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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
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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
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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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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) $ n3 F5 y; V9 E! P. z8 U) U) I
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 % w2 y& V1 k7 p' n2 y' i
8 x/ z7 B: p7 G5 s p- V7 IBS 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
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2 M: A, M4 j v' 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 0 o5 N9 p/ C4 X# p `" ~% ]+ L
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BS EN 50395-2011 ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES 7 }( ]8 z) g! t# Y# G/ P1 O- {2 ]
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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
: C, @" `0 v6 t' sCold impact test at -5 °C
5 `9 ^% Q8 Y1 J' G, wnew: non-compatibility test ( i/ w: v' e8 w$ T; ?8 l
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DIN EN 50525-2-11 H05VV(H2)-F % F( ~1 I$ d, @
Cold impact test at -5 °C
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' A v/ q7 x+ J! p$ D" Q: GDIN EN 50525-2-11 H03V2V2(H2)-F
1 a6 s; Q# } u( V1 v, _ yCold impact test at -5 °C 7 \* o% x# B7 a( Z) a# j
new: non-compatibility test & `' V! h3 P: M, q0 u7 ?+ Y
& V3 A0 \/ u, b& TDIN EN 50525-2-11 H05V2V2(H2)-F
) o* M5 \2 n( F; Z" E& } VCold impact test at -5 °C ( a; W% k, ~+ \" X
new: H05V2V2H2-F 2 X 1,5 8 B6 r7 I& u) \( z
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DIN EN 50525-2-11 H05V2V2D3-F
- }( a: \2 ] l: yCold impact test at -5 °C
, v, H8 |$ \- S) QFor all types: Voltage test after bending test with 2000 V 6 } f; C0 F) i# b
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DIN EN 50525-2-12 H03VV(H2)H8-F 9 V, `, X3 |0 m1 v5 c( e
Cold impact test at -5 °C $ K1 a3 B7 ]! O+ K$ V$ o9 N$ H# C* I' `
new: non-compatibility test 7 C: ^0 @' J5 h+ t
New requirements for the marking after coiling
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1 g' l; M8 p: r" k1 c5 h0 wDIN EN 50525-2-12 H05VV(H2)H8-F , ^- ^6 T/ e- C" j9 |0 G: f
Cold impact test at -5 °C
5 C9 S9 s8 V& N. `New requirements for the marking after coiling
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2 M) }1 U1 T) o3 z' }DIN EN 50525-2-21 H05RR-F 8 l" v9 w9 n0 Q$ ^9 i% H
new: cold bending test for the insulation at -35 °C
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DIN EN 50525-2-21 H05RN-F
" r7 O, X3 q/ O% v6 S* m# nnew: cold bending test for the insulation at -35 °C
* f8 G+ T8 d4 W& Q3 pnew: H05RN-F 4 x 0,75 and H05RN-F 4 x 1 " f0 s$ ^* K% G" |. P* X" L: Z
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DIN EN 50525-2-21 H07RN-F, H07RN-F vieladrig # @ ?8 @( A5 Z0 v* W0 L0 f
new: cold bending test for the insulation at -35 °C
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DIN EN 50525-2-21 H07RN8-F
0 ^+ u/ V( U; Onew: cold bending test for the insulation at -35 °C
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DIN EN 50525-2-21 H05BQ-F 8 T. a/ @1 F; H1 l4 ^
no changes
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DIN EN 50525-2-21 H07BQ-F
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DIN EN 50525-2-21 H05GG(H2)-F : U% l9 e$ E+ M4 G7 H3 k
no changes
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DIN EN 50525-2-21 H05BB-F ; r9 W2 l F4 W
no changes
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DIN EN 50525-2-21 H07BB-F
# D2 K2 B+ j) E" v2 Ano changes
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5 y0 o# A4 a8 }7 C& Y! SDIN ENDIN EN 50525-2-21 H05BN4-F ) m) B: D2 \/ ^# {5 @6 D
no relevant changes 5 Q$ W% B& ~8 `8 Z. e
( H2 ^0 }2 m m; m& aDIN EN 50525-2-21 H07BN4-F, H07BN4-F multi core
* U5 V6 [: _+ Bno relevant changes
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' }$ K m; S' ~9 ]DIN EN 50525-2-22 H03RT-H
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4 `- B6 r& r8 W! ?; s( \: J( Y# HH05RR-H und H03V4V4-H withdrawn " Y% a, Y: {$ p; O2 y( f7 D4 L% W; H5 t
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% y' X! m! M4 l2 bDIN EN 50525-2-31 H05V-U/-R/-K
8 P" }+ F4 s) S0 Lnew: Cold impact test at -5 °C
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( {0 P& M0 I3 O6 S. I: kDIN EN 50525-2-31 H07V-U/-R/-K
0 r: X' {0 G$ y7 I; N! bCold impact test at -5 °C (new: -K) / b; ^) T+ L- M' z& ]2 ^, u
/ C1 I! ~3 J: N5 s4 v$ }DIN EN 50525-2-31 H05V2-U/-R/-K $ q9 U4 V4 }# J$ a
