powerex, inc., 200 e. hillis street, youngwood, pennsylvania 15697-1800 (724) 925-7272 intellimod? l-series three phase igbt inverter 150 amperes/600 volts PM150CLB060 1 description: powerex intellimod? intelligent power modules are isolated base modules designed for power switching applications operating at frequencies to 20khz. built-in control circuits provide optimum gate drive and protection for the igbt and free-wheel diode power devices. features: complete output power circuit gate drive circuit protection logic C short circuit C over temperature using on-chip temperature sensing C under voltage low loss using 5th generation igbt chip applications: inverters ups motion/servo control power supplies ordering information: example: select the complete part number from the table below -i.e. PM150CLB060 is a 600v, 150 ampere intellimod? intelligent power module. type current rating v ces amperes volts (x 10) pm 150 60 outline drawing and circuit diagram dimensions inches millimeters a 4.72 120.0 b 2.17 55.0 c 0.63 16.0 d 4.17 106.0 e 0.28 7.0 f 0.78 19.75 g 2.62 66.5 h 0.13 3.25 j 0.63 16.0 k 0.08 2.0 l 0.10 2.5 m 2.81 71.5 n 0.20 5.0 p 0.31 7.75 q 3.87 98.25 r 0.87 22.0 s 0.10 2.5 t 0.77 19.5 u 0.91 23.0 dimensions inches millimeters v 0.16 4.0 w 1.01 25.75 x 2.00 50.75 y 0.69 17.5 z 0.30 7.5 aa 0.98 25.0 ab 0.10 dia. dia. 2.5 ac 0.22 dia. dia. 5.5 ad 0.67 17.0 ae 0.10 dia. dia. 2.5 af 0.33 8.5 ag 0.08 2.0 ah 0.41 10.5 aj 1.08 27.5 ak 0.04 1.0 al 0.02 sq. sq. 0.5 am 0.06 1.5 an 0.04 1.0 v cc s i gnd gnd out f o in ot v cc s i gnd gnd out f o in ot v cc s i gnd gnd out f o in ot v cc s i gnd gnd out f o in ot p u u n nc f o v nc w n v n1 v n v wp c w p w fo v wp 1 v vpc v p v fo v vp1 v upc u p u fo v up1 v w n nc v cc s i gnd gnd out f o in ot v cc s i gnd gnd out f o in ot 19 f o 17 v n 14 v n1 11 w p 8 v vp1 2 u fo 6 v fo 5 v vpc 3 u p 7 v p 9 v wp c 10 w fo 12 v wp 1 1 v upc 4 v up1 16 u n 15 nc 18 w n 13 v nc terminal code e d a g f l m h j j j k k k k v ab (4 pla ces) v n w x b v v v v v v v v s t u u u r p q ac (2 pla ces) aj ah af ag al an ak c ad ae (2 pla ces) am v v y y z aa n p 1 5 9 13 1 9 w v u b
PM150CLB060 intellimod? l-series three phase igbt inverter 150 amperes/600 volts 2 powerex, inc., 200 e. hillis street, youngwood, pennsylvania 15697-1800 (724) 925-7272 absolute maximum ratings, o v vv ml ) power device junction temperature t j -20 to 150 c storage temperature t stg -40 to 125 c mounting torque, m5 mounting screws 31 in-lb mounting torque, m5 main terminal screws 31 in-lb module weight (typical) 380 grams supply voltage, surge (applied between p - n) v cc(surge) 550 volts self-protection supply voltage limit (short circuit protection capability)* v cc(prot.) 400 volts isolation voltage, ac 1 minute, 60hz sinusoidal v iso 2500 volts *vd = 13.5 ~ 16.5v, inverter part, tj = 125c igbt inverter sector collector-emitter voltage (v d = 15v, v cin = 15v) v ces 600 volts collector current (t c = 25c) i c 150 amperes peak collector current (t c = 25c) i cp 300 amperes collector dissipation (t c = 25c) p c 480 watts control sector supply voltage (applied between v up1 -v upc , v vp1 -v vpc , v wp1 -v wpc , v n1 -v nc ) v d 20 volts input voltage (applied between u p -v upc , v p -v vpc , w p -v wpc , u n - v n - w n -v nc ) v cin 20 volts fault output supply voltage v fo 20 volts (applied between u fo -v upc , v fo -v vpc , w fo -v wpc , f o -v nc ) fault output current (u fo , v fo , w fo , f o terminals) i fo 20 ma electrical and mechanical characteristics, o v vv ml o o igbt inverter sector collector-emitter cutoff current i ces v ce = v ces , v d = 15v, t j = 25c 1.0 ma v ce = v ces , v d = 15v, t j = 125c 10 ma diode forward voltage v ec -i c = 150a, v cin = 15v, v d = 15v 2.2 3.3 volts collector-emitter saturation voltage v ce(sat) v d = 15v, v cin = 0v, i c = 150a, 1.6 2.1 volts t j = 25c v d = 15v, v cin = 0v, i c = 150a, 1.5 2.0 volts t j = 125c inductive load switching times t on 0.5 1.0 2.4 s t rr v d = 15v, v cin = 0 ? 15v 0.2 0.4 s t c(on) v cc = 300v, i c = 150a 0.4 1.0 s t off t j = 125c 1.2 2.5 s t c(off) 0.5 1.0 s
