mar. 2002 CM600DU-5F application ac moter controll of forklift (battery power source) mitsubishi igbt modules CM600DU-5F high power switching use ? i c ................................................................... 600a ? v ces ............................................................ 250v ? insulated type ? 2-elements in a pack outline drawing & circuit diagram dimensions in mm circuit diagram 3-m6 nuts tc measured point 4- 6.5 mounting holes l a b e l g1 g2 e2 e1 cm c1 e2 c2e1 (8.25) 18.25 (18.5) 62 0.25 80 110 93 0.25 2.5 21.5 6156 14 14 29 +1.0 ?.5 18 7 18 7 18 14 21 8.5 7.5 2.8 4 0.5 0.5 0.5 0.5 4 25 25 c2e1 e2 c1 e2 g2 g1 e1
mar. 2002 performance curves mitsubishi igbt modules CM600DU-5F high power switching use 1200 800 1000 400 600 0 200 02345 output characteristics (typical) collector current i c (a) collector-emitter voltage v ce (v) t j = 25 c 6.25 6.5 6 5.75 5.25 5.5 5 v ge = 15v 10 8 1000 600 400 1200 800 200 0 0246810 transfer characteristics (typical) collector current (a) gate-emitter voltage v ge (v) v ce = 10v t j = 25 c t j = 125 c 2 1.6 1.2 0.8 0.4 0 0 1000 800 600 1200 collector-emitter saturation voltage characteristics (typical) collector-emitter saturation voltage v ce (sat) (v) collector current i c (a) v ge = 10v t j = 25 c t j = 125 c 10 8 6 4 2 0 20 6 8 12 16 10 024 14 18 gate-emitter voltage v ge (v) collector-emitter saturation voltage characteristics (typical) collector-emitter saturation voltage v ce (sat) (v) t j = 25 c i c = 1200a i c = 600a i c = 240a 10 1 2 3 5 7 10 2 2 3 5 7 10 3 10 4 2 3 5 7 0.6 0.8 1 1.2 1.6 1.4 1.8 free-wheel diode forward characteristics (typical) emitter current i e (a) emitter-collector voltage v ec (v) t j = 25 c 10 � 1 10 1 10 0 2 3 5 7 10 2 2 3 5 7 10 3 2 3 5 7 2 10 0 357 2 10 1 357 2 10 2 357 capacitance? ce characteristics (typical) capacitance c ies , c oes , c res (nf) collector-emitter voltage v ce (v) c ies c oes c res v ge = 0v 1 0.5 2.5 3.5 4.5 1.5 400 200
mar. 2002 mitsubishi igbt modules CM600DU-5F high power switching use 10 1 10 2 23 57 10 3 23 57 10 1 10 2 2 3 5 7 10 3 2 3 5 7 10 1 10 2 2 3 5 7 10 3 2 3 5 7 t rr i rr reverse recovery characteristics of free-wheel diode (typical) emitter current i e (a) reverse recovery time t rr (ns) reverse recovery current l rr (a) conditions: v cc = 100v v ge = 10v r g = 4.2 ? t j = 25 c inductive load 10 1 10 � 3 10 � 5 10 � 4 10 0 7 5 3 2 10 � 2 7 5 3 2 10 � 1 7 5 3 2 7 5 3 2 10 � 3 23 57 23 57 23 57 23 57 10 1 10 � 2 10 � 1 10 0 10 � 3 10 � 3 7 5 3 2 10 � 2 7 5 3 2 10 � 1 3 2 23 57 23 57 single pulse t c = 25 c transient thermal impedance characteristics (igbt part & fwdi part) normalized transient thermal impedance z th (j � c) ( c/w) tmie (s) igbt part: per unit base = r th(j � c) = 0.11 c/ w fwdi part: per unit base = r th(j � c) = 0.20 c/ w 0 4 8 16 12 20 0 500 2000 4500 3500 2500 1000 1500 4000 3000 gate charge characteristics (typical) gate-emitter voltage v ge (v) gate charge q g (nc) v cc = 50v v cc = 100v i c = 600a 10 1 10 2 57 10 3 23 57 23 half-bridge switching characteristics (typical) switching times (ns) collector current i c (a) conditions: v cc = 100v v ge = 10v r g = 4.2 ? t j = 125 c inductive load t d(off) t d(on) t f t r
mar. 2002 a a 250 20 600 350 1200 600 350 1200 1100 � 40 ~ +150 � 40 ~ +125 2500 3.5 ~ 4.5 3.5 ~ 4.5 580 v v a (rms) a a (rms) a w c c v n � m n � m g collector-emitter voltage gate-emitter voltage maximum collector dissipation junction temperature storage temperature isolation voltage weight collector current emitter current g-e short c-e short t c = 25 c pulse (note 2) t c = 25 c pulse (note 2) t c = 25 c main terminal to base plate, ac 1 min. main terminal m6 mounting holes m6 typical value v ces v ges i c i c(rms) i cm i e ( note 1 ) i e(rms) ( note 1 ) i em ( note 1 ) p c ( note 3 ) t j t stg v iso � mitsubishi igbt modules CM600DU-5F high power switching use 1 0.5 1.7 � 170 11 5.7 � 850 600 1100 500 300 � 2 0.11 0.20 � 0.05 ma a nf nc c v c/w � � 1.2 1.1 � � � 2200 � � � � � 20.0 � � � 0.02 � � � � � � � � � � � � � � � � � � � � 4.0 v v ns 3.0 5.0 ns v ce = v ces , v ge = 0v v ge = v ces , v ce = 0v t j = 25 c t j = 125 c v cc = 100v, i c = 600a, v ge = 10v v cc = 100v, i c = 600a v ge1 = v ge2 = 10v r g = 4.2 ? , inductive load switching operation i e = 600a i e = 600a, v ge = 0v igbt part (1/2 module) fwdi part (1/2 module) case to fin, thermal compoundapplied *2 (1/2 module) tc measured point is just under the chips i c = 60ma, v ce = 10v i c = 600a, v ge = 10v v ce = 10v v ge = 0v collector cutoff current gate leakage current input capacitance output capacitance reverse transfer capacitance total gate charge turn-on delay time turn-on rise time turn-off delay time turn-off fall time reverse recovery time reverse recovery charge emitter-collector voltage contact thermal resistance thermal resistance *3 gate-emitter threshold voltage collector to emitter saturation voltage thermal resistance *1 i ces i ges c ies c oes c res q g t d(on) t r t d(off) t f t rr ( note 1 ) q rr ( note 1 ) v ec( note 1 ) r th(j-c) q r th(j-c) r r th(c-f) r th(j-c � ) q symbol parameter v ge(th) v ce(sat) note 1. i e , v ec , t rr , q rr and die/dt represent characteristics of the anti-parallel, emitter to collector free-wheel diode. (fwdi). 2. pulse width and repetition rate should be such that the device junction temp. (t j ) does not exceed t jmax rating. 3. junction temperature (t j ) should not increase beyond 150 c. 4. pulse width and repetition rate should be such as to cause negligible temperature rise. * 1 : tc measured point is indicated in outline drawing. * 2 : typical value is measured by using shin-etsu silicone � g-746 � . * 3 : if you use this value, r th(f-a) should be measured just under the chips. symbol parameter conditions unit ratings unit typ. limits min. max. � maximum ratings (tj = 25 c) electrical characteristics (tj = 25 c) test conditions mounting torque
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