10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet flow MNPC 0 mixed voltage NPC Application 1200 V / 80 A General conditions VGEon VGEoff Rgon Rgoff half bridge IGBT = = = = 15 V -15 V 4Ω 4Ω neutral point IGBT VGEon = 15 V VGEoff = -15 V Rgon = 4Ω Rgoff = 4Ω Vout= 230 VAC Figure 1. half bridge IGBT Typical average static loss as a function of of output current IoRMS Ploss=f(Iout) Figure 2. neutral point FWD Typical average static loss as a function of output current IoRMS Ploss=f(Iout) T1 D3 Ploss (W) 60 Ploss (W) 120 φ=0º φ=90º 100 50 80 40 60 30 40 20 20 10 φ=180º φ=180º 0 0 0 20 Conditions: parameter: 40 Tj= φ 60 125 from 80 I out (A) 100 0 °C 0° in 12 to Conditions: parameter: 180° 40 Tj= φ 60 125 from steps Typical average static loss as a function of phase displacement φ Ploss=f(φ) 80 0° to 12 180° neutral point FWD Typical average static loss as a function of phase displacement φ Ploss=f(φ) T1 100 steps Figure 4. D3 60 Ploss (W) 110 I out (A) °C in half bridge IGBT Figure 3. Ploss (W) 20 IoutRMS=Imax 100 IoutRMS=Imax 50 90 80 40 70 60 30 50 40 20 30 20 10 10 IoutRMS=10%Imin 0 0 Conditions: parameter: IoutRMS=10% Imax 0 50 Tj= IoRMS 100 125 from in steps of copyright by Vincotech 150 φ( º ) 200 0 °C 10 A 10 to Conditions: parameter: 100 A A 50 Tj= IoRMS 100 125 from in steps of 1 150 φ( º ) 200 °C 10 A 10 to 100 A A 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 5. half bridge IGBT 1200 V / 80 A Figure 6. Typical average switching loss as a function of neutral point FWD Typical average switching loss as a function of phase displacement φ Ploss=f(φ) phase displacement φ Ploss=f(φ) T1 45 D3 Ploss (W) Ploss (W) 7 IoutRMS=Imax 40 IoutRMS=Imax 6 35 5 30 4 25 20 3 15 2 10 IoutRMS=10% Imax 1 5 IoutRMS=10% Imax 0 0 50 Conditions: Tj= fsw= 125 16 °C kHz DC link= IoRMS 700 from V parameter: 100 150 50 Conditions: 10 A in steps of 0 200 φ( º ) 10 to 100 A parameter: 150 Tj= fsw= 125 16 °C kHz DC link= IoRMS 700 from V A Figure 7. 100 10 A in steps of half bridge IGBT Typical total loss as a function of phase displacement φ and output current IoRMS Ploss=f(IoRMS;φ) 10 Figure 8. 85 110-120 80 100-110 75 90-100 70 95 IoutRMS 120-130 90 P loss (W) 85 60-70 80 75 50-60 70 65 80-90 65 40-50 60 70-80 60 55 60-70 55 50 50-60 45 40-50 40 30-40 50 45 40 20-30 35 30-40 35 30 30 10-20 20-30 25 10-20 25 20 0-10 20 0-10 15 0 15 10 15 30 45 60 75 90 105 120 135 150 165 180 0 10 15 30 45 60 75 90 105 120 135 150 165 180 φ( º ) Conditions: Tj= 125 °C DC link= fsw= 700 16 V kHz copyright by Vincotech D3 100 95 90 100 A neutral point FWD 100 P loss (W) to A Typical total loss as a function of phase displacement φ and output current IoRMS Ploss=f(IoRMS;φ) T1 200 φ( º ) IoutRMS 0 φ( º ) Conditions: 2 Tj= 125 °C DC link= fsw= 700 16 V kHz 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 9. for half bridge IGBT+ neutral point FWD Figure 10. Typical available output current as a function of phase displacement φ 1200 V / 80 A for half bridge IGBT+ neutral point FWD Typical available output current as a function of switching frequency fsw T1+D3 Iout=f(φ) T1+D3 Iout=f(fsw) 120 Iout (A) Iout (A) 120 Th=50°C Th=50°C 100 100 80 80 Th=100°C Th=100°C 60 60 40 40 20 20 0 0 30 60 90 120 150 0 180 1 φ Conditions: Tj= Tjmax-25 °C fsw= parameter: 700 V Heatsink temp. Th from 50 °C to in 10 °C 16 kHz Conditions: DC link= Figure 11. parameter: 100 steps °C 10 fsw (kHz) Tj= Tjmax-25 °C DC link= Heatsink temp. Th from in 700 50 10 100 φ= 0 ° V °C to °C 100 steps °C for half bridge IGBT+ neutral point FWD Typical available 50Hz output current as a function of fsw and phase displacement φ Iout=f(fsw,φ) T1+D3 180 165 I out (A) φ 150 90-100 135 120 80-90 105 70-80 90 75 60-70 60 45 50-60 30 40-50 15 2 4 8 16 32 64 0 128 fsw (kHz) Conditions: Tj= Tjmax-25 °C DC link= Th= copyright by Vincotech 700 80 V °C 3 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 12. neutral point IGBT Typical average static loss as a function of output current Ploss=f(Iout) 1200 V / 80 A Figure 13. half bridge FWD Typical average static loss as a function of output current Ploss=f(Iout) T3 D1 100 Ploss (W) Ploss (W) 60 φ=90º φ=180º 90 50 80 70 40 60 30 50 40 20 30 φ=0º 20 10 10 φ=0º 0 0 20 40 60 80 0 100 0 Iout (A) Conditions: parameter: Tj= 125 φ from in °C Conditions: 0° 12 Figure 14. to steps 180º parameter: neutral point IGBT Figure 15. Typical average static loss as a function of phase displacement Ploss=f(φ) 20 40 Tj= 125 φ from in 80 T3 Ploss (W) 100 0° 12 to steps 180º half bridge FWD D1 FWD D1 100 IoutRMS=Imax Iout (A) °C Typical average static loss as a function of phase displacement Ploss=f(φ) 60 Ploss (W) 60 90 IoutRMS=Imax 50 80 70 40 60 30 50 40 20 30 20 10 10 IoutRMS=10% Imax IoutRMS=10% Imax 0 0 0 Conditions: parameter: 50 Tj= IoRMS 100 125 from in steps of copyright by Vincotech 150 φ( º ) 200 0 °C 10 A to Conditions: parameter: 100 A 10 A 50 Tj= IoRMS 100 125 from in steps of 4 150 φ( º ) 200 °C 10 A to 100 A 10 A 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 16. neutral point IGBT Typical average switching loss as a function of phase displacement Ploss=f(φ) 1200 V / 80 A Figure 17. half bridge FWD Typical average switching loss as a function of phase displacement Ploss=f(φ) T3 45 D1 Ploss (W) Ploss (W) 30 IoutRMS=Imax 40 IoutRMS=Imax 25 35 30 20 25 15 20 15 10 10 IoutRMS=10% Imax 5 IoutRMS=10% Imax 5 0 0 50 Conditions: parameter: 100 150 fsw= Tj= 125 °C DC link= IoRMS 700 from V in steps of 10 A to 10 A A Figure 18. 200 φ( º ) 0 16 kHz 50 Conditions: 100 A parameter: 150 fsw= 16 kHz 10 A to 100 A 10 A A Tj= 125 °C DC link= IoRMS 700 from V in steps of neutral point IGBT 100 Figure 19. Typical total loss as a function of phase displacement and IoutRMS half bridge FWD Typical total loss as a function of phase displacement and IoutRMS T3 Ploss=f(IoRMS;φ) D1 Ploss=f(IoRMS;φ) 100 100 95 95 90 85 P loss (W) IoutRMS P loss (W) 90 85 70-80 60-70 80 80 75 50-60 75 60-70 70 70 65 40-50 65 50-60 60 60 55 40-50 55 30-40 50 50 30-40 45 45 40 40 20-30 20-30 35 35 30 30 10-20 10-20 25 25 20 20 0-10 0-10 15 15 0 10 15 30 45 60 75 90 105 120 135 150 165 180 0 10 15 30 45 60 75 90 105 120 135 150 165 180 φ( º ) φ( º ) Conditions: Tj= 125 °C DC link= fsw= 700 16 V kHz copyright by Vincotech 200 φ( º ) IoutRMS 0 Conditions: 5 Tj= 125 °C DC link= fsw= 700 16 V kHz 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 20. for neutral point IGBT+ half bridge FWD Typical available output current as a function of of phase displacement Iout=f(φ) 1200 V / 80 A Figure 21. for neutral point IGBT+ half bridge FWD Typical available output current as a function of switching frequency Iout=f(fsw) T3+D1 T3+D1 100 Iout (A) Iout (A) 100 Th=50°C 80 80 60 60 Th=50°C Th=100°C Th=100°C 40 40 20 20 0 0 0 30 60 90 120 150 180 1 φ( º ) Conditions: Tj= Tjmax-25 °C DC link= 700 V parameter: Th from in fsw= Heatsink temp. 50 °C to 10 °C Figure 22. 