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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5 a$ z( W# f# M/ s# H3 k% E, W. K
生效: ?( _* m/ d" x; _* ]9 N" R
EN50525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) E1 S* |; i! ?0 K- X
分类部分
$ c% u0 \# k/ _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。 2 L6 b+ H- ]2 ?) ~( v0 ?& V i
1 D+ }2 W# }! R8 ]BS 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) $ x1 h* P* ?4 ]7 ^+ r
BS 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
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BS 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 5 _" H$ I7 q w' {, _4 D' z
9 x! y8 v7 g" o! `( R$ P' fBS 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
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1 }0 f+ J# [' ~6 a$ z( a/ PBS EN 50395-2011 ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES
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7 s7 U- }# A9 x! R" pBS EN 50396-2011 NON ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES
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DIN EN 50525-2-11 H03VV(H2)-F
* r+ |7 r# H F! O' W0 w- v* o+ vCold impact test at -5 °C
% F6 r+ X C1 {new: non-compatibility test R* z$ C$ ], }1 o
; v5 c/ B7 l' j7 r, ?: k ODIN EN 50525-2-11 H05VV(H2)-F
2 ?: R/ f: R% p; OCold impact test at -5 °C
, s; T8 {9 b4 |" f5 ]1 v7 znew: H05VVH2-F 2 X 1,5 ) e) t! n: N- E, _/ Y6 P
. R8 U1 o& u$ s( R7 g5 uDIN EN 50525-2-11 H03V2V2(H2)-F
0 k% O. g8 K: b4 |& Z7 {Cold impact test at -5 °C
2 K! x8 Z5 ?# {1 u6 [new: non-compatibility test 9 J: O- {- t. w0 X
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DIN EN 50525-2-11 H05V2V2(H2)-F 0 ]: y& m2 p! s3 h+ l
Cold impact test at -5 °C : U+ n0 T9 d* F0 ?7 R9 A1 Y6 b
new: H05V2V2H2-F 2 X 1,5
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9 K" \7 t1 t2 G5 W) l8 F RDIN EN 50525-2-11 H05V2V2D3-F
) g8 ?1 t& J, K) R0 v/ y' FCold impact test at -5 °C
1 R- j6 s; q0 u" cFor all types: Voltage test after bending test with 2000 V 5 g8 r" P1 n& T- ~$ [/ l0 K
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DIN EN 50525-2-12 H03VV(H2)H8-F & c* f0 K. ^2 f
Cold impact test at -5 °C , P; B8 `6 w/ h! }( V7 a0 X& S
new: non-compatibility test
% z6 C) c( Z0 ?2 X6 o: w' J, W9 _New requirements for the marking after coiling 0 e/ y/ k' L' H2 {
6 T' d5 Q. {$ u; B9 kDIN EN 50525-2-12 H05VV(H2)H8-F 3 H- ~" C2 _' T5 ]$ _/ N4 k! U
Cold impact test at -5 °C |( q$ u# }' j
New requirements for the marking after coiling
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0 e1 c3 j3 E. c0 e1 K1 B- q7 NDIN EN 50525-2-21 H05RR-F
! @) B! Y5 x0 @8 ~' Inew: cold bending test for the insulation at -35 °C ! n* Z; m7 O ~% p% ]& ~
& \* E. i! @0 l- V. @( x, T! rDIN EN 50525-2-21 H05RN-F
: h1 g% t; p+ B6 E5 inew: cold bending test for the insulation at -35 °C
( }, F0 I2 t0 Znew: H05RN-F 4 x 0,75 and H05RN-F 4 x 1
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DIN EN 50525-2-21 H07RN-F, H07RN-F vieladrig
- E, Z, p$ U% V8 u$ L) s( o! h) C# ^# Bnew: cold bending test for the insulation at -35 °C
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DIN EN 50525-2-21 H07RN8-F
