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MIG150J7CSB1W 2003-07-30 1 toshiba intelligent power module silicon n channel igbt MIG150J7CSB1W (600v/150a 7in1) high power switching applications motor control applications ? integrates inverter, brake power circuit and control circuits (igbt drive units, and units for protection against short-circuit current, over-current, under-voltage and over-temperature) into a single package. ? the electrodes are isolated from the case ? low thermal resistance ? v ce (sat) = 1.9 v (typ.) ? ul recognized: file no.e87989 ? weight: 278 g (typ.) equivalent circuit 1. v d (u) 2. fo (u) 3. in (u) 4. gnd (u) 5. v d (v) 6. fo (v) 7. in (v) 8. gnd (v) 9. v d (w) 10. fo (w) 11. in (w) 12. gnd (w) 13. v d (l) 14. fo (l) 15. open 16. in (b) 17. in (x) 18. in (y) 19. in (z) 20. gnd (l) 16 19 20 w v u b n p fo in v d gnd gnd v s out fo in v d gnd gnd v s out fo in v d gnd gnd v s out fo in v d gnd gnd v s out gnd in fo v d gnd v s out gnd in fo v d gnd v s out gnd in fo v d gnd v s out 18 17 14 13 15 12 11 10 9 8 7 6 5 4 3 2 1
MIG150J7CSB1W 2003-07-30 2 package dimensions: toshiba 2-108g1a unit: mm 1. v d (u) 2. fo (u) 3. in (u) 4. gnd (u) 5. v d (v) 6. fo (v) 7. in (v) 8. gnd (v) 9. v d (w) 10. fo (w) 11. in (w) 12. gnd (w) 13. v d (l) 14. fo (l) 15. open 16. in (b) 17. in (x) 18. in (y) 19. in (z) 20. gnd (l)
MIG150J7CSB1W 2003-07-30 3 signal terminal layout unit: mm 1. v d (u) 2. fo (u) 3. in (u) 4. gnd (u) 5. v d (v) 6. fo (v) 7. in (v) 8. gnd (v) 9. v d (w) 10. fo (w) 11. in (w) 12. gnd (w) 13. v d (l) 14. fo (l) 15. open 16. in (b) 17. in (x) 18. in (y) 19. in (z) 20. gnd (l)
MIG150J7CSB1W 2003-07-30 4 maximum ratings (t j = 25c) stage characteristic condition symbol rating unit supply voltage p-n power terminal v cc 450 v collector-emitter voltage ? v ces 600 v collector current tc = 25c, dc i c 150 a forward current tc = 25c, dc i f 150 a collector power dissipation tc = 25c, dc p c 740 w inverter junction temperature ? tj 150 c supply voltage p-n power terminal v cc 450 v collector-emitter voltage ? v ces 600 v collector current tc = 25c, dc i c 75 a reverse voltage ? v r 600 v forward current tc = 25c, dc i f 75 a collector power dissipation tc = 25c p c 460 w brake junction temperature ? tj 150 c control supply voltage v d -gnd terminal v d 20 v input voltage in-gnd terminal v in 20 v fault output voltage fo-gnd terminal v fo 20 v control fault output current fo sink current i fo 14 ma operating temperature ? tc ? 20~ + 100 c storage temperature range ? tstg ? 40~ + 125 c isolation voltage ac 1 min v iso 2500 v screw torque (terminal) m4 ? 2 module screw torque (mounting) m5 ? 3 n ? m electrical characteristics inverter stage characteristics symbol test condition min typ. max unit tj = 25c ? ? 1 collector cut-off current i cex v ce = 600 v tj = 125c ? ? 10 ma tj = 25c 1.6 1.9 2.3 collector-emitter saturation voltage v ce (sat) v d = 15 v i c = 150 a v in = 15 v 0 v tj = 125c ? 2.1 ? v forward voltage v f i f = 150 a, tj = 25c ? 2.4 2.8 v t on ? 1.3 2.2 t c (on) ? 0.3 ? t rr ? 0.3 ? t off ? 1.1 2.1 switching time t c (off) v cc = 300 v, i c = 150 a v d = 15 v, v in = 15 v ? 0 v tj = 25c, inductive load (note 1) ? 0.2 ? s note 1: switching time test circuit & timing chart
