s m d ty p e w w w . k e x i n . c o m . c n 1 t r a n s i s t o r s f e a tu r e s l o w c o l l e c t o r - e m i t t e r s a t u r a t i o n v o l t a g e v c e sa t h i g h c o l l e c t o r c u r r e n t c a p a b i l i t y : i c a n d i c m h i g h e f f i c i e n c y , r e d u c e s h e a t g e n e r a t i o n r e d u c e s p r i n t e d - c i r c u i t b o a r d a r e a r e q u i r e d 0.4 +0.1 -0.1 2.9 +0.1 -0.1 0.95 +0.1 -0.1 1.9 +0.1 -0.1 2.4 +0.1 -0.1 1.3 +0.1 -0.1 0-0.1 0.38 +0.1 -0.1 0.97 +0.1 -0.1 0.55 0.4 1.base 2.emitter 3.collector 1 2 3 unit: mm sot-23 0.1 +0.05 -0.01 a b s o l u te m a x i m u m ra ti n g s t a = 2 5 p a r a m e t e r s y m b o l r a t i n g u n i t c o l l e c t o r - b a s e v o l t a g e v c b o - 8 0 c o l l e c t o r - e m i t t e r v o l t a g e v c e o - 6 0 e m i t t e r - b a s e v o l t a g e v e b o - 5 - 0 . 9 - 1 c o l l e c t o r c u r r e n t - p u l s e i c p - 2 b a s e c u r r e n t i b - 0 . 3 b a s e c u r r e n t - p u l s e i b p - 1 2 7 0 4 0 0 1 . 2 5 w 4 6 5 3 1 2 1 0 0 j u n c t i o n t e m p e r a t u r e t j 1 5 0 s t o r a g e t e m p e r a t u r e r a n g e t st g - 6 5 t o 1 5 0 / w v c o l l e c t o r c u r r e n t - c o n t i n u o u s i c a c o l l e c t o r p o w e r d i s s i p a t i o n p c m w t t h e r m a l r e s i s t a n c e f r o m j u n c t i o n t o a m b i e n t r ja n o t e . 1 : d e v i c e m o u n t e d o n a n f r 4 p r i n t e d - c i r c u i t b o a r d , s i n g l e - s i d e d c o p p e r , t i n - p l a t e d a n d s t a n d a r d f o o t p r i n t . n o t e . 2 : d e v i c e m o u n t e d o n a n f r 4 p r i n t e d - c i r c u i t b o a r d , s i n g l e - s i d e d c o p p e r , t i n - p l a t e d a n d 1 c m 2 c o l l e c t o r m o u n t i n g p a d . n o t e . 3 : o p e r a t e d u n d e r p u l s e d c o n d i t i o n s : d u t y c y c l e 2 0 % , p u l s e w i d t h t p 1 0 m s . n o t e . 1 n o t e . 2 n o t e . 1 n o t e . 2 n o t e . 3 n o t e . 1 n o t e . 2 n o t e . 3 e c b p b ? f r e e p a c k a g e m a y b e a v a i l a b l e . t h e g ? s u f f i x d e n o t e s a p b ? f r e e l e a d f i n i s h p np t r an sist o r s p bs s 5160t - hf ( k b s s 5 1 6 0 t- h f)
s m d ty p e w w w . k e x i n . c o m . c n 2 t r a n s i s t o r s e l e c tr i c a l ch a r a c te r i s ti c s t a = 2 5 p a r a m e t e r s y m b o l t e s t c o n d i t i o n s m i n t y p m a x u n i t c o l l e c t o r - b a s e b r e a k d o w n v o l t a g e v c b o i c = - 1 0 0 a i e = 0 - 8 0 c o l l e c t o r - e m i t t e r b r e a k d o w n v o l t a g e v c e o i c = - 1 m a i b = 0 - 6 0 e m i t t e r - b a s e b r e a k d o w n v o l t a g e v e b o i e = - 1 0 0 u a i c = 0 - 5 v c b = - 6 0 v , i e = 0 - 1 0 0 n a v c b = - 6 0 v , i e = 0 , t j = 1 5 0 - 5 0 u a c o l l e c t o r - e m i t t e r c u t - o f f c u r r e n t i c e s v c e = - 6 0 v , i e = 0 - 1 0 0 e m i t t e r c u t - o f f c u r r e n t i e b o v e b = - 5 v , i c = 0 - 1 0 0 i c = - 1 0 0 m a , i b = - 1 m a - 1 6 0 i c = - 5 0 0 m a , i b = - 5 0 m a - 1 7 5 i c = - 1 a , i b = - 1 0 0 m a ( n o t e . 1 ) - 3 3 0 b a s e - e m i t t e r s a t u r a t i o n v o l t a g e v b e ( sa t ) i c = - 1 a , i b = - 5 0 m a - 1 . 1 b a s e - e m i t t e r t u r n - o n v o l t a g e v b e ( o n ) v c e = - 5 v , i c = - 1 a - 0 . 9 e q u i v a l e n t o n - r e s i s t a n c e r c e ( sa t ) i c = - 1 a , i b = - 1 0 0 m a ( n o t e . 