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电线标准 EN50525是欧洲电线标准,目前最新版为EN50525-2011, 将代替使用多年的欧洲协调标准HD 21(PVC)和HD 22(橡套线)两个标准
+ t. y6 ?9 v J; `. J9 m( d生效
7 w4 \" N/ _1 @: a$ C, ?2 k4 IEN50525标准2014年1月份开始生效。目前很多取得欧洲国家认证的电线厂家在着手准备和进行证书换版。 日期
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) w3 L$ O; d& e常见的EN50525标准有德国的DIN EN 50525-1(VDE 0285-525),英国的BS EN 50525,都等同于EN50525。
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# b: y8 n: u3 r/ U# U/ Y- w( ~1 j+ GBS EN 50525-1:2011 ELECTRIC CABLES - LOW VOLTAGE ENERGY CABLES OF RATED VOLTAGES UP TO AND INCLUDING 450/750 V (U0/U) PART 1: GENERAL REQUIREMENTS(DIN EN 50525-1:2011/ VDE 0285-525-1)
/ `! b! Y8 N. t& V% rBS EN 50525-2-31-2011 ELECTRIC CABLES - LOW VOLTAGE ENERGY CABLES OF RATED VOLTAGES UP TO AND INCLUDING 450/750 V (U0/U) PART 2-31: CABLES FOR GENERAL APPLICATIONS - SINGLE CORE NON-SHEATHED CABLES WITH THERMOPLASTIC PVC INSULATION 5 W; O2 p3 c$ j" c! f# h9 D
& x X% Y- K4 j- uBS EN 50525-2-72-2011 ELECTRIC CABLES - LOW VOLTAGE ENERGY CABLES OF RATED VOLTAGES UP TO AND INCLUDING 450/750 V (U0/U) PART 2-72: CABLES FOR GENERAL APPLICATIONS - FLAT DIVISIBLE CABLES (CORDS) WITH THERMOPLASTIC PVC INSULATION ! G% _# Q* X4 D6 z4 F
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BS EN 50525-2-11-2011 ELECTRIC CABLES - LOW VOLTAGE ENERGY CABLES OF RATED VOLTAGES UP TO AND INCLUDING 450/750 V (U0/U) PART 2-11: CABLES FOR GENERAL APPLICATIONS - FLEXIBLE CABLES WITH THERMOPLASTIC PVC INSULATION & _& b+ h" k1 X0 [+ |
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BS EN 50395-2011 ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES % a! Z3 C% B3 S# e# ]) O/ t+ l8 ^
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BS EN 50396-2011 NON ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES
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DIN EN 50525-2-11 H03VV(H2)-F
: f4 u4 v6 \) {9 KCold impact test at -5 °C 5 j' y- ]' E8 A# h7 K* `$ G4 A
new: non-compatibility test
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, X$ w/ F" c: J$ u4 @, i! ]7 t, hDIN EN 50525-2-11 H05VV(H2)-F
; p9 [% W2 x# p( b' ?. i: |9 @Cold impact test at -5 °C
7 [, G# R0 Q! n+ V+ U/ ~2 N% z1 `new: H05VVH2-F 2 X 1,5
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DIN EN 50525-2-11 H03V2V2(H2)-F 4 L* ?$ {" e4 n# m) K
Cold impact test at -5 °C
9 A1 V m; S6 z9 t3 Z# \8 G. _new: non-compatibility test 1 K# ]7 i) F( W
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DIN EN 50525-2-11 H05V2V2(H2)-F ! X1 w4 { E j' n( Y1 s# a+ w# h9 B
Cold impact test at -5 °C 7 S3 Q1 M+ ^9 Z
new: H05V2V2H2-F 2 X 1,5
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& b' j3 c% v7 x9 u& C& Z) s9 ^DIN EN 50525-2-11 H05V2V2D3-F
( c+ [4 |; K* B2 kCold impact test at -5 °C " [$ B$ x8 @/ W6 j8 p* n2 v/ |( _
For all types: Voltage test after bending test with 2000 V
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; a2 M C6 ^. O8 SDIN EN 50525-2-12 H03VV(H2)H8-F 5 X8 r: @9 O/ x' Q8 H2 u$ g W
Cold impact test at -5 °C 8 F7 U% b7 j: O4 d/ B
new: non-compatibility test
0 ], a! B$ `2 K8 s1 ~7 z1 `% ANew requirements for the marking after coiling
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- N R' N# h5 u$ {2 D# VDIN EN 50525-2-12 H05VV(H2)H8-F 5 r6 K2 ]# f" F. h" \; [; ^2 m0 a. q
