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30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 1 t sc t j 150c 10 s v cc v ge = 15v 800 v maximum junction temperature t jmax 175 c 20 v short circuit ratings total power dissipation p tot t j = t jmax t s = 80 c 354 w gate-emitter voltage v ges repetitive peak collector current i crm t p limited by t jmax 450 a a collector-emitter voltage v ces 1200 v collector current i c t j = t jmax t s = 80 c 144 maximum ratings t j = 25 c, unless otherwise specified parameter symbol condition value unit inverter switch flow pack 2 1200 v / 150 a igbt4 (1200v) technology for low saturation losse s and improved emc behavior compact and low inductive design integrated temperature sensor industrial drives 30-P2126PA150SC-L280F09Y flow 2 17mm housing schematic features target applications types
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 2 module properties parameter symbol condition value unit v i sol dc voltage t p = 2s 4000 v min. 12,7 mm min. 12,7 mm cti > 200 c c t stg -40+125 t jop -40+( t jmax - 25) operation temperature under switching condition storage temperature thermal properties comparative tracking index clearance creepage distance isolation voltage isolation properties inverter diode peak repetitive reverse voltage v rrm 1200 v repetitive peak forward current i frm 300 a continuous (direct) forward current i f t j = t jmax t s = 80c 122 a total power dissipation p tot t j = t jmax t s = 80c 212 w maximum junction temperature t jmax 175 c
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 3 characteristic values parameter symbol conditions value unit v ge [v] v gs [v] v ce [v] v gs [v] v r [v] i c [a] i d [a] i f [a] t j [c] min typ max inverter switch 25 213 150 229 25 35 150 44 25 326 150 410 25 68 150 104 q rfwd = 15,6 c 25 12,684 q rfwd = 29,2 c 150 18,795 25 8,071 150 12,853 mws turn-off energy (per pulse) e off 150 ns 600 turn-on energy (per pulse) e on igbt switching t d(off) fall time t f rise time t r r gon = 4 ? turn-off delay time turn-on delay time t d(on) r goff = 4 ? 15 25 1,58 1,93 2,07 150 2,39 6,3 25 2 240 25 0,27 k/w 5 ? a thermal thermal resistance junc tion to sink r th(j-s) phase-change material ? = 3,4 w/mk reverse transfer capac itance c res 320 25 8600 pf input capacitance c ies f=1 mhz 0 25 internal gate resistance r g gate-emitter leakage c urrent i ges 20 0 na collec tor-emitter c ut-off current i ces 0 1200 static v collec tor-emitter saturation voltage v cesat 15 150 v gate-emitter threshold voltage v ge(th) v ge = v ce 0,0052 25 5,3 5,8
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 4 characteristic values parameter symbol conditions value unit v ge [v] v gs [v] v ce [v] v gs [v] v r [v] i c [a] i d [a] i f [a] t j [c] min typ max inverter diode 25 1,91 2,05 150 1,91 25 26 static 150 v reverse leakage c urrent i r 1200 a forward voltage v f thermal thermal resistance junc tion to sink r th(j-s) phase-change material ? = 3,4 w /mk k/w 0,45 thermistor 25 143 150 168 25 287 150 465 d i /d t = 4656 a/s 25 15,555 d i /d t = 4044 a/s 150 29,157 25 5,706 150 10,813 25 3267 150 1615 q r c reverse recovered energy e rec mws peak rate of fall of recovery current (d i rf /d t ) max a/s fwd switching peak recovery current i rrm 15 600 150 a reverse recovery time t rr ns recovered charge b vincotech ntc reference power dissipation constant power dissipation p b-value b (25/100) tol. 3% b-value b (25/50) tol. 3% k 25 2 mw/k 25 3950 25 3998 k 25 22 k? +14 % 200 100 -12 25 mw rated resistance r deviation of r100 r/r r100=1486 ?
