|
The flexible cable is loaded with a mass such that the force applied is
& w3 k! @8 |- r) L! Q( |) S& t– 20 N for accessories with flexible cables having a nominal cross-sectional area exceeding" x1 D- h# c# [5 p
0,75 mm2;
# K7 W& S8 n# ]$ h W% I4 d+ z– 10 N for other accessories.$ s3 H" V/ R% ]& w
A current equal to the rated current of the accessory or the following current, whichever is the
5 I, }. d, p5 F ^1 `5 e0 blower, is passed through the conductors:7 n& A; M( C3 l
– 16 A for accessories with flexible cables having a nominal cross-sectional area larger than1 ]8 {% u7 E) J& C5 v
0,75 mm2;, c- D Z% P1 Q( N) L1 ^
– 10 A for accessories with flexible cables having a nominal cross-sectional area of/ t( y1 |; a9 N, |( p$ X. J
0,75 mm2;4 r4 M7 e% e3 ?. f
– 2,5 A for accessories with flexible cables having a nominal cross-sectional area less than
% _; l$ C1 S1 B! k/ `% V* k0,75 mm2.
. u$ R; ?( f, ?9 N6 j; f2 w6 F' AThe voltage between the conductors is equal to the rated voltage of the specimen.
5 w' ]. e; ~+ A+ TThe oscillating member is moved through an angle of 90° (45° on either side of the vertical),
( g3 d8 ?( z( m: K5 ?: {the number of flexings being 10 000 and the rate of flexing 60/min.: u; S* {# m+ B8 G
NOTE 4 A flexing is one movement, either backwards or forwards.
3 S6 b& N5 m A& w$ |, d" L: B60884-1 IEC:2002+A1:2006 |
|