V23990-P723-F04-PM final datasheet V23990-P723-F04-01-19 fastPACK 0 2nd gen, 600V/ 60A Output inverter application Phase shifted ZVS, Vgeon= 15 V Vgeoff=0V Rgon= Figure 1. Typical static loss of shifted switch as a function of output current IGBT Figure 2. 4 ohms Rgoff= Typical static loss of shifted switch as a function of output current FRED Ploss=f(Iout) 120 60 100 50 Ploss=f(Iout) 40 80 Phaseshift=1 Phaseshift=0 60 30 40 20 20 10 Phaseshift=0,1 Phaseshift=0,9 0 0 0 10 Conditions: Phaseshift parameter 20 30 40 50 60 0 70 Tj=125°C Phaseshift from 0,10 to in 0,10 steps IGBT 10 20 Conditions: Phaseshift parameter 1,00 Figure 3. Typical switching loss as a function of output current Figure 4. 30 40 50 100,0 90,0 60 70 Tj=125°C Phaseshift from 0,00 to in 0,10 steps 0,90 Typical available output current as a function of switching frequency Phase Ploss=f(Iout) Iout (A) Ploss (W) 2 ohms Iout=f(fsw) 60 50 Th=60°C 80,0 70,0 40 80kHz 60,0 50,0 30 40,0 20 30,0 20,0 10 Th=100°C 10,0 10kHz 0,0 0 0 10 20 30 40 Conditions: Tj=125C Ioutpk/Iout= 1,3 DC link= Phaseshift= 1 Switching freq. fsw from parameter in Copyright by Vincotech 50 60 70 Iout (A) 10 Conditions: Ioutpk/Iout= Phaseshift= Heatsink temp. parameter 300 V 10 kHz to * 2 steps 80 kHz 1 100 1,3 1 Tj=125C DC link= Th from in fsw (kHz) 1000 300 V 60 °C to 100 °C 5 °C steps Revision: 1 V23990-P723-F04-PM final datasheet V23990-P723-F04-01-19 fastPACK 0 2nd gen, 600V/ 60A Output inverter application Phase shifted ZVS, Vgeon= 15 V Vgeoff=0V Figure 5. Typical available electric peak output power as a function of heatsink temperature Inverter Rgon= Figure 6. 4 ohms Rgoff= Typical efficiency as a function of output power Inverter efficiency (%) Pout=f(Th) 18,0 16,0 2 ohms efficiency=f(Pout) 100,0 99,5 99,0 14,0 98,5 12,0 10kHz 98,0 10,0 10kHz 97,5 8,0 97,0 6,0 96,5 80kHz 4,0 96,0 2,0 80kHz 95,5 0,0 95,0 0 20 Conditions: Ioutpk/Iout= Phaseshift= Switching freq. parameter 40 1,3 1 60 Tj=125C DC link= fsw from in Copyright by Vincotech 80 100 120 0 4 Conditions: Ioutpk/Iout= Phaseshift= 300 V 10 kHz to * 2 steps 2 80 kHz Switching freq. parameter 2 6 1,3 1 8 10 Tj=125C DC link= fsw from in 12 14 16 18 Pout (kW) 300 V 10 kHz to * 2 steps 80 kHz Revision: 1 V23990-P723-F04-PM final datasheet V23990-P723-F04-01-19 fastPACK 0 2nd gen, 600V/ 60A Switching definitions General conditions: Figure 1. Tj= 125 °C Rgon= Turn-off Switching Waveforms & definition of tdoff, tEoff (tEoff = integrating time for Eoff) Output inverter IGBT Figure 2. 4 ohms Rgoff= 2,0 ohms Turn-on Switching Waveforms & definition of tdon, tEon (tEon = integrating time for Eon) Output inverter IGBT 320 140 tdoff 280 120 100 80 240 Ic Uce Uce 90% Uge 90% 200 Ic 60 %160 Uge % 40 120 tEoff 20 Ic 1% 80 0 tdon 40 Uce Uge Uge10% -20 -40 -0,2 -0,1 0 Uge(0%)= Uge(100%)= Uc(100%)= Ic(100%)= tdoff= tEoff= Figure 3. 