for technical questions, contact: sales@hv-caps.com www.hv-caps.com ceramic disc capacitors class 1 and 2, 1 kv dc to 50 kv dc , general purpose ceramic disc style capacitors with 7.5 mm (0.30") to 15 mm (0.40") lead spacing(p) operating temperature range class 1 sl, - 25 c to + 85 c class 2, y5t, y5u, y5v, - 25 c to + 85 c class 2, x5f, x7r, n4700 - 40 c to + 125 c temperature coefficients class 1 sl class 2 x7r, y5p, z5u, y5v, x5f features ? low losses ? high stability ? high capacitance in small size ? kinked (preferred) or straight leads ? compliant to rohs directive 2002/95/ec applications ? dc high voltage ? pulse high voltage ?smps ? hv power supply ?hf ballast design the capacitors consist of a ceramic disc both sides of which are silver-plated. connection leads are made of tinned copper. the capacitors may be supplie d with kinked or straight leads with a lead spacing of 5 mm (0.20"), 7.5 mm (0.30") or 10 mm (0.40") and a lead length from 4 mm to 30 mm. the standard tolerance on capacitance is 5 % or 10 % for class 1 capacitors and 10 % or 20 % for class 2 capacitors. encapsulation is made of blue-colored epoxy-resin. capacitance range 10 pf to 33 000 pf rated dc voltage 1 kv to 50 kv dielectric strength 200 % of rated voltage insulation resist ance at 500 v dc n4700: >= 200 000 m tolerance on capacitance 5 %; 10 %; 20 %; + 80/- 20 % other tolerances av ailable on request dissipation factor quick reference data description voltage (v dc ) 1000 to 50000 min. capacitance (pf) 10 max. capacitance (pf) 33 000 mounting through hole uj,sl,x5f,x7r,n4700,y5t,y5u,y5v uj,sl,x5f,x7r,y5t: >= 100 000 m y5u,y5v: >= 10 000 m sl: 6x10 uj,sl: 6x10 -4 x5f: 1% x7r: 1.5% n4700: 0.1% to 0.2% y5t: 1% y5u,y5v: 2% - 1 - document number: 28515 for technical questions, contact: cdc@vishay.com www.vishay.com revision: 07-jan-10 53 ceramic disc capacitors class 1 and 2, 1 kv dc , 2 kv dc , 3 kv dc and 6 kv dc , general purpose s series vishay bccomponents capacitors with 5 mm (0.20"), 7.5 mm (0.30") and 10 mm (0.40") lead spacing marking straight and kinked leaded versions are gold coloured marking indicates capacitance value and tolerance in accordance with ?eia 198? and voltage: operating temperature range class 1 sl0, s3n, - 55 c to + 125 c class 2, x7r - 55 c to + 125 c class 2, y5p, z5u, y5v, - 30 c to + 