

47、A/T100 CU-R2PVC R2PVC FLY-A/T100 CU-H2PVC H2PVC FLR4Y-B Sn/T100 TC-R2PA TC-R2PA FLMU142Y-A/T100 CUMG-U2PPE CUMG-U2PPE FL9Y-A/T100 CU-H2PP H2PP FLR4G-A/T100 CU-R2EVA R2EVA FLR2X-A/T125 CU-R3XLPE R3XLPE FL2X-A/T125 CU-H3XLPE H3XLPE FLR21X-A/T125 CU-R3XLPE R3XLPE FLR11Y-B/T125 CU-R3PUR R3PUR FLR31Y-B/T

48、125 CU-R3TPE R3TPE FLR33X-A/T150 CU-R4XPES R4XPES FLR91X-A/T150 CU-R4XLPE or CU-R4XLPO R4XLPE or R4XLPO FLR31Y-A/T150 CU-R4TPE R4TPE FLU7Y-B/T175 CU-U5ETFE U5ETFE FLU6Y-B/T200 CU-U6FEP U6FEP FL2G-C/T200 CU-H6SIR H6SIR FLU51Y-A/T250 CU-U8PFA U8PFA Note: The above table is for cross referencing the previous wire codes used in GMW15626 (2008) version to the current version. New wire codes may or may not be listed in the table. Inquire to GM Engineering for information on wire codes and approvals. Copyright General Motors Company