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siemens matsushita components 277 for professional industrial electronics equipment construction l charge-discharge proof, polar l aluminum case with insulating sleeve l negative pole connected to case l axial leads, welded to ensure perfect electrical contact features l high reliability and long useful life l can be operated at temperatures of up to 105 c 1) l high parametric stability l high ripple current capability applications l professional industrial electronics equipment l for filtering, coupling and pulse circuits l automotive electronics l 450-v versions for electronic ballasts available upon request tape packaging capacitors with d 16 mm are also available on tape. refer to page 305 for information on tapes and examples on how to order them. specifications and characteristics in brief b 41 588 b 43 588 rated voltage u r surge voltage u s 10 to 100 vC 1,15 u r 160 to 350 vC 1,15 u r (for u r 250 vC) 1,10 u r (for u r = 350 vC) rated capacitance c r capacitance tolerance 4,7 to 4 700 m f C 10/+ 50 % t 1 to 220 m f C 10/+ 50 % t useful life d 8,5 mm d 3 10 mm d 8,5 mm d 3 10 mm 40 c, u r 85 c, u r ; i ~ max > 200 000 h (1,3 i ~ r,85c ) > 6 000 h > 200 000 h (2,0 i ~ r, 85c ) > 10 000 h > 200 000 h (1,3 i ~ r,85c ) > 6 000 h > 200 000 h (1,7 i ~ r,85c ) > 8 000 h failure percentage 0,5 % (during useful life) 0,5 % (during useful life) failure rate (1 fit = 1 10 C9 /h) d 8,5 mm: 50 fit d 3 10 mm: 20 fit d 8,5 mm: 50 fit d 3 10 mm: 20 fit 1) operation at 105 c and 0, 6 i ~ max,85 c permissible for a total of 500 h. axial-lead capacitors ll grade b 41 588 b 43 588
278 s i e m ens m a t sush i t a c o m pon e n t s v o l t age endu r ance t e st 5 00 0 h , 8 5 c ( a t u r ) le a kage c u r r en t i l k a ( 5 m i n, 20 c ) c r . u r 1 00 0 m c: o r 1 m a ( t he l a r ge r va l u e app l i e s) 1 000 m c c r . u r < 470 000 m c: s e l f - i nduc t ance l esl i e c c l i m a t i c c a t ego r y i n acco r dance w i t h i e c 68 - 1 40 / 085 / 5 6 ( C40 c / + 85 c , 56 days da m p hea t t e s t ) d e t a il s p e c i f i c a t i o n s s e c t i onal spec i f i ca t i ons s i m i l a r t o c e c c 3 0 3 01 - 8 01 ( s i m i l ar t o c e c c 3 0 301 - 003 , d i n 45 9 1 0 pa r t 12 3 ) i e c 384 - 4 ( d i n 4 5 9 1 0 pa r t 12) v i b r a t i on r es i s t ance i n acco r dance w i t h i e c 68 - 2C6 , t e st fc: d i s p l ace m en t a m p l i t ude 0 , 3 5 m m , f r equency r a n ge 1 0 t o 5 5 h z, acce l e r a t i o n m ax . 