0,1 0,2 0,3 time (us) 0 15 400 60 0,21 0,34 0,4 0,5 0,6 tEon -40 2,95 0,7 V V V A us us 3 Uge(0%)= Uge(100%)= Uc(100%)= Ic(100%)= tdon= tEon= Turn-off Switching Waveforms & definition of tf Output inverter IGBT Figure 4. 140 Uce3% Ic10% 0 3,05 0 15 400 59,7 0,02 0,12 3,1 time(us) 3,15 3,2 3,25 V V V A us us Turn-on Switching Waveforms & definition of tr Output inverter IGBT 300 Uce Ic 260 120 fitted 220 100 Uce Ic 90% 180 80 % 60 Ic 60% % 140 40 Ic 40% 100 60 20 Ic Ic10% 20 0 tf -20 -0,1 Ic90% tr 0 0,1 0,2 0,3 0,4 time (us) Uc(100%)= 400 V Ic(100%)= 60 A tf= 0,012 us Copyright by Vincotech Ic10% -20 2,95 2,97 2,99 3,01 3,03 3,05 3,07 3,09 3,11 3,13 3,15 3,17 time(us) Uc(100%)= 400 V Ic(100%)= 59,7 A tr= 0,016 us 3 Revision: 1 V23990-P723-F04-PM final datasheet V23990-P723-F04-01-19 fastPACK 0 2nd gen, 600V/ 60A Switching definitions General conditions: Tj= 125 °C Rgon= 4 ohms Rgoff= 2,0 ohms Switching definitions Figure 5. Turn-off Switching Waveforms & definition of tEoff Output inverter IGBT Figure 6. 120 Turn-on Switching Waveforms & definition of tEon Output inverter IGBT 220 Eoff 100 180 80 Eon Pon Poff 140 60 % 100 % 40 60 20 20 0 Uce3% Uge10% tEon Uge90% Ic 1% tEoff -20 -20 -0,2 -0,1 0 0,1 0,2 time (us) 0,3 0,4 0,5 2,9 0,6 3 Poff(100%)= 23,88 kW Eoff(100%)= 0,97 mJ tEoff= 0,34 us Pon(100%)= Eon(100%)= tEon= Figure 7. Gate voltage vs Gate charge Figure 8. Output inverter IGBT 20 120 15 80 3,1 time(us) 3,2 3,3 23,9 kW 1,11 mJ 0,12 us Turn-off Switching Waveforms & definition of trr Output inverter FRED Id trr 40 10 Uge (V) 0 5 Ud IRRM10% % -40 0 -80 -5 -120 IRRM90% -10 -160 -15 -100 -200 IRRM100% fitted 0 100 200 300 2,8 400 2,9 3 3,1 Qg (nC) Ugeoff= 0 Ugeon= 15 Uc(100%)= 400 Ic(100%)= 60 Qg= 328,7 V V V A nC Copyright by Vincotech Ud(100%)= Id(100%)= IRRM(100%)= trr= 4 400 59,7 100 0,13 3,2 time(us) 3,3 3,4 3,5 3,6 V A A us Revision: 1 V23990-P723-F04-PM final datasheet V23990-P723-F04-01-19 fastPACK 0 2nd gen, 600V/ 60A Switching definitions General conditions: Tj= 125 °C Rgon= 4 ohms Rgoff= 2,0 ohms Switching definitions Figure 9. Turn-on Switching Waveforms & definition of tQrr (tQrr= integrating time for Qrr) Output inverter FRED Figure 10. Turn-on Switching Waveforms & definition of tErec (tErec= integrating time for Erec) Output inverter FRED 180 200 150 Erec 140 100 Qrr Id 50 tErec 100 tQint % % 0 60 -50 -100 Prec 20 -150 -20 -200 2,8 3 3,2 time(us) 3,4 2,8 3,6 Id(100%)= 60 A Qrr(100%)= 4,492 uC tQint= 0,27 us Copyright by Vincotech 3 Prec(100%)= Erec(100%)= tErec= 5 3,2 time(us) 3,4 3,6 23,9 kW 1,32 mJ 0,27 us Revision: 1