85 c class 2, x5f - 55 c to + 85 c temperature coefficients class 1 sl0, s3n class 2 x7r, y5p, z5u, y5v, x5f sectional specifications class 1, iec 60 384-8, class 2, iec 60 384-9, eia 198 climatic category class 1, sl0, 55/125/21 class 2, x7r, 55/125/21 class 2, y5p, z5u, y5v, 30/85/21 class 2, x5f, 55/85/21 features ? low losses ? high stability ? high capacitance in small size ? kinked (preferred) or straight leads ? compliant to rohs directive 2002/95/ec applications ? dc high voltage ? pulse high voltage ?smps ? hv power supply ?hf ballast design the capacitors consist of a ceramic disc both sides of which are silver-plated. connection leads are made of tinned copper having a diameter of 0.6 mm or 0.8 mm up to 3 kv and 0.8 mm for 6 kv. the capacitors may be supplie d with kinked or straight leads with a lead spacing of 5 mm (0.20"), 7.5 mm (0.30") or 10 mm (0.40") and a lead length from 4 mm to 30 mm. the standard tolerance on capacitance is 5 % or 10 % for class 1 capacitors and 10 % or 20 % for class 2 capacitors. encapsulation is made of gold-colored epoxy-resin, flammable re sistant in accordance with ?ul 94 v-0? capacitance range class 1, at 1 mhz, 1.2 v rms ; 10 pf to 220 pf 1 khz, 1 v rms 0.2 v rms for capacitance values higher than 1000 pf class 2, at 1 khz, 1 v rms 0.2 v rms ; 100 pf to 33 000 pf rated dc voltage 1 kv; 2 kv; 3 kv; 6 kv dielectric strength 200 % of rated voltage insulation resist ance at 500 v dc 10 000 m tolerance on capacitance 5 %; 10 %; 20 %; + 80/- 20 % other tolerances av ailable on request dissipation factor class 1, c 30 pf; 20 x (10/c + 0.7) x 10 -4 max. class 1, c > 30 pf; 0.2 % class 2, 3.0 % quick reference data description class 1 (sl0, s3n) class 2 (y5p, x7r, z5u, y5v, x5f) voltage (v dc ) 1000, 2000, 3000, 6000 min. capacitance (pf) 10 100 max. capacitance (pf) 220 33 000 mounting through hole f d s s s www.datasheet.net/ datasheet pdf - http://www..co.kr/
n 0. m a x mm n0. m a x mm p a r t n u m b e r m a t e ri a l d t p d p a r t n u m b er m a t e r i al d t p d 1 h v c8 1 - 2 k v- u j 08 - f 5 - 10 pk u j 8 4 5 0 .6 4 5 h v c 8 1 - 3 kv - u j 0 8 - f 5 - 1 0 p k u j 8 4 .5 5 0 . 6 2 h v c8 1 - 2 k v- u j 08 - f 5 - 15 pk u j 8 4 5 0 .6 4 6 h v c 8 1 - 3 kv - u j 0 8 - f 5 - 1 5 p k u j 8 4 .5 5 0 . 