MITSUBISHI <INTELLIGENT POWER POWER MODULES> PMC6 PMC6 TYPE PMC6 FETURE φ, 6 Current-sense IGBT for khz switching Monolithic gate drive & protection logic Detection, protection & status indication circuits for overcurrent, short-circuit, over-temperature & under-voltage (P- available from upper leg devices) coustic noise-less kw class inverter application UL Recognized Yellow Card No. E86(N) File No. E8 PPLICTION General purpose inverter, servo drives and other motor controls PCKGE OUTLINES Dimensions in mm. 89. ±. 8 ±.. ±... N ±. P. 4 68 9 46 4 φ.mounting HOLES 4. ±. 4. ±. 4. ±. 4. ±. 8.. W. WPC. WP 4. WP. 6. PC. P TERMINL CODE 8. P 9. U. UPC. UP. UP. NC 4.. NC 6. N. UN 8. N 9. WN U -MNUTS W. 89.4 ±. +.. 4..6 4 8. 9. LBEL 4.6 ±. 4.. 4..4 ±..4 ±..49 ±. : DETIL 4-φ C..4 ±..49 ±..64 Jun.
PMC6 INTERNL FUNCTIONS BLOCK DIGRM NC NC WN N N WP WP P P UP UP UN WPC W PC UPC U Rfo Rfo Rfo Rfo CC TEMP CC CC CC CC CC Si OUT Si OUT Si OUT Si OUT Si OUT Si OUT Th Rfo=.kΩ N W U P MXIMUM RTINGS (Tj =, unless otherwise noted) INERTER PRT Condition Ratings CES ±IC ±ICP PC Tj Collector-Emitter oltage Collector Current Collector Current (Peak) Collector Dissipation Junction Temperature D =, CIN = TC = TC = TC = 6 4 4 ~ + W CONTROL PRT Condition Ratings D CIN I Supply oltage put oltage Fault Output Supply oltage Fault Output Current pplied between : UP-UPC P-PC, WP-WPC, N-NC pplied between : UP-UPC, P-PC, WP-WPC UN N WN-NC pplied between : U-UPC, -PC, W-WPC -NC Sink current at U,, W and terminal m Jun.
PMC6 TOTL SYSTEM Condition Ratings Supply oltage Protected by D =. ~ 6., verter Part, CC(PROT) SC Tj = Start 4 pplied between : P-N, Surge value or without CC(surge) Supply oltage (Surge) switching TC Tstg Module Case Operating Temperature (Note-) Storage Temperature iso Isolation oltage 6Hz, Sinusoidal, Charged part to Base, C min. (Note-) TC measurement point is below. (mm depth at the center of the side of base plate) ~ + 4 ~ + rms Tc ELECTRICL CHRCTERISTICS (Tj =, unless otherwise noted) INERTER PRT CE(sat) EC ton trr tc(on) toff tc(off) ICES Collector-Emitter Saturation oltage FWDi Forward oltage Switching Time Collector-Emitter Cutoff Current D =, IC = CIN = IC =, D =, CIN = D =, CIN = CC =, IC = Tj = ductive Load (upper and lower arm) CE = CES, CIN = Tj = Tj = Tj = Tj = Min. Typ. Max..4....8...8.6.8......9. µs m CONTROL PRT ID th(on) th(off) SC toff(sc) OT OTr U Ur I(H) I(L) t Circuit Current put ON Threshold oltage put OFF Threshold oltage Short Circuit Trip Level Short Circuit Current Delay Time Over Temperature Protection Supply Circuit Under-oltage Protection Fault Output Current Minimum Fault Output Pulse Width N-NC D =, CIN = *P-*PC pplied between : UP-UPC, P-PC, WP-WPC UN N WN-NC Tj, D = D = Base-plate Temperature detection, D = Tj D =, = D = Trip level Reset level Trip level Reset level (Note-) (Note-) Min..... Typ. 4.. 8...8 Max. 8.8... m µs m ms (Note-) Fault output is given only when the internal SC, OT & U protection. Fault output of OT protection operate by lower arm Fault output of OT, U protection given pulse while over level. Jun.
PMC6 THERML RESISTNCES Min. Typ. Max. Rth(j-c)Q Rth(j-c)F Rth(c-f) Junction to case Thermal Resistances Contact Thermal Resistance verter IGBT part (per /6 module) verter FWDi part (per /6 module) Case to fin, Thermal grease applied (per module)... /W MECHNICL RTINGS ND CHRCTERISTICS Mounting torque Mounting torque Weight Mounting part Main terminal screw : M screw : M Min. Typ. Max....... N m N m g RECOMMENDED CONDITIONS R USE CC D CIN(ON) CIN(OFF) tdead fpwm Supply oltage Control Supply oltage put ON oltage put OFF oltage rm Shoot-through Blocking Time PWM put Frequency pplied across P-N terminals pplied between : UP-UPC, P-PC WP-WPC, N-NC (Note-) pplied between : UP-UPC, P-PC, WP-WPC UN N WN-NC For IPM s each input signals Using pplication Circuit input signal of IPM, φ Sinusoidal PWM F inverter (Note-) With ripple satisfying the following conditions dv/dt swing ±/µs, ariation peak to peak Recommended value 4 ±..8 4.. µs khz Jun.
PMC6 PERRMNCE CURES COLLECTOR CURRENT IC () OUTPUT CHRCTERISTICS D = 4 Tj = CIN = COLLECTOR-EMITTER OLTGE CE () COLLECTOR-EMITTER STURTION OLTGE CE (sat) () 4 COLLECTOR-EMITTER STURTION OLTGE CHRCTERISTICS Tj = Tj = D = CIN = 4 8 6 4 COLLECTOR CURRENT IC() COLLECTOR-EMITTER STURTION OLTGE CE (sat) () 6 4 COLLECTOR-EMITTER STURTION OLTGE CHRCTERISTICS 4 6 8 Tj = Tj = IC = CIN = SWITCHING TIME (µs) SWITCHING CHRCTERISTICS Tj = CC = D = ductive load toff ton tc(off) tc(on) CONTROL SUPPLY OLTGE D() COLLECTOR CURRENT IC () COLLECTOR RECOERY CURRENT IC () DIODE RWRD CHRCTERISTICS Tj = Tj = D = CIN = 4 REERSE RECOERY CURRENT lrr () DIODE REERSE RECOERY CHRCTERISTICS lrr Tj = Tj = trr CC = D = ductive load REERS RECOERY TIME trr (µs) EMITTER-COLLECTOR OLTGE EC () COLLECTOR RECOERY CURRENT IC () Jun.
PMC6 NORMLIZED TRNSIENT THERML IMPEDNCE Zth (j c) TRNSIENT THERML IMPEDNCE CHRCTERISTICS (IGBT per element) Single Pulse Per unit base = Rth(j c)q =./W NORMLIZED TRNSIENT THERML IMPEDNCE Zth (j c) TRNSIENT THERML IMPEDNCE CHRCTERISTICS (FWDi per element) Single Pulse Per unit base = Rth(j c)f =./W TIME (s) TIME (s) Jun.