V23990-P829-F10/ F108-PM preliminary datasheet Output Inverter Application flowPACK 1 3rd gen 1200V/50A General conditions 3phase SPWM VGEon = 15 V VGEoff = -15 V Rgon = 8 Ω Rgoff = 8 Ω IGBT Figure 1 FRED Figure 2 Typical average static loss as a function of output current Ploss = f(Iout) Typical average static loss as a function of output current Ploss = f(Iout) 80 Ploss (W) Ploss (W) 120 100 60 Mi*cosf i= -1 80 Mi*cosfi = 1 40 60 40 20 20 Mi*cosfi = 1 Mi*cosfi = -1 0 0 0 20 40 60 0 80 20 40 60 80 Iout (A) At Tj = Iout (A) At Tj = °C 150 Mi*cosfi from -1 to 1 in steps of 0,2 150 °C Mi*cosfi from -1 to 1 in steps of 0,2 IGBT Figure 3 Typical average switching loss as a function of output current FRED Figure 4 Typical average switching loss as a function of output current Ploss = f(Iout) Ploss = f(Iout) Ploss (W) 50 Ploss (W) 100 fsw = 16kHz 40 80 fsw = 16kHz 60 30 40 20 20 10 fsw = 2kHz fsw = 2kHz 0 0 0 At Tj = 20 150 40 60 Iout (A) 0 80 At Tj = °C DC link = 600 V fsw from 2 kHz to 16 kHz in steps of factor 2 copyright by Vincotech 20 150 40 60 Iout (A) 80 °C DC link = 600 V fsw from 2 kHz to 16 kHz in steps of factor 2 1 Revision: 3 V23990-P829-F10/ F108-PM preliminary datasheet Output Inverter Application flowPACK 1 3rd gen Phase Figure 5 Typical available 50Hz output current as a function Mi*cosfi Phase Figure 6 Typical available 50Hz output current as a function of switching frequency Iout = f(Mi*cosfi) Iout (A) 80 Iout (A) 1200V/50A Th = 60°C 60 Iout = f(fsw) 80 60 Th = 60°C Th = 100°C 40 40 20 20 Th = 100°C 0 0 -1,0 -0,5 At Tj = 150 0,0 0,5 Mi*cosfi 1,0 1 At Tj = °C DC link = 600 V fsw = 4 kHz Th from 60 °C to 100 °C in steps of 5 °C 10 150 fsw (kHz) 100 °C DC link = 600 V Mi*cosfi = 0,8 Th from 60 °C to 100 °C in steps of 5 °C Phase Figure 7 Typical available 0Hz output current as a function Ioutpeak = f(fsw) of switching frequency -1,00 53,1-60,0 -0,60 46,3-53,1 -0,40 39,4-46,3 -0,20 32,5-39,4 0,00 70 Iout (Apeak) -0,80 Mi*cosfi Iout (A) Phase Figure 8 Typical available 50Hz output current as a function of Iout = f(fsw, Mi*cosfi) Mi*cosfi and switching frequency 60 50 40 25,6-32,5 0,20 18,8-25,6 0,40 11,9-18,8 0,60 5,0-11,9 0,80 Th = 60°C 30 20 10 Th = 100°C 1,00 1 2 4 8 16 32 fsw (kHz) 0 64 1 10 At Tj = 150 °C At Tj = DC link = Th = 600 90 V °C DC link = 600 V Th from 60 °C to 100 °C in steps of 5 °C Mi = copyright by Vincotech 2 150 fsw (kHz) 100 °C 0 Revision: 3 V23990-P829-F10/ F108-PM preliminary datasheet Output Inverter Application flowPACK 1 3rd gen Inverter Figure 9 Inverter Figure 10 Typical efficiency as a function of output power efficiency=f(Pout) efficiency (%) Typical available peak output power as a function of Pout=f(Th) heatsink temperature Pout (kW) 1200V/50A 40 2kHz 100 99 2kHz 30 98 20 97 16kHz 16kHz 96 10 95 0 94 60 70 At Tj = 80 90 100 Th ( o C) 0 At Tj = °C 150 DC link = 600 V Mi = 1 cosfi = 0,80 fsw from 2 kHz to 16 kHz in steps of factor 2 10 150 20 30 40 Pout (kW) 50 °C DC link = 600 V Mi = 1 cosfi = 0,80 fsw from 2 kHz to 16 kHz in steps of factor 2 Inverter Figure 11 Overload (%) Typical available overload factor as a function of Ppeak / Pnom=f(Pnom,fsw) motor power and switching frequency 600 500 400 300 Switching frequency (kHz) 200 Motor nominal power (HP/kW) 100 5,00 / 3,68 7,50 / 5,52 10,00 / 7,36 15,00 / 11,03 20,00 / 14,71 25,00 / 18,39 1 618 412 309 206 155 124 2 592 395 296 197 148 118 4 544 363 272 181 136 0 8 461 307 230 154 115 0 16 337 225 169 112 0 0 At Tj = 150 °C DC link = Mi = 600 1 V cosfi = 0,8 fsw from 1 kHz to 16kHz in steps of factor 2 Th = 90 °C Motor eff = 0,85 copyright by Vincotech 3 Revision: 3