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 5 typical output characteristics igbt typical output characteristics igbt i c = f( v ce ) i c = f( v ce ) t p = 250 s 25 c t p = 250 s v ge = 15 v t j : 150 c t j = 150 c v ge from 7 v to 17 v in steps of 1 v typical transfer characteristics igbt transient thermal impedance as function of puls e duration igbt i c = f( v ge ) z th(j-s) = f( t p ) t p = 100 s 25 c d = t p / t v ce = 0 v t j : 150 c r th(j-s) = 0,27 k/w r (k/w) (s) 5,73e-02 1,79e+00 6,23e-02 2,33e-01 9,18e-02 6,24e-02 3,46e-02 2,03e-02 1,02e-02 2,96e-03 1,19e-02 4,61e-04 igbt thermal model values 0 30 60 90 120 150 0 2 4 6 8 10 12 i i i i c cc c (a) (a) (a) (a) v vv v g e g e g e g e (v) (v)(v) (v) 0 100 200 300 400 500 0 1 2 3 4 5 i i i i c c c c (a) v vv v c e c ec e c e (v) 0 100 200 300 400 500 0 1 2 3 4 5 i i i i c cc c (a) v vv v c e c ec e c e (v) 0,5 0,2 0,1 0,05 0,02 0,01 0,005 0 z z z z t h(j t h(j t h(j t h(j - -- - s) s) s) s) (k/w) t tt t p pp p (s) 10 -5 10 -4 10 -3 10 -2 10 -1 10 0 10 1 10 2 10 -3 10 -2 10 -1 10 0 inverter switch characteristics
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 6 inverter switch characteristics safe operating area igbt i c = f( v ce ) at d = single pulse t s = 80 oc v ge = 15 v t j = t jmax oc dc 100ms 10ms 1ms 100s 10s 0,01 0,1 1 10 100 1000 1 10 100 1000 10000 i i i i c cc c (a) v vv v c e c ec e c e (v)
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 7 inverter diode characteristics thermistor characteristics typical forward characteristics fwd transient thermal impedance as a function of pulse width fwd i f = f( v f ) z th(j-s) = f( t p ) t p = 250 s 25 c d = t p / t t j : 150 c r th(j-s) = 0,45 k/w fwd thermal model values r (k/w) (s) 3,4710e-02 4,6050e+00 6,6830e-02 8,7990e-01 9,3970e-02 1,7000e-01 1,6240e-01 4,0270e-02 5,3480e-02 1,3400e-02 1,5680e-02 2,0050e-03 2,1540e-02 4,0000e-04 0 100 200 300 400 500 0 1 2 3 4 5 i f (a) v f (v) z z z z t h(j t h(j t h(j t h(j - -- - s) s) s) s) (k/w) t tt t p pp p (s) d = 0,5 0,2 0,1 0,05 0,02 0,01 0,005 0.000 10 -4 10 -3 10 -2 10 -1 10 0 10 1 10 2 10 -2 10 -1 10 0 thermistor typical temperature characteristic typical thermistor resistance values typical ntc characteristic as a function of temperature r t = f( t ) 0 5000 10000 15000 20000 25000 25 50 75 100 125 r (?) t (c) ntc-typical temperature characteristic
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 8 inverter switching characteristics figure 1. igbt figure 2. igbt typical swit ching energy losses as a f unction of co llector current typical swit ching energy losses as a f unct ion of ga te resistor e = f( i c ) e = f(r g ) with an induc tive load at 25 c with an inductive load at 25 c v ce = 600 v t j : 150 c v ce = 600 v t j : 150 c v ge = 15 v v ge = 15 v r gon = 4 ? i c = 150 a r goff = 4 ? figure 3. fwd figure 4. fwd typical reverse recovered energy loss as a f unction of collector current typical reverse recovered energy loss as a f unct ion of gat e resist or e rec = f( i c ) e rec = f( r g ) with an induc tive load at 25 c with an inductive load at 25 c v ce = 600 v t j : 150 c v ce = 600 v t j : 150 c v ge = 15 v v ge = 15 v r gon = 4 ? i c = 150 a e rec e rec 0 4 8 12 16 0 50 100 150 200 250 300 e e e e (mws) (mws) (mws) (mws) i ii i c c c c (a) (a)(a) (a) e rec e rec 0 3 6 9 12 0 4 8 12 16 20 e e e e (mws) (mws) (mws) (mws) r rr r g g g g ( (( ( ) )) ) e ee e o n o n o n o n e on e ee e o ff o ff o ff o ff e off 0 10 20 30 40 0 50 100 150 200 250 300 e e e e (mws) (mws) (mws) (mws) i ii i c c c c (a) (a)(a) (a) e o n o n o n o n e off e on e o ff o ffo ff o ff 0 10 20 30 40 0 4 8 12 16 20 e e e e ( mws) ( mws) ( mws) ( mws) r rr r g g g g ( (( ( ) )) )