1 ) 3 3 0 m v c e = - 5 v , i c = - 1 m a 2 0 0 3 5 0 v c e = - 5 v , i c = - 5 0 0 m a 1 5 0 2 5 0 v c e = - 5 v , i c = - 1 a 1 0 0 1 6 0 c o l l e c t o r o u t p u t c a p a c i t a n c e c o b v c b = - 1 0 v , i e = i e = 0 , f = 1 m h z 1 5 p f t r a n s i t i o n f r e q u e n c y f t v c e = - 1 0 v , i c = - 5 0 m a , f = 1 0 0 m h z 1 5 0 2 2 0 m h z h f e d c c u r r e n t g a i n v c o l l e c t o r - b a s e c u t - o f f c u r r e n t i c b o n a m v c o l l e c t o r - e m i t t e r s a t u r a t i o n v o l t a g e v c e ( sa t ) v n o t e . 1 : p u l s e t e s t : t p 3 0 0 u s ; 0 . 0 2 . m a r k i n g m a r k i n g u 6 * f t y p i c a l ch a r a c te r i s i ti c s handbook, full pagewidth 10 3 10 2 10 1 10 ?5 10 ?4 10 ?3 10 ?2 10 ?1 1 z th (k/w) t p (s) 10 10 2 10 3 = 1 0.75 0.33 0.05 0.02 0.01 0 0.5 0.2 0.1 fig.1 transient thermal impedance as a function of pulse time; typical values. mounted on printed-circuit board; standard footprint. p np t r an sist o r s p bs s 5160t - hf ( k b s s 5 1 6 0 t- h f)
s m d ty p e w w w . k e x i n . c o m . c n 3 t r a n s i s t o r s t y p i c a l ch a r a c te r i s i ti c s 0 600 200 400 ?10 ?1 ?1 ?10 i c (ma) h fe ?10 2 ?10 3 ?10 4 (1) (2) (3) fig.2 dc current gain as a function of collector current; typical values. v ce = ? 5 v. (1) t amb = 100 c. (2) t amb = 25 c. (3) t amb = ? 55 c. 0 ?1.2 ?0 4 ?0 8 ?10 ?1 ?1 ?10 i c (ma) v be (v) ?10 2 ?10 3 ?10 4 (1) (3) (2) fig.3 base-emitter voltage as a function of collector current; typical values. v ce = ? 5 v. (1) t amb = ? 55 c. (2) t amb = 25 c. (3) t amb = 100 c. ?10 ?1 ?10 ?1 ?10 ?2 ?10 ?1 ?1 ?10 i c (ma) v cesat (v) ?10 2 ?10 3 ?10 4 (3) (1) (2) fig.4 collector-emitter saturation voltage as a function of collector current; typical values. i c /i b = 20. (1) t amb = 100 c. (2) t amb = 25 c. (3) t amb = ? 55 c. ?1 ?10 ?1 ?10 ?2 ?10 ?3 ?10 ?1 ?1 ?10 i c (ma) v cesat (v) ?10 2 ?10 3 ?10 4 (3) (1) (2) fig.5 collector-emitter saturation voltage as a function of collector current; typical values. i c /i b = 10. (1) t amb = 100 c. (2) t amb = 25 c. (3) t amb = ? 55 c. p np t r an sist o r s p bs s 5160t - hf ( k b s s 5 1 6 0 t- h f)
s m d ty p e w w w . k e x i n . c o m . c n 4 t r a n s i s t o r s . t y p i c a l ch a r a c te r i s i ti c s ?10 ?1 ?10 ?1 ?10 ?2 ?10 ?1 ?1 ?10 i c (ma) v cesat (v) ?10 2 ?10 3 ?10 4 (1) (2) fig.6 collector-emitter saturation voltage as a function of collector current; typical values. t amb = 25 c. (1) i c /i b = 100. (2) i c /i b = 50. ?0.2 ?1.2 ?0.4 ?0.6 ?0.8 ?1 ?10 ?1 ?1 (1) ?10 i c (ma) v besat (v) ?10 2 ?10 3 ?10 4 (3) (2) fig.7 base-emitter saturation voltage as a function of collector current; typical values. i c /i b = 20. (1) t amb = ? 55 c. (2) t amb = 25 c. (3) t amb = 100 c. 0 ?5 ?2 0 ?0.4 ?0.8 ?1.2 ?1.6 ?1 v ce (v) i c (a) ?2 ?3 ?4 (1) (7) (2) (3) (4) (5) (6) (8) (9) (10) fig.8 collector current as a function of collector-emitter voltage; typical values. (1) i b = ? 40 ma. (2) i b = ? 36 ma. (3) i b = ? 32 ma. (4) i b = ? 28 ma. (5) i b = ? 24 ma. (6) i b = ? 20 ma. (7) i b = ? 16 ma. (8) i b = ? 12 ma. (9) i b = ? 8 ma. (10) i b = ? 4 ma. t amb = 25 c. 10 3 10 2 1 10 ?1 10 ?10 ?1 ?1 r cesat (?) i c (ma) ?10 ?10 2 ?10 3 ?10 4 (3) (1) (2) fig.9 equivalent on-resistance as a function of collector current; typical values. i c /i b = 20. (1) t amb = 100 c. (2) t amb = 25 c. (3) t amb = ? 55 c. p np t r an sist o r s p bs s 5160t - hf ( k b s s 5 1 6 0 t- h f)
s m d ty p e w w w . k e x i n . c o m . c n 5 t r a n s i s t o r s t y p i c a l ch a r a c te r i s i ti c s 0 40 80 160 p tot (mw) (1) (2) 500 0 400 120 300 200 100 t amb (c) fig.10 power derating curves. (1) device mounted with 1 cm 2 collector tab. (2) device mounted on standard footprint. p np t r an sist o r s p bs s 5160t - hf ( k b s s 5 1 6 0 t- h f)
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