10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a half bridge igbt neutr al point igbt v geon = 15 v v geon = 15 v v geoff = -15 v vout= vac v geoff = -15 v r gon = 4 r gon = 4 r goff = 4 r goff = 4 figure 1. half bridge igbt figure 2. neutral point fwd typical average static loss as a function of typical ave rage static loss as a function of of output current i orms output current i orms p loss =f(i out ) p loss =f(i out ) conditions: t j = 150 c conditions: t j = 125 c parameter: from 0 to 180 parameter: from 0 to 180 mixed voltage npc application general conditions 23 0 0 10 2 0 3 0 40 50 60 70 0 10 20 30 40 50 60 70 80 90 100 110 p loss (w) i out (a) =0o = 1 80o =0o 0 5 1 0 1 5 20 25 30 35 40 45 0 10 20 30 40 50 60 70 80 90 100 110 p loss (w) i out (a) =90o = 1 80o in 12 steps in 12 steps figure 3. hal f bridge igbt figure 4. neutral point fwd typical average static loss as a function of typical ave rage static loss as a function of phase displacement phase displacement p loss =f( ) p loss =f( ) con ditions: t j = 150 c conditions: t j = 125 c parameter: i o rms fr om 6,67 a to 100 a parameter: i o rms fr om 6,67 a to 100 a in steps of 13 a in steps of 13 a 0 10 2 0 3 0 40 50 60 70 0 50 100 150 200 p loss (w) (o ) i out r ms =i max i outrms =6%i max 0 5 10 1 5 2 0 25 30 35 40 45 0 50 100 150 200 p loss (w) (o ) i outrms =i max i out rms =6% i max copyright by vincotech 1 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 5. half bridge igbt figure 6. neutral point fwd typical average switching loss as a function of typical average switching loss as a function of phase displacement phase displacement p loss =f( ) p loss =f( ) con ditions: t j = 150 c conditions: t j = 125 c f sw = 16 khz f sw = 16 khz dc link= 700 v dc link= 700 v parameter: i o rms fr om 6,67 a to 100 a parameter: i o rms fr om 6,67 a to 100 a in steps of 13 a in steps of 13 a figure 7. half bridge igbt figure 8. neutral point fwd typical total loss as a function of typic al total loss as a function of i outr m s =i max 0 10 20 3 0 4 0 50 60 0 50 100 150 200 p loss (w) (o ) i outrms =6% i max i outr m s =i max 0 2 4 6 8 10 12 0 5 0 1 00 150 200 p loss (w) (o ) i outrms =6% i max phase displacement and output current i orms phase displacement and output current i orms p loss =f(io rms ; ) p loss =f(io rms ; ) con ditions: t j = 150 c conditions: t j = 125 c dc link= 700 v dc link= 700 v f sw = 16 khz f sw = 16 khz 6,67 13 , 33 20,00 26,67 33,33 40,00 46,67 53,33 60,00 66,67 73,33 80,00 86,67 93,33 100,00 0 15 30 45 60 75 90 105 120 135 150 165 180 p los s (w) (o ) 110-120 100-110 90-100 80-90 70-80 60-70 50-60 40-50 30-40 20-30 10-20 0-10 i outr 6,67 13 , 33 20,00 26,67 33,33 40,00 46,67 53,33 60,00 66,67 73,33 80,00 86,67 93,33 100,00 0 15 30 45 60 75 90 105 120 135 150 165 180 p los s ( w) (o ) 45-50 40-45 35-40 30-35 25-30 20-25 15-20 10-15 5-10 0-5 i outrms copyright by vincotech 2 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 9. for half bridge igbt + neutral point fwd figure 10. for half bridge igbt + neutral point fwd typical available output current as a function of typica l available output current as a function of phase displacement switching frequency f sw i out =f( ) i out =f(f sw ) conditions: t j = 150/125 c f sw = 16 khz conditions: t j = 150/125 c = 0 dc link= 700 v dc link= 700 v parameter: heatsink temp. parameter: heatsink temp. t h from 50 c to 100 c t h from 50 c to 100 c in 10 c steps in 10 c steps figure 11. for half bridge igbt + neutral point fwd typical available 50hz output current as a function of th=50c th=100c 0 20 4 0 6 0 80 100 120 0 15 30 45 60 75 90 105 120 135 150 