schottky rectifier 10 amp mbr10.. series mbrb10.. series bulletin pd-2.317 rev. f 07/03 1 www.irf.com major ratings and characteristics i f(av) rectangular waveform 10 a i frm @ t c = 135c 20 a v rrm 35/45 v i fsm @ tp = 5 s sine 1060 a v f @ 10 apk, t j = 125c 0.57 v t j range - 65 to 150 c characteristics values units description/ features this schottky rectifier has been optimized for low reverse leakage at high temperature. the proprietary barrier technology allows for reliable operation up to 150 c junction temperature. typical applications are in switching power supplies, converters, free-wheeling diodes, and reverse battery protection. 150c t j operation to-220 and d 2 pak packages low forward voltage drop high purity, high temperature epoxy encapsulation for enhanced mechanical strength and moisture resistance high frequency operation guard ring for enhanced ruggedness and long term reliability case styles mbr10.. to-220ac mbrb10.. d 2 pak anode 1 3 base cathode cathode anod e 1 3 base cathode 2 n/c
mbr10.. series, mbrb10.. series bulletin pd-2.317 rev. f 07/03 2 www.irf.com v fm max. forward voltage drop 0.84 v @ 20a t j = 25 c (1) 0.57 v @ 10a 0.72 v @ 20a i rm max. instantaneus reverse current 0.1 ma t j = 25 c (1) 15 ma t j = 125 c v f(to) threshold voltage 0.354 v t j = t j max. r t forward slope resistance 17.6 m ? c t max. junction capacitance 600 pf v r = 5v dc (test signal range 100khz to 1mhz) 25c l s typical series inductance 8.0 nh measured from top of terminal to mounting plane dv/dt max. voltage rate of change 10000 v/ s (rated v r ) thermal-mechanical specifications parameters values units conditions kg-cm (ibf-in) electrical specifications (1) pulse width < 300s, duty cycle <2% absolute maximum ratings part number mbr1035 / mbrb1035 mbr1045 / mbrb1045 v r max. dc reverse voltage (v) v rwm max. working peak reverse voltage (v) 35 45 voltage ratings t j max. junction temperature range -65 to 150 c t stg max. storage temperature range -65 to 175 c r thjc max. thermal resistance 2.0 c/w dc operation junction to case r thcs typical thermal resistance 0.50 c/w mounting surface, smooth and greased case to heatsink only for to-220 wt approximate weight 2 (0.07) g (oz.) t mounting torque min. 6 (5) max. 12 (10) i f(av) max. average forward current 10 a @ t c = 135 c (rated v r ) i frm peak repetitive forward 20 a rated v r , square wave, 20khz current t c = 135 c i fsm non repetitive peak 1060 5s sine or 3s surge current rect. pulse surge applied at rated load conditions halfwave, single phase, 60hz e as non-repetitive avalanche energy 8 mj t j = 25 c, i as = 2 amps, l = 4 mh i ar repetitive avalanche current 2 a current decaying linearly to zero in 1 sec frequency limited by t j max. v a = 1.5 x v r typical parameters values units conditions following any rated load condition and with rated v rrm applied a 150 parameters values units conditions rated dc voltage t j = 125 c
mbr10.. series, mbrb10.. series bulletin pd-2.317 rev. f 07/03 3 www.irf.com fig. 2 - typical values of reverse current vs. reverse voltage fig. 3 - typical junction capacitance vs. reverse voltage fig. 4 - max. thermal impedance z thjc characteristics fig. 1 - max. forward voltage drop characteristics 0.0001 0.001 0.01 0.1 1 10 100 0 5 10 15 20 25 30 35 40 45 r r 100c 75c 50c 25c re ve rse curre nt - i (m a) reverse voltage - v (v) t = 150c j 125c 100 1000 0 1020304050 r t junction capacitance - c (pf) reverse volta g e - v (v) t = 25c j 0.01 0.1 1 10 0.00001 0.0001 0.001 0.01 0.1 1 10 100 thjc t , rectangular pulse duration (seconds) single pulse ( th e r m a l re si st a n c e ) 1 therma l imped a nc e z (c/ w) no t e s: 1. duty factor d = t / t 2. peak t = p x z + t 1 2 j thjc c dm d = 0.75 d = 0.50 d = 0.33 d = 0.25 d = 0.20 2 t 1 t p dm 1 10 100 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 f fm t = 150c t = 125c t = 25c j j j forward voltage drop - v (v) insta nta neous forward current - i (a)