16 kHz Conditions: 10 °C f sw (kHz) Tj= Tjmax-25 °C DC link= 700 V parameter: 100 steps 100 Th from in Heatsink temp. 50 °C to 10 °C 1000 φ= 90° 100 steps °C for neutral point IGBT+ half bridge FWD Typical available 50Hz output current as a function of fsw and phase displacement Iout=f(fsw,φ) T3+D1 180 I out (A) 165 φ 150 70-80 135 120 60-70 105 50-60 90 40-50 75 60 30-40 45 20-30 30 15 10-20 2 4 8 16 32 64 0 128 fsw (kHz) Conditions: Tj= Tjmax-25 °C DC link= Th= copyright by Vincotech 700 80 V °C 6 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 23. per MODULE 1200 V / 80 A Figure 24. Typical available output current as a function of heat sink temperature Iout=f(Th) per MODULE Typical available output current as a function of phase displacement Iout=f(φ) 100 Iout (A) Iout (A) 100 2kHz Th=50°C 80 80 60 60 Th=100°C 40 40 128kHz 20 20 0 0 60 70 Conditions: 80 90 o T h ( C) 0 100 parameter: Conditions: 700 V 0° Switching freq. fsw from 2 in steps of factor 2 60 parameter: 128 Figure 25. 120 150 180 Tj= Tjmax-25 °C DC link= fsw= kHz to 90 φ Tj= Tjmax-25 °C DC link= φ= 30 kHz 700 V 16 kHz Heatsink temp. Th from in per MODULE 50 10 °C to °C 100 steps Figure 26. Typical available output current as a function of switching frequency Iout=f(fsw) per MODULE Typical available 50Hz output current as a function of fsw and phase displacement Iout=f(fsw,φ) 180 Iout (A) 100 165 I out (A) Th=50°C φ 150 70-80 80 135 60-70 120 Th=100°C 105 60 50-60 90 40-50 75 40 60 30-40 45 20-30 20 30 15 10-20 0 2 1 10 Conditions: Tj= Tjmax-25 °C DC link= parameter: Th from in 50 10 copyright by Vincotech f sw (kHz) φ= 8 16 32 64 0 128 fsw (kHz) 0° Conditions: 700 V Heatsink temp. °C to °C 4 100 Tj= Tjmax-25 °C DC link= Th= 700 80 V °C 100 steps 7 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 27. per MODULE Figure 28. Typical efficiency as a function of output power η=f(Pout) per MODULE Typical efficiency as a function of output power η=f(Pout) 100 efficiency (%) 100,0 efficiency (%) 1200 V / 80 A 99,5 2kHz 99 φ=0º 99,0 98 98,5 φ=180º 98,0 97 97,5 96 128kHz 97,0 95 96,5 96,0 94 0 2 4 6 8 10 12 14 16 18 20 0 5 10 15 20 25 Pout (kVA) Conditions: Tj= fsw= 125 16 Pout (kVA) °C kHz Conditions: DC link= parameter: 700 V phase displacement φ from 0° in steps of 30 ° Tj= DC link= parameter: to Figure 29. °C V φ= 0 ° Switching freq. fsw from 2 kHz to in steps of factor 2 180 ° per MODULE 125 700 128 kHz Figure 30. per MODULE Typical available output power as a function of Typical loss distribution as a function of heat sink temperature Pout=f(Th) output current Pout=f(Th) 20 200 Pout (kVA) 2kHz 180 18 T3 Stat. 16 Loss distribution 160 140 14 D3 Sw. 120 12 D3 Stat. 10 100 80 8 T1 Sw. 128kHz 6 60 T1 Stat. 40 4 20 2 Conditions: parameter: Tj= Tjmax-25 °C DC link= 700 φ= 0 Switching freq. fsw from 2 kHz to in steps of factor 2 copyright by Vincotech o T h ( C) 95 100 90 85 80 75 70 65 60 55 50 45 40 Iout (A) Conditions: V ° 128 35 100 30 90 25 80 20 70 10 60 15 0 0 Tj= fsw= 125 16 °C kHz DC link= φ= 700 0° V kHz 8 08.05.2015 / Revision :5 10-FZ12NMA080SH01-M260F/ 10-PZ12NMA080SH01-M260FY datasheet mixed voltage NPC Application flow mNPC0 Figure 31. Typical relativ loss distribution as a function of output current Pout=f(Th) 1200 V / 80 A per MODULE 1,0 Loss distribution 0,8 T3 Stat. D3 Sw. 0,6 D3 Stat. 0,4 T1 Sw. T1 Stat. 0,2 95 10 0 90 85 80 75 70 65 60 55 50 45 40 35 30 25 20 15 10 0,0 Iout (A) Conditions: Tj= fsw= DC link= φ= copyright by Vincotech 125 16 700 0° °C kHz V 9 08.05.2015 / Revision :5