r ev . a j u n .2 0 1 1 c o p y r igh t @ w i n s em i microelectronics c o . , lt d . , a l l ri g h t r e s er v ed . w w w w fd fd fd fd 1 1 1 1 n n n n 6 6 6 6 0 0 0 0 s s s s i i i i li li li li c c c c o o o o n n n n n n n n - - - - ch ch ch ch a a a a n n n n n n n n el el el el m m m m os os os os f f f f et et et et f ea t ur e s 1 . 3 a ,600 v , r d s ( on ) ( m a x 8 . 5 ? ) @ v g s = 10 v u l t ra- l o w g a t e charge( t yp i ca l 9 . 1nc ) f a s t s w i tc h i n g capab ili t y 100 % a va l an c h e t e s t e d m ax i m u m j unc t i o n t e m p era t ur e range(15 0 ) g en er a l d e sc r i p ti o n t h i s p o w e r m o sf e t i s produ c e d u s i n g w i n s e m i ' s ad v an c e d p l ana r st r i pe , v d m o s t e c h no l o g y . t h i s l a t e s t t e c h n o l o g y ha s bee n e s pe c i a l l y de s i g n e d t o m i n i m i z e o n - st a t e re s i st an c e , ha v e a h i g h rugge d a v a l an c h e c hara ct er i st i cs . t h i s de v i c e s i s s pe c i a l l y we l l s u i t e d f o r h i g h e f f i c i en c y s w i t c h m o d e powe r s upp l y , e l e c t ro n i c l a m p ba ll a st s ba s e d o n ha l f br i dg e an d u ps . ab s o l u te m a x i m u m r a ti n g s s y m b o l p a r a m e t e r v alu e u n i ts v d s s dra in s our c e v o l t ag e 60 0 v i d con t i nuou s dra in curren t ( @ t c = 25 ) 1 . 3 a con t i nuou s dra in curren t ( @ t c = 100 ) 0 . 8 4 a i dm dra in curren t p u l se d (no t e1 ) 5 . 0 a v g s g a t e t o s our c e v o l tag e 3 0 v e a s s i ng le p u l se d a va l anch e e nerg y (no t e2 ) 7 8 mj e a r repe t i t i v e a va l anch e e nerg y (no t e1 ) 3 . 9 mj dv / d t p ea k d i od e re c over y d v / d t (no t e3 ) 5 . 5 v / n s p d t o t a l p o w e r d i s s i pat i on ( @ t c = 2 5 ) 3 2 w dera t i n g f a c to r abov e 25 0 . 2 4 w / t j , t s tg j unc t i o n an d s torag e t e m peratur e -55 ~ 15 0 t l m ax i m u m l ea d t e m peratur e f o r so l der i n g purpo s e s 30 0 t h e rm a l c ha r a ct er istics s y m b o l p a r a m e t e r v alu e u n i ts m i n t y p m a x r q j c t her m a l re s i s t anc e , j unc t i o n - t o -ca s e - - 3 . 9 / w r q cs t her m a l re s i s t anc e , ca s e- t o- s i n k 0 . 5 - - / w r q j a t her m a l re s i s t anc e , j unc t i on- t o - a m b i en t - - 1 1 0 / w
w w w w fd fd fd fd 1 1 1 1 n n n n 6 6 6 6 0 0 0 0 2 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance e l e ct r ic a l c ha r a ct er istics ( t c = 25 ) c h a r a c t e r i s t i c s s y m b o l t e s t c o nd i t io n m i n t y p e m a x u n i t g a t e l ea k ag e c urren t i g s s v g s = 30 v , v d s = 0 v - - 10 0 n a g a t e- s ourc e brea k dow n vo l t ag e v ( b r )g s s i g = 1 0 a , v d s = 0 v 3 0 - - v dra in cu t -of f c urren t i d s s v d s = 60 0 v , v g s = 0 v - - 1 0 a v d s = 480 v , t c = 125 - 10 0 a dra in - s ourc e brea k do w n vo l t ag e v ( b r ) d s s i d = 25 0 a , v g s = 0 v 60 0 - - v b rea k v o l tag e t e m peratur e coef f i c i en t b v d ss / t j i d = 250 a, re f erence d t o 25 - 0 . 5 - v / g a t e t hre s ho ld vo l t ag e v g s ( th) v d s = 10 v ,i d = 25 0 a 2 - 4 v dra in - s ourc e on re s i s t anc e r d s (o n) v g s = 10 v , i d = 0 . 65 a - 7 . 7 8 . 