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fz06 / f0062pa200sa preliminary datasheet flowphase0 600v/200a trench fieldstop igbt 3 technology 2-clip housing in 12mm and 17mm height compact and low inductance design motor drive ups fz062pa200sa f0062pa200sa t j =25c, unless otherwise specified parameter symbol value unit inverter transistor t h =80c 152 t c =80c 231 t sc t j 150c 5 s v cc v ge =15v 360 v inverter diode t h =80c 97 t c =80c 148 t j =t j max t j =25c t j =t j max t j =t j max 175 maximum junction temperature c w a 600 a 600 collector-emitter break down voltage repetitive peak collector current dc collector current v ce i cpulse i c v w i frm t j max repetitive peak forward current power dissipation per diode p tot features flow0 housing target applications schematic types maximum ratings condition c v v v rrm maximum junction temperature power dissipation per igbt v ge t j max p tot short circuit ratings peak repetitive reverse voltage gate-emitter peak voltage t p limited by t j max dc forward current a t j =t j max t p limited by t j max a i f t h =80c 105 400 t h =80c 83 175 600 20 1 revi sion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet t j =25c, unless otherwise specified parameter symbol value unit maximum ratings condition thermal properties insulation properties v is t=2s dc voltage 4000 v min 12,7 mm min 12,7 mm -40?+150 c storage temperature t stg -40?+125 c clearance insulation voltage creepage distance t op operation temperature under switching condition 2 revi sion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet parameter symbol unit v ge [v] or v gs [v] v r [v] or v ce [v] or v ds [v] i c [a] or i f [a] or i d [a] t j min typ max t j =25c 5 5,8 6,5 t j =150c t j =25c 1 1,68 2,3 t j =150c 1,99 t j =25c 1,25 t j =150c t j =25c 0 1000 t j =150c t j =25c 209 t j =150c 222 t j =25c 32 t j =150c 38 t j =25c 267 t j =150c 301 t j =25c 82 t j =150c 98 t j =25c 1,57 t j =150c 2,56 t j =25c 5,8 t j =150c 7,66 thermal resistance chip to heatsink per chip r thjh thermal grease thickness 50um = 1 w/mk 0,62 k/w t j =25c 1 1,73 2,3 t j =150c 1,7 t j =25c 160,7 t j =150c 209,6 t j =25c 117 t j =150c 142,4 t j =25c 9,51 t j =150c 17,79 di ( rec ) max t j =25c 5385 /d t t j =150c 4096 t j =25c 2,32 t j =150c 4,34 thermal resistance chip to heatsink per chip r thjh thermal grease thickness 50um = 1 w/mk 0,98 k/w na tj=25c 2 tj=25c v v nc f=1mhz 15 0 v ce =v ge 15 0 0 20 t r t d(off) q rr t rr erec reverse transfer capacitance i ges v ge(th) v ce(sat) i ces c oss r gint t f e on c ies e off i rrm t d(on) c rss v f q gate input capacitance output capacitance turn-off energy loss per pulse collector-emitter saturation voltage turn-on energy loss per pulse collector-emitter cut-off current incl. diode value conditions characteristic values 366 a c mws a/ s rgon=4 ? 200 200 200 300 200 rgoff=4 ? 15 diode forward voltage peak reverse recovery current gate charge reverse recovery time reverse recovered energy peak rate of fall of recovery current reverse recovered charge inverter diode fall time turn-off delay time turn-on delay time rise time gate-emitter leakage current integrated gate resistor inverter transistor gate emitter threshold voltage 200 0,0032 300 25 0 600 480 rgoff=4 ? 1240 12335 769 ns ma v pf mws ? ns 3 revisio n: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 1 output inverter igbt figure 2 output inverter igbt typical output characteristics i c = f(v ce ) i c = f(v ce ) at at t p = 350 s t p = 350 s t j = 25 c t j = 150 c v ge from 7 v to 17 v in steps of 1 v v ge from 7 v to 17 v in steps of 1 v figure 3 output inverter igbt figure 4 output inverter fred typical transfer characteristics typical diode forward current as i c = f(v ge ) a function of forward voltage i f = f(v f ) at at t p = 350 s t p = 350 s v ce = 10 v output inverter typical output characteristics 0 100 200 300 400 500 600 012345 v ce (v) i c (a) 0 40 80 120 160 200 012345678910 v ge (v) i c (a) t j = 25c