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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0 n% C; P% H. ^
生效
2 q# d. |7 {6 H6 }- X- p! jEN50525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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2 }$ s7 J+ ^1 j% `8 H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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+ M+ l; n5 e$ ?! T5 _; IBS 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)
+ u% b Q7 p$ C: S+ mBS 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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$ W; d6 @: [. p- m& n" x8 R7 B+ ^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 , u, {9 m3 W/ t$ e% N9 i6 h' z9 h
" ]; a$ x+ ~: _9 Z( _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
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% ]# T+ A# z5 ` e6 w+ k5 nBS EN 50395-2011 ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES 1 b& [. P4 W7 X7 L+ E+ P) I/ e& C
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BS EN 50396-2011 NON ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES $ f% i; b5 z) I& }0 J5 M6 L1 W* e
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4 c( |3 @7 _. [% XDIN EN 50525-2-11 H03VV(H2)-F
) o' B( L9 K) i) a KCold impact test at -5 °C 3 P4 c% }/ N2 R3 p
new: non-compatibility test 5 x. |' g& q) I# T s& e% t
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DIN EN 50525-2-11 H05VV(H2)-F
& @7 `0 L8 ~3 e! O" ?& K2 u8 ~1 v( tCold impact test at -5 °C $ Y. X/ \: Q- o! r8 e5 Q
new: H05VVH2-F 2 X 1,5
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DIN EN 50525-2-11 H03V2V2(H2)-F 7 J$ m" y: a. ~# U1 U! V- v
Cold impact test at -5 °C , @8 w) R) } G0 I% W
new: non-compatibility test & q+ t2 h: h3 `: O
W: }$ Y8 H* Q! G9 J: w" Q+ pDIN EN 50525-2-11 H05V2V2(H2)-F
s3 X( q6 {& PCold impact test at -5 °C
5 r4 D$ p! v! F" Snew: H05V2V2H2-F 2 X 1,5
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- T0 d/ ~" L: S% J3 k/ S! ?% [) KDIN EN 50525-2-11 H05V2V2D3-F 5 d9 u9 G" S" e* X4 Z
Cold impact test at -5 °C , B! w7 u7 ^. G2 T% d3 g7 ]
For all types: Voltage test after bending test with 2000 V
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DIN EN 50525-2-12 H03VV(H2)H8-F
6 ]( f9 d- h: q J) J& L! Z1 xCold impact test at -5 °C
7 Z; M/ X; y5 Q0 K3 O' lnew: non-compatibility test
; k* j: P! [9 r% S6 ^New requirements for the marking after coiling , c6 O7 H* R/ F- N6 [! e, V
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DIN EN 50525-2-12 H05VV(H2)H8-F
4 G! a# B) C' s* OCold impact test at -5 °C
/ o$ V' |8 }- r( BNew requirements for the marking after coiling
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DIN EN 50525-2-21 H05RR-F
( V: Y( y) J6 y L Tnew: cold bending test for the insulation at -35 °C * R4 A) \( z1 n1 V$ X5 i
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DIN EN 50525-2-21 H05RN-F ' C# R- E3 ?$ ~5 O
new: cold bending test for the insulation at -35 °C / A4 I8 y; ? C- j7 x. `
new: H05RN-F 4 x 0,75 and H05RN-F 4 x 1 - H. Z8 r) r7 i/ T
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DIN EN 50525-2-21 H07RN-F, H07RN-F vieladrig