6 3 h v c8 1 - 2 k v-s l08 - f 5 - 2 2 pk s l 8 4 5 0 .6 4 7 h v c 8 1 - 3 kv -s l08 - f 5 - 2 2 p k s l 8 4 .5 5 0 . 6 4 h v c8 1 - 2 k v-s l08 - f 5 - 2 7 pk s l 8 4 5 0 .6 4 8 h v c 8 1 - 3 kv -s l08 - f 5 - 2 7 p k s l 8 4 .5 5 0 . 6 5 h v c8 1 - 2 k v-s l08 - f 5 - 3 3 pk s l 8 4 5 0 .6 4 9 h v c 8 1 - 3 kv -s l08 - f 5 - 3 3 p k s l 8 4 .5 5 0 . 6 6 h v c8 1 - 2 k v-s l08 - f 5 - 4 7 pk s l 8 4 5 0 .6 5 0 h v c 8 1 - 3 kv -s l08 - f 5 - 4 7 p k s l 8 4 .5 5 0 . 6 7 h v c8 1 - 2 k v-s l08 - f 5 - 5 6 pk s l 8 4 5 0 .6 5 1 h v c 8 1 - 3 kv -s l08 - f 5 - 5 6 p k s l 8 4 .5 5 0 . 6 8 h v c8 1 - 2 k v-s l08 - f 5 - 6 8 pk s l 8 4 5 0 .6 5 2 h v c 8 1 - 3 kv -s l08 - f 5 - 6 8 p k s l 8 4 .5 5 0 . 6 9 h v c8 1 - 2 k v-s l08 - f 5 - 1 0 1 k s l 8 4 5 0 .6 5 3 h v c 8 1 - 3 kv -s l08 - f 5 - 1 0 1 k s l 8 4 .5 5 0 . 6 1 0 h v c8 1 - 2 k v-s l12 - f 9 . 5 - 15 1 k s l 1 2 4 9 .5 0 .6 5 4 h v c 8 1 - 3 kv -s l12 - f 9 . 5 - 1 5 1 k s l 12 4 .5 9 . 5 0 . 6 1 1 h v c8 1 - 2 k v-s l12 - f 9 . 5 - 22 1 k s l 1 2 4 9 .5 0 .6 5 5 h v c 8 1 - 3 kv -s l12 - f 9 . 5 - 2 2 1 k s l 12 4 .5 9 . 5 0 . 6 1 2 h v c8 1 - 2 k v-s l14 - f 9 . 5 - 33 1 k s l 1 4 4 9 .5 0 .6 5 6 h v c 8 1 - 3 kv -s l14 - f 9 . 5 - 3 3 1 k s l 14 4 .5 9 . 5 0 . 6 1 3 h v c8 1 - 2 k v-s l16 - f 9 . 5 - 47 1 k s l 1 6 4 9 .5 0 .6 5 7 h v c 8 1 - 3 kv -s l17 - f 9 . 5 - 4 7 1 k s l 16 4 .5 9 . 5 0 . 7 1 4 h v c8 1 - 2 k v-s l18 - f 9 . 5 - 56 1 k s l 1 8 4 9 .5 0 .6 5 8 h v c 8 1 - 3 kv -s l19 - f 9 . 5 - 5 6 1 k s l 18 4 .5 9 . 5 0 . 7 1 5 h v c8 1 - 2 k v-x 08 - f 5 - 1 0 1 k x 5 f 8 4 5 0 .6 5 9 h v c 8 1 - 3 kv -x 08 - f 5 - 1 0 1 k x 5 f 8 4 .5 5 0 . 6 1 6 h v c8 1 - 2 k v- dl 0 6 - f 5 - 101 k n47 00 6 4 5 0 .6 6 0 h v c 8 1 - 3 kv - dl 0 6 - f 5 - 101 k n 4 7 0 0 6 4 .5 5 0 . 6 1 7 h v c8 1 - 2 k v-x 08 - f 5 - 2 2 1 k x 5 f 8 4 5 0 .6 6 1 h v c 8 1 - 3 kv -x 08 - f 5 - 2 2 1 k x 5 f 8 4 .5 5 0 . 6 1 8 h v c8 1 - 2 k v- dl 0 8 - f 5 - 221 k n47 00 8 4 5 0 .6 6 2 h v c 8 1 - 3 kv - dl 0 6 - f 5 - 221 k n 4 7 0 0 6 4 .5 5 0 . 6 1 9 h v c8 1 - 2 k v- dl 0 8 - f 5 - 271 k n47 00 8 4 5 0 .6 6 3 h v c 8 1 - 3 kv - dl 0 8 - f 5 - 271 k n 4 7 0 0 8 4 .5 5 0 . 6 2 0 h v c8 1 - 2 k v- dl 0 8 - f 5 - 331 k n47 00 8 4 5 0 .6 6 4 h v c 8 1 - 3 kv - dl 0 8 - f 5 - 331 k n 4 7 0 0 8 4 .5 5 0 . 6 2 1 h v c8 1 - 2 k v-x 08 - f 5 - 3 3 1 k x 7r 8 4 5 0 .6 6 5 h v c 8 1 - 3 kv -x 08 - f 5 - 3 3 1 k x 7r 8 4 .5 5 0 . 