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UL 2556中對絕緣耐壓測試有三種方式.
: c: G- }, l) y0 O" ^7 c- d6.2 Dielectric voltage-withstand
1 J! f5 S! Q4 @6.2.1 Scope
' Y) p8 \5 g8 N" h) VThis test establishes the methods for determining the dielectric voltage-withstand of a wire or cable.+ e; T3 J: C1 X( l! W# p' D
6.2.2 Apparatus* T' X) i% n: U- N* G
The apparatus shall consist of0 Y/ U8 j' `+ L, Y# E' ^- z# h
a) an isolation transformer capable of supplying a test potential of 48 to 62 Hz, whose output
% p- f, M, J- U0 z! |- m, Bpotential is continuously variable from near zero to at least the specified rms test potential;4 @9 i( m- T: R7 K$ ?
b) a voltmeter having an accuracy of ±5%, on the high voltage side of the transformer. If6 @+ I$ f. G0 K; P0 n$ ?/ {& g
analog, it shall have a response time that does not introduce a lagging error greater than 1% of7 K: F9 }+ n/ X( d
full scale at the specified rate of increase in voltage;$ z" Q0 U( d0 u
c) a fault current indicator;4 u% ^ Y' x5 h8 u& h- H9 ^
d) a forced-air oven as described in Clause 4.2.3 Item (i), having insulated bushings for
* k8 j; f7 l9 jconnection of the test voltage while the oven is closed;
" L; g/ `1 Y" Fe) a temperature-measuring device with an accuracy of ±1 °C;
; a, ~ l- j& G- A# k6 W/ C! af) a tank filled with tap water; and
9 E! w* q$ i ?( p. T5 Xg) a means of grounding, maximum impedance of 15W.
" k# X- z; Z2 [- R6.2.3 Preparation of specimens) x' i8 ]( d3 D# a
6.2.3.1 Method 1 (in water)7 w" C; S+ k" l9 f4 E
Both ends of the individual conductors shall be made bare.
% ]4 W" M& S' \4 `In preparing the wire for test, each end of the specimen shall be brought out well above the water level% V' f, a! J% |1 m5 r2 v# p' z- `
in the tank, where applicable, and the covering removed from the surface of the insulation for a short
F+ S5 z* z. e O- `distance if necessary to prevent surface leakage. The temperature of the water in which the specimen is
6 _: C5 Z0 Q4 O7 x; Simmersed need not be controlled unless specified in the product standard.& H+ R& y% {( }$ N# p+ Q( G1 E1 @
Unless specifically required by the product standard, a shielded or metal-covered single-conductor
9 L! J6 K" E. jspecimen need not be immersed in water, the test voltage being applied between the conductor and the1 K# W* Q7 j( _9 {$ v) g
shield or metal covering.
+ ]/ _- u% ~8 [Unless specifically required by the product standard, a multiconductor cable need not be immersed in* M5 s: _6 q2 C8 q! _6 \* I
water, the test voltage being applied between each conductor and the electrode, consisting of all other
8 S9 d4 Q1 u/ s$ j3 h |conductors connected together and to all shields and metal coverings, as applicable.& s$ m: k. f: c/ c' K, t
In all cases, the ends of the conductor of the specimen shall be spaced from the grounded electrode a
2 U+ B M) I1 |4 z9 Bsufficient distance to prevent corona or flashover at the ends during application of the test voltage.3 p# |& @6 Z) h. L
6.2.3.2 Method 2 (in air)
- m$ X/ U0 J z6 ^# rBoth ends of the individual conductors shall be made bare.5 q. T7 a! l3 W& M1 F) ^/ C0 G0 t* ]6 {
For a single-conductor cable, a grounding electrode, when not present as a component, shall be applied.! \- a: x. x: C n% o0 `# Y
A snug-fitting close-weave copper braid, a metallic tape, or graphite have been found to be acceptable./ ~# D: |% E4 I$ W& U
6.2.3.3 Method 3 (in air at elevated temperature)6 N2 ?& ?: m7 ^& y6 P% J
Both ends of the individual conductors shall be made bare.
$ w" N# N5 N' e: jFor a single-conductor cable, a grounding electrode, when not present as a component shall be applied.
! O3 b5 {: \9 D7 x: HA snug-fitting close-weave copper braid, a metallic tape, or graphite have been found to be acceptable. |
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