5 g , duration 3 2 h s pec i f i ca t i o n s a n d cha r ac t e r i s t i c s i n b r i e f b 41 588 b 43 588 i l k a 0 , 0 1 m a c r m f - - -- - - - u r v - -- - - - - ? ?? i l k a 0 , 00 6 m a c r m f - - - - --- u r v -- - -- - - ? ?? 4 m a + d ( m m ) 6 , 5 8 , 5 1 0 1 2 1 4 1 6 1 8 2 1 2 5 l ( m m ) 1 5 , 5 1 5 , 5 2 5 3 0 3 0 3 0 3 9 , 5 4 0 4 0 l esl a p p r o x . ( n h ) 1 4 1 7 35 37 38 45 57 3 0 3 4 b 41 588 b 43 588
s i e m ens m a t sush i t a c o m pon e n t s 279 o u t l i n e d r a w i n g p ack i n g u n i t s d i m ens i ons ( m m ) a pp r o x i m a t e d l d m a x l m a x le a d w i r e d i a m e t e r d 1 w e i gh t ( g) 6 , 5 1 5 , 5 8 , 5 1 5 , 5 10 ,0 25 7 , 0 1 7 9 , 0 1 7 10 , 5 2 6 , 5 0 , 6 1 , 1 1 , 8 3 , 2 12 ,0 30 14 ,0 30 16 ,0 30 18 ,0 3 9 , 5 21 ,0 40 25 ,0 40 12 , 5 32 14 , 5 32 16 , 5 32 18 , 5 4 0 , 3 21 , 5 4 1 , 5 25 , 5 4 1 , 5 0 , 8 5 , 4 7 , 5 9 , 3 14 18 26 c ase d i m ens i o ns d l (mm) b u l k p u ( pcs . ) r ee l p a ck i ng p u ( pcs . / r ee l ) 6 , 5 1 5 , 5 8 , 5 1 5 , 5 10 ,0 25 20 0 0 15 0 0 9 0 0 1300 1000 600 12 ,0 30 14 ,0 30 16 ,0 30 18 ,0 3 9 , 5 21 ,0 40 25 ,0 40 6 0 0 4 0 0 3 5 0 2 5 0 2 0 0 1 5 0 450 350 250 C C C m i n i m u m l ea d spaci b 4 1 5 88 b 4 3 5 88
280 s i e m ens m a t sush i t a c o m pon e n t s o v e r v i e w o f a v a il a b l e t y p e s t h e ca p ac i t anc e an d vo l t ag e r a t i ngs l i s t e d abov e a r e a va i l ab l e i n s m a l l e r cas e s up o n r eques t . o t h e r vo l t a g e an d capac i t a n ce r a t i ngs a r e a l so ava i l ab l e upon r eques t . u pon r e ques t w e a l so supp l y spec i a l v e r s i ons w i t h r a t e d vo l t ages o f u p t o 450 v C , su r g e vo l t ages o f u p t o 600 v C an d capac i t anc e r a t i ngs o f 6 , 8 m f , 1 0 m f, 1 5 m f , 2 2 m f ( e . g . f o r e l ec t r o n i c b a l l ast ap p l i c a t i ons ) . t e m pe r a t u r e r ang e C 40 + 8 5 c / + 10 5 c. t y pe b 4 1 588 u r ( v C) 10 16 25 40 63 100 c r ( m f) c ase d i m ens i o ns d l (mm) 4 , 7 6 , 5 1 5 , 5 8 , 5 1 5 , 5 10 6 , 5 1 5 , 5 8 , 5 1 5 , 5 8 , 5 1 5 , 5 22 8 , 5 1 5 , 5 8 , 5 1 5 , 5 1 0 ,0 25 47 6 , 5 1 5 , 5 8 , 5 1 5 , 5 8 , 5 1 7 , 5 8 , 5 1 5 , 5 1 0 ,0 25 1 2 ,0 30 100 8 , 5 1 5 , 5 8 , 5 1 5 , 5 1 0 ,0 2 5 10 ,0 25 1 2 ,0 30 1 6 ,0 30 220 10 ,0 2 5 10 ,0 25 1 2 ,0 30 1 2 ,0 30 1 6 ,0 30 1 8 ,0 3 9 , 5 470 12 ,0 30 1 2 ,0 30 1 4 ,0 30 1 6 ,0 30 2 1 ,0 40 2 5 ,0 40 1 000 14 ,0 30 1 6 ,0 30 1 8 ,0 3 9 , 5 2 1 ,0 40 2 5 ,0 40 2 200 18 ,0 3 9 , 5 1 8 ,0 