6 2 2 h v c8 1 - 2 k v- dl 0 8 - f 5 - 471 k n47 00 8 4 5 0 .6 6 6 h v c 8 1 - 3 kv - dl 0 8 - f 5 - 471 k n 4 7 0 0 8 4 .5 5 0 . 6 2 3 h v c8 1 - 2 k v-x 08 - f 5 - 4 7 1 k x 7r 8 4 5 0 .6 6 7 h v c 8 1 - 3 kv -x 08 - f 5 - 4 7 1 k x 7r 8 4 .5 5 0 . 6 2 4 h v c8 1 - 2 k v- dl 0 8 - f 5 - 561 k n47 00 8 4 5 0 .6 6 8 h v c 8 1 - 3 kv - dl 0 8 - f 5 - 561 k n 4 7 0 0 8 4 .5 5 0 . 6 2 5 h v c8 1 - 2 k v-x 08 - f 5 - 5 6 1 k x 7r 8 4 5 0 .6 6 9 h v c 8 1 - 3 kv -x 08 - f 5 - 5 6 1 k x 7r 8 4 .5 5 0 . 6 2 6 h v c8 1 - 2 k v- dl 1 0 - f 7 . 5 - 6 8 1k n47 00 1 0 4 7 .5 0 .6 7 0 h v c 8 1 - 3 kv -x 18 - f 9 . 5 - 4 7 2 k x 7r 18 4 .5 9 . 5 0 . 6 2 7 h v c8 1 - 2 k v-x 08 - f 5 - 6 8 1 k x 7r 8 4 5 0 .6 7 1 h v c 8 1 - 3 kv - d1 4 - f 9 . 5 - 4 7 2 k y 5 t 14 4 .5 9 . 5 0 . 6 2 8 h v c8 1 - 2 k v- dl 1 0 - f 7 . 5 - 1 0 2k n47 00 1 0 4 7 .5 0 .6 7 2 h v c 8 1 - 3 kv -e 10 - f 7 . 5 - 4 7 2 m y 5u 10 4 .5 9 . 5 0 . 6 2 9 h v c8 1 - 2 k v-x 09 - f 7 . 5 - 102 k x 7r 9 4 7 .5 0 .6 7 3 h v c 8 1 - 3 kv - d2 0 - f 9 . 5 - 1 0 3 k y 5 t 20 4 .5 9 . 5 0 . 8 3 0 h v c8 1 - 2 k v- dl 1 4 - f 9 . 5 - 2 2 2k n47 00 1 4 4 9 .5 0 .6 7 4 h v c 8 1 - 3 kv -e 17 - f 9 . 5 - 1 0 3 m y 5u 17 4 .5 9 . 5 0 . 7 3 1 h v c8 1 - 2 k v-x 12 - f 9 . 5 - 222 k x 7r 1 2 4 9 .5 0 .6 7 5 h v c 8 1 - 6 kv - n0 9 - f 9 . 5 - 1 0 p k n p o 9 6 9 . 5 0 . 6 3 2 h v c8 1 - 2 k v-e 08 - f 9 . 5 - 222 m y 5u 8 4 5 0 .6 7 6 h v c 8 1 - 6 kv - u j 0 8 - f 9 . 5 - 1 0 pk u j 8 5 9 . 5 0 . 6 3 3 h v c8 1 - 2 k v- dl 1 7 - f 9 . 5 - 2 7 2k n47 00 1 7 4 9 .5 0 . 65 7 7 h v c 8 1 - 6 kv - u j 0 8 - f 9 . 5 - 2 2 pk u j 8 5 9 . 5 0 . 6 3 4 h v c8 1 - 2 k v- d1 4 - f 9 . 5 - 2 7 2 k y 5 t 1 4 4 9 .5 0 .6 7 8 h v c 8 1 - 6 kv - u j 0 8 - f 9 . 5 - 3 3 pk u j 8 5 9 . 5 0 . 6 3 5 h v c8 1 - 2 k v-e 08 - f 5 - 2 7 2 m y 5u 8 4 5 0 .6 7 9 h v c 8 1 - 6 kv - u j 0 9 - f 9 . 5 - 4 7 pk u j 9 5 9 . 5 0 . 6 3 6 h v c8 1 - 2 k v- dl 1 7 - f 9 . 5 - 3 3 2k n47 00 1 7 4 9 .5 0 . 65 8 0 h v c 8 1 - 6 kv -x 09 - f 9 . 5 - 1 0 1 k x 5 f 9 6 9 . 5 0 . 6 3 7 h v c8 1 - 2 k v- d1 4 - f 9 . 5 - 3 3 2 k y 5 t 1 4 4 9 .5 0 .6 8 1 h v c 8 1 - 6 kv - dl 0 6 - f 5 - 101 k n 4 7 0 0 6 4 5 0 . 5 3 8 h v c8 1 - 2 k v-e 08 - f 5 - 3 3 2 m y 5u 8 4 5 0 .6 8 2 h v c 8 1 - 6 kv -x 10 - f 9 . 5 - 2 2 1 k x 5 f 10 5 9 . 5 0 . 6 3 9 h v c8 1 - 2 k v-x 18 - f 9 . 