165 180 i out (a) � (o ) th=50c 0 20 4 0 6 0 80 100 120 1 10 100 i out (a) fsw (khz) th=100 c fsw and phase displacement i out =f(f sw , ) conditions: t j = 150/125 c dc link= 700 v t h = 80 c 0 15 3 0 4 5 60 75 90 105 120 135 150 165 180 2 4 8 16 32 64 128 i out (a) 90-100 80-90 70-80 60-70 50-60 40-50 30-40 fsw (khz) � (o ) copyright by vincotech 3 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 12. neutral point igbt figure 13. half bridge fwd typical average static loss as a function of typical ave rage static loss as a function of output current output current p loss =f(iout) p loss =f(iout) conditions: t j = 150 c conditions: t j = 125 c parameter: from 0 to 180o parameter: from 0 to 180o in 12 steps in 12 steps figure 14. neutr al point igbt figure 15. half bridge fwd typical average static loss typic al average static loss as a function of phase displacement as a function of phase displacement p loss =f( ) p loss =f( ) 0 5 10 1 5 2 0 25 30 35 40 0 10 20 30 40 50 60 70 80 90 100 110 p loss (w) iout (a) =0o = 1 80o =0o 0 2 0 4 0 60 80 100 120 0 10 20 30 40 50 60 70 80 90 100 110 p loss (w) iout (a) =180o fwd d1 conditions: t j = 150 c conditions: t j = 125 c parameter: i orms from 7 a to 100 a parameter: i orms from 7 a to 100 a in steps of 13 a in steps of 13 a 0 5 10 1 5 2 0 25 30 35 40 0 50 100 150 200 p loss (w) (o ) i out r ms =i max i outrms =6% i max 0 20 4 0 6 0 80 100 120 0 50 100 150 200 p loss (w) (o ) i outrms =i max i out rms =6% i max copyright by vincotech 4 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 16. neutral point igbt figure 17. half bridge fwd typical average switching loss as a function of typical average switching loss as a function of phase displacement phase displacement p loss =f( ) p loss =f( ) con ditions: t j = 150 c f sw = 16 khz conditions: t j = 125 c f sw = 16 khz dc link= 700 v dc link= 700 v parameter: i orms from 7 a to 100 a parameter: i orms from 7 a to 100 a in steps of 13 a a in steps of 13 a a figure 18. neutr al point igbt figure 19. half bridge fwd typical total loss as a function of phase displacement typi cal total loss as a function of phase displacement and iout rms and iout rms i outr m s =i max 0 5 10 15 2 0 2 5 30 35 40 45 0 50 100 150 200 p loss (w) i outrms =6% i max i outr m s =6% i max i outrms =i max 0 5 10 15 20 2 5 30 0 50 100 150 200 p loss (w) p loss =f(io rms ; ) p loss =f(io rms ; ) con ditions: t j = 150 c conditions: t j = 125 c dc link= 700 v dc link= 700 v f sw = 16 khz f sw = 16 khz 6,67 13 , 33 20,00 26,67 33,33 40,00 46,67 53,33 60,00 66,67 73,33 80,00 86,67 93,33 100,00 0 15 30 45 60 75 90 105 120 135 150 165 180 p loss ( w) 60-70 50-60 40-50 30-40 20-30 10-20 0-10 i outr 6,67 13 , 33 20,00 26,67 33,33 40,00 46,67 53,33 60,00 66,67 73,33 80,00 86,67 93,33 100,00 0 15 30 45 60 75 90 105 120 135 150 165 180 p loss ( w) 120-130 110-120 100-110 90-100 80-90 70-80 60-70 50-60 40-50 30-40 20-30 10-20 0-10 i outr copyright by vincotech 5 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 20. for neutral point igbt + half bridge fwd figure 21. for neutral point igbt + half bridge fwd typical available output current as a function of typica l available output current of phase displacement as a function of switching frequency i out =f( ) iout=f(fsw) conditions: t j = 150/125 c f sw = 16 khz conditions: t j = 150/125 c = 90 dc link= 700 v dc link= 700 v parameter: heatsink temp. parameter: heatsink temp. th from 50 c to 100 c th from 50 c to 100 c in 10 c steps in 10 c steps figure 22. for neutral point igbt + half bridge fwd typical available 50hz output current as a function of th=50c th=100c 0 50 1 