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  IRFR4105PBF irfu4105pbf hexfet ? power mosfet description  parameter max. units i d @ t c = 25c continuous drain current, v gs @ 10v 27  i d @ t c = 100c continuous drain current, v gs @ 10v 19 a i dm pulsed drain current  100 p d @t c = 25c power dissipation 68 w linear derating factor 0.45 w/c v gs gate-to-source voltage 20 v e as single pulse avalanche energy  65 mj i ar avalanche current  16 a e ar repetitive avalanche energy  6.8 mj dv/dt peak diode recovery dv/dt  5.0 v/ns t j operating junction and -55 to + 175 t stg storage temperature range soldering temperature, for 10 seconds 300 (1.6mm from case ) c absolute maximum ratings parameter typ. max. units r jc junction-to-case ??? 2.2 r ja junction-to-ambient (pcb mount) ** ??? 50 c/w r ja junction-to-ambient ??? 110 thermal resistance d-pak t o-252aa i-pak to-251aa  ultra low on-resistance  surface mount (irfr4105)  straight lead (irfu4105)  fast switching  fully avalanche rated fifth generation hexfets from international rectifier utilize advanced processing techniques to achieve the lowest possible on-resistance per silicon area. this benefit, combined with the fast switching speed and ruggedized device design that hexfet power mosfets are well known for, provides the designer with an extremely efficient device for use in a wide variety of applications. the d-pak is designed for surface mounting using vapor phase, infrared, or wave soldering techniques. the straight lead version (irfu series) is for through- hole mounting applications. power dissipation levels up to 1.5 watts are possible in typical surface mount applications. pd - 95550a www.irf.com 1  lead-free s d g v dss = 55v r ds(on) = 0.045 ? i d = 27a 
irfr/u4105pbf 2 www.irf.com parameter min. typ. max. units conditions v (br)dss drain-to-source breakdown voltage 55 ??? ??? v v gs = 0v, i d = 250a ? v (br)dss / ? t j breakdown voltage temp. coefficient ??? 0.052 ??? v/c reference to 25c, i d = 1ma ??? ??? 0.045 v gs = 10v, i d = 16a  v gs(th) gate threshold voltage 2.0 ??? 4.0 v v ds = v gs , i d = 250a g fs forward transconductance 6.5 ??? ??? s v ds = 25v, i d = 16a  ??? ??? 25 a v ds = 55v, v gs = 0v ??? ??? 250 v ds = 44v, v gs = 0v, t j = 150c gate-to-source forward leakage ??? ??? 100 na v gs = 20v gate-to-source reverse leakage ??? ??? -100 v gs = -20v q g total gate charge ??? ??? 34 i d = 16a q gs gate-to-source charge ??? ??? 6.8 nc v ds = 44v q gd gate-to-drain ("miller") charge ??? ??? 14 v gs = 10v, see fig. 6 and 13  t d(on) turn-on delay time ??? 7.0 ??? v dd = 28v t r rise time ??? 49 ??? ns i d = 16a t d(off) turn-off delay time ??? 31 ??? r g = 18 ? t f fall time ??? 40 ??? r d = 1.8 ?, see fig. 10   between lead, 6mm (0.25in.) from package and center of die contact  c iss input capacitance ??? 700 ??? v gs = 0v c oss output capacitance ??? 240 ??? pf v ds = 25v c rss reverse transfer capacitance ??? 100 ??? ? = 1.0mhz, see fig. 5  electrical characteristics @ t j = 25c (unless otherwise specified) nh   s d g l s internal source inductance ??? 7.5 ??? r ds(on) static drain-to-source on-resistance l d internal drain inductance ??? 4.5 ??? i dss drain-to-source leakage current s d g parameter min. typ. max. units conditions i s continuous source current mosfet symbol (body diode) ??? ??? showing the i sm pulsed source current integral reverse (body diode)  ??? ??? p-n junction diode. v sd diode forward voltage ??? ??? 1.6 v t j = 25c, i s = 16a, v gs = 0v  t rr reverse recovery time ??? 57 86 ns t j = 25c, i f = 16a q rr reverse recoverycharge ??? 130 200 nc di/dt = 100a/s  t on forward turn-on time intrinsic turn-on time is negligible (turn-on is dominated by l s +l d ) source-drain ratings and characteristics a 27  100 notes:  v dd = 25v, starting t j = 25c, l = 410h r g = 25 ? , i as = 16a. (see figure 12)   repetitive rating; pulse width limited by max. junction temperature. ( see fig. 11 )  ** when mounted on 1" square pcb (fr-4 or g-10 material ) . for recommended footprint and soldering techniques refer to application note #an-994  i sd  16a, di/dt  420a/s, v dd   v (br)dss ,  t j  175c  this is applied for i-pak, ls of d-pak is measured between lead and center of die contact  uses irfz34n data and test conditions  calculated continuous current based on maximum allowable junction temperature; package limitation current = 20a  pulse width  300s; duty cycle  2%