5 ? f orwar d t r ans c onduc t anc e g f s v d s = 4 0 v , i d = 0 . 65 a - 1 . 3 - s i npu t c apac i t anc e c i s s v d s = 25 v , v g s = 0 v , f = 1 m h z - 24 7 31 8 p f rever s e t ran s fe r c apac i t anc e c r s s - 5 6 . 5 o u t pu t c apac i t anc e c o s s - 2 3 3 0 s w i tc h i n g t ime r i s e t i me t r v dd = 30 0 v , i d = 1 . 3 a r g = 25 ? (no t e4 , 5 ) - 1 1 2 6 n s t u rn-o n t ime t o n - 3 3 7 2 f a ll t ime t f - 2 6 5 9 t u rn-of f t ime t of f - 2 6 5 9 t o t a l ga t e charge(ga t e- s our c e p l u s ga t e-dra i n ) qg v dd = 48 0 v , v g s = 10 v , i d = 1 . 3 a (no t e4 , 5 ) - 9 . 1 1 2 n c g a t e- s ourc e c harg e q g s - 1 . 2 - g a t e-dra i n( " mi l l er " ) charg e q g d - 4 . 5 - so ur c e - d r a in r a ti n g s an d c ha r a ct er istics ( t a= 2 5 ) c h a r a c t e r i s t i c s s y m b o l t e s t c o nd i t io n m i n t y p e m a x u n i t con t i nuou s dra in rever s e c urren t i dr - - - 1 . 3 a p u l s e dra in rever s e curren t i drp - - - 5 . 0 a f orwar d vo l t age(d i ode ) v d s f i dr = 1 . 3 a , v g s = 0 v - - 1 . 4 v rever s e re c over y t ime t r r i dr = 1 . 3 a , v g s = 0 v , d i dr / d t = 10 0 a / s - 16 3 - n s rever s e re c over y c harg e q r r - 0 . 8 5 - c no t e 1 . repea t i v i t y ra t i n g : pu l s e w i d t h lim i t e d b y j un c t i o n t e m pera t ur e 2 . l = 92 mh i a s = 1 . 3 a , v dd = 50 v , r g = 0 ? , s t ar t i n g t j = 25 3 . i s d 1 . 3 a ,d i / dt 200 a /u s , v dd < b v d ss , s t a r t in g t j = 2 5 4 .p u l s e t e s t : p u l s e w i d t h 300u s ,du t y cy c l e 2 % 5 . e s s ent i a lly i ndependen t o f opera t i n g t e m pera t ure . t hi s t r a n s i s to r i s a n e l e ct ro s ta t i c s e n s i t i v e d e v ic e pl ea se h a n d l e w it h ca u t io n
w w w w fd fd fd fd 1 1 1 1 n n n n 6 6 6 6 0 0 0 0 3 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.1 o n-s t a t e c ha ra c t e r is t ics fig.2 t r ansfer c u r re nt c ha r ac t e r is t ics fig.3 o n r e sis t ance va r i a t ion vs d r ain c u rr e nt fig.5 o n- r esis t ance v a r i a t ion vs j unc t ion t e mpe r a t u r e fig.4 b ody d iode fo r w a r d v o l t a ge v a r i a t ion wi t h sou r ce c u rr e nt a nd t empe r a t u r e fig.6 g a t e c ha rg e c ha r a c t e r is t ics
w w w w fd fd fd fd 1 1 1 1 n n n n 6 6 6 6 0 0 0 0 4 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.7 maximum sa f e o pe r a t ion a r ea fig.8 maximum d r ain c u rr e nt vs c ase t e mpe r a t u r e fig.9 t r ansient t he r m al r esponse cu r ve
w w w w fd fd fd fd 1 1 1 1 n n n n 6 6 6 6 0 0 0 0 5 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.10 g a t e t e st ci r cuit & wave f o r m fig.11 r esis t i v e swi t c hing t e st c i r cuit & wave f o r m fig.12 u ncamped induc t i v e swi t c hing t e st c i r cuit & wave f o r m
w w w w fd fd fd fd 1 1 1 1 n n n n 6 6 6 6 0 0 0 0 6 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.13 p eak d iode r ec o v e r y dv/dt t e st c i r cuit & wave f o r m
w w w w fd fd fd fd 1 1 1 1 n n n n 6 6 6 6 0 0 0 0 7 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance t t t t o o o o 25 25 25 25 2 2 2 2 pa pa pa pa c c c c k k k k a a a a ge ge ge ge dim dim dim dim e e e e n n n n s s s s ion ion ion ion u n i t :mm
|
