thermal characteristics symbol parameter value units v dss drain to source voltage 600 v i d continuous drain current(@t c = 25 c) * 7.4 a continuous drain current(@t c = 100 c) * 4.6 a i dm drain current pulsed (note 1) 30 a v gs gate to source voltage 30 v e as single pulsed avalanche energy (note 2) 560 mj e ar repetitive avalanche energy (note 1) 4.8 mj dv/dt peak diode recovery dv/dt (note 3) 4.5 v/ns p d total power dissipation(@t c = 25 c) 48 w derating factor above 25 c 0.38 w/c t stg, t j operating junction temperature & storage temperature - 55 ~ 150 c t l maximum lead temperature for soldering purpose, 1/8 from case for 5 seconds. 300 c DFF7N60 mar, 2005. rev. 0. 1/7 features high ruggedness r ds(on) (max 1.0 ? )@v gs =10v gate charge (typical 48nc) improved dv/dt capability 100% avalanche tested n-channel mosfet copyright@ d&i semiconductor co., ltd., korea. all rights reserved. n-channel mosfet ? ? ? { { { ? ? ? { { { 2. drain 3. source 1. gate r ds(on) = 1.0 ohm i d = 7.4a bv dss = 600v general description this n-channel enhancement mode field-effect power transistor using d& i semiconductor?s advan ced planar stripe, dmos technol- ogy intended for off-line switch mode power supply. also, especially designed to minimize rds(on) and high rugged avalanche characteristics. the to-2 20f( isolated ) pkg is well suited for adaptor power unit and small power inverter application. to-220f absolute maximum ratings symbol parameter value units min. typ. max. r jc thermal resistance, junction-to-case - 2.6 c/w r ja thermal resistance, junction-to-ambient - - 62.5 c/w * ensure that the c hannel temperature does not exceed 150c 1 2 3
electrical characteristics ( t c = 25 c unless otherwise noted ) symbol parameter test conditions min typ max units off characteristics bv dss drain-source breakdown voltage v gs = 0v, i d = 250ua 600 - - v bv dss / t j breakdown voltage temperature coefficient i d = 250ua, referenced to 25 c -0.68-v/c i dss drain-source leakage current v ds = 600v, v gs = 0v --10ua v ds = 480v, t c = 125 c --100ua i gss gate-source leakage, forward v gs = 30v, v ds = 0v --100na gate-source leakage, reverse v gs = -30v, v ds = 0v - - -100 na on characteristics v gs(th) gate threshold voltage v ds = v gs , i d = 250ua 2.0 - 4.0 v r ds(on) static drain-source on-state resis- tance v gs =10 v, i d = 4.5a -0.851 ? dynamic characteristics c iss input capacitance v gs =0 v, v ds =25v, f = 1mhz - 820 980 pf c oss output capacitance - 140 170 c rss reverse transfer capacitance - 43 50 dynamic characteristics t d(on) turn-on delay time v dd =300v, i d =7.4a, r g =25 ? ? see fig. 13. (note 4, 5) - 32 70 ns t r rise time - 85 160 t d(off) turn-off delay time - 70 145 t f fall time - 65 120 q g total gate charge v ds =480v, v gs =10v, i d =7.4a ? see fig. 12. (note 4, 5) - 48 55 nc q gs gate-source charge - 6.8 - q gd gate-drain char ge(miller charge) - 25 - source-drain diode ratings and characteristics symbol parameter test conditions min. typ. max. unit. i s continuous source current integral reverse p-n junction diode in the mosfet --7.4 a i sm pulsed source current - - 30 v sd diode forward voltage i s =7.4.0a, v gs =0v - - 1.4 v t rr reverse recovery time i s =7.4a, v gs =0v, di f /dt=100a/us -400- ns q rr reverse recovery charge - 2.9 - uc DFF7N60 ? notes 1. repeativity rating : pulse width limited by junction temperature 2. l = 22.3mh, i as =7.40a, v dd = 50v, r g = 50 ? , starting t j = 25c 3. i sd ? 7.4a , di/dt ? 200a/us, v dd ? bv dss , starting t j = 25c 4. pulse test : pulse width ? 300us, duty cycle ? 2% 5. essentially independent of operating temperature. 2/7