new: Cold impact test at -5 °C
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$ }; Q% L+ q+ }8 }" U5 VDIN EN 50525-2-31 H07V2-U/-R/-K % i! d9 Z1 A3 W& U
Cold impact test at -5 °C (new: -K)
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DIN EN 50525-2-41 H05S-U/-K
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DIN EN 50525-2-41 H03S-K 4 G6 j; n: `" r" w( c+ _" }6 i& H8 D
no changes
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* u, X1 C3 z% G& O; UDIN EN 50525-2-41 H05SJ-U/-K
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* O6 K' {3 h8 J$ HDIN ENDIN EN 50525-2-41 H05SS-K 2 l! u/ t$ ]* S: g4 F$ N2 L
no changes
+ n" ]6 \" e# p0 Q% O5 b--------------------------------------------------------------------------------------
* ?& y- u0 m9 dDIN EN 50525-2-42 H07G-U/-R/-K 5 M/ D) w- p0 J6 V, T
Cold impact test at -5 °C + T- W" s) F, s
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DIN EN 50525-2-42 H05G-U/-K
+ q2 f* W; E: d/ U5 GCold impact test at -5 °C
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. A2 z5 D6 x& z, H# i" F' {9 BDIN EN 50525-2-51 H05VV5-F
5 p+ e! ]* @ w0 V) ~The cable shall be marked with the code designation ``H05VV5-F``
" M( A; d5 K1 \' `" m! r0 [Cold impact test at -5 °C
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$ m4 P+ p5 I8 P( p3 a+ |3 U- xDIN EN 50525-2-51 H05VVC4V5-K 8 q) s4 F1 ~4 J# x. E7 L
The cable shall be marked with the code designation ``H05VVC4V5-K``
6 ]' i4 f% o# E1 }Cold impact test at -5 °C
0 b: w9 D" D) Q: Z( j: U$ Lchanged calculation procedure for cables which number of cores does not belong to the preferred 5 ^6 |; e* m8 [# [+ E! D
ones
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6 W: ]8 K) `# x9 ~ ^DIN EN 50525-2-71 H03VH-Y
" i" j1 J/ z& S$ I) {4 G& ]5 A0 Cnew: Cold impact test at -5 °C 6 }) F- U% C) N' U
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DIN EN 50525-2-72 H03VH7H-F
' p( n3 J1 i5 H" DCold impact test at -5 °C ( f) m }$ h$ v' _# ]' R4 m% A
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DIN EN 50525-2-81 H01N2-D/E 7 c9 x% w! F9 J# A/ X/ r
extension to 240 mm²
7 U* U. ]# N& h S) H5 KDIN EN 50525-2-82 H03RN-F
- a4 f; L# l' Q- @6 u; m& n4 qnew: Cold bending test for the insulation at -35 °C
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/ W( a2 F, }# J. M5 r) B) h& B' G8 YDIN EN 50525-2-82 H05RN(H2)-F
& k+ k! R, O/ J: dnew: Cold bending test for the insulation at -35 °C ; G+ I; ~! U% Q W4 q
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7 @2 ]9 {- d' f5 c% @DIN EN 50525-2-83 H05SS-F; H05SST-F
. _# R8 g" L: }8 OThe insulation shall be a single layer
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DIN EN 50525-2-83 H05SSD3-K; H05SSD3T-K
9 \1 o% ?* U" w, B0 i- ~The insulation shall be a single layer 2 u7 c- `( O# \( `+ j& g
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DIN EN 50525-3-11 H03Z1Z1(H2)-F
6 F; O0 X+ o( P$ o2 VCold impact test at -5 °C
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DIN EN 50525-3-11 H05Z1Z1(H2)-F 7 \% k! c5 Y* i" a0 L$ k+ e8 n
Cold impact test at -5 °C
o% r- I' b* ]4 J. tVoltage test after bending test with 2000 V 9 ]: i3 J, B1 b( F
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7 u- v+ c* c: K8 ADIN EN 50525-3-21 H07ZZ-F ( J' ?7 u8 A' N! ]9 b9 N
new temperature for compatibility test: 7 d at 100 ± 2 °C (old: 80 ± 2 °C)
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5 J4 j, e( K% S+ |2 J$ gDIN EN 50525-3-31 H07Z1-U/-R 8 G: ?" I3 ^. O6 }7 H
Cold impact test at -5 °C " l' J; h9 x, S
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DIN EN 50525-3-31 H07Z1-K ( u# w7 i9 I1 w+ y# ~
Cold impact test at -5 °C
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0 m8 i3 ~: e; g5 R- \0 H6 GDIN EN 50525-3-31 H07Z1-U/-R
, N4 E6 E" u8 P% |1 T1 yCold impact test at -5 ° ! d; O D$ O* l* k. A( Z/ X! I& R3 q
2 S1 e; B8 w% h) O* x% j. W5 NDIN EN 50525-3-31 H07Z1-K 1 S$ C% `2 z! p0 b% O/ z1 `" {8 k
Cold impact test at -5 °C 7 x4 f6 z+ t& Q \3 I& g( f
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7 r& g3 z0 y9 W. {2 K& lDIN EN 50525-3-41 H07Z-U/-R
& J% F1 _; _/ [; H+ ^$ Z( ]/ eno changes
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1 j. [+ B% m6 ~DIN EN 50525-3-41 H07Z-K
, u6 s' _% G7 Z9 z7 M0 vno changes - L8 t5 k. `6 N
! U' I0 f5 a, g0 `" h7 j1 vDIN EN 50525-3-41 H05Z-U 2 P; H9 H: N4 G3 M$ R. \* B- x# W
no changes
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) _: @6 s. l/ S1 k3 u- H `9 ^. @% ~+ zDIN EN 50525-3-41 H05Z-K % s8 C/ D+ {* g6 o( B( c R
no changes
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