1、December 2013Translation by DIN-Sprachendienst.English price group 9No part of this translation may be reproduced without prior permission ofDIN Deutsches Institut fr Normung e. V., Berlin. Beuth Verlag GmbH, 10772 Berlin, Germany,has the exclusive right of sale for German Standards (DIN-Normen).ICS
2、 43.040.10!%1l*“2147307www.din.deDDIN 76722Road vehicles Electrical cables Design rule for abbreviation codes,English translation of DIN 76722:2013-12Straenfahrzeuge Elektrische Leitungen Regel fr den Aufbau der Kurzbezeichnungen,Englische bersetzung von DIN 76722:2013-12Vhicules routiers Cbles lect
3、riques Rgle pour la composition des abrviations,Traduction anglaise de DIN 76722:2013-12SupersedesDIN 76722:1990-07www.beuth.deIn case of doubt, the German-language original shall be considered authoritative.Document comprises 16 pages07.14 DIN 76722:2013-12 2 A comma is used as the decimal marker.
4、Contents Page Foreword . 3 1 Scope . 4 2 Normative references . 4 3 Abbreviation code structure 4 3.1 General . 4 3.2 Cable type code 4 3.3 Special design feature codes 4 3.4 Conductor material codes . 5 3.5 Insulation wall thickness . 5 3.6 Insulation and sheath materials 6 3.7 Non-extruded claddin
5、g . 7 3.8 Number of cores, nominal conductor cross-section, specific DC resistance per unit length . 7 3.9 Continuous operating temperature (temperature class rating) . 8 3.10 Colour identification . 8 3.11 Nominal voltage 8 Annex A (informative) Examples of how abbreviation codes of cables for road
6、 vehicles are to be structured . 9 Bibliography . 16 DIN 76722:2013-12 3 ForewordThis document has been prepared by Working Group NA 052-01-03-04 AK Elektrische Fahrzeugleitungen of Working Committee NA 052-01-03 AA Elektrische und elektronische Ausrstung of the Normenausschuss Automobiltechnik (NA
7、Automobil) (Road Vehicle Engineering Standards Committee). Attention is drawn to the possibility that some elements of this document may be the subject of patent rights. DIN and/or DKE shall not be held responsible for identifying any or all such patent rights. Amendments This standard differs from
8、DIN 76722:1990-07 as follows: a) the scope has been extended; b) the contents have been aligned with ISO 6722; c) additional normative references have been included; d) the structure of the abbreviations and codes has been fundamentally revised and expanded; e) subclauses 3.5 “Insulation wall thickn
9、ess” and 3.11 “Nominal voltage” have been added; f) Annex A has been revised. Previous editions DIN 76722: 1990-07 DIN 76722:2013-12 4 1 Scope This standard applies to electric cables intended for use in road vehicles. It specifies the structure of identi-fication codes for such cables. 2 Normative
10、references The following documents, in whole or in part, are normatively referenced in this document and are indispens-able for its application. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) appl
11、ies. DIN 72551-7, Road vehicles Low-tension cables Part 7: Colours and colour marking of low-tension cables ISO 3808, Road vehicles Unscreened high-voltage ignition cables General specifications, test methods and requirements ISO 6469-3, Electrically propelled road vehicles Safety specifications Par
12、t 3: Protection of persons against electric shock ISO 6722 (all parts), Road vehicles 60 V and 600 V single-core cables 3 Abbreviation code structure 3.1 General A block of codes is used for the abbreviated identification of electrical cables for road vehicles. The code block structure is described
13、below. The order of the codes used in the code block indicates the structure of the cable, from the centre outwards. For the sake of clarity, special characters such as hyphens, plus signs and parentheses may also be used. 3.2 Cable type code The code block always starts with one of the following ch
14、aracter groups, depending on the nominal voltage: FL (Fahrzeugleitung: vehicle cable) voltage class A as defined in ISO 6469-3 FHL (Fahrzeug-Hochvolt-Leitung: vehicle high-voltage cable) voltage class B as defined in ISO 6469-3 FZL (Fahrzeug-Zndleitung: vehicle ignition cable) as defined in ISO 3808
15、 3.3 Special design feature codes Where necessary, the code for special design features (see Table 1) is placed directly after the cable type code. If there are several special design features, these codes shall be arranged in alphabetical order. Table 1 Special cable design features Code Meaning F
16、flat cable Z multicore cable with cores that are easily separated K compressed conductor DIN 76722:2013-12 5 3.4 Conductor material codes Where necessary, the conductor material code is placed after the cable type code and the code(s) identifying special design features. No code is used for copper c
17、onductors. Other conductor materials shall be identified by the codes listed in Table 2. Table 2 Codes for conductor materials Code Meaning Al aluminium W resistor material M other conductor materials To identify other conductor materials more precisely, the alloy designation may be used instead of
18、the code M. To identify the alloys, the chemical abbreviations normally used in the periodic system of elements shall be used, without concentration information. 3.5 Insulation wall thickness Where necessary, the code for the insulation wall thickness (see Table 3) is placed after the codes for cabl
19、e type, conductor material and special design features. Table 3 Codes for insulation wall thicknesses Code Meaning R reduced insulation thickness (“thin wall” as defined in ISO 6722) U ultra-reduced insulation thickness (“ultra-thin wall” as defined in ISO 6722) S special insulation thickness no cod