0 0 150 200 250 0 15 30 45 60 75 90 105 120 135 150 165 180 i out (a) (o ) th=50c 0 20 4 0 6 0 80 100 120 140 160 180 200 1 10 100 1000 i out (a) f sw (khz) th=100 c fsw and phase displacement i out =f(f sw , ) conditions: t j = 150/125 c dc link= 700 v t h = 80 c 0 15 3 0 4 5 60 75 90 105 120 135 150 165 180 2 4 8 16 32 64 128 i out ( a) 200-220 180-200 160-180 140-160 120-140 100-120 80-100 60-80 40-60 20-40 0-20 f sw (khz) (o ) copyright by vincotech 6 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 23. per phase figure 24. per phase typical available output current as a function of typica l available output current heat sink temperature as a function of phase displacement i out =f(t h ) i out =f( ) conditions: t j = 150/125 c conditions: t j = 150/125 c dc link= 700 v dc link= 700 v = 0 f sw = 16 khz parameter: switching freq. parameter: heatsink temp. fsw from 2 khz to 128 khz th from 50 c to 100 in steps of factor 2 in 10 c steps figure 25. per phase figure 26. per phase th=50c th=100c 0 20 4 0 6 0 80 100 120 0 15 30 45 60 75 90 105 120 135 150 165 180 i out (a) (o ) 2khz 12 8 khz 0 20 40 60 80 100 120 140 60 65 70 75 80 85 90 95 100 i out (a) t h ( o c) typical available output current as a function of typical available 50hz output current as a function of switching frequency fsw and phase displacement iout=f(fsw) i out =f(f sw , ) conditions: t j = 150/125 c = 0 conditions: t j = 150/125 c dc link= 700 v dc link= 700 v parameter: heatsink temp. t h = 80 c th from 50 c to 100 in 10 c steps 0 15 3 0 4 5 60 75 90 105 120 135 150 165 180 2 4 8 16 32 64 128 i out (a) 80-100 60-80 40-60 20-40 0-20 fsw (khz) (o ) th=50c 0 20 4 0 6 0 80 100 120 1 10 100 i out (a) f sw (khz) th=100c copyright by vincotech 7 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 27. per phase figure 28. per phase typical efficiency as a function of output power typical efficiency as a function of output power =f(pout) =f(pout) conditions: t j = 150/125 c conditions: t j = 150/125 c = 0 f sw = 16 khz dc link= 700 v dc link= 700 v parameter: switching freq. parameter: phase displacement fsw from 2 khz to 128 khz from 0 to 180 in steps of factor 2 in steps of 30 figure 29. per phase figure 30. per phase typical available output power as a function of typical loss distribution as a function of =180o =0o 9 7 ,0 97,3 97,5 97,8 98,0 98,3 98,5 98,8 99,0 0 2 4 6 8 10 12 14 16 18 20 22 24 26 efficiency (%) pout (kva) 92 93 9 4 9 5 96 97 98 99 100 0 2 4 6 8 10 12 14 16 18 20 22 24 26 efficiency (%) pout (kva) 2kh z 12 8 khz heat sink temperature output current p out =f(t h ) p out =f(t h ) conditions: t j = 150/125 c conditions: t j = 150/125 c dc link= 700 v f sw = 16 khz = 0 dc link= 700 v parameter: switching freq. = 0 fsw from 2 khz to 128 khz in steps of factor 2 2khz 12 8 khz 0 2 4 6 8 10 12 14 16 18 20 22 24 60 65 70 75 80 85 90 95 100 p out (kva) t h ( o c) 0,0 20 , 0 40,0 60,0 80,0 100,0 120,0 140,0 160,0 180,0 7 13 20 27 33 40 47 53 60 67 73 80 87 93 100 loss distribution io u t (a) np.igbt.stat. np.fwd.sw. np fwd.stat. hb.igbt.sw. hb.igbt.stat . copyright by vincotech 8 revision: 1
10-FY12NMA160SH01-M820F 10-py12nma160sh01-m820fy datasheet flowmnpc 1 1200v/160a mixed voltage npc application figure 31. per phase figure 32. typical relativ loss distribution as a function of schema tic output current p out =f(t h ) conditions: t j = 150/125 c f sw = 16 khz dc link= 700 v = 0 0,0 0, 1 0 ,2 0,3 0,4 0,5 0,6 0,7 0,8 0,9 1,0 7 13 20 27 33 40 47 53 60 67 73 80 87 93 100 loss distribution io u t (a) np.igbt.sta t. np.fwd.sw . np fw d .stat. hb.igbt.s w. hb.igbt.st at . copyright by vincotech 9 revision: 1
|