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 9 inverter switching characteristics figure 5. igbt figure 6. igbt typical swit ching t imes as a f unct ion of collector current typical swit ching t imes as a f unct ion of gate resis tor t = f( i c ) t = f( r g ) with an induc tive load at with an inductive load at t j = 150 c t j = 150 c v ce = 600 v v ce = 600 v v ge = 15 v v ge = 15 v r gon = 4 ? i c = 150 a r goff = 4 ? figure 7. fwd figure 8. fwd typical reverse recovery t ime as a f unction of coll ector current typical reverse recovery t ime as a f unct ion of igbt t urn on gat e resist or t rr = f( i c ) t rr = f( r gon ) a t v ce = 600 v 25 c at v ce = 600 v 25 c v ge = 15 v t j : 150 c v ge = 15 v t j : 150 c r gon = 4 ? i c = 150 a t d(off ) t f t d(on) t r 0,01 0,1 1 0 50 100 150 200 250 300 t t t t ( (( ( ? s) s) s) s) i ii i c c c c (a (a(a (a ) )) ) t d(off ) t f t d(on) t r 0,01 0,1 1 0 4 8 12 16 20 t t t t ( (( ( ? s) s) s) s) r rr r g g g g ( (( ( ) )) ) t rr t rr 0 0,2 0,4 0,6 0,8 0 4 8 12 16 20 t t t t rr rr rr rr ( (( ( ? s) s) s) s) r rr r g on g on g on g on ( (( ( ) )) ) t rr t rr 0 0,2 0,4 0,6 0,8 0 50 100 150 200 250 300 t t t t r r r r r r r r ( (( ( ? s) s) s) s) i ii i c cc c (a) (a)(a) (a)
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 10 inverter switching characteristics figure 9. fwd figure 10. fwd typical recovered charge as a f unction of collector current typical recoved charge as a f unct ion of igbt t urn o n gate resistor q r = f( i c ) q r = f( r gon ) at at v ce = 600 v 25 c at v ce = 600 v 25 c v ge = 15 v t j : 150 c v ge = 15 v t j : 150 c r gon = 4 ? i c = 150 a figure 11. fwd figure 12. fwd typical peak reverse recovery current current as a f unct ion of collect or current typical peak reverse recovery current as a f unct ion of igbt t urn on gate resist or i rm = f( i c ) i rm = f( r gon ) a t v ce = 600 v 25 c at v ce = 600 v 25 c v ge = 15 v t j : 150 c v ge = 15 v t j : 150 c r gon = 4 ? i c = 150 a i rm i rm 0 50 100 150 200 250 0 4 8 12 16 20 i i i i r m r m r m r m (a) (a) (a) (a) r rr r g o n g o n g o n g o n ( (( ( ) )) ) q r q r 0 5 10 15 20 25 30 0 4 8 12 16 20 q q q q r rr r (c) (c) (c) (c) r rr r g o n g o n g o n g o n ( (( ( ) )) ) i rm i rm 0 50 100 150 200 0 50 100 150 200 250 300 i i i i r m r m r m r m (a) (a) (a) (a) i ii i c c c c (a) (a)(a) (a) q r q r 0 10 20 30 40 0 50 100 150 200 250 300 q q q q r rr r ( (( ( ? c) c) c) c) i ii i c c c c (a) (a)(a) (a)
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 11 inverter switching characteristics figure 13. fwd figure 14. fwd typical rat e of f all of f orward and reverse recover y current as a f unct ion of collect or current typical rat e of f all of f orward and reverse recovery curre nt as a f unction of igbt t urn on gat e resist or d i f /d t ,d i rr /dt = f( i c) d i f /d t ,d i rr /dt = f( r g) at v ce = 600 v 25 c at v ce = 600 v 25 c v ge = 15 v t j : 150 c v ge = 15 v t j : 150 c r gon = 4 ? i c = 150 a 0 2000 4000 6000 8000 0 4 8 12 16 20 d dd d i i i i /d /d /d /d t t t t (a/ (a/ (a/ (a/ ? s) s) s) s) r rr r g o n g o n g o n g o n ( (( ( ) )) ) d i ii i f ff f / // / d t tt t d i ii i r r r rr r r r / // / d t tt t 0 1000 2000 3000 4000 5000 0 50 100 150 200 250 300 d dd d i i i i /d /d /d /d t t t t (a/ (a/ (a/ (a/ s) s) s) s) i ii i c c c c (a) (a)(a) (a) d i ii i f ff f / // / d t tt t d i ii i r r r rr r r r / // / d t tt t figure 15. igbt reverse bias saf e operating area i c = f( v ce ) at t j = 175 c r gon = 4 ? r goff = 4 ? 