irfr/u4105pbf www.irf.com 3 fig 3. typical transfer characteristics fig 4. normalized on-resistance vs. temperature fig 1. typical output characteristics fig 2. typical output characteristics ct ion 0.1 1 10 100 1000 0.1 1 10 100 i , drain-to-source current (a) d v , drain-to-source voltage (v) ds vgs top 15v 10v 8.0v 7.0v 6.0v 5.5v 5.0v bottom 4.5v 20s pulse width t = 25c c a 4.5v 0.1 1 10 100 1000 0.1 1 10 100 i , drain-to-source current (a) d v , drain-to-source voltage (v) ds vgs top 15v 10v 8.0v 7.0v 6.0v 5.5v 5.0v bottom 4.5v a 4.5v 20s pulse width t = 175c c 1 10 100 45678910 t = 25c j gs v , gate-to-source voltage (v) d i , drain-to-source current (a) a v = 25v 20s pulse width t = 175c j ds 0.0 0.4 0.8 1.2 1.6 2.0 2.4 -60 -40 -20 0 20 40 60 80 100 120 140 160 180 j t , junction temperature (c) r , drain-to-source on resistance ds(on) (normalized) v = 10v gs a i = 26a d
irfr/u4105pbf 4 www.irf.com fig 8. maximum safe operating area fig 6. typical gate charge vs. gate-to-source voltage fig 5. typical capacitance vs. drain-to-source voltage fig 7. typical source-drain diode forward voltage 0 200 400 600 800 1000 1200 1 10 100 c, capacitance (pf) ds v , drain-to-source voltage (v) a v = 0v, f = 1mhz c = c + c , c shorted c = c c = c + c gs iss gs gd ds rss gd oss ds gd c iss c oss c rss 0 4 8 12 16 20 0 10203040 q , total gate charge (nc) g v , gate-to-source voltage (v) gs a for test circuit see figure 13 v = 44v v = 28v ds ds i = 16a d 1 10 100 1000 0.4 0.8 1.2 1.6 2. 0 t = 25c j v = 0v gs v , source-to-drain voltage (v) i , reverse drain current (a) sd sd a t = 175c j 1 10 100 1000 1 10 100 v , drain-to-source voltage (v) ds i , drain current (a) operation in this area limited by r d ds(on) 10s 100s 1ms a t = 25c t = 175c single pulse c j
irfr/u4105pbf www.irf.com 5 fig 9. maximum drain current vs. case temperature fig 10a. switching time test circuit v ds 9 0% 1 0% v gs t d(on) t r t d(off) t f fig 10b. switching time waveforms    
 1     0.1 %    
  + -   fig 11. maximum effective transient thermal impedance, junction-to-case 0.01 0.1 1 10 0.00001 0.0001 0.001 0.01 0.1 notes: 1. duty factor d = t / t 2. peak t = p x z + t 1 2 j dm thjc c p t t dm 1 2 t , rectangular pulse duration (sec) thermal response (z ) 1 thjc 0.01 0.02 0.05 0.10 0.20 d = 0.50 single pulse (thermal response) 25 50 75 100 125 150 175 0 5 10 15 20 25 30 t , case temperature ( c) i , drain current (a) c d limited by package
irfr/u4105pbf 6 www.irf.com q g q gs q gd v g charge  fig 13b. gate charge test circuit fig 13a. basic gate charge waveform fig 12c. maximum avalanche energy vs. drain current d.u.t. v d s i d i g 3ma v gs .3 f 50k ? .2 f 12v current regulator same type as d.u.t. current sampling resistors + - fig 12b. unclamped inductive waveforms fig 12a. unclamped inductive test circuit t p v (br)dss i as r g i as 0.01 ? t p d.u.t l v ds + - v dd driver a 15v 10v 0 20 40 60 80 100 120 140 25 50 75 100 125 150 17 5 j e , single pulse avalanche energy (mj) as a starting t , junction temperature (c) v = 25v dd i top 6.5a 11a bottom 16a d
irfr/u4105pbf www.irf.com 7 p.w. period di/dt diode recovery dv/dt ripple 5% body diode forward drop r e-applied v oltage reverse recovery current body diode forward current v gs =10v v dd i sd driver gate drive d.u.t. i sd waveform d.u.t. v ds waveform inductor curent d = p. w . period + - + + + - - - fig 14. for n-channel hexfets * v gs = 5v for logic level devices peak diode recovery dv/dt test circuit    r g v dd ? dv/dt controlled by r g ? driver same type as d.u.t. ? i sd controlled by duty factor "d" ? d.u.t. - device under test d.u.t circuit layout considerations ?  low stray inductance  ? ground plane  ? low leakage inductance current transformer  
irfr/u4105pbf 8 www.irf.com  

