142 n-ch p-ch n-ch n-ch p-ch p-ch n-ch p-ch i d -v ds characteristics (typical) i d -v gs characteristics (typical) r ds(on) -i d characteristics (typical) r ds(on) -t c characteristics (typical) characteristic curves sma5127 (t a =25 c) symbol unit v dss 60 C 60 v v gss 20 20 v i d 4 C 4a i d(pulse) 8 (pw 1ms, duty 1%) C 8 (pw 1ms, duty 1%) a 4 (ta=25 c, with all circuits operating, without heatsink) w 28 (tc=25 c,with all circuits operating, with infinite heatsink) w j-a 31.25 (junction-air, ta=25 c, with all circuits operating) c/w j-c 4.46 (junction-case, tc=25 c, with all circuits operating) c/w tch 150 c tstg C 40 to +150 c p t ratings n channel p channel n-channel + p-channel 3-phase motor drive external dimensions b ? ? ? sma absolute maximum ratings � equivalent circuit diagram 2 4 3 8 6 5 7 9 11 12 10 1 pch nch 8 6 2 4 0 0246810 v ds (v) i d (a) 3.5v 4.0v 4.5v 10v v gs =3.0v (t a =25 c) 0 C 10 C 8 C 6 v ds (v) i d (a) C 2 C 6 C 4 C 8 C 2 0 C 4 C 3.2v C 3.6v C 4.0v C 4.5v C 10v v gs = C 2.7v (t a =25 c) 0.5 0.6 0.4 0.3 0.2 0.1 0 02 167 5 4 38 i d (a) r ds (on) ( ? ) (t a =25 c) v g s =4v 10v 0 0 C 2 0.2 0.4 0.5 0.6 i d (a) r ds (on) ( ? ) C 4 C 6 C 8 0.3 0.1 (t a =25 c) v gs = C 4v C 10v C 40 0.2 C 25 50 25 0 100 125 75 150 0.4 0.3 0.6 0.5 0.8 0.7 t a ( c) i d =2a v gs =4v r ds (on) ( ? ) i d (a) v gs (v) 0 C 7 C 2 C 1 C 3 C 4 C 5 C 6 C 8 C 6 0 C 2 C 4 (v ds = C 10v) t c = C 40 c 25 c 125 c i d (a) v gs (v) 067 3 2 145 0 1 2 3 4 5 6 7 8 (v ds =10v) 25 c 125 c t a = C 40 c C 40 0.2 0 0.4 0.6 0.7 0.8 t a ( c) r ds (on) ( ? ) 50 100 150 C 25 25 75 125 0.5 0.3 i d = C 2a v gs = C 10v
143 n-ch p-ch n-ch n-ch p-ch p-ch n-ch p-ch re (yfs) -i d characteristics (typical) safe operating area (soa) capacitance-v ds characteristics (typical) i dr -v sd characteristics (typical) p t -t a characteristics characteristic curves sma5127 electrical characteristics (t a =25 c) n channel p channel symbol specification unit conditions specification unit conditions min typ max min typ max v (br)dss 60 v i d =100 a, v gs =0v C 60 v i d = C 100 a, v gs =0v i gss 10 av gs = 20v 10 av gs = 20v i dss 100 av ds =60v, v gs =0v C 100 av ds = C 60v, v gs =0v v th 1.0 2.0 v v ds =10v, i d =250 a C 1.0 C 2.0 v v ds = C 10v, i d = C 250 a re (yfs) 2.5 s v ds =10v, i d =2a 3 s v ds = C 10v, i d = C 2a r ds(on) 0.55 ? v gs =4v, i d =2a 0.55 ? v gs = C 10v, i d = C 2a ciss 150 pf v ds =10v 320 pf v ds = C 10v, coss 70 pf f=1.0mhz 130 pf f=1.0mhz, crss 15 pf v gs =0v 40 pf v gs =0v td (on) 12 ns i d =2a, v dd 20v, 20 ns i d = C 2a, v dd C 20v, t r 40 ns r l =10 ? , v gs =5v, 95 ns r l =10 ? , v gs = C 5v, td (off) 40 ns 70 ns t f 25 ns see fig.3 on page 16. 60 ns see fig.4 on page 16. v sd 1.2 v i sd =4a, v gs =0v C 1.1 v i sd = C 4a, v gs =0v t rr 75 ns i sd =2a, v gs =0v, 75 ns i sd = C 2a, v gs =0v, di/dt=100a/ s di/dt=100a/ s 0.1 0.1 1 5 i d (a) re (yfs) (s) 18 0.01 25 c 125 c t c = C 40 c (v ds =10v) 1 0.1 10 100 1 10 i d (a) v ds (v) 100 s 1m s r ds (on) limited 10ms (tc=25 c) 25 30 20 15 10 5 0 without heatsink w ith infinite heatsink 0 50 100 150 t a ( c) p t (w) with silicon grease natural cooling all circuits operating C 20 v ds (v) v gs (v) C 2 C 5 C 4 C 3 0 C 2 C 1 C 10 (ta=25 c) 21020 1 0 4 5 v ds (v) v gs (v) 2 3 i d =4a 2a (t a =25 c) C 1 C 0.1 C 10 C 100 C 1 C 10 i d (a) v ds (v) 100 s 1ms 10ms r ds (on) limited (tc=25 c) 0.1 C 0.05 C 0.1 C 1 1 5 i d (a) re (yfs) (s) C 8 (v ds = C 10v) t a = C 40 c 25 c 125 c 0 C 10 C 20 C 30 C 40 C 50 10 5 100 1000 v ds (v) capacitance (pf) v gs =80v f=1mhz (t a =25 c) ciss coss crss 0 1020 304050 5 100 1000 v ds (v) capacitance (pf) 10 ciss coss crss v gs =0v f=1mhz (t a =25 c) npn pnp v ds -v gs characteristics (typical)
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