3 PM150CLB060 intellimod? l-series three phase igbt inverter 150amperes/600 volts powerex, inc., 200 e. hillis street, youngwood, pennsylvania 15697-1800 (724) 925-7272 electrical and mechanical characteristics, o v vv ml o o control sector short circuit trip level sc -20c t j 125c, v d = 15v 300 420 amperes short circuit current delay time t off(sc) v d = 15v 0.2 s over temperature protection ot trip level 135 145 155 c (detect t j of igbt chip) ot r reset level 125 c supply circuit under-voltage protection uv trip level 11.5 12.0 12.5 volts (-20 t j 125c) uv r reset level 12.5 volts circuit current i d v d = 15v, v cin = 15v, v n1 -v nc 15 25 ma v d = 15v, v cin = 15v, v xp1 -v xpc 5 10 ma input on threshold voltage v th(on) applied between u p -v upc , 1.2 1.5 1.8 volts input off threshold voltage v th(off) v p -v vpc , w p -v wpc , u n - v n - w n -v nc 1.7 2.0 2.3 volts fault output current* i fo(h) v d = 15v, v cin = 15v 0.01 ma i fo(l) v d = 15v, v cin = 15v 10 15 ma fault output pulse width* t fo v d = 15v 1.0 1.8 ms *fault output is given only when the internal sc, ot and uv protections schemes of either upper or lower devide operate to protect it. thermal characteristics vv ml o junction to case thermal resistance r th(j-c)q igbt (per 1/6 module) (note 1) 0.26 c/watt r th(j-c)d fwdi (per 1/6 module) (note 1) 0.43 c/watt r th(j-c)q igbt (per 1/6 module) (note 2) 0.20 c/watt r th(j-c)d fwdi (per 1/6 module) (note 2) 0.33 c/watt contact thermal resistance r th(c-f) case to fin per module, 0.038 c/watt thermal grease applied (note 1) recommended conditions for use vv ml v supply voltage v cc applied across p-n terminals 400 volts control supply voltage** v d applied between v up1 -v upc , 15.0 1.5 volts v vp1 -v vpc , v wp1 -v wpc , v n1 -v nc input on voltage v cin(on) applied between u p -v upc , 0.8 volts input off voltage v cin(off) v p -v vpc , w p -v wpc , u n - v n - w n -v nc 9.0 volts pwm input frequency f pwm 20 khz arm shoot-through blocking time t dead input signal 2.0 s ** with ripple satisfying the following conditions: dv/dt swing 5v/s, variation 2v peak to peak. arm up vp wp un vn wn axis igbt fwdi igbt fwdi igbt fwdi igbt fwdi igbt fwdi igbt fwdi x 29.0 29.5 64.6 65.1 85.9 86.4 38.1 37.6 54.8 55.3 76.1 75.6 y -7.3 1.6 -7.3 2.1 -7.3 2.1 5.3 -4.6 5.3 -4.6 5.3 -4.6 note 2: t c (under the chip) measurement point note 1:t c (base plate) measurement point y x bottom view top view t c measurement point
PM150CLB060 intellimod? l-series three phase igbt inverter 150 amperes/600 volts 4 powerex, inc., 200 e. hillis street, youngwood, pennsylvania 15697-1800 (724) 925-7272 emitter current, i e , (amperes) reverse recovery current, i rr , (amperes) 10 2 10 0 10 1 10 1 10 0 10 3 10 2 10 0 10 0 10 1 10 -1 10 -2 10 3 10 2 emitter current, i e , (amperes) reverse recovery time, t rr , ( s) collector current, i c , (amperes) switching loss, e sw(on) , (mj/pulse) 10 1 10 0 10 0 10 1 10 -1 10 -2 10 3 10 2 10 1 10 0 10 0 10 1 10 -1 10 -2 10 3 10 2 switching loss (on) vs. collector current (typical) collector current, i c , (amperes) switching loss, e sw(off) , (mj/pulse) switching loss (off) vs. collector current (typical) reverse recovery characteristics (typical) emitter-collector voltage, v ec , (volts) emitter current, i e , (amperes) free-wheel diode forward characteristics (typical) 0 2.0 2.5 1.5 1.0 0.5 10 3 10 2 10 1 10 0 collector-current, i c , (amperes) collector-emitter saturation voltage, v ce(sat) , (volts ) collector-emitter saturation voltage characteristics (typical) 0 120 150 90 60 30 2.0 1.5 1.0 0.5 0 time, (s ) transient thermal impedance characteristics (igbt fwdi) 10 1 10 -1 10 -2 10 -3 10 0 10 1 10 0 10 -1 10 -3 10 -2 z th = r th ? (normalized value) single pulse t c = 25 c per unit base = r th( j-c) = 0.26 c/w (igbt) r th( j-c) = 0.43 c/w (fwdi) normalized transient thermal impedance, z th( j-c' ) reverse recovery characteristics (typical) v cc = 300v v d = 15v inductive load t j = 25 c t j = 125 c v cc = 300v v d = 15v inductive load t j = 25 c t j = 125 c v d = 15v t j = 25 c t j = 125 c v d = 15v t j = 25 c t j = 125 c v cc = 300v v d = 15v t j = 25 c t j = 125 c v cc = 300v v d = 15v t j = 25 c t j = 125 c
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