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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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/ b x: V1 p) n; t3 h. TEN50525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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8 H" N9 b1 k% L4 ^0 s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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) c: ~! R' J3 ^) D( p& jBS 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)
: Q, y7 R% \ z3 L iBS 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 * Y5 A/ N' ^2 E" \* G) W
, J5 Y: I/ O9 |* U ^1 fBS 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 S+ u0 S* V2 d" r
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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
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BS EN 50395-2011 ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES
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+ `+ N3 h* f$ o* v; W! \3 ~5 ZBS EN 50396-2011 NON ELECTRICAL TEST METHODS FOR LOW VOLTAGE ENERGY CABLES
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DIN EN 50525-2-11 H03VV(H2)-F
7 M$ H3 z# h( x/ d7 v. XCold impact test at -5 °C
( |& l$ s8 K4 X1 Xnew: non-compatibility test
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8 T! x3 s- l/ |DIN EN 50525-2-11 H05VV(H2)-F
; j V5 j# C& |5 E3 S) Z2 P4 d) [Cold impact test at -5 °C - X: o; m! Z; M% N, \
new: H05VVH2-F 2 X 1,5
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DIN EN 50525-2-11 H03V2V2(H2)-F
6 j0 K+ I ~/ `7 P8 y% zCold impact test at -5 °C 1 N/ Q3 ^$ \ X
new: non-compatibility test 6 h, h$ [: i1 f3 \! o' a
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DIN EN 50525-2-11 H05V2V2(H2)-F
+ e! |" Q V' ~Cold impact test at -5 °C 5 {* ^1 O6 A0 j+ o2 @6 {$ q
new: H05V2V2H2-F 2 X 1,5
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% h" I# l- G6 ADIN EN 50525-2-11 H05V2V2D3-F
4 p- t! d/ ~2 [7 X% c" \Cold impact test at -5 °C
0 _$ r; p2 f3 P: g# m- ZFor all types: Voltage test after bending test with 2000 V ( e5 \0 Y; s+ i- | a
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4 t; E9 g' J- }. o bDIN EN 50525-2-12 H03VV(H2)H8-F
' P* J Q2 H4 p* CCold impact test at -5 °C
/ P# F" ?: x: O3 [, ?1 pnew: non-compatibility test . i; w t% t* E6 @. _7 t
New requirements for the marking after coiling 4 \! u4 {: i% Y# ? X
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DIN EN 50525-2-12 H05VV(H2)H8-F
: R4 [) q8 F q& d7 kCold impact test at -5 °C
: q& b6 U& `! jNew requirements for the marking after coiling 5 C, B1 |' G- x0 F' O! r/ S8 {" \
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DIN EN 50525-2-21 H05RR-F
+ s) x4 y( N5 J* f# q1 Hnew: cold bending test for the insulation at -35 °C ( z6 J" f1 V% n
$ e5 W. E) K5 ?" k0 P! ADIN EN 50525-2-21 H05RN-F
* G; _7 ], E1 m. ? ]; vnew: cold bending test for the insulation at -35 °C " @* k% U3 T1 f2 ^
new: H05RN-F 4 x 0,75 and H05RN-F 4 x 1 & b0 |9 n* X8 G6 n
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DIN EN 50525-2-21 H07RN-F, H07RN-F vieladrig 7 ?; g7 V# W1 |$ [
new: cold bending test for the insulation at -35 °C
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" u( C8 ^+ [1 t P9 M5 bDIN EN 50525-2-21 H07RN8-F # f3 G. u+ N' F) T- s
new: cold bending test for the insulation at -35 °C 6 g; U" X3 Q. i4 \# F; r
3 Y S2 p0 V( h: h7 U6 JDIN EN 50525-2-21 H05BQ-F
& N9 F4 J8 h9 v: n$ F/ V- F* Hno changes
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DIN EN 50525-2-21 H07BQ-F ( g' r% {: N! F2 T! @. z' v& l
no changes
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S5 a; V3 Y5 M g2 M# K3 M7 FDIN EN 50525-2-21 H05GG(H2)-F
9 D) w. A; i1 a- ~1 A+ t8 _. ^no changes
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: i: D. d4 Y/ K/ ^DIN EN 50525-2-21 H05BB-F
y" G# d5 f9 x3 t! I3 pno changes 0 U7 ^+ n" g8 x1 a4 R) [+ t, @( A
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DIN EN 50525-2-21 H07BB-F
* [ a1 s3 c F* fno changes
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4 Y6 o/ c$ F" b: I3 uDIN ENDIN EN 50525-2-21 H05BN4-F
: k& Y. P5 v8 S' sno relevant changes , d/ _) V0 X% r
/ C/ o6 D0 K/ H `DIN EN 50525-2-21 H07BN4-F, H07BN4-F multi core
) F* H- `# p) D0 \, ino relevant changes 4 r1 \5 \9 G7 s9 n, n1 r% K1 q
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DIN EN 50525-2-22 H03RT-H
# E2 O" C& x! W# D. wno changes 9 F5 M) W- X z
H05RR-H und H03V4V4-H withdrawn 5 t' |: H* `. `" y o* @
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DIN EN 50525-2-31 H05V-U/-R/-K
% ~; c1 v3 ?& ]new: Cold impact test at -5 °C 1 D5 E @4 h3 B% g