, \' O+ k/ J1 V+ e. Wnew: cold bending test for the insulation at -35 °C
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% o$ k( J0 E: Y4 w1 U5 i$ ZDIN EN 50525-2-21 H07RN8-F
% S- V/ e1 v" Q& Wnew: cold bending test for the insulation at -35 °C
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# U" A7 \# E$ i$ M& w) `DIN EN 50525-2-21 H05BQ-F
- S. ?0 F- ?0 J) [! pno changes , G2 k! y! R0 H- X3 A. F0 g3 ^ n( X, z
5 B" X5 q! r2 bDIN EN 50525-2-21 H07BQ-F ' V# i% o& S! s& N" I
no changes
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: K) q" h* X- P9 z% y/ z$ HDIN EN 50525-2-21 H05GG(H2)-F
1 S0 i, G: i9 R) `6 zno changes 4 v0 R, f# `( z& z
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DIN EN 50525-2-21 H05BB-F
. `7 [" v( w2 O; {# Y: Rno changes 9 b5 ]! q; D7 {
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DIN EN 50525-2-21 H07BB-F
' T( X" f+ @3 g: u e# W5 N8 a0 N8 Bno changes , u! a7 i! C8 |% g' {& q( w
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DIN ENDIN EN 50525-2-21 H05BN4-F 1 O# d2 k5 b! u) A7 h, G
no relevant changes
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- v K3 a: O$ t# _2 K" n6 q7 @2 bDIN EN 50525-2-21 H07BN4-F, H07BN4-F multi core 5 ?! A4 m# @' G9 ]
no relevant changes
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7 X; s$ a B3 g* I5 NDIN EN 50525-2-22 H03RT-H
5 D: S. b2 p8 ]no changes
: n1 \# ?# h( |& T6 `( {% B, C3 O. EH05RR-H und H03V4V4-H withdrawn * j2 J# G6 `8 P. p* h" ]6 T! ?% @
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DIN EN 50525-2-31 H05V-U/-R/-K 0 A6 h o* ~( e2 @8 N
new: Cold impact test at -5 °C C2 |$ A7 G+ m7 X: M% p4 g
# D0 V0 C2 C& i- c( _DIN EN 50525-2-31 H07V-U/-R/-K
+ V; Z, {, n4 q8 X; c3 xCold impact test at -5 °C (new: -K) % i) Z8 ?" k, [
" m2 R: C$ n: Q3 ~0 a8 @0 r5 hDIN EN 50525-2-31 H05V2-U/-R/-K " ^* i; O) y6 Q- H
new: Cold impact test at -5 °C
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& N! J" f, {. c" KDIN EN 50525-2-31 H07V2-U/-R/-K * U: C3 }+ B- l7 d# D3 W
Cold impact test at -5 °C (new: -K)
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$ B; E! C N: K6 sDIN EN 50525-2-41 H05S-U/-K
# M, q- a& g0 x- z$ kno changes
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DIN EN 50525-2-41 H03S-K ) k8 M5 R- \1 |. M" [/ P2 G3 c
no changes
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DIN EN 50525-2-41 H05SJ-U/-K
5 k+ B$ ?# t* l3 E% f6 Ino changes
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DIN ENDIN EN 50525-2-41 H05SS-K " P' D: O' u2 n8 J3 o" `; f$ x
no changes ! H; o5 ~$ F- I: b
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% S4 x4 O4 ^0 x" F- [DIN EN 50525-2-42 H07G-U/-R/-K 3 O( O4 M& L7 A+ I! L1 }
Cold impact test at -5 °C 7 k% X | D O. G. g
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DIN EN 50525-2-42 H05G-U/-K " K1 c, D2 x7 G* E8 k
Cold impact test at -5 °C , R. _* V5 L/ D9 H. Q, o+ L- L7 ~
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. _) e. O& E3 e: f @DIN EN 50525-2-51 H05VV5-F L8 z2 a/ O9 x6 x; A% F( m' b% Q
The cable shall be marked with the code designation ``H05VV5-F`` 1 W7 O: _. _1 i3 u q. b7 u
Cold impact test at -5 °C