1 g J. F% Z: T2 L6 bnew: cold bending test for the insulation at -35 °C 6 N3 c- v* Y9 O. G t
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DIN EN 50525-2-21 H05BQ-F $ M* y9 E- Q, p y
no changes
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DIN EN 50525-2-21 H07BQ-F
) D. n; B- m; Z" [no changes
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DIN EN 50525-2-21 H05GG(H2)-F 6 X6 r! o$ X- ~, ] W* z' |
no changes
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DIN EN 50525-2-21 H05BB-F ; L# d; V8 \2 N \( f; ? x0 ?+ S
no changes
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3 O/ _& W& Y6 j* b# k4 ]+ D% Z- F( zDIN EN 50525-2-21 H07BB-F
1 K3 K* O) k3 c, h/ ^9 i+ ano changes : L4 u0 B G; n$ U$ Y
% M. S# Y+ h) E- p6 cDIN ENDIN EN 50525-2-21 H05BN4-F
: [" F l8 X, W( l8 Ono relevant changes . X% C& S1 }$ K$ m5 |1 t
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DIN EN 50525-2-21 H07BN4-F, H07BN4-F multi core
, G }! A }8 I& k$ T6 xno relevant changes
) k% g+ q% S% O6 ^: i) m% O--------------------------------------------------------------------------------------
) c, F/ v/ X& bDIN EN 50525-2-22 H03RT-H
# U$ {# x- i2 |1 @no changes
, b. R+ y5 }7 Q0 @; VH05RR-H und H03V4V4-H withdrawn
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0 C1 `$ A+ y% E2 ^DIN EN 50525-2-31 H05V-U/-R/-K
( E% }% N! E( h/ K1 J; x( a b* I, X5 ?new: Cold impact test at -5 °C
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& R5 \5 B9 D+ N" p( y* C% T, WDIN EN 50525-2-31 H07V-U/-R/-K 1 I% }( ^6 _ T5 i
Cold impact test at -5 °C (new: -K)
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DIN EN 50525-2-31 H05V2-U/-R/-K
& W! T1 N' j! h1 N1 cnew: Cold impact test at -5 °C 8 y7 V1 z% ^. G6 X8 H1 n9 P7 H% N
4 t6 U% a5 {# \$ P& ~# g: K1 ~DIN EN 50525-2-31 H07V2-U/-R/-K ( \% q- o0 \7 z, F5 j. o. Z1 F2 k
Cold impact test at -5 °C (new: -K)
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" c$ V3 _) `3 l) hDIN EN 50525-2-41 H05S-U/-K 5 C( }, T# l. f6 H+ D5 g
no changes # b! u, v$ G+ V E! C
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DIN EN 50525-2-41 H03S-K & t# f- U! n$ ]
no changes
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9 j* G \" Z) z3 T3 l9 q" o' ZDIN EN 50525-2-41 H05SJ-U/-K v$ T: T5 F9 q: ?9 n
no changes
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DIN ENDIN EN 50525-2-41 H05SS-K
! X: ]. F7 q. c ~no changes 2 G7 u% q5 S6 ]; c$ K2 ?. R* Z
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' m$ p) h- b4 f3 K' O1 DDIN EN 50525-2-42 H07G-U/-R/-K
0 [2 a2 F- v2 h1 K- C# {1 ?Cold impact test at -5 °C * O. W( Z+ b2 S* m( B# t
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DIN EN 50525-2-42 H05G-U/-K ; v( @, ?* B9 ~7 S+ l& _; j: z
Cold impact test at -5 °C
6 n9 D$ p6 N9 a6 C, f8 J-------------------------------------------------------------------------------------- # Q- }; w$ ~4 ~
DIN EN 50525-2-51 H05VV5-F
, Y+ G5 B- ~$ l: I; a" }; M% pThe cable shall be marked with the code designation ``H05VV5-F``
" u8 }0 P! A' w7 Y4 v, ?Cold impact test at -5 °C , f; [3 J8 J; m% f) y" n$ D- K
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DIN EN 50525-2-51 H05VVC4V5-K ! g) H$ r; C3 L4 G [6 l; K
The cable shall be marked with the code designation ``H05VVC4V5-K``