Cold impact test at -5 °C 2 D6 s# o, U: d! w( j
New requirements for the marking after coiling
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* L! A1 v% ~+ i ^- XDIN EN 50525-2-21 H05RR-F . ^$ Z/ ~, h! l' j2 h: p
new: cold bending test for the insulation at -35 °C
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DIN EN 50525-2-21 H05RN-F
' x- z/ o: }, Q' Jnew: cold bending test for the insulation at -35 °C
6 @* T" }8 u9 ~! r2 F, `! J+ V8 J |. pnew: H05RN-F 4 x 0,75 and H05RN-F 4 x 1
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) c6 s/ ~3 h4 u+ \2 CDIN EN 50525-2-21 H07RN-F, H07RN-F vieladrig
?+ m3 S2 j; Y* k Wnew: cold bending test for the insulation at -35 °C
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$ \, q: m; Q! d8 ^& UDIN EN 50525-2-21 H07RN8-F 8 I% f% _1 {3 v! K( c2 g; z
new: cold bending test for the insulation at -35 °C
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8 y. `' b9 \3 p ^. N2 ~DIN EN 50525-2-21 H05BQ-F 9 ]8 s6 a3 t, D: h
no changes
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DIN EN 50525-2-21 H07BQ-F
5 ], s; v( t* F p2 _7 bno changes / n) O& H9 B6 q! r; t
1 \5 T3 D9 ?$ S& _- x* @8 r6 ^DIN EN 50525-2-21 H05GG(H2)-F $ H+ \" f. g* Y( L7 ]* E
no changes
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DIN EN 50525-2-21 H05BB-F
4 b9 r& C' Q: q) X: y) q( rno changes
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DIN EN 50525-2-21 H07BB-F
5 S6 d, M8 y3 O5 Nno changes
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DIN ENDIN EN 50525-2-21 H05BN4-F
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7 z/ c' F* x+ G7 gDIN EN 50525-2-21 H07BN4-F, H07BN4-F multi core * l G4 F* |: Y5 n& ]1 r& }- b; k
no relevant changes 9 k" b- G2 b# I; ]4 ?& P2 G
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DIN EN 50525-2-22 H03RT-H 3 ^6 {" }2 n# l
no changes , k- J! l2 C! H# k* i. ]
H05RR-H und H03V4V4-H withdrawn & z' z' t. f! f, V
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DIN EN 50525-2-31 H05V-U/-R/-K ~; e" J) @8 u) }8 ~1 H% g
new: Cold impact test at -5 °C + S4 a p8 q- ]) j
. P5 O7 y; Q( t; s4 n5 \DIN EN 50525-2-31 H07V-U/-R/-K 4 V9 I T! U( p# u( h" n, @, Z
Cold impact test at -5 °C (new: -K)
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9 E+ k: l/ S! G+ `DIN EN 50525-2-31 H05V2-U/-R/-K + F' j& ^6 c6 E9 q2 `: c6 l
new: Cold impact test at -5 °C
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) U: _( K/ j; @2 }- bDIN EN 50525-2-31 H07V2-U/-R/-K
A/ e: ~3 F+ _+ j/ KCold impact test at -5 °C (new: -K)
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9 }7 X% ~& U" h& q$ U. d' y& b LDIN EN 50525-2-41 H05S-U/-K 0 I2 p/ \$ `4 A4 ]
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! u* n. K$ E4 A5 b1 J7 P) m6 pDIN EN 50525-2-41 H03S-K
6 E3 ^ v& b3 O" s6 q% q0 X" Fno changes
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: A- H6 x% Q% h7 z0 |$ X. `DIN EN 50525-2-41 H05SJ-U/-K
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DIN ENDIN EN 50525-2-41 H05SS-K
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DIN EN 50525-2-42 H07G-U/-R/-K
$ z7 |% c V" Z9 R4 `; G# fCold impact test at -5 °C
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DIN EN 50525-2-42 H05G-U/-K
) L. ~5 d8 x TCold impact test at -5 °C 2 ]2 r# e4 G4 `- v% j1 G