5 - 472 k x 7r 1 8 4 9 .5 0 . 65 8 3 h v c 8 1 - 6 kv - dl 0 8 - f 9 . 5 - 221 k n 4 7 0 0 8 6 9 . 5 0 . 6 4 0 h v c8 1 - 2 k v- d1 4 - f 9 . 5 - 4 7 2 k y 5 t 1 4 4 9 .5 0 .6 8 4 h v c 8 1 - 6 kv - dl 1 0 - f 9 . 5 - 331 k n 4 7 0 0 10 5 9 . 5 0 . 6 4 1 h v c8 1 - 2 k v-e 10 - f 9 . 5 - 472 m y 5u 1 0 4 9 .5 0 .6 8 5 h v c 8 1 - 6 kv - dl 1 0 - f 9 . 5 - 471 k n 4 7 0 0 10 5 9 . 5 0 . 6 4 2 h v c8 1 - 2 k v- d2 0 - f 9 . 5 - 1 0 3 k y 5 t 2 0 4 9 .5 0 .8 8 6 h v c 8 1 - 6 kv - d1 2 - f 9 . 5 - 1 0 2 k y 5 t 12 6 9 . 5 0 . 6 4 3 h v c8 1 - 2 k v-e 16 - f 9 . 5 - 103 m y 5u 1 6 4 9 .5 0 .6 8 7 h v c 8 1 - 6 kv -e 08 - f 9 . 5 - 1 0 2 m y 5u 8 5 9 . 5 0 . 6 4 4 h v c8 1 - 2 k v - f 14 - f 9 . 5 - 103 m y 5 v 1 4 4 9 .5 0 .6 8 8 h v c 8 1 - 6 kv - d1 4 - f 9 . 5 - 2 2 2 k y 5 t 14 5 9 . 5 0 . 6 for technical questions, contact: sales@hv-caps.com www.hv-caps.com . ceramic disc capacitors class 1 and 2, 1 kv dc to 50 kv dc , general purpose ceramic disc style - 2 - www.datasheet.net/ datasheet pdf - http://www..co.kr/
n 0. m a x mm n 0. m a x mm p a r t n u m b e r m a t e ri a l d t p d p a r t n u m b e r m a t e r i al d t p d 8 9 h v c 8 1 - 50 k v - s l1 2 - f 1 2 . 5 - 2 2 pk s l 1 2 10 1 2 .5 0 .8 1 33 h v c - 3 0 k v- f 1 9 - f 17 . 5 - 222 m y 5 v 19 14 1 7 .5 0 .8 9 0 h v c 8 1 - 50 k v - s l1 6 - f 1 2 . 5 - 5 0 pk s l 1 6 10 1 2 .5 0 .8 1 34 h v c - 4 0 k v - d 3 2 - f 2 0 - 2 2 2 m y 5 t 32 17 2 0 1 .2 9 1 h v c - 1 0 k v-x 09 - f 9 . 5 - 10 1 k x 5 f 9 6 9 .5 0 . 65 1 35 h v c - 5 0 k v - d 4 0 - f 2 0 - 2 2 2 m y 5 t 40 22 2 0 1 .2 9 2 h v c - 1 0 k v - d l 0 6 - f 9 . 5 - 1 0 1 k n 4 7 00 6 6 9 .5 0 . 65 1 36 h v c - 1 0 k v - d 2 1 - f 1 2 . 5 - 3 3 2 m y 5 t 21 7 1 2 .5 0 .8 9 3 h v c - 1 5 k v - d l 0 7 - f 9 . 5 - 1 0 1 k n 4 7 00 7 6 .5 9 .5 0 . 65 1 37 h v c - 1 0 k v - e 16 - f 12 . 5 - 332 m y 5 u 16 6 .5 1 2 .5 0 .8 9 4 h v c - 2 0 k v - d l 0 8 - f 9 . 5 - 1 0 1 k n 4 7 00 8 8 9 .5 0 . 65 1 38 h v c - 1 0 k v- f 1 2 - f 9 . 5 - 3 3 2 m y 5 v 12 6 .5 9 . 5 0 .8 9 5 h v c - 3 0 k v - d l 1 0 - f 1 2 . 5 - 1 0 1 k n 4 7 00 1 0 9 1 2 .5 0 .8 1 39 h v c - 1 5 k v - d 2 3 - f 1 7 . 5 - 3 3 2 m y 5 t 23 8 1 7 .5 0 .8 9 6 h v c - 5 0 k v - d l 1 2 - f 1 2 . 5 - 1 0 1 k n 4 7 00 1 2 12 1 2 .5 0 .8 1 40 h v c - 1 5 k v - e 19 - f 12 . 