% w. L2 g& B2 X1 @1 N* ^" zCold impact test at -5 °C
, K" s1 c1 l0 M. N# qchanged calculation procedure for cables which number of cores does not belong to the preferred
4 X/ m/ |# i& qones
9 [( |3 i3 B+ o8 G) _4 V3 j2 S-------------------------------------------------------------------------------------- ) Z4 _- `. s3 U1 p5 G
DIN EN 50525-2-71 H03VH-Y
/ q) N) C3 j& U: z. F I, B8 Tnew: Cold impact test at -5 °C 8 ?5 `8 a3 ?. G% y/ a+ G
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2 m/ e; k) j+ u2 I. FDIN EN 50525-2-72 H03VH7H-F " q+ k' X# S+ z" W9 f8 t
Cold impact test at -5 °C : l' x( W: T5 @8 ^% Y
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1 k* u+ R. t# P! c" X$ ZDIN EN 50525-2-81 H01N2-D/E
) M1 h$ \5 p/ e5 d a3 N# q. Kextension to 240 mm² & U% a6 _5 U4 a
DIN EN 50525-2-82 H03RN-F ) u( ^3 ?2 n$ q/ n$ o! {) s
new: Cold bending test for the insulation at -35 °C
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8 z/ Z# t, t- w, e* _DIN EN 50525-2-82 H05RN(H2)-F
7 K, b; o( \; H$ }* \/ F Dnew: Cold bending test for the insulation at -35 °C
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DIN EN 50525-2-83 H05SS-F; H05SST-F
3 K. |. n5 H1 U; u" ?The insulation shall be a single layer
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/ i# l9 N1 A/ f, K% r- e, c+ XDIN EN 50525-2-83 H05SSD3-K; H05SSD3T-K
' N4 }7 r9 w8 GThe insulation shall be a single layer
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DIN EN 50525-3-11 H03Z1Z1(H2)-F
' s' e: `7 ^1 N: E4 ]# H+ o, }/ JCold impact test at -5 °C
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DIN EN 50525-3-11 H05Z1Z1(H2)-F
7 o; Y/ U0 S" RCold impact test at -5 °C * A! k, }- J* [. @) ^9 c2 h
Voltage test after bending test with 2000 V
2 v* `3 T" v) S) T) |6 w+ j0 h: g# X--------------------------------------------------------------------------------------
) i6 W3 D' ?3 m3 VDIN EN 50525-3-21 H07ZZ-F 6 l2 m" e) Z6 Y( v0 h, N6 n; F
new temperature for compatibility test: 7 d at 100 ± 2 °C (old: 80 ± 2 °C) " }- C5 L, X3 L P9 Q3 ]5 d, O
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# A/ B+ I6 ~ q8 U1 u, Y8 s3 ODIN EN 50525-3-31 H07Z1-U/-R - r+ J8 Q6 Z' b% U- Q3 O
Cold impact test at -5 °C
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/ ?, A5 ^& m, e$ y$ i; u0 HDIN EN 50525-3-31 H07Z1-K
' m5 P1 c% k. N2 `* |Cold impact test at -5 °C
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DIN EN 50525-3-31 H07Z1-U/-R * Y+ G% A" p7 G& M' T; I
Cold impact test at -5 ° . h. V5 T: K* Z, h0 F
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DIN EN 50525-3-31 H07Z1-K
# Y# r3 S. A5 e, XCold impact test at -5 °C ) y' ]% }5 W0 C# V( m
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DIN EN 50525-3-41 H07Z-U/-R # `* d9 M# V+ f7 i! R
no changes . D1 ` k7 Y' @9 [& Z9 _
, N5 w/ U% R# Q8 i9 k% h' kDIN EN 50525-3-41 H07Z-K
% e8 t: j" U, s$ t+ S1 B8 fno changes
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( N+ t) I' i9 `' u- A9 ADIN EN 50525-3-41 H05Z-U - c* g8 g. M" Y; m6 G
no changes
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DIN EN 50525-3-41 H05Z-K
6 P& }* N( v# ]( f. ano changes
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