MIG150J7CSB1W 2003-07-30 5 brake stage characteristics symbol test condition min typ. max unit tj = 25c ? ? 1 collector cut-off current i cex v ce = 600 v tj = 125c ? ? 10 ma tj = 25c ? 1.8 2.2 collector-emitter saturation voltage v ce (sat) v d = 15 v i c = 75 a v in = 15 v 0 v tj = 125c ? 2.0 ? v tj = 25c ? ? 1 reverse current i r v r = 600 v tj = 125c ? ? 10 ma forward voltage v f i f = 75 a, tj = 25c 1.7 2.2 2.6 v t on ? 1.6 2.2 t c (on) ? 0.65 ? t rr ? 0.45 ? t off ? 1.4 2.4 switching time t c (off) v cc = 300 v, i c = 75 a v d = 15 v, v in = 15 v ? 0 v tj = 25c, inductive load (note 1) ? 0.2 ? s note 1: switching time test circuit & timing chart control stage (tj = 25c) characteristics symbol test condition min typ. max unit high side i d (h) ? 13 17 control circuit current low side i d (l) v d = 15 v ? 52 68 ma input on signal voltage v in (on) 1.4 1.6 1.8 input off signal voltage v in (off) v d = 15 v 2.2 2.5 2.8 v protection i fo (on) ? 10 12 fault output current normal i fo (off) v d = 15 v ? ? 0.1 ma inverter 240 ? ? over current protection trip level brake oc v d = 15 v, tj < = ? ? a inverter 240 ? ? short circuit protection trip level brake sc v d = 15 v, tj < = ? ? a over current cut-off time t off (oc) v d = 15 v ? 5 ? s trip level ot 110 118 125 over temperature protection reset level otr case temperature ? 98 ? c trip level uv 11.0 12.0 12.5 control supply under voltage protection reset level uvr ? 12.0 12.5 13.0 v fault output pulse width t fo v d = 15 v 1 2 3 ms thermal resistance (tc = 25c) characteristics symbol test condition min typ. max unit inverter igbt ? ? 0.167 inverter frd ? ? 0.313 brake igbt ? ? 0.270 junction to case thermal resistance r th (j-c) brake frd ? ? 0.600 c/w case to fin thermal resistance r th (c-f) compound is applied ? 0.017 ? c/w
MIG150J7CSB1W 2003-07-30 6 switching time test circuit timing chart pg tlp559 (igm) 15 v 0.1 f 22 f 15 k ? f 22 f 15 k ? = 16ma n input pulse v in waveform i c waveform v ce waveform 2.5 v 1.6 v 15 v 10% 10% t o ff t c (o ff ) 10% 10% t o n t c (o n ) 0 90% i rr t rr i rr 20% i rr 90%
MIG150J7CSB1W 2003-07-30 7 recommended conditions for application characteristics symbol test condition min typ. max unit supply voltage v cc p-n power terminal ? 300 400 v control supply voltage v d v d -gnd signal terminal 13.5 15 16.5 v carrier frequency fc pwm control ? ? 20 khz dead time tdead switching time test circuit (see page.6) (note 2) 3 ? ? s note 2: the table lists dead time requirements for the module input, excluding photocoupler delays. when specifying dead time requirements for the photocoupler input, please add photocoupler delays to the dead time given above. dead time timing chart t dead 15 v v in waveform v in waveform 0 15 v 0 t dead
MIG150J7CSB1W 2003-07-30 8 100 1 0 50 100 200 3 30 150 common cathode :tj = 25c :tj = 125c irr 10 trr 0 0 1 3 2 4 common cathode :tj = 25c :tj = 125c 50 100 150 200 300 250 10 0.01 0 50 200 0.1 1 tj = 125c v cc = 300 v v d = 15 v l-load ton toff tc (on) tc (off) 0.03 0.05 0.3 0.5 3 5 100 150 10 0.01 0 50 200 0.1 1 tj = 25c v cc = 300 v v d = 15 v l-load ton toff tc (on) tc (off) 0.03 0.05 0.3 0.5 3 5 100 150 300 0 0 1 3 4 50 100 200 2 150 v d = 17 v common emitter tj = 125c 13 v 15 v 250 300 0 0 1 3 4 50 100 200 2 150 v d = 17 v common emitter tj = 25c 13 v 15 v 250 forward current i f (a) switching time ( s) collector-emitter voltage v ce (v) i c ? v ce collector current i c (a) collector-emitter voltage v ce (v) i c ? v ce collector current i c (a) collector current i c (a) switching time ? i c switching time ( s) collector current i c (a) switching time ? i c forward voltage v f (v) i f ? v f forward current i f (a) t rr , i rr ? i f peak reverse recovery current irr (a) reverse recovery time trr ( 10ns)