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DIN EN 50525-2-51 H05VV5-F 0 S! t! W$ L8 n& z$ v
The cable shall be marked with the code designation ``H05VV5-F`` : q3 N3 l* g0 U1 y* D, i7 w
Cold impact test at -5 °C * J3 B$ w6 @% E: F. y8 ]3 u2 c7 j
" e/ u/ n7 p! T* VDIN EN 50525-2-51 H05VVC4V5-K
% @* n+ o) s0 GThe cable shall be marked with the code designation ``H05VVC4V5-K``
7 q/ q* f/ Q" R/ U8 v% @6 ?Cold impact test at -5 °C
- A# Z4 V h. {/ X7 \changed calculation procedure for cables which number of cores does not belong to the preferred
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( Z P& Y) n- l- w' \DIN EN 50525-2-71 H03VH-Y 2 j2 m2 K. P' O
new: Cold impact test at -5 °C
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5 [* d2 p4 f) Y: oDIN EN 50525-2-72 H03VH7H-F % k" @+ E( H" Q9 T/ u
Cold impact test at -5 °C
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% z; c, Z8 A& |DIN EN 50525-2-81 H01N2-D/E 1 Z) H5 v% R3 Q' D1 o3 u' y
extension to 240 mm² : e7 H! ^. E) K. I0 F6 \, x6 `3 C
DIN EN 50525-2-82 H03RN-F ! v, V; o8 T( T" E, A/ C0 s
new: Cold bending test for the insulation at -35 °C 8 t3 ^9 ~# r1 O( _8 q/ g
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DIN EN 50525-2-82 H05RN(H2)-F ( P* c' B' M: _( W6 u3 z
new: Cold bending test for the insulation at -35 °C
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DIN EN 50525-2-83 H05SS-F; H05SST-F
0 o g- Q& z9 P. WThe insulation shall be a single layer # R2 I+ u* X+ T6 \0 Z2 g
; ^* N. s3 L7 D R# CDIN EN 50525-2-83 H05SSD3-K; H05SSD3T-K
, ?7 A% C8 [. U! E. UThe insulation shall be a single layer . N% q0 _+ M* n) ?9 c1 f7 t! d, z
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DIN EN 50525-3-11 H03Z1Z1(H2)-F
5 d7 `4 z( P( n. v% i2 xCold impact test at -5 °C ' |$ F) s# b8 f' z
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DIN EN 50525-3-11 H05Z1Z1(H2)-F " ?1 r3 n7 y/ S) {' y
Cold impact test at -5 °C & O' c% m1 Y6 ^9 a# r6 }
Voltage test after bending test with 2000 V : d, d8 Z/ @4 z! ~5 y
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DIN EN 50525-3-21 H07ZZ-F
. S' b' L7 |" Qnew temperature for compatibility test: 7 d at 100 ± 2 °C (old: 80 ± 2 °C)
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/ a# i1 p5 ^) ^6 B$ n) c) l" x! fDIN EN 50525-3-31 H07Z1-U/-R
: R7 V) v) t& d! w! a" hCold impact test at -5 °C + l U7 Z. w: ?, l4 S6 B! R$ \
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DIN EN 50525-3-31 H07Z1-K
9 E; w0 M! X; x& W: p: S/ W& JCold impact test at -5 °C 7 E( x8 a4 m4 _; G, |1 O {
1 s1 k2 o+ T( b$ @, Q$ _+ Y# IDIN EN 50525-3-31 H07Z1-U/-R , P: C! Y9 W+ o. N+ i/ ~
Cold impact test at -5 °
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DIN EN 50525-3-31 H07Z1-K
4 g/ O, `( r1 F) Q2 b2 NCold impact test at -5 °C
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DIN EN 50525-3-41 H07Z-U/-R 9 O, C; {- s% y) z
no changes
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5 v( k- C$ a" r& Z* }1 d4 M% Q) x4 ODIN EN 50525-3-41 H07Z-K $ [! H! }$ G3 {; [" M0 ?
no changes 7 a+ e, M) J9 g0 ^ d5 [
+ {1 a6 ]0 O/ k0 d7 |. y5 EDIN EN 50525-3-41 H05Z-U
' ]- d8 e* [, A: n/ F$ v3 _1 jno changes 0 i, p, g# {' z- R! T5 V4 Y1 H! Y
" {5 T# g& w; A" I @8 O4 mDIN EN 50525-3-41 H05Z-K " b+ u7 M$ N4 R" M$ l
no changes
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