  

  
   
  12 in the ass embly line "a" as s embled on ww 16, 1999 example: wit h as s e mb l y t his is an irfr120 lot code 1234 year 9 = 199 9 dat e code we e k 16 part number logo international rectifier as s e mb l y lot code 916a irf u120 34 year 9 = 1999 dat e code or p = designat es lead-f ree product (optional) note: "p" in ass embly line position i ndi cates " l ead- f r ee" 12 34 we e k 16 a = as s e mb l y s i t e cod e part number irf u120 line a logo lot code as s e mb l y international rectifier
irfr/u4105pbf www.irf.com 9  
   
   
   
  assembly example: wit h as s e mb l y this is an irfu120 year 9 = 199 9 dat e code line a week 19 in the assembly line "a" as s emble d on ww 19, 1999 lot code 5678 part number 56 irfu120 international logo rectifier lot code 919a 78 note: "p" in as s embly line position indicates "lead-free"  56 78 as s e mb l y lot code rectifier logo international irf u120 part number we e k 19 dat e code year 9 = 1999 a = as s e mb l y s i t e code p = de s i gn at e s l e ad- f r e e product (opt ional)
irfr/u4105pbf 10 www.irf.com data and specifications subject to change without notice. ir world headquarters: 233 kansas st., el segundo, california 90245, usa tel: (310) 252-7105 tac fax: (310) 252-7903 visit us at www.irf.com for sales contact information . 1/05  

  
   
  tr 16.3 ( .641 ) 15.7 ( .619 ) 8.1 ( .318 ) 7.9 ( .312 ) 12.1 ( .476 ) 11.9 ( .469 ) feed direction feed direction 16.3 ( .641 ) 15.7 ( .619 ) trr trl n otes : 1 . controlling dimension : millimeter. 2 . all dimensions are shown in millimeters ( inches ). 3 . outline conforms to eia-481 & eia-541. notes : 1. outline conforms to eia-481. 16 mm 13 inch
note: for the most current drawings please refer to the ir website at: http://www.irf.com/package/


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