3 9 , 5 2 1 ,0 40 2 5 ,0 40 4 700 25 ,0 40 2 5 ,0 40 t y pe b 4 3 588 u r ( v C) 160 250 350 c r ( m f) c ase d i m ens i o ns d l (mm) 1 , 0 6 , 5 1 5 , 5 2 , 2 6 , 5 1 5 , 5 8 , 5 1 5 , 5 8 , 5 1 5 , 5 4 , 7 8 , 5 1 5 , 5 1 0 ,0 2 5 10 ,0 2 5 10 10 ,0 2 5 10 ,0 25 1 2 ,0 30 22 12 ,0 30 1 4 ,0 30 1 4 ,0 30 47 14 ,0 30 1 6 ,0 30 1 8 ,0 3 9 , 5 100 18 ,0 3 9 , 5 2 1 ,0 40 2 5 ,0 40 220 25 ,0 40 b 41 588 b 43 588
s i e m ens m a t sush i t a c o m pon e n t s 281 t e chn i cal da t a and o r de r i ng codes u r vC c r m f c a s e d i m e ns i ons d l mm r es r , t y p 10 0 h z 2 0 c w r es r , m a x 10 0 h z 2 0 c w z m a x 10 k h z 2 0 c w i ~ r 10 0 h z 4 0 c a i ~ m a x 10 0 h z 8 5 c a o r d e r i n g code 1) s ho r t code b 41588- 10 47 6 , 5 1 5 , 5 2 , 0 5 , 0 0 , 88 0 , 29 0 , 10 - d 3 4 76 - t 90 100 8 , 5 1 5 , 5 0 , 95 2 , 4 0 , 4 3 0 , 49 0 , 1 7 - d 3 1 07 - t 90 220 10 ,0 25 0 , 43 1 , 1 0 , 2 1 0 , 8 3 0 , 2 8 - e 32 2 7 - t 9 0 470 12 ,0 3 0 0 , 20 0 , 50 0 , 11 1 , 6 0 , 5 5 - c 3 4 77 - t 1 000 14 ,0 3 0 0 , 10 0 , 25 0 , 07 2 , 5 0 , 8 5 - e 31 0 8 - t 2 200 18 ,0 3 9 , 5 0 , 06 0 , 14 0 , 05 4 , 1 1 , 4 - c 3 2 28 - t 4 700 25 ,0 4 0 0 , 05 0 , 07 0 , 05 5 , 5 1 , 9 - a 34 7 8 - t 16 47 8 , 5 1 5 , 5 1 , 6 4 , 0 0 , 82 0 , 34 0 , 12 - c 4 4 76 - t 9 0 100 8 , 5 1 5 , 5 0 , 7 5 1 ,9 0 , 4 0 0 , 5 2 0 , 1 8 - d 4 1 0 7 - t 9 0 220 10 ,0 2 5 0 , 36 0 , 90 0 , 20 0 , 96 0 , 33 - d 4 2 27 - t 9 0 470 12 ,0 3 0 0 , 18 0 , 45 0 , 11 1 , 7 0 , 5 7 - d 4 4 77 - t 1 000 16 ,0 3 0 0 , 10 0 , 25 0 , 06 2 , 7 0 , 9 2 - m 4108 - t 2 200 18 ,0 3 9 , 5 0 , 06 0 , 12 0 , 05 4 , 1 1 , 4 - d 4 2 28 - t 4 700 25 ,0 4 0 0 , 05 0 , 06 0 , 05 5 , 5 1 , 9 - a 44 7 8 - t 25 47 8 , 5 1 5 , 5 1 , 3 3 , 3 0 , 78 0 , 41 0 , 14 - d 5 4 76 - t 9 0 100 10 ,0 25 0 , 60 1 , 5 0 , 3 8 0 , 7 0 0 , 2 4 - e 51 0 7 - t 9 0 220 12 ,0 3 0 0 , 28 0 , 70 0 , 19 1 , 3 0 , 4 6 - l5227 - t 470 14 ,0 3 0 0 , 16 0 , 40 0 , 10 1 , 9 0 , 6 4 - e 54 7 7 - t 1 000 18 ,0 3 9 , 5 0 , 10 0 , 19 0 , 06 3 , 2 1 , 1 - d 5 1 08 - t 2 200 21 ,0 4 0 0 , 06 0 , 10 0 , 05 4 , 5 1 , 6 - a 52 2 8 - t 40 10 6 , 5 1 5 , 5 5 , 0 13 3 , 3 0 , 17 0 , 06 - d 7 1 06 - t 9 0 22 8 , 5 1 5 , 5 2 ,2 5 ,5 1 ,5 0 , 3 2 0 , 1 1 - d 7 2 2 6 - t 9 0 47 8 , 5 1 5 , 5 1 , 0 2 , 5 0 , 72 0 , 46 0 , 16 - e 74 7 6 - t 9 0 100 10 ,0 2 5 0 , 50 1 , 3 0 , 3 6 0 , 8 1 0 , 2 8 - e 71 0 7 - t 9 0 220 12 ,0 3 0 0 , 25 0 , 63 0 , 18 1 , 4 0 , 4 9 - d 7 2 27 - t 470 16 ,0 3 0 0 , 13 0 , 33 0 , 10 2 , 2 0 , 7 7 - m 7477 - t 1 000 21 ,0 4 0 0 , 07 0 , 16 0 , 06 4 , 0 1 , 4 - d 7 1 08 - t 2 200 25 ,0 4 0 0 , 04 0 , 08 0 , 05 5 , 9 2 , 0 - a 72 2 8 - t 1 ) f o r i n s t r u c t i o n s o n h o w t o d e t e rm i n e o r d e r i n g c o d e s , r e f e r t o p ag e 2 8 3 . b 4 1 5 88 b 4 3 5 88
