144 npn pnp npn npn pnp pnp npn pnp i c -v ce characteristics (typical) i c -v be temperature characteristics (typical) h fe -i c characteristics (typical) h fe -i c temperature characteristics (typical) characteristic curves sma6010 r 3 r 4 2 8 9 1 3 4 r 1 7 6 10 11 5 12 r 2 r 1 : 3k ? typ r 2 : 200 ? typ r 3 : 2k ? typ r 4 : 150 ? typ (t a =25 c) symbol unit v cbo 60 C 60 v v ceo 60 C 60 v v ebo 6 C 6v i c 4 C 4a i cp 6 (pw 1ms, d u 50%) C 6 (pw 1ms, d u 50%) a i b 0.5 C 0.5 a 4 (t a =25 c) 20 (t c =25 c) t j 150 c t stg C 40 to +150 c j C c 6.25 c/w p t w ratings npn pnp 6 4 2 0 0246 i c (a) v ce (v) i b =4.0ma 2.0ma 1.2ma 0.8ma 0.6ma 0.5ma 0.4ma 20000 0.03 (v ce =4v) h fe i c (a) 10000 5000 1000 500 100 50 0.05 0.1 0.5 1 5 6 typ 20000 0.03 (v ce =4v) h fe i c (a) 10000 5000 1000 500 100 50 0.05 0.1 0.5 1 5 6 t a =125 c C 30 c 25 c 75 c 6 0 0 i c (a) v be (v) 5 4 3 2 1 123 C 30 c (v ce =4v) ta=125 c 75 c 25 c C 6 C 4 C 2 0 0 C 2 C 4 C 6 i c (a) v ce (v) C 1.8ma C 1.5ma C 1.2ma C 1.0ma C 0.9ma C 0.8ma i b = C 2.2ma 20000 C 0.03 (v ce = C 4v) h fe i c (a) 10000 5000 1000 500 100 50 C 0.05 C 0.1 C 0.5 C 1 C 5 C 6 typ 20000 C 0.03 (v ce = C 4v) h fe i c (a) 10000 5000 1000 500 100 50 C 0.05 C 0.1 C 0.5 C 1 C 5 C 6 t a =125 c C 30 c 75 c 25 c C 6 0 0 i c (a) v be (v) C 5 C 4 C 3 C 2 C 1 C 1 C 2 C 3 C 30 c (v ce = C 4v) 75 c 25 c t a =125 c pnp + npn darlington 3-phase motor drive external dimensions b ??? sma absolute maximum ratings equivalent circuit diagram
145 npn pnp npn pnp npn pnp v ce (sat)-i b characteristics (typical) v ce (sat)-i c temperature characteristics (typical) safe operating area (soa) characteristic curves sma6010 (t a =25 c) npn pnp symbol specification unit conditions specification unit conditions min typ max min typ max i cbo 10 av cb =60v C 10 av cb = C 60v i ebo 10 ma v eb =6v C 10 ma v eb = C 6v v ceo 60 v i c =10ma C 60 v i c = C 20ma h fe 2000 5000 12000 v ce =4v, i c =3a 2000 5000 12000 v ce = C 4v, i c = C 3a v ce (sat) 1.5 v C 1.5 v v be (sat) 2.0 v C 2.0 v v fec 1.8 v i fec =1a C 1.8 v i fec = C 1a t on 1.0 sv cc 30v, 0.4 sv cc C 30v, t stg 4.0 si c =3a, 0.8 si c = C 3a, t f 1.5 si b1 = C i b2 =10ma 0.6 si b1 = C i b2 = C 10ma f t 75 mhz v ce =12v, i e = C 0.1a 200 mhz v ce = C 12v, i e =0.2a c ob 50 pf v cb =10v, f=1mhz 75 pf v cb = C 10v, f=1mhz i c =3a, i b =6ma i c = C 3a, i b = C 6ma 3 0.2 v ce (sat) (v) i b (ma) 2 1 0 0.5 1 5 10 50 100 200 i c =4a i c =1a i c =2a 3 0.5 (i c / i b =1000) v ce (sat) (v) i c (a) 2 1 0 156 t a =125 c 75 c 2 5 c C 30 c 10 3 i c (a) v ce (v) 5 1 0.5 0.1 0.05 0.03 5 10 50 100 single pulse without heatsink t a =25 c 1m s 1 0 m s C 3 C 0.3 v ce (sat) (v) i b (ma) C 2 C 1 0 C 0.5 C 1 C 5 C 10 C 50 C 100 C 200 i c = C 4a i c = C 2a i c = C 1a C 3 C 0.5 (i c / i b =1000) v ce (sat) (v) i c (a) C 2 C 1 0 C 1 C 5 C 6 125 c 25 c 75 c t a = C 30 c C 10 C 3 i c (a) C 5 C 1 C 0.5 C 0.1 C 0.05 C 0.03 C 5 C 10 C 50 C 100 single pulse without heatsink t a =25 c 1ms 10m s v ce (v) 20 10 5 1 0.5 1 5 10 50 100 500 1000 j C a ( c / w) pw (ms) 20 15 10 5 0 C 40 0 50 100 150 p t (w) t a ( c) with infinite heatsink without heatsink electrical characteristics p t -t a characteristics j-a -pw characteristics
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