5 - 332 m y 5 u 19 8 1 2 .5 0 .8 9 7 h v c - 1 0 k v - d l 0 8 - f 9 . 5 - 1 5 1 k n 4 7 00 8 6 9 .5 0 . 65 1 41 h v c - 2 0 k v - d 2 7 - f 2 0 - 3 3 2 m y 5 t 27 9 2 0 1 .2 9 8 h v c - 1 5 k v - d l 0 8 - f 9 . 5 - 1 5 1 k n 4 7 00 8 7 9 .5 0 . 65 1 42 h v c - 2 0 k v - e 21 - f 12 . 5 - 332 m y 5 u 21 9 1 2 .5 0 .8 9 9 h v c - 2 0 k v - d l 1 0 - f 9 . 5 - 1 5 1 k n 4 7 00 1 0 8 9 .5 0 . 65 1 43 h v c - 3 0 k v - d 3 2 - f 2 0 - 3 3 2 m y 5 t 32 12 2 0 1 .2 1 00 h v c - 3 0 k v - d l 1 2 - f 1 2 . 5 - 1 5 1 k n 4 7 00 1 2 9 1 2 .5 0 .8 1 44 h v c - 4 0 k v - d 4 0 - f 2 0 - 3 3 2 m y 5 t 40 17 2 0 1 .2 1 01 h v c - 1 0 k v - d 0 8 - f 9 . 5 - 22 1 k y 5 t 8 6 .5 9 .5 0 . 65 1 45 h v c - 5 0 k v - d 4 3 - f 2 0 - 3 3 2 m y 5 t 43 20 2 0 1 .2 1 02 h v c - 1 5 k v - d 0 8 - f 9 . 5 - 22 1 k y 5 t 8 7 9 .5 0 . 65 1 46 h v c - 1 0 k v - d 2 7 - f 2 0 - 4 7 2 m y 5 t 27 8 2 0 1 .2 1 03 h v c - 2 0 k v - d l 1 1 - f 9 . 5 - 22 1 k n 4 7 00 1 1 8 9 .5 0 . 65 1 47 h v c - 1 0 k v - e 19 - f 12 . 5 - 472 m y 5 u 19 7 1 2 .5 0 .8 1 04 h v c - 3 0 k v - d l 1 2 - f 1 2 . 5 - 2 2 1 k n 4 7 00 1 2 9 1 2 .5 0 .8 1 48 h v c - 1 0 k v- f 1 6 - f 12 . 5 - 472 m y 5 v 16 7 1 2 .5 0 .8 1 05 h v c - 1 0 k v - d l 1 0 - f 9 . 5 - 3 3 1 k n 4 7 00 1 0 6 .5 9 .5 0 . 65 1 49 h v c - 1 5 k v - e 23 - f 17 . 5 - 472 m y 5 u 23 8 1 7 .5 0 .8 1 06 h v c - 2 0 k v - d 0 9 - f 9 . 5 - 33 1 k y 5 t 9 7 .5 9 .5 0 . 65 1 50 h v c - 1 5 k v- f 1 9 - f 12 . 5 - 472 m y 5 v 19 9 1 2 .5 0 .8 1 07 h v c - 1 0 k v - d l 1 2 - f 9 . 5 - 4 7 1 k n 4 7 00 1 2 6 .5 9 .5 0 .8 1 51 h v c - 2 0 k v - d 3 2 - f 20 - 4 7 2 m y 5 t 32 10 2 0 1 .2 1 08 h v c - 1 5 k v - d l 1 4 - f 9 . 5 - 4 7 1 k n 4 7 00 1 4 7 9 .5 0 .8 1 52 h v c - 2 0 k v - e 27 - f 2 0 - 4 7 2 m y 5 u 27 11 2 0 1 .2 1 09 h v c - 2 0 k v - d 1 4 - f 1 2 . 5 - 5 0 1 k y 5 t 1 4 9 1 2 .5 0 .8 1 53 h v c - 2 0 k v- f 2 1 - f 17 . 5 - 472 m y 5 v 21 11 1 7 .5 0 .8 1 10 h v c - 3 0 k v - d l 1 9 - f 1 7 . 5 - 5 0 1 k n 4 7 00 1 9 11 1 7 .5 0 .8 1 54 h v c - 3 0 k v - d 4 0 - f 2 0 - 5 0 2 m y 5 t 40 13 2 0 1 .2 1 11 h v c - 4 0 k v - d 2 1 - f 2 0 - 4 7 1 k y 5 t 2 1 17 2 0 1 .2 1 55 h v c - 3 0 k v - d 4 3 - f 2 0 - 6 0 2 m y 5 t 43 13 2 0 1 .2 1 12 h v c - 5 0 k v - d 2 3 - f 2 0 - 4 7 1 k y 5 t 2 3 18 2 0 1 .2 1 56 h v c - 1 0 k v - d 4 0 - f 2 0 - 1 0 3 m y 5 t 40 8 2 0 1 .2 1 13 h v c - 1 0 k v - d 1 2 - f 9 . 