mbr10.. series, mbrb10.. series bulletin pd-2.317 rev. f 07/03 4 www.irf.com fig. 7 - max. non-repetitive surge current fig. 5 - max. allowable case temperature vs. average forward current fig. 6 - forward power loss characteristics (2) formula used: t c = t j - (pd + pd rev ) x r thjc ; pd = forward power loss = i f(av) x v fm @ (i f(av) / d) (see fig. 6); pd rev = inverse power loss = v r1 x i r (1 - d); i r @ v r1 = rated v r 120 125 130 135 140 145 150 03691215 dc allowable case temperature - (c) f( a v ) see note (2) average forward current - i (a) sq uare wa ve (d = 0.50) rated v applied r 0 2 4 6 8 10 0 2 4 6 8 10 12 14 16 dc average power loss - (watts) f(a v) rm s li m i t d = 0.20 d = 0.25 d = 0.33 d = 0.50 d = 0.75 average forward current - i (a) 100 1000 10 100 1000 10000 fsm non-repetitive s urg e current - i ( a) p at any rated load condition and with rated v applied following surge rrm sq ua re wa ve pulse dura t io n - t (mic ro se c )
mbr10.. series, mbrb10.. series bulletin pd-2.317 rev. f 07/03 5 www.irf.com outline table conform to jedec outline to-220ac dimensions in millimeters and (inches) conform to jedec outline d 2 pak (smd-220) dimensions in millimeters and (inches) 3.78 (0.15) 3.54 (0.14) 10.54 (0.41) max. dia. 15.24 (0.60) 14.84 (0.58) 2.92 (0.11) 2.54 (0.10) 1 term 2 14.09 (0.55) 13.47 (0.53) 3.96 (0.16) 3.55 (0.14) 0.94 (0.04) 0.69 (0.03) 4.57 (0.18) 4.32 (0.17) 3 0.61 (0.02) max. 5.08 (0.20) ref. 1.32 (0.05) 1.22 (0.05) 6.48 (0.25) 6.23 (0.24) 2 0.10 (0.004) 1.40 (0.05) 1.15 (0.04) 2.89 (0.11) 2.64 (0.10) 1 3 2.04 (0.080) max. 10.16 (0.40) ref. 8.89 (0.35) 4.57 (0.18) 4.32 (0.17) 0.61 (0.02) max. 5.08 (0.20) ref. 1.32 (0.05) 1.22 (0.05) 13 6.47 (0.25) 6.18 (0.24) 93 re f. 2.61 (0.10) 2.32 (0.09) 5.28 (0.21) 4.78 (0.19) 4.69 (0.18) 4.20 (0.16) 0.55 (0.02) 0.46 (0.02) 14.73 (0.58) 15.49 (0.61) 1.40 (0.055) 1.14 (0.045) 3x 0.93 (0.37) 0.69 (0.27) 2x 11.43 (0.45) 17.78 (0.70) 8.89 (0.35) 3.81 (0.15) 2.08 (0.08) 2x 2.54 (0.10) 2x minimum recommended footprint 2 anode 1 3 base cathode cathode anod e 1 3 base cathode 2 n/c
mbr10.. series, mbrb10.. series bulletin pd-2.317 rev. f 07/03 6 www.irf.com trr feed dir ection trl feed direction 10.90 (0.429) 10.70 (0.421) 16.10 (0.634) 15.90 (0.626) 1.75 (0.069) 1.25 (0.049) 1.85 (0.073) 1.65 (0.065) 4.10 (0.161) 3.90 (0.153) 1.60 (0.063) 1.50 (0.059) dia. 1.60 (0.063) 1.50 (0.059) dia. 11.60 (0.457) 11.40 (0.449) 15.42 (0.609) 15.22 (0.601) 4.72 (0.186) 4.52 (0.178) 24.30 (0.957) 23.90 (0.941) 0.368 (0.0145) 0.342 (0.0135) 360 (14.173) dia. max. 26.40 (1.039) 24.40 (0.961) 13.50 (0.532) 12.80 (0.504) dia. 60 (2.362) dia. min. smd-220 tape & reel when ordering, indicate the part number, part orientation, and the quantity. quantities are in multiples of 800 pieces per reel for both trl and t rr. dimensions in millimeters and (inches) tape & reel information ordering information table device code 1 24 3 1 - essential part number 2 - b = surface mount none = to-220 3 - current rating 4 - voltage code: code = v rrm 35 = 35v 45 = 45v mbr b 10 45
mbr10.. series, mbrb10.. series bulletin pd-2.317 rev. f 07/03 7 www.irf.com ir world headquarters: 233 kansas st., el segundo, california 90245, usa tel: (310) 252-7105 tac fax: (310) 252-7309 visit us at www.irf.com for sales contact information. 07/03 data and specifications subject to change without notice. this product has been designed and qualified for industrial level. qualification standards can be found on ir's web site. mbr1045 ******************************************** * this model has been developed by * * wizard spice model generator (1999) * * (international rectifier corporation) * * contains proprietary information * ******************************************** * spice model diode is composed by a * * simple diode plus paralled vcg2t * ******************************************** .subckt mbr1045 ano cat d1 ano 1 dmod (0.04688) *define diode model .model dmod d(is=2.14849701885607e-04a,n=1.50833541375759,bv=52v, + ibv=0.431942180477539a,rs= 0.000618816,cjo=1.90645706123736e-08, + vj=2.31227489200037,xti=2, eg=0.684712841282824) ******************************************** *implementation of vcg2t vx 1 2 dc 0v r1 2 cat tres 1e-6 .model tres res(r=1,tc1=-29.9118224426661) gp1 ano cat value={-abs(i(vx))*(exp((((-6.195028e-06/-29.91182)*((v(2,cat)*1e6)/(i(vx)+1e-6)- 1))+1)*4.475503e-02*abs(v(ano,cat)))-1)} ******************************************** .ends mbr1045 thermal model subcircuit .subckt mbr1045 5 1 ctherm1 5 4 1.40e+00 ctherm2 4 3 1.46e+01 ctherm3 3 2 9.30e+01 ctherm4 2 1 1.69e+03 rtherm1 5 4 5.79e-01 rtherm2 4 3 7.72e-01 rtherm1 3 2 4.45e-01 rtherm1 2 1 1.93e-01 .ends mbr1045
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