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DIN EN 50525-2-31 H07V-U/-R/-K 9 j% X [( F' b/ V! u$ c j5 _0 t
Cold impact test at -5 °C (new: -K) 9 F, C! O: e- r( q" e* e& n4 V! A9 `
) S: L# i, ~9 vDIN EN 50525-2-31 H05V2-U/-R/-K X& R; l- |5 J# f# A
new: Cold impact test at -5 °C # Z1 @0 Z; {3 S6 F) U1 u ]+ c
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DIN EN 50525-2-31 H07V2-U/-R/-K
, G3 x8 w, _! J$ u+ J( s5 lCold impact test at -5 °C (new: -K)
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$ ^3 Z# S: i3 B; c( l) oDIN EN 50525-2-41 H05S-U/-K ( p( Q g5 p, m" D% [* l3 S
no changes $ z" v. b: V$ w- n- Q. D
1 k! U" Y% Q b5 b- ^DIN EN 50525-2-41 H03S-K 7 i5 o& |, U- e' X) P
no changes o* L1 v* a+ f( d* d+ j
$ j; Q* m) Z( D- iDIN EN 50525-2-41 H05SJ-U/-K
, K) t! h( r3 K3 M4 H. Eno changes
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$ [; |( s: o8 LDIN ENDIN EN 50525-2-41 H05SS-K
i) O1 q5 s2 e5 wno changes 6 |$ A- F; y: p
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DIN EN 50525-2-42 H07G-U/-R/-K
* \* r+ C @/ S5 pCold impact test at -5 °C
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' K% N8 b7 {: _+ @. uDIN EN 50525-2-42 H05G-U/-K g1 f# B! |# Y0 B' h: o) Y
Cold impact test at -5 °C
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4 X3 u3 h9 Q3 \/ rDIN EN 50525-2-51 H05VV5-F / l7 z: |3 Y k) \
The cable shall be marked with the code designation ``H05VV5-F`` 9 ?% j$ ^& f0 g2 S% I
Cold impact test at -5 °C 3 p4 w% ]9 Z; `
8 b& G+ G, {0 }' ~) o- t9 ODIN EN 50525-2-51 H05VVC4V5-K 6 F+ N9 v$ b; X- u. h
The cable shall be marked with the code designation ``H05VVC4V5-K`` ) X% [* h' f0 N3 N$ q2 Z# c
Cold impact test at -5 °C
; T5 H! f* z- r4 achanged calculation procedure for cables which number of cores does not belong to the preferred 7 G( x) E* s, Z9 T9 P
ones
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DIN EN 50525-2-71 H03VH-Y
9 P" S# z( M' U2 R! r+ D1 Y9 Y5 h @new: Cold impact test at -5 °C 0 {! [+ Y. x8 N v5 S* V
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DIN EN 50525-2-72 H03VH7H-F
! ~) r. W; D" L7 K yCold impact test at -5 °C
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DIN EN 50525-2-81 H01N2-D/E
; h8 U& [1 ?. X% aextension to 240 mm² / n6 z9 U: R4 b) v/ E, x
DIN EN 50525-2-82 H03RN-F
. `. Z$ L3 B% q" M5 m/ hnew: Cold bending test for the insulation at -35 °C
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% f" I; p, s5 f- T+ DDIN EN 50525-2-82 H05RN(H2)-F 1 o) V: V! H5 Y& f9 a! N
new: Cold bending test for the insulation at -35 °C
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- Z$ r+ S( U' ], SDIN EN 50525-2-83 H05SS-F; H05SST-F
& O7 L& L$ A( |2 b7 dThe insulation shall be a single layer
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4 r5 N3 ]6 C6 p; Y( kDIN EN 50525-2-83 H05SSD3-K; H05SSD3T-K
9 h8 ], v7 m) W" ^! z" TThe insulation shall be a single layer
+ O6 M3 c- A( J! k) ?& T-------------------------------------------------------------------------------------- ' B6 |! Q( G+ \4 Q3 a" \8 K
DIN EN 50525-3-11 H03Z1Z1(H2)-F f, G* N; K. [3 {2 U0 {( }
Cold impact test at -5 °C h1 j- w: L: h* Z' y: g5 r) j. E
0 ]3 @& J1 L1 eDIN EN 50525-3-11 H05Z1Z1(H2)-F # b5 S( x3 L- y" H8 q( E/ ?
Cold impact test at -5 °C ) L5 y I/ n! K& r L
Voltage test after bending test with 2000 V ) G0 h7 N" |, X# O7 J) F5 o9 z
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3 H# U$ @2 R* X6 TDIN EN 50525-3-21 H07ZZ-F 3 q# E: f6 ~( A* |7 ~
new temperature for compatibility test: 7 d at 100 ± 2 °C (old: 80 ± 2 °C) ( ]# S3 c* m9 D' V" E* H0 Q: f
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DIN EN 50525-3-31 H07Z1-U/-R % n4 @, `4 ~7 ^ B: j5 l
Cold impact test at -5 °C " F9 f |* B5 p+ u; \
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DIN EN 50525-3-31 H07Z1-K 0 v5 m2 D( k b
Cold impact test at -5 °C
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DIN EN 50525-3-31 H07Z1-U/-R
q8 h8 ?- g k& a- MCold impact test at -5 ° 7 e; c4 F& [* }: S
1 P9 q1 y- R. J% ~5 x" hDIN EN 50525-3-31 H07Z1-K
: i: e/ G( d4 D4 X: B1 N1 tCold impact test at -5 °C
, `3 `2 m4 H/ h. U6 Z9 q--------------------------------------------------------------------------------------
3 ~+ p' c. q3 _& i" Q- v; kDIN EN 50525-3-41 H07Z-U/-R
+ I* i9 X# j2 ~no changes
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DIN EN 50525-3-41 H07Z-K 2 i& @3 B* @% [' I
no changes . }; f; K* V% X
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DIN EN 50525-3-41 H05Z-U ' R) w, H+ z/ _5 f) |- o% y. S: d
no changes
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DIN EN 50525-3-41 H05Z-K , u; k+ S9 Q) S4 Z( v: h! m
no changes
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