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| DSH 416
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; `4 Q: K" E' r: u) y; b5 S2 P | Leakage current of floating circuits4 V+ ^5 e! b ]3 y, O& h$ W
| 20, 20.2
5 ?8 ~/ |5 `/ B. w( V | 60601-1(ed.2);am1;am27 J; E( L4 R" H: S! d" `3 y
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/ R. n5 `/ K, i9 u# J0 J/ r, ZStandard(s)- (year and edition):
! ?5 |' U" c! e' _3 X1 NIEC 60601-1:1988 Ed.2 Am1+Am2) E9 y7 R0 I- z$ E$ Z
Sub clause(s): 20, 20.26 ~7 S" N4 T6 |( c6 a6 I
Sheet n°: DSH-416" u* [- p( B% V2 h( }' k1 \9 i
Subject: Leakage current of floating circuits6 d' D# I5 S7 y: X3 D
Key words: Floating circuits, leakage current8 N. ]% X' \/ X; h3 X0 G
Confirmed by CTL at its 39th meeting, in Cologne
' c5 O) u. C# h* P" SQuestion:
+ j( C2 g! ~( L B# C/ GEQUIPMENT may contain floating circuits which under the definition 2.1.10 would not be
5 f {7 a5 O9 m0 econsidered as LIVE, since contact with these parts could not result in excessive leakage
' P. s: q( j/ U% Ecurrents to earth or to other ACCESSIBLE PARTS. There would therefore appear to be no
" m# q, u" g1 G0 N* o1 Q- X: srequirements for safety separation between these circuits and ACCESSIBLE PARTS or8 {6 q" u& }! Y9 C0 Y* w
APPLIED PARTS. But voltages within these circuits or in conjunction with other circuits may8 R' J8 M/ E0 d! q7 A
lead to currents exceeding the values given in Table IV.2 S6 O, H! {) u( ~+ p( p& `7 n
Decision:4 F7 k y6 \2 Q* i
If the failure of insulation of such isolated circuits is likely to lead to a SAFETY HAZARD, such# t, [( I2 }0 W* h
insulation should be short-circuited before determining whether a part is LIVE. This shortcircuit
0 p1 O" z" I& j! sshould not be treated as a SINGLE FAULT CONDIT ION unless the insulation
) @8 v+ c) b; i( C) ~0 P4 E+ M& Vconcerned satisfies the requirements for BASIC or SUPPLEMENTARY INSULATION
8 F4 e* G* T1 A/ n1 Lnecessary for the voltages within the isolated part./ D( L3 U8 E N" |6 Z$ U
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