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DIN EN 50525-2-51 H05VVC4V5-K ! H% D6 B; w; T: F- t
The cable shall be marked with the code designation ``H05VVC4V5-K`` ' a) s4 W" ]5 r' A5 B- _0 x
Cold impact test at -5 °C 4 f* [$ }1 o N+ |
changed calculation procedure for cables which number of cores does not belong to the preferred 8 K* M- c9 c' H# l
ones
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DIN EN 50525-2-71 H03VH-Y
4 F5 u' m5 D: tnew: Cold impact test at -5 °C
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% l) ` x; h! s) ADIN EN 50525-2-72 H03VH7H-F 0 ^* E. j. m1 ?3 \
Cold impact test at -5 °C ' X9 k5 i, P$ \. a; W& W
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3 p8 w6 W" `2 O0 U. DDIN EN 50525-2-81 H01N2-D/E
" b' R ]5 e5 ~6 Jextension to 240 mm² - V, t" \; b/ @2 {7 g
DIN EN 50525-2-82 H03RN-F
+ M& P7 e5 l. U1 b( |8 d6 o$ jnew: Cold bending test for the insulation at -35 °C : L% ^0 {( N! j, w! y
# [* ^- [5 b: e+ CDIN EN 50525-2-82 H05RN(H2)-F
* N4 L, b6 C$ b2 z' Xnew: Cold bending test for the insulation at -35 °C
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9 d u& S0 c& u1 g% mDIN EN 50525-2-83 H05SS-F; H05SST-F
u: y* S, j+ Z9 E; Y, jThe insulation shall be a single layer
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( f" a: _# j% B0 JDIN EN 50525-2-83 H05SSD3-K; H05SSD3T-K
" z6 f' j2 n. wThe insulation shall be a single layer 6 s6 o) i: Y2 n N2 U: T8 M
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5 L( q4 i3 d7 H4 @# UDIN EN 50525-3-11 H03Z1Z1(H2)-F , e0 P1 q6 g- \+ U; c/ R g: e/ R2 \+ w
Cold impact test at -5 °C , k2 J! I- \) p2 b- D2 R
" X; i0 s) H$ f. h0 d6 L9 B/ wDIN EN 50525-3-11 H05Z1Z1(H2)-F
; l/ S$ y+ Q% M/ d' O+ lCold impact test at -5 °C
|$ B& S: F- j* h$ u+ g8 c$ dVoltage test after bending test with 2000 V . n" ]9 \, M8 ~, ]* A
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DIN EN 50525-3-21 H07ZZ-F
8 K- H8 R1 A) s2 k: X( @new temperature for compatibility test: 7 d at 100 ± 2 °C (old: 80 ± 2 °C)
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0 S. I% R b4 x5 {: LDIN EN 50525-3-31 H07Z1-U/-R
6 ]' u: K6 J7 g/ I8 z; dCold impact test at -5 °C
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]. Z: a5 L5 k% ?5 M! {DIN EN 50525-3-31 H07Z1-K
! H6 f" B7 ]8 z, g9 e! H0 jCold impact test at -5 °C + j4 Q _0 k; S6 \2 y* X1 S6 d
, X. S1 U2 ^1 S6 x* l5 pDIN EN 50525-3-31 H07Z1-U/-R , B) P' I2 P+ o5 L% y2 D% n4 S
Cold impact test at -5 °
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DIN EN 50525-3-31 H07Z1-K ; X: `+ J n: j* o4 A) y2 r
Cold impact test at -5 °C
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DIN EN 50525-3-41 H07Z-U/-R
; k; q" G% `( G# F2 y2 Yno changes + k) k- d( r& {7 R& C
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DIN EN 50525-3-41 H07Z-K Y9 ]' n3 b- T' A3 W
no changes
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' i1 b* D- b. t {1 `* uDIN EN 50525-3-41 H05Z-U
9 T- l+ G1 m% f7 f0 A; Tno changes
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+ o$ t+ S& n4 ?6 K6 q) v5 P( ODIN EN 50525-3-41 H05Z-K ( B6 }) n. e9 |0 j
no changes
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