282 s i e m ens m a t sush i t a c o m pon e n t s b 41588- 63 4 , 7 6 , 5 1 5 , 5 9 , 5 2 4 6 , 5 0 , 15 0 , 05 - k 84 7 5 - t 9 0 10 8 , 5 1 5 , 5 4 , 0 1 0 3 , 1 0 , 23 0 , 08 - k 81 0 6 - t 9 0 22 8 , 5 1 5 , 5 1 , 8 4 , 5 1 , 4 0 , 3 5 0 , 1 2 - k 82 2 6 - t 9 0 47 10 ,0 2 5 0 , 80 2 , 0 0 , 6 7 0 , 6 4 0 , 2 2 - k 84 7 6 - t 9 0 100 12 ,0 3 0 0 , 40 1 , 0 0 , 3 3 1 , 1 0 , 38 - j8107 - t 220 16 ,0 3 0 0 , 18 0 , 45 0 , 17 1 , 9 0 , 6 5 - b 82 2 7 - t 470 21 ,0 4 0 0 , 10 0 , 25 0 , 09 3 , 3 1 , 1 - j8477 - t 1 000 25 ,0 4 0 0 , 05 0 , 12 0 , 06 5 , 3 1 , 8 - a 81 0 8 - t 100 4 , 7 8 , 5 1 5 , 5 7 , 0 1 8 6 , 0 0 , 1 7 0 , 0 6 - c 9 4 7 5 - t 9 0 10 8 , 5 1 5 , 5 3 ,0 7 ,5 2 ,8 0 , 2 6 0 , 0 9 - d 9 1 0 6 - t 9 0 22 10 ,0 2 5 1 ,3 3 ,3 1 ,3 0 , 5 2 0 , 1 8 - d 9 2 2 6 - t 9 0 47 12 ,0 3 0 0 , 60 1 , 5 0 , 62 0 , 90 0 , 31 - d 9 4 76 - t 100 16 ,0 3 0 0 , 32 0 , 80 0 , 31 1 , 4 0 , 4 9 - e 91 0 7 - t 220 18 ,0 3 9 , 5 0 , 16 0 , 40 0 , 15 2 , 4 0 , 8 3 - d 9 2 27 - t 470 25 ,0 4 0 0 , 09 0 , 23 0 , 09 4 , 1 1 , 4 - a 94 7 7 - t b 43588- 160 2 , 2 6 , 5 1 5 , 5 36 80 33 0 , 07 0 , 02 - c 1 2 25 - t 9 0 4 , 7 8 , 5 1 5 , 5 17 38 15 0 , 12 0 , 04 - d 1 4 75 - t 9 0 10 10 ,0 25 8 , 0 18 7 , 2 0 , 19 0 , 07 - d 1 1 06 - t 9 0 22 12 ,0 3 0 3 ,6 8 ,0 3 ,3 0 , 3 8 0 , 1 3 - c 1 2 2 6 - t 47 14 ,0 3 0 1 ,7 3 ,8 1 ,6 0 , 5 9 0 , 2 0 - d 1 4 7 6 - t 100 18 ,0 3 9 , 5 0 , 80 1 , 8 0 , 7 5 1 , 1 0 , 38 - d 1 1 07 - t 220 25 ,0 4 0 0 , 40 0 , 80 0 , 35 2 , 0 0 , 6 8 - a 12 2 7 - t 250 2 , 2 8 , 5 1 5 , 5 29 72 31 0 , 09 0 , 03 - c 2 2 25 - t 9 0 4 , 7 1 0 ,0 25 14 24 14 0 , 15 0 , 05 - c 2 4 75 - t 9 0 10 10 ,0 2 5 6 , 4 16 6 , 8 0 , 24 0 , 08 - d 2 1 06 - t 9 0 22 14 ,0 3 0 2 , 9 7 , 2 3 , 1 0 , 4 5 0 , 1 5 - d 2 2 26 - t 47 16 ,0 3 0 1 , 4 3 , 4 1 , 5 0 , 7 0 0 , 2 4 - m 2476 - t 100 21 ,0 4 0 0 , 60 1 , 5 0 , 7 0 1 , 4 0 , 47 - d 2 1 07 - t t e chn i cal da t a and o r de r i ng codes u r vC c r m f c a s e d i m e ns i ons d l mm r es r , t y p 10 0 h z 2 0 c w r es r , m a x 10 0 h z 2 0 c w z m a x 10 k h z 2 0 c w i ~ r 10 0 h z 4 0 c a i ~ m a x 10 0 h z 8 5 c a o r d e r i n g code 1) s ho r t code b 41 588 b 43 588 1 ) f o r i n s t r u c t i o n s o n h o w t o d e t e rm i n e o r d e r i n g c o d e s, r e f e r t o pa g e 283 .