0 50 100 150 200 250 300 350 0 200 400 600 800 1000 1200 1400 i i i i c c c c (a) (a) (a) (a) v vv v c e c e c e c e (v) (v)(v) (v) i ii i c max c maxc max c max v v v v ce ce ce ce max max max max i i i i c cc c module module module module i i i i c cc c chip chip chip chip
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 12 inverter switching definitions t j 150 c r gon 4 ? r goff 4 ? figure 1. igbt figure 2. igbt turn-of f swit ching wavef orms & def init ion of t dof f , t eof f (t eof f = int egrat ing t ime f or eof f ) turn-on s wit ching wavef orms & def init ion of tdon, t eon (t eon = int egrating t ime f or eon) v ge (0%) = -15 v v ge (0%) = -15 v v ge (100%) = 15 v v ge (100%) = 15 v v c (100%) = 600 v v c (100%) = 600 v i c (100%) = 149 a i c (100%) = 149 a t doff = 0,410 s t don = 0,229 s t eoff = 0,687 s t eon = 0,609 s figure 3. igbt figure 4. igbt turn-of f swit ching wavef orms & def init ion of t f turn-on swit ching wavef orms & def init ion of tr v c (100%) = 600 v v c (100%) = 600 v i c (100%) = 149 a i c (100%) = 149 a t f = 0,104 s t r = 0,044 s = = general conditions = i c 1% v ce 90% v ge 90% -25 0 25 50 75 100 125 -0,05 0,05 0,15 0,25 0,35 0,45 0,55 0,65 0,75 % t tt t (s) (s)(s) (s) t doff t eoff v ce i c v ge i c 10% v ge 10% t don v ce 3% -50 0 50 100 150 200 250 2,96 3,04 3,12 3,2 3,28 3,36 3,44 3,52 3,6 3,68 % t tt t (s) (s)(s) (s) i c v ce t eon v ge fitted i c10% i c 90% i c 60% i c 40% -25 0 25 50 75 100 125 0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8 % t tt t ( s) ( s)( s) ( s) v ce i c t f i c 10% i c 90% -50 0 50 100 150 200 250 3,1 3,15 3,2 3,25 3,3 3,35 3,4 3,45 3,5 % t tt t (s) (s)(s) (s) t r v ce i c
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 13 inverter switching definitions figure 5. igbt figure 6. igbt turn-of f swit ching wavef orms & def init ion of t eof f turn-on swit ching wavef orms & def init ion of teon p off (100%) = 89,53 kw p on (100%) = 89,53 kw e off (100%) = 12,85 mj e on (100%) = 18,80 mj t eoff = 0,69 s t eon = 0,61 s figure 7. fwd turn-of f swit ching wavef orms & def init ion of t rr v d (100%) = 600 v i d (100%) = 149 a i rrm (100%) = -168 a t rr = 0,465 s i c 1% v ge 90% -25 0 25 50 75 100 125 -0,06 0,04 0,14 0,24 0,34 0,44 0,54 0,64 0,74 0,84 % t tt t (s) (s)(s) (s) p off e off t eoff v ce 3% v ge 10% -25 0 25 50 75 100 125 150 175 2,95 3,05 3,15 3,25 3,35 3,45 3,55 3,65 3,75 % t tt t ( s) ( s)( s) ( s) p on e on t eon i rrm 10% i rrm 90% i rrm 100% t rr -150 -100 -50 0 50 100 150 3,15 3,23 3,31 3,39 3,47 3,55 3,63 3,71 3,79 3,87 % t tt t (s) (s)(s) (s) i d v d fitted
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 14 inverter switching definitions figure 8. fwd figure 9. fwd turn-on switching waveforms & definition of t qrr (t qrr = integrating time for q rr ) turn-on switching waveforms & definition of t erec (t erec = integrating time for e rec ) i d (100%) = 149 a p rec (100%) = 89,53 kw q rr (100%) = 29,16 c e rec (100%) = 10,81 mj t qrr = 1,00 s t erec = 1,00 s t qrr -150 -100 -50 0 50 100 150 2,8 3,2 3,6 4 4,4 4,8 % t tt t (s) (s)(s) (s) i d q rr -25 0 25 50 75 100 125 2,8 3,2 3,6 4 4,4 4,8 % t tt t (s) (s)(s) (s) p rec e rec t erec