0 5 10 15 20 25 0.0 0.5 1.0 1.5 2.0 2.5 v gs = 20v v gs = 10v note : t ? j = 25 ? r ds(on) , drain-source on-resistance [ ? ] i d , drain current [a] 10 -1 10 0 10 1 10 -1 10 0 10 1 notes : ? 1. 250 s pulse test 2. t c = 25 ? v gs top : 15.0 v 10.0 v 8.0 v 7.0 v 6.5 v 6.0 v bottom : 5.5 v i d , drain current [a] v ds , drain-source voltage [v] 0 1020304050 0 2 4 6 8 10 12 v ds = 120v v gs , gate-source voltage [v] v ds = 300v v ds = 480v note : i ? d = 7.4 a q g , total gate charge [nc] 0 5 10 15 20 25 30 35 40 0 250 500 750 1000 c iss =c gs +c gd (c ds =shorted) c oss =c ds +c gd c rss =c gd notes : ? 1. v gs = 0v 2. f=1mhz c iss c oss c rss capacitance [pf] v ds , drain-source voltage [v] 0.2 0.4 0.6 0.8 1.0 1.2 10 -1 10 0 10 1 150 ? notes : ? 1. v gs = 0v 2. 250 s pulse test 25 ? i dr , reverse drain current [a] v sd , source-drain voltage [v] 2345678910 10 -1 10 0 10 1 150 o c 25 o c -55 o c notes : ? 1. v ds = 50v 2. 250 s pulse test i d , drain current [a] v gs , gate-source voltage [v] fig 4. on state current vs. allowable case temperature fig 5. capacitance characteristics fig 6. gate charge characteristics fig 1. on-state characteristics fig 2. transfer characteristics fig 3. on resistance variation vs. drain current and gate voltage 3/7 DFF7N60
25 50 75 100 125 150 0 2 4 6 8 t c' case temperature [ o c] i d' drain current [a] 10 -5 10 -4 10 -3 10 -2 10 -1 10 0 10 1 10 -2 10 -1 10 0 n otes : ? 1. z jc (t) = 2.6 /w m ax. ? 2. duty factor, d=t 1 /t 2 3. t jm - t c = p dm * z jc (t) single pulse d=0.5 0.02 0.2 0.05 0.1 0.01 z jc (t), thermal response t 1 , square w ave pulse duration [sec] 10 0 10 1 10 2 10 3 10 -2 10 -1 10 0 10 1 10 2 dc 10 ms 1 ms 100 s operation in this area is limited by r ds(on) notes : ? 1. t c = 25 o c 2. t j = 150 o c 3. single pulse i d , drain current [a] v ds , drain-source voltage [v] -100 -50 0 50 100 150 200 0.0 0.5 1.0 1.5 2.0 2.5 3.0 notes : ? 1. v gs = 10 v 2. i d = 3.7 a r ds(on) , (normalized) drain-source on-resistance t j , junction temperature [ o c] -100 -50 0 50 100 150 200 0.8 0.9 1.0 1.1 1.2 notes : ? 1. v gs = 0 v 2. i d = 250 a bv dss , (normalized) drain-source breakdown voltage t j , junction temperature [ o c] fig 9. maximum safe operating area fig 10. maximum drain current vs. case temperature fig 7. breakdown voltage variation vs. junction temperature fig 8. on-resistance variation vs. junction temperature DFF7N60 4/7 fig 11. transient thermal response curve
DFF7N60 5/7 fig 13. switching time test circuit & waveforms fig 14. unclamped inductive switching test circuit & waveforms fig. 12. gate charge test circuit & waveforms 12v 200nf 50ko 300nf v gs 1ma same type as dut dut v ds v gs charge q g q gs q gd pulse generator 10v r g v ds r l v dd (0.5 rated v ds ) dut v ds v in 90% 10% t d(on) t r t d(off) t f t on t off time 10v v ds r g v ds (t) dut bv dss l i d v dd i d (t) i as e as =l l i as 2 bv dss bv dss - v dd 1 2 t p
DFF7N60 dut v ds + _ driver r g same type as dut v gs ? dv/dt controlled by r g ?i s controlled by pulse period v d d l l i s i s fig. 15. peak diode recovery dv/dt test circuit & waveforms 10 v v gs ( driver ) i s ( dut ) v ds ( dut ) v dd body diode forward volta g e dro p v f i fm , body diode forward current body diode reverse current i rm body diode recovery dv/dt di/dt d = gate pulse width gate pulse period -------------------------- 10 v v gs ( driver ) i s ( dut ) v ds ( dut ) v dd body diode forward volta g e dro p v f i fm , body diode forward current body diode reverse current i rm body diode recovery dv/dt di/dt d = gate pulse width gate pulse period -------------------------- d = gate pulse width gate pulse period -------------------------- 6/7
DFF7N60 7/7 7/7 j i h g e a c f d b l k n m ? j i h g e a c f d b l k n m ? max. typ. min. max. typ. min. 3.16 3.06 2.96 h 3.10 3.05 3.00 4.75 4.55 4.35 g 5.14 5.04 4.94 n 3.38 3.18 2.98 f 2.67 2.57 2.47 m 15.07 14.77 14.47 e 1.90 1.50 1.10 l 2.80 2.50 2.20 d 10.0 9.50 9.00 k 13.45 13.25 13.05 c 2.66 2.46 2.26 j 8.22 8.02 7.82 b 0.65 0.59 0.55 i 7.13 6.93 6.73 a dim ension [m m ] d im ension [m m ] max. typ. min. max. typ. min. 3.16 3.06 2.96 h 3.10 3.05 3.00 4.75 4.55 4.35 g 5.14 5.04 4.94 n 3.38 3.18 2.98 f 2.67 2.57 2.47 m 15.07 14.77 14.47 e 1.90 1.50 1.10 l 2.80 2.50 2.20 d 10.0 9.50 9.00 k 13.45 13.25 13.05 c 2.66 2.46 2.26 j 8.22 8.02 7.82 b 0.65 0.59 0.55 i 7.13 6.93 6.73 a dim ension [m m ] d im ension [m m ]
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