s i e m ens m a t sush i t a c o m pon e n t s 283 u pon r e ques t w e a l so supp l y spec i a l v e r s i ons w i t h r a t e d vo l t ages o f u p t o 450 v C , su r g e vo l t ages o f u p t o 600 v C an d capac i t anc e r a t i ngs o f 6 , 8 m f , 1 0 m f, 1 5 m f , 2 2 m f ( e . g . f o r e l ec t r o n i c b a l l ast ap p l i c a t i ons ) . t e m pe r a t u r e r ang e C 40 + 8 5 c / + 10 5 c. 1 ) t o o b t a in t he r e q u i r e d o r d e r in g c o de , p r e f i x t he t y pe n u m be r t o t h e s ho r t c od e . e . g . : b 43 5 88 - c 41 0 5 - t b 4 15 8 8 - . . . ( u r = 10 t o 10 0 v - ) b 4 35 8 8 - . . . ( u r = 16 0 t o 3 5 0 v - ) b 43588- 350 1 , 0 6 , 5 1 5 , 5 48 120 64 0 , 06 0 , 02 - d 4 1 05 - t 9 0 2 , 2 8 , 5 1 5 , 5 22 55 29 0 , 10 0 , 04 - d 4 2 25 - t 9 0 4 , 7 1 0 ,0 25 10 25 14 0 , 17 0 , 06 - d 4 4 75 - t 9 0 10 12 ,0 3 0 4 , 8 12 6 , 4 0 , 33 0 , 11 - d 4 1 06 - t 22 14 ,0 3 0 2 , 2 5 , 5 2 , 9 0 , 5 1 0 , 1 8 - e 42 2 6 - t 47 18 ,0 3 9 , 5 1 , 0 2 , 5 1 , 4 1 , 0 0 , 34 - d 4 4 76 - t 100 25 ,0 4 0 0 , 50 1 , 3 0 , 6 7 1 , 7 0 , 59 - a 41 0 7 - t t e chn i cal da t a and o r de r i ng codes u r vC c r m f c a s e d i m e ns i ons d l mm r es r , t y p 10 0 h z 2 0 c w r es r , m a x 10 0 h z 2 0 c w z m a x 10 k h z 2 0 c w i ~ r 10 0 h z 4 0 c a i ~ m a x 10 0 h z 8 5 c a o r d e r i n g code 1) s ho r t code b 4 1 5 88 b 4 3 5 88
284 siemens matsushita components useful life versus ambient temperature t a under ripple current operating conditions 1) u r = 10 to 350 vC ( d 8,5 mm) u r = 10 to 100 vC ( d 3 10 mm) 1) refer to page 34 for an explanation on how to interpret the useful life graphs. i ~ i ~ r, 85 c i ~ i ~ r, 85 c b 41 588 b 43 588
siemens matsushita components 285 useful life versus ambient temperature t a under ripple current operating conditions 1) u r = 160 to 350 vC ( d 3 10 mm) 1) refer to page 34 for an explanation on how to interpret the useful life graphs. permissible ripple current i ~ versus frequency f u r 100 vC permissible ripple current i ~ versus frequency f u r 3 160 vC i ~ i ~ r, 85 c b 41 588 b 43 588
286 siemens matsushita components series capacitance c s at f = 100 hz versus temperature t typical behavior u r 100 vC series capacitance c s at f = 100 hz versus temperature t typical behavior u r 3 160 vC equivalent series resistance r esr at f = 100 hz versus temperature t typical behavior u r 100 vC impedance z at f = 100 hz versus temperature t typical behavior u r 3 160 vC b 41 588 b 43 588
siemens matsushita components 287 impedance z at f = 10 khz versus temperature t typical behavior u r 100 vC impedance z at f = 10 khz versus temperature t typical behavior u r 3 160 vC impedance z versus frequency f and temperature t for 1000 m f/40 vC typical behavior impedance z versus frequency f and temperature t for 100 m f/250 vC typical behavior b 41 588 b 43 588
288 siemens matsushita components impedance z versus frequency f typical values at 20 c u r 100 vC impedance z versus frequency f typical values at 20 c u r 3 160 vC b 41 588 b 43 588

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