20、e thick-walled insulation (“thick wall” as defined in ISO 6722) DIN 76722:2013-12 6 3.6 Insulation and sheath materials The code for insulation materials (see Tables 4 and 5) is placed after the codes for cable type, conductor material, special design features and insulation wall thickness. The shea
21、th material code is placed at the position corresponding to the location of the sheath in the cable structure, beginning from the centre outwards. The information given in the “Meaning” column shows the industry-standard abbreviations and explanations, but does not give unambiguous chemical descript
22、ions. Table 4 Thermoplastics and thermoplastic elastomers Code Meaning Y PVC (polyvinyl chloride) 2Y PE (polyethylene) 4Y PA (polyamide) 5Y PTFE (polytetrafluorethylene) 6Y FEP (tetrafluorethylene/hexafluorpropylene) 7Y E-TFE (ethylene/tetrafluorethylene) 9Y PP (polypropylene) 10Y PVDF (polyvinylide
23、ne fluoride) 11Y TPE-U (thermoplastic polyurethane, PUR) 12Y PBT (polybutylene terephthalate) 13Y TPE-E (thermoplastic polyester elastomer) 31Y TPE-S (thermoplastic styrol-block-copolymer) 51Y PFA (perfluoroalkoxy alkane) 52Y MFA (perfluoroalkoxy methylvinylether copolymer) 91Y TPE-O (thermoplastic
24、polyolefin elastomer) NY non-standardized thermoplastics and thermoplastic elastomers NOTE Where an “X” is used in the code instead of a “Y”, the respective polymer is used in the cross-linked form. If foamed materials are used, “0” is placed in front of the respective code. Table 5 Elastomers Code
25、Meaning 2G SiR (silicone rubber) 3G E/PRa (ethylene propylene rubber) 4G EVM (ethylene vinyl acetate) 5G CR (chloroprene rubber) 53G PE-C (chlorinated polyethylene) NG non-standardized elastomers aE/PR is the collective term for EPDM and EPM. DIN 76722:2013-12 7 3.7 Non-extruded cladding In the abbr
26、eviation code block, the code indicating non-extruded cladding (see Table 6) is placed at the position corresponding to the location of the cladding in the cable structure, beginning from the centre outwards. Table 6 Non-extruded cladding Code Meaning B foil shielding C braided shielding, metal D sp
27、iral wire (or served) shielding, metal G braid, nonmetallic L lacquering 3.8 Number of cores, nominal conductor cross-section, specific DC resistance per unit length The information on the number of cores, the nominal conductor cross-section and specific DC resistance per unit length (only for resis
28、tance cables) is placed at the end of the identification code block and separated from it by a space. The following information is to be provided in the following order: a) for single-core cables and cores in multicore cables: 1) the nominal cross-sectional area in mm2; 2) if there are special requi
29、rements on flexibility, the maximum individual strand diameter can be specified after the nominal cross-section and separated from this by a slash; 3) if wires with coated surfaces are used as indicated in Table 7, the code for the coating material shall be appended to the numerical value of the nom
30、inal cross-section and/or of the maximum individual strand diameter; and 4) conductor structures can be identified in accordance with ISO 6722 (all parts) by the letter A (for symmetrical), B (for asymmetrical) or C (for asymmetrical, fine strands) (see Table 7); b) for multicore cables: 1) the numb
31、er of cores; 2) the nominal cross-sectional area in mm2; 3) the maximum diameter of a single strand, if there are special requirements for conductor flexibility and 4) if wires with coated surfaces are used, the code for the coating material; c) for resistance cables, the specific DC resistance per
32、unit length shall be specified, in m/m, after the nominal cross-sectional value. DIN 76722:2013-12 8 Table 7 Conductor structures and surface coatings Code Meaning A symmetrical structure as specified in ISO 6722 (all parts) B asymmetrical structure as specified in ISO 6722 (all parts) C asymmetrica
33、l structure as specified in ISO 6722 (all parts), with fine strands Sn tin-coated wire surface Ni nickel-coated wire surface Ag silver-coated wire surface 3.9 Continuous operating temperature (temperature class rating) The continuous operating temperature rating as determined in accordance with ISO
34、6722 (all parts) shall be entered at the end of the abbreviation code block and separated from it by a space. The letter T is used to indicate the temperature, followed by the respective rating value in C. 3.10 Colour identification Colours are to be coded in accordance with DIN 72551-7. 3.11 Nomina
35、l voltage In the case of high-voltage cables for vehicles, the nominal voltage is stated in kV (AC/DC), and the value is entered after the temperature value and separated from this by a slash. DIN 76722:2013-12 9 Annex A (informative) Examples of how abbreviation codes of cables for road vehicles ar
36、e to be structured Figure A.1 Single-core PVC-insulated cable DIN 76722:2013-12 10 Figure A.2 Single-core PVC-insulated cable with copper-alloy conductor DIN 76722:2013-12 11 Figure A.3 Single-core resistance cable DIN 76722:2013-12 12 Figure A.4 Single-core cable (high-flexibility) DIN 76722:2013-1
37、2 13 Figure A.5 Multiple-core sheathed cable with double shielding DIN 76722:2013-12 14 Figure A.6 High-voltage single-core sheathed cable with double shielding DIN 76722:2013-12 15 Figure A.7 Multiple-core sheathed cable with double shielding and conductors with differing cross-sections DIN 76722:2013-12 16 Bibliography 1 ISO 14572, Road vehicles Round, sheathed, 60 V and 600 V screened and unscreened single- or multicore cables Test methods and requirements for basic- and high-performance cables
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