MIG150J7CSB1W 2003-07-30 9 oc 280 0 0 200 600 240 200 120 40 400 tj < = = 15 v 160 80 100 300 700 500 120 0 0 5 15 25 60 80 10 100 40 20 20 v d = 15 v tj = 25c 30 0 0 5 15 25 15 20 10 25 10 5 20 v d = 15 v tj = 25c 400 0 0 25 75 150 200 300 50 100 125 100 v d = 15 v inverter stage brake stage transient thermal resistance rth (t) (c / w) collector current i c (a) case temperature t c (c) oc ? t c over current protection trip level oc (a) carrier frequency f c (khz) i d (h) ? f c high side control circuit current i d (h) (ma) carrier frequency f c (khz) i d (l) ? f c low side control circuit current i d (l) (ma) collector-emitter voltage v ce (v) reverse bias soa pulse width tw (s) pulse width tw (s) r th (t) ? tw brake stage transient thermal resistance rth (t) (c / w) r th (t) ? tw inverter stage 1 0.001 0.001 0.01 1 0.003 0.1 0.01 0.005 0.03 0.1 0.05 0.3 0.5 10 tc = 25c diode stage transistor stage 1 0.001 0.001 0.01 1 0.003 0.1 0.01 0.005 0.03 0.1 0.05 0.3 0.5 10 tc = 25c diode stage transistor stage
MIG150J7CSB1W 2003-07-30 10 0.01 0 0.1 1 100 10 100 200 50 150 v cc = 300 v vd = 15 v l-load : tj = 25c : tj = 125c 0.01 0 0.1 1 100 10 100 200 50 150 v cc = 300 v vd = 15 v l-load : tj = 25c : tj = 125c turn on loss ? i c turn off loss ? i c collector current i c (a) collector current i c (a) turn off loss eoff (mj) turn on loss eon (mj)
MIG150J7CSB1W 2003-07-30 11 ? the information contained herein is subject to change without notice. ? the information contained herein is presented only as a guide for the applications of our products. no responsibility is assumed by toshiba for any infringements of patents or other rights of the third parties which may result from its use. no license is granted by implication or otherwise under any patent or patent rights of toshiba or others. ? toshiba is continually working to improve the quality and reliability of its products. nevertheless, semiconductor devices in general can malfunction or fail due to their inhe rent electrical sensitivity and vulnerability to physical stress. it is the responsibility of the buyer, when utilizing toshiba products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such toshiba products could cause loss of human life, bodily injury or damage to property. in developing your designs, please ensure that toshiba products are used within specified operating ranges as set forth in the most recent toshiba products specifications. also, please keep in mind the precautions and conditions set forth in the ?handling guide for semiconductor devices,? or ?toshiba semiconductor reliability handbook? etc.. ? the toshiba products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.). these toshiba products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (?unintended usage?). unintended usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. unintended usage of toshiba products listed in this document shall be made at the customer?s own risk. ? toshiba products should not be embedded to the downstream products which are prohibited to be produced and sold, under any law and regulations. 030619eaa restrictions on product use

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