5 - 10 2 k y 5 t 1 2 6 .5 9 .5 0 .8 1 57 h v c - 1 0 k v - e 27 - f 2 0 - 1 0 3 m y 5 u 27 8 2 0 1 .2 1 14 h v c - 1 0 k v - d l 1 6 - f 1 2 . 5 - 1 0 2 k n 4 7 00 1 6 6 .5 1 2 .5 0 .8 1 58 h v c - 1 0 k v- f 2 3 - f 17 . 5 - 103 m y 5 v 23 8 1 7 .5 0 .8 1 15 h v c - 1 5 k v - d l 1 7 - f 1 2 . 5 - 1 0 2 k n 4 7 00 1 7 7 1 2 .5 0 .8 1 59 h v c - 1 5 k v - e 32 - f 2 0 - 1 0 3 m y 5 u 32 10 2 0 1 .2 1 16 h v c - 2 0 k v - d l 2 1 - f 1 2 . 5 - 1 0 2 k n 4 7 00 2 1 8 1 2 .5 0 .8 1 60 h v c - 1 5 k v- f 2 7 - f 20 - 1 0 3 m y 5 v 27 10 2 0 1 .2 1 17 h v c - 2 0 k v - d 1 4 - f 1 2 . 5 - 1 0 2 k y 5 t 1 4 7 .5 1 2 .5 0 .8 1 61 h v c - 2 0 k v - d 4 3 - f 2 0 - 1 0 3 m y 5 t 43 11 2 0 1 .2 1 18 h v c - 2 0 k v- f 1 0 - f 9 . 5 - 1 0 2 m y 5 v 1 0 7 .5 9 .5 0 . 65 1 62 h v c - 2 0 k v- f 2 7 - f 20 - 1 0 3 m y 5 v 27 11 2 0 1 .2 1 19 h v c - 3 0 k v - d 1 9 - f 1 7 . 5 - 1 0 2 m y 5 t 1 9 11 1 7 .5 0 .8 1 63 h v c - 3 0 k v - e 40 - f 2 0 - 1 0 3 m y 5 u 40 13 2 0 1 .2 1 20 h v c - 4 0 k v - d l 3 2 - f 2 0 - 102 k n 4 7 00 3 2 16 2 0 1 .2 1 64 h v c - 3 0 k v- f 3 2 - f 20 - 1 0 3 m y 5 v 32 13 2 0 1 .2 1 21 h v c - 4 0 k v - d 2 7 - f 2 0 - 1 0 2 m y 5 t 2 7 16 2 0 1 .2 1 65 h v c - 4 0 k v- f 4 0 - f 20 - 1 0 3 m y 5 v 40 17 2 0 1 .2 1 22 h v c - 5 0 k v - d l 3 2 - f 2 0 - 102 m n 4 7 00 3 2 18 2 0 1 .2 1 23 h v c - 5 0 k v - d 3 2 - f 2 0 - 1 0 2 m y 5 t 3 2 22 2 0 1 .2 1 24 h v c - 1 0 k v - d 1 7 - f 1 2 . 5 - 2 2 2 m y 5 t 1 7 6 .5 1 2 .5 0 .8 1 25 h v c - 1 0 k v - e 14 - f 12 . 5 - 222 m y 5u 1 4 7 1 2 .5 0 .8 1 26 h v c - 1 0 k v- f 1 1 - f 9 . 5 - 2 2 2 m y 5 v 1 1 7 9 .5 0 .8 1 27 h v c - 1 5 k v - d 1 9 - f 1 2 . 5 - 2 2 2 m y 5 t 1 9 7 .5 1 2 .5 0 .8 1 28 h v c - 1 5 k v - e 16 - f 12 . 5 - 222 m y 5u 1 6 7 .5 1 2 .5 0 .8 1 29 h v c - 2 0 k v - d 2 1 - f 1 2 . 5 - 2 2 2 m y 5 t 2 1 8 1 2 .5 0 .8 1 30 h v c - 2 0 k v - e 17 - f 12 . 5 - 222 m y 5u 1 7 9 1 2 .5 0 .8 1 31 h v c - 3 0 k v - d 2 7 - f 1 2 . 5 - 2 2 2 m y 5 t 2 7 12 2 0 1 .2 1 32 h v c - 3 0 k v - e 24 - f 2 0 - 2 2 2 m y 5u 2 4 14 2 0 1 .2 for technical questions, contact: sales@hv-caps.com www.hv-caps.com ceramic disc capacitors class 1 and 2, 1 kv dc to 50 kv dc , general purpose ceramic disc style - 3 - www.datasheet.net/ datasheet pdf - http://www..co.kr/
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