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 15 date code ul & vinco lot serial wwyy ul vinco lllll ssss type&ver lot number serial date code tttttttvv lllll ssss wwyy pin x y function pin x y function 1 0,9 0 s11 30 68,5 0 dc+3 2 0,9 3 g11 31 68,5 2,7 dc+3 3 3,9 0 dc-1 32 64,7 36 g16 4 3,9 2,7 dc-1 33 61,7 36 s16 5 3,9 5,4 dc-1 34 58,7 36 ph3 6 6,6 0 dc-1 35 56 36 ph3 7 15,2 0 dc+1 36 53,3 36 ph3 8 15,2 2,7 dc+1 37 50,6 36 ph3 9 17,9 0 dc+1 38 39,4 36 g14 10 17,9 3 dc+1 39 36,4 36 s14 11 26,2 0 s13 40 33,4 36 ph2 12 26,2 2,7 g13 41 30,7 36 ph2 13 29,2 0 dc-2 42 28 36 ph2 14 29,2 2,7 dc-2 43 25,3 36 ph2 15 29,2 5,4 dc-2 44 14,1 36 g12 16 31,9 0 dc-2 45 11,1 36 s12 17 32,2 4,05 ntc 46 8,1 36 ph1 18 40,5 0 dc+2 47 5,4 36 ph1 19 40,5 2,7 dc+2 48 2,7 36 ph1 20 43,2 0 dc+2 49 0 36 ph1 21 43,2 2,7 dc+2 22 51,5 0 s15 23 51,5 3 g15 24 54,5 0 dc-3 25 54,5 2,7 dc-3 26 54,5 5,4 dc-3 27 57,2 0 dc-3 28 65,8 0 dc+3 29 65,8 2,7 dc+3 ordering code 30-P2126PA150SC-L280F09Y-/3/ ordering code & marking pin table [mm] name nn-nnnnnnnnnnnnnn-ttttttvv outline text datamatrix version with thermal paste 17mm housing with press-fit pins pin table [mm] nn-nnnnnnnnnnnnnn ttttttvv wwyy ul vinco lllll ssss
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 16 ntc ntc thermistor id igbt fwd component t11,t12,t13 t14,t15,t16 d11,d12,d13 d14,d15,d16 inverter diode pinout identification comment 1200 v 1200 v voltage current function 150 a inverter switch 150 a
30-P2126PA150SC-L280F09Y datasheet copyright vincotech 22 jan. 2016 / revision 1 17 disclaimer the information, specifications, procedures, method s and recommendations herein (together information ) are presented by vincotech to reader in good faith, are believed to be accurate a nd reliable, but may well be incomplete and/or not applicable to all conditions or situations that may exist or occur. vincotech reserves the rig ht to make any changes without further notice to an y products to improve reliability, function or design. no representation, guarantee or warranty is made to reader as to the accuracy, rel iability or completeness of said information or that the application or use of any o f the same will avoid hazards, accidents, losses, d amages or injury of any kind to persons or property or that the same will not infringe thir d parties rights or give desired results. it is rea ders sole responsibility to test and determine the suitability of the information and the product for readers intended use. life support policy vincotech products are not authorised for use as cr itical components in life support devices or system s without the express written approval of vincotech. as used herein: 1. life support devices or systems are devices or systems which, (a) are intended for surgical implan t into the body, or (b) support or sustain life, or (c) whose failure to perform when properly used in accordance with instructions for u se 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, o r to affect its safety or effectiveness. 30-P2126PA150SC-L280F09Y-d1-14 22 jan. 2016 document no.: date: modification: pages packaging instruction package data package data for flow 2 packages see vincotech.com website. standard packaging quantity (spq) sample handling instruction 42 >spq standard

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