SSF3018 feathers: id=60a bv=100v rdson=15mohm �? advanced trench process technology �? special designed for convertors and power controls �? high density cell design for ultra low rdson �? fully characterized avalanche voltage and current �? avalanche energy 100% test ? silikron semiconductor co. ltd. 2009.7.15 version: 1.0 page 1of5 absolute maximum ratings parameter max. unit s i d @t c =25 ? c continuous drain current,vgs@10v 60 i d @t c =100 ? c continuous d rain current,vgs@10v 50 i dm pulsed t a drain curren 240 p d @t c =25 ? c power dissipation 147 w linear derating factor 2.0 w / ? c v gs gate-to-source voltage 20 v e as single p rgy 480 ulse avalanche ene mj e re gy ar petitive avalanche ener tbd t j ?55 to +150 t stg operating junction and storage temperature range ? c therm ce parameter min. typ. max. units al resistan r jc junction-to-case ? 0.85 ? ? c/w ele ctrical characteris =25 ? c(unless otherwise cified . typ. ax. un test conditions tics @tj spe ) parameter min m its bv dss drain-to-source breakdown voltage 100 ? ? v v gs =0v,i d =250 a r ds(on) static drain-to-source on-resistance ? 13.8 15 m ? v gs =10v,i d =30a v gs(th) gate ltage v threshold vo 2.0 4.0 v ds =v gs ,i d =250 a g fs forward transconductance 42 ? s v ds =10v,i d =30a ? ? 1 v ds =100v,v gs =0v i dss drai ent ? 1 n-to-source leakage curr ? 00 a v ds =100v, v gs =0v,t j =150 ? c gate-to-source forward leakage 100 ? ? v gs =20v i gss gate-to-source reverse leakage ? ? -100 na v gs =-20v q g total gate charge ? 49 ? q gs gate-to-source charge ? 15 ? nc v i d =10a ds =0.5v dss description: the SSF3018 is a new generation of middle voltage and high current n?channel enhancement mode trench power mosfet. this new technology increases the cell density and reduces the on-resistance; it s typical rdson can reduce to 13.8mohm. application: �? power switching application SSF3018 top view (to220)
SSF3018 q gd gate- arge v to-drain("miller") ch ? 11 ? gs =10v t d(on) turn-on delay time ? 27 ? t r rise time ? 40 ? t d(off) turn-off delay time ? 43 ? t f fall time ? 37 ? ns v v ds =0.5v dss i d =10a r g =15 ? gs =10v c iss input capacitance ? 2650 ? c s outp os ut capacitance ? 335 ? c rss reve ance pf f rse transfer capacit ? 60 ? v gs =0v v ds =25v =1.0mhz sourc ain rating parameter min. typ. max. units test conditions e-dr s and characteristics continuous source current. ? silikron semiconductor co. ltd. 2009.7.15 version: 1.0 page 2of5 i s ( body diode) ? ? 60 i sm p (b mosfet symbol showing p-n e. ulsed source current . ody diode) ? ? 240 a the integral reverse junction diod v sd 0a diode forward voltage ? ? 1.3 v t j =25 ? c,i s =3 ,v gs =0v t rr re e ns verse recovery tim 59 ? q rr r nc v, v r =0.5*v dss everse recovery charge 112 ? i f =0.5*i s , v gs =0 di/dt=100a/ s t on forward turn-on time in trinsic turn-on time is ne ble (tu gligi rn-on is dominated by ls + ld) test circuit: gate charge eas test circuits: bv dss not es: t condition: l =0.3mh, id = 37a, vdd = 50v repetitive rating; pulse width limited by max junction temperature. tes pulse width 300 s; duty cycle 1.5% rg = 25 ??? starting tj = 25c
SSF3018 ? silikron semiconductor co. ltd. 2009.7.15 version: 1.0 page 3of5 switch time test circuit switch waveforms: input admittance capacitance on resistance vs. junction temperature on resistance vs. drain current
? silikron semiconductor co. ltd. 2009.7.15 version: 1.0 page 4of5 SSF3018 gate charge forward voltage drop of intrinsic diode output characteristics@25 drain current vs. case temperature maximum transient thermal im p edance
SSF3018 to220 mechanical data: ? silikron semiconductor co. ltd. 2009.7.15 version: 1.0 page 5of5
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