2009. 2. 19 1/6 semiconductor technical data KGH15N120NDA revision no : 1 general description kec npt igbts offer lowest losses and highest energy efficiency for application such as ih (induction heating), ups, general inverter and other soft switching applications. features ? high speed switching ? higher system efficiency ? soft current turn-off waveforms ? square rbsoa using npt technology maximum rating (ta=25 ? ) to-3p(n)-e c g l k r a d b h f i d pp t j q 1 2 3 m n o e a millimeters dim b c d d e f g h i j k l o n p q m 19.90 0.20 2.00 0.20 1.00 0.20 3.00 0.20 3.80 0.20 3.50 0.20 13.90 0.20 12.76 0.20 23.40 0.20 1.5+0.15-0.05 16.50 0.30 1.40 0.20 13.60 0.20 9.60 0.20 5.45 0.30 r t 1. gate 2. collector 3. emitter 0.60+0.15-0.05 15.60 0.20 + _ 4.80 0.20 + _ + _ + _ + _ + _ + _ + _ + _ + _ + _ + _ + _ + _ + _ + _ 3.20 0.10 + _ 18.70 0.20 + _ *repetitive rating : pulse width limited by max. junction temperature g c e characteristic symbol rating unit collector-emitter voltage v ces 1200 v gate-emitter voltage v ges ?? 20 v collector current @t c =25 i c 24 a @t c =100 15 a pulsed collector current i cm * 45 a diode continuous forward current @t c =100 i f 15 a diode maximum forward current i fm 45 a maximum power dissipation @t c =25 p d 200 w @t c =100 80 w maximum junction temperature t j 150 ? storage temperature range t stg -55 to + 150 ? characteristic symbol max. unit thermal resistance, junction to case (igbt) r jc 0.6 ? /w thermal resistance, junction to case (diode) r jc 2.8 ? /w thermal characteristic
2009. 2. 19 2/6 KGH15N120NDA revision no : 1 electrical characteristics (ta=25 ? ) characteristic symbol test condition min. typ. max. unit static collector-emitter breakdown voltage bv ces v ge =0v , i c =3ma 1200 - - v collector cut-off current i ces v ge =0v, v ce =1200v - - 3 ma gate leakage current i ges v ce =0v, v ge = ?? 20v - - ?? 100 na gate threshold voltage v ge(th) v ge =v ce, i c =15ma 3.5 5.5 7.5 v collector-emitter saturation voltage v ce(sat) v ge =15v, i c =15a - 2.2 2.7 v dynamic total gate charge q g v cc =600v, v ge =15v, i c = 15a - 140 - nc gate-emitter charge q ge - 12 - nc gate-collector charge q gc - 65 - nc turn-on delay time t d(on) v cc =600v, i c =15a, v ge =15v,r g =10 ? inductive load, t c = 25 ? - 60 - ns rise time t r - 50 - ns turn-off delay time t d(off) - 180 - ns fall time t f - 70 - ns turn-on switching loss e on - 3.0 - mj turn-off switching loss e off - 0.6 - mj total switching loss e ts - 3.6 - mj turn-on delay time t d(on) v cc =600v, i c =25a, v ge =15v, r g =10 ? inductive load, t c = 125 ? - 60 - ns rise time t r - 50 - ns turn-off delay time t d(off) - 190 - ns fall time t f - 100 - ns turn-on switching loss e on - 3.1 - mj turn-off switching loss e off - 0.8 - mj total switching loss e ts - 3.9 - mj input capacitance c ies v ce =30v, v ge =0v, f=1mhz - 1400 - pf ouput capacitance c oes - 140 - pf reverse transfer capacitance c res - 57 - pf electrical characteristic of diode characteristic symbol test condition min. typ. max. unit diode forward voltage v f i f = 15a t c =25 - 1.5 1.9 v t c =125 - 1.6 - diode reverse recovery time t rr i f = 15a di/dt = 200a/ s t c =25 - 200 300 ns t c =125 - 270 - diode peak reverse recovery current i rr t c =25 - 26 34 a t c =125 - 30 -