t j = t jmax -25c 0 100 200 300 400 500 600 00,511,522,53 v f (v) i f (a) t j = 25c t j = t jmax -25c 0 100 200 300 400 500 600 012345 v ce (v) i c (a) 4 revis ion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 5 output inverter igbt figure 6 output inverter igbt typical switching energy losses typical switching energy losses as a function of collector current as a function of gate resistor e = f(i c ) e = f(r g ) with an inductive load at with an inductive load at t j = 25/150 c t j = 25/150 c v ce = 300 v v ce = 300 v v ge = 15 v v ge = 15 v r gon = 2 ? i c = 200 a r goff = 2 ? figure 7 output inverter igbt figure 8 output inverter igbt typical reverse recovery energy loss typical reverse recovery energy loss as a function of collector current as a function of gate resistor e rec = f(i c )e rec = f(r g ) with an inductive load at with an inductive load at t j = 25/150 c t j = 25/150 c v ce = 300 v v ce = 300 v v ge = 15 v v ge = 15 v r gon = 2 ? i c = 200 a output inverter e on high t e off high t e on low t e off low t 0 3 6 9 12 15 0 100 200 300 400 i c (a) e (mws) e off high t e on high t e on low t e off low t 0 3 6 9 12 15 0 4 8 12 16 20 r g ( ) e (mws) t j = t jmax -25c e rec t j = 25c e rec 0 2 4 6 8 0 100 200 300 400 i c (a) e (mws) t j = t jmax -25c e rec t j = 25c e rec 0 2 4 6 8 0 4 8 12 16 20 r g ( ) e (mws) 5 revis ion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 9 output inverter igbt figure 10 output inverter igbt typical switching times as a typical switching times as a function of collector current function of gate resistor t = f(i c ) t = f(r g ) with an inductive load at with an inductive load at t j = 150 c t j = 150 c v ce = 300 v v ce = 300 v v ge = 15 v v ge = 15 v r gon = 2 ? i c = 200 a r goff = 2 ? figure 11 output inverter fred figure 12 output inverter fred typical reverse recovery time as a typical reverse recovery time as a function of collector current function of igbt turn on gate resistor t rr = f(i c ) t rr = f(r gon ) at at t j = 25/150 c t j = 25/150 c v ce = 300 v v r = 300 v v ge = 15 v i f = 200 a r gon = 2 ? v ge = 15 v output inverter t doff t f t don t r 0,001 0,01 0,1 1 0 100 200 300 400 i c (a) t ( s) t j = t jmax -25c t rr t j = 25c t rr 0 0,1 0,2 0,3 0,4 0,5 0,6 0481 21 62 0 r gon ( ) t rr ( s) t doff t f t don t r 0,001 0,01 0,1 1 10 0 4 8 12 16 20 r g ( ) t ( s) t j = t jmax -25c t rr t rr t j = 25c 0 0,04 0,08 0,12 0,16 0,2 0,24 0,28 0,32 0,36 0,4 0 100 200 300 400 i c (a) t rr ( s) 6 revis ion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 13 output inverter fred figure 14 output inverter fred typical reverse recovery charge as a typical reverse recovery charge as a function of collector current function of igbt turn on gate resistor q rr = f(i c )q rr = f(r gon ) at at at t j = 25/150 c t j = 25/150 c v ce = 300 v v r = 300 v v ge = 15 v i f = 200 a r gon = 2 ? v ge = 15 v figure 15 output inverter fred figure 16 output inverter fred typical reverse recovery current as a typical reverse recovery current as a function of collector current function of igbt turn on gate resistor i rrm = f(i c )i rrm = f(r gon ) at at t j = 25/150 c t j = 25/150 c v ce = 300 v v r = 300 v v ge = 15 v i f = 200 a r gon = 2 ? v ge = 15 v output inverter t j = t jmax - 25c i rrm t j = 25c i rrm 0 60 120 180 240 300 0 4 8 12 16 20 r gon ( ) i rrm (a) t j = t jmax -25c q rr t j = 25c q rr 0 5 10 15 20 25 30 0 4 8 12 16 20 r gon ( ) q rr ( c) t j = t jmax -25c i rrm t j = 25c i rrm 0 60 120 180 240 300 0 100 200 300 400 i c (a) i rrm (a) t j = t jmax -25c q rr t j = 25c q rr 0 5 10 15 20 25 30 0 100 200 300 400 i c (a) q rr ( c) 7 revis ion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 17 output inverter fred figure 18 output inverter fred typical rate of fall of forward typical rate of fall of forward and reverse recovery current as a and reverse recovery current as a function of collector current function of igbt turn on gate resistor di 0 /dt,di rec /dt = f(i c )d i 0 /dt,di rec /dt = f(r gon ) at at t j = 25/150 c t j = 25/150 c v ce = 300 v v r = 300 v v ge = 15 v i f = 200 a r gon = 2 ? v ge = 15 v figure 19 output inverter igbt figure 20 output inverter fred igbt transient thermal impedance f red transient thermal impedance as a function of pulse width as a function of pulse width z thjh = f(t p )z thjh = f(t p ) at at d = t p / t d = t p / t r thjh = 0,62 k/w r thjh = 0,98 k/w igbt thermal model values fred thermal model values r (c/w) tau (s) r (c/w) tau (s) 0,03 9,3e+00 0,04 8,8e+00 0,13 1,2e+00 0,17 9,9e-01 0,34 2,2e-01 0,52 1,7e-01 0,09 3,9e-02 0,17 2,9e-02 0,02 6,2e-03 0,04 4,6e-03 0,01 3,8e-04 0,03 3,4e-04 output inverter t p (s) z thjh (k/w) 10 1 10 0 10 -1 10 -2 10 -4 10 -3 10 -2 10 -1 10 0 10 1 1 10 -5 d = 0,5 0,2 0,1 0,05 0,02 0,01 0,005 0.000 t p (s) z th-jh (k/w) 10 1 10 0 10 -1 10 -2 10 -4 10 -3 10 -2 10 -1 10 0 10 1 1 10 -5 d = 0,5 0,2 0,1 0,05 0,02 0,01 0,005 0.000 di 0 /dt di rec /dt 0 2000 4000 6000 8000 10000 048121620 r gon ( ) di rec / dt (a/ s) t j =25c di 0 /dt high t di rec /dt high t di rec /dt low t di o /dt low t 0 2000 4000 6000 8000 10000 0 100 200 300 400 i c (a) di rec / dt (a/ s) di rec /dt di 0 /dt t j =t jmax -25c 8 revis ion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 21 output inverter igbt figure 22 output inverter igbt power dissipation as a collector current as a function of heatsink temperature function of heatsink temperature p tot = f(t h )i c = f(t h ) at at t j = 175 c t j = 175 c v ge = 15 v figure 23 output inverter fred figure 24 output inverter fred power dissipation as a forward current as a function of heatsink temperature function of heatsink temperature p tot = f(t h )i f = f(t h ) at at t j = 175 c t j = 175 c output inverter 0 75 150 225 300 0 50 100 150 200 t h ( o c) p tot (w) 0 50 100 150 200 0 50 100 150 200 t h ( o c) i c (a) 0 50 100 150 200 0 50 100 150 200 t h ( o c) p tot (w) 0 30 60 90 120 150 0 50 100 150 200 t h ( o c) i f (a) 9 revis ion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 25 output inverter igbt figure 26 output inverter igbt safe operating area as a function gate voltage vs gate charge of collector-emitter voltage i c = f(v ce )v ge = f(q ge ) at at d = single pulse i c = 200 a t h = 80 oc v ge = 15 v t j =t jmax oc output inverter v ce (v) i c (a) 10 3 10 0 10 -1 10 1 10 2 10 1 10 2 10us 100us 1ms 10ms 100ms dc 10 0 10 3 0 2 4 6 8 10 12 14 16 18 20 22 0 200 400 600 800 1000 1200 1400 1600 q g (nc) v ge (v) 120 v 480 v 10 rev ision: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet t j 150 c r g on 2 ? r goff 2 ? figure 1 output inverter igbt figure 2 output inverter igbt turn-off switching waveforms & definition of t dof f , t eof f turn-on switching waveforms & definition of tdon, t eon (t eof f = integrating time for e of f )( t eon = integrating time for e on ) v ge (0%) = -15 v v ge (0%) = -15 v v ge (100%) = 15 v v ge (100%) = 15 v v c (100%) = 300 v v c (100%) = 300 v i c (100%) = 203 a i c (100%) = 203 a t doff = 0,30 s t don = 0,22 s t eoff = 0,70 s t eon = 0,41 s figure 3 output inverter igbt figure 4 output inverter igbt turn-off switching waveforms & definition of t f turn-on switching waveforms & definition of t r v c (100%) = 300 v v c (100%) = 300 v i c (100%) = 203 a i c (100%) = 203 a t f = 0,10 s t r = 0,04 s switching definitions output inverter general conditions = = = i c 1% v ce 90% v ge 90% -40 -20 0 20 40 60 80 100 120 140 -0,2 -0,05 0,1 0,25 0,4 0,55 0,7 time (us) % t doff t eoff v ce i c v ge i c10% v ge10% t don v ce 3% -30 10 50 90 130 170 210 2,8 2,95 3,1 3,25 3,4 3,55 3,7 time(us) % i c v ce t eon v ge fitted i c10% i c 90% i c 60% i c 40% -20 0 20 40 60 80 100 120 140 0,2 0,25 0,3 0,35 0,4 0,45 0,5 time (us) % v ce i c t f i c10% i c 90% -30 10 50 90 130 170 210 2,95 3,1 3,25 3,4 3,55 3,7 time(us) % tr v ce ic 11 rev ision: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 5 output inverter igbt figure 6 output inverter igbt turn-off switching waveforms & definition of t eof f turn-on switching waveforms & definition of t eon p off (100%) = 60,82 kw p on (100%) = 60,82 kw e off (100%) = 7,80 mj e on (100%) = 2,63 mj t eoff = 0,70 s t eon = 0,41 s figure 7 output inverter fred figure 8 output inverter igbt gate voltage vs gate charge (measured) turn-off switching waveforms & definition of t r r v geoff = -15 v v d (100%) = 300 v v geon = 15 v i d (100%) = 203 a v c (100%) = 300 v i rrm (100%) = -211 a i c (100%) = 203 a t rr = 0,14 s q g = 2031,87 nc switching definitions output inverter i c 1% v ge 90% -20 0 20 40 60 80 100 120 -0,2 -0,05 0,1 0,25 0,4 0,55 0,7 0,85 time (us) % p o f f e off t eoff v ce 3% v ge 10% -20 0 20 40 60 80 100 120 2,9 3 3,1 3,2 3,3 3,4 3,5 3,6 time(us) % p on e on t eon -20 -15 -10 -5 0 5 10 15 20 -500 0 500 1000 1500 2000 2500 qg (nc) v ge (v) i rrm 10% i rrm 90% i rrm 100% trr -120 -80 -40 0 40 80 120 3,1 3,2 3,3 3,4 3,5 3,6 3,7 time(us) % i d v d fitted 12 rev ision: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet figure 9 output inverter fred figure 10 output inverter fred turn-on switching waveforms & definition of t qr r turn-on switching waveforms & definition of t erec (t qrr = integrating time for q r r )( t erec = integrating time for e rec ) i d (100%) = 203 a p rec (100%) = 60,82 kw q rr (100%) = 16,33 c e rec (100%) = 3,89 mj t qrr = 0,55 s t erec = 0,55 s switching definitions output inverter t qrr -150 -100 -50 0 50 100 150 3,1 3,25 3,4 3,55 3,7 3,85 4 % i d q r r time(us) -20 0 20 40 60 80 100 120 3,1 3,25 3,4 3,55 3,7 3,85 4 time(us) % p rec e rec te rec 13 rev ision: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet version ordering code in datamatrix as in packaging barcode as without thermal paste 12mm housing 10-FZ062PA200SA-P996F08 p996f08 p996f08 without thermal paste 17mm housing 10-f0062pa200sa-p996f09 p996f09 p996f09 outline pinout ordering code & marking ordering code and marking - outline - pinout 14 revi sion: 1 copyright by vincotech
fz06 / f0062pa200sa preliminary datasheet product status definitions formative or in design first production full production disclaimer life support policy as used herein: the information given in this datasheet describes the type of component and does not represent assured characteristics. for tes ted values please contact vincotech.vincotech reserves the right to make changes without further notice to any products herein to i mprove reliability, function or design. vincotech does not assume any liability arising out of the application or use of any product o r circuit described herein; neither does it convey any license under its patent rights, nor the rights of others. vincotech products are not authorised for use as critical components in life support devices or systems without the express wri tten approval of vincotech. 1. life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, or (c) whose failure to perform when properly used in accordance with instructions for use provided in labelling can be reasonably expected to result in significant injury to the user. 2. a critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. target product status datasheet status definition this datasheet contains the design specifications for product development. specific ations may change in any manner without notice. the dat a contained is exclusively intended for technica lly trai ned staff. preliminary this datasheet contains preliminary data, and supplementary data may be published at a later date. vincotech reserves the right to make changes at any time without notice in order to improve design. the data contained is exclusively intended for technically trained staff. final this datasheet contains final specifications. vincotech reserves the right to make changes at any time without notice in order to improve design. the data contained is exclusively intended for te chnically tr ained st aff. 15 revis ion: 1 copyright by vincotech

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