2009. 2. 19 3/6 KGH15N120NDA revision no : 1 fig 1. typical output characteristics collector - emitter voltage v ce (v) collector - emitter voltage v ce (v) collector - emitter voltage v ce (v) 46 2 0 collector current i c (a) collector - emitter voltage v ce (v) gate - emitter voltage v ge (v) collector current i c (a) 0 20 16 12 4 8 08 20 41216 0246810 0 20 40 60 80 100 120 140 160 180 40 20 80 60 0 25 50 2.0 2.5 4.0 3.5 3.0 75 100 125 case temperature t c ( ) c 1 10 capacitance (pf) 0 500 3000 2500 4000 3500 1000 1500 2000 common emitter v ge = 15v t c = t c = fig 2. typical saturation voltage characteristics fig 3. saturation voltage vs. case temperature at variant current level fig 4. saturation voltage vs. v ge fig 5. saturation voltage vs. v ge fig 6. capacitance characteristics t c =25 c 25 c 125 c common emitter v ge = 15v v ge = 7v 10v 20v 17v 15v 12v i c = 15a 24a common emitter t c = 25 c i c = 7.5a 15a 24a collector - emitter voltage v ce (v) gate - emitter voltage v ge (v) collector - emitter voltage v ce (v) 0 20 16 12 4 8 08 20 41216 common emitter t c = 125 c common emitter v ge = 0v, f = 1mhz t c = 25 c i c = 7.5a 15a 24a ciss coss crss
2009. 2. 19 4/6 KGH15N120NDA revision no : 1 fig 7. turn-on characteristics vs. gate resistance gate resistance r g ( ? ) gate resistance r g ( ? ) switching time (ns) switching time (ns) 0204 060 10 30 50 70 10 100 common emitter v cc = 600v, v ge = 15v i c = 15a t c = t c = 25 c 125 c tr td(on) 0204060 10 30 50 70 10 100 1000 common emitter v cc = 600v, v ge = 15v i c = 15a t c = t c = 25 c 125 c tf td(off) fig 8. turn-off characteristics vs. gate resistance collector current i c ( ) switching time (ns) 510 20 15 25 100 common emitter v ge = 15v, r g = 15 ? t c = t c = 25 c 125 c tr td(on) fig 10. turn-on characteristics vs. collector curren t collector current i c ( ) switching time (ns) 510 20 15 25 100 10 1000 common emitter v ge = 15v, r g = 15 ? t c = t c = 25 c 125 c fig 11. turn-off characteristics vs. collector current gate resistance r g ( ? ) switching loss (mj) 0204060 10 30 50 70 1 0.1 10 common emitter v cc = 600v, v ge = 15v i c = 25a t c = t c = 25 c 125 c eoff eon fig 9. switching loss vs. gate resistance collector current i c ( ) switching loss (mj) 510 20 15 25 0.1 10 1 common emitter v ge = 15v, r g = 15 ? t c = t c = 25 c 125 c fig 12. switching loss vs. collector current eoff eon tf td(off)
2009. 2. 19 5/6 KGH15N120NDA revision no : 1 fig 13. gate charge characteristics gate charge q g ( nc ) gate-emitter voitage v ge (v) 0 120 60 90 30 150 0 2 4 6 8 10 12 14 16 common emitter r l = 40 ? t c = 25 c safe operating area v ge = 15v, t c = 125 c fig 14. soa characteristics 1 100 10 1000 1 10 100 fig 15. turn-off soa fig 16. transient thermal impedance of igbt 400v 600v vcc = 200v rectan g ular pulse duration (sec) 10 1 1e-5 1e-4 1e-3 0.01 0.1 1 10 thermal resistance (zthjc) 0.01 1e-3 0.1 1. duty factor d=t1/t2 2. peak tj = pdm zthjc + t c t 1 t 2 p dm collector current i c (a) collector-emitter voltage v ce (v) collector current i c (a) collector-emitter voltage v ce (v) 1 1 0.01 0.1 0.1 10 100 10 100 1000 single nonrepetitive pulse t c = 25 curves must be derated linearly with increase in temperature c 1ms 100 s dc i c max (pulsed) i c max (continuous) 50 s single pluse 0.01 0.02 0.1 0.2 0.5 0.05
2009. 2. 19 6/6 KGH15N120NDA revision no : 1 fig 17. forward characteristics forward voltage v f (v) forward current i f (a) forward current i f (a) reverse recovery current i rrm (a) reverse recovery time t rr (ns) forward current i f (a) 01020 51525 0 20 25 30 15 5 10 fig 18. reverse recovery current fig 19. reverse recovery time di/dt=100a/ s di/dt=200a/ s 01020 51525 0 400 300 100 200 0 0.4 1.2 1.6 2.0 0.8 2.4 0.1 10 50 1 t c = t c = 25 c 125 c t c = 25 c t c = 125 c di/dt=200a/ s di/dt=100a/ s
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