features * glass passivated device * ideal for surface mounted applications * low leakage current * metallurgically bonded construction * pb-free package is available rohs product for packing code suffix "g" halohen free product for packing code suffix "h" mechanical data * case: molded plastic, do-214a a (sm b ) * epoxy: device has ulflammability classification 94v-o * lead: mil-std-202e method 208c guaranteed * mounting position: any * weight: 0.0 93 gram ( approximated) ratings at 25 ambient temperature unless otherwise specified. single phase half wave, 60hz, resistive of inductive load. for capacitive load, derate current by 20% ratings symbol ph fm 2 01 phfm 2 02 phf m 2 03 phf m204 fhf m 2 05 phfm 2 06 phf m 2 07 phfm 2 08 unit marking code 2 h1 2 h2 2 h3 2 h4 2 h5 2 h6 2 h7 2 h8 maximum recurrent peak reverse voltage v rrm 50 100 200 300 400 600 800 1000 volts maximum rms voltage v rms 35 70 140 210 280 420 560 700 volts maximum dc blocking voltage v dc 50 100 200 300 400 600 800 1000 volts maximum average forward current at t a = 50 peak forward surge current 8.3 ms single half sine-wa ve superimposed on rated load (jedec method) r ja r jc typical junction capacitance (note 2) c j p f operating temperature range t j storage temperature range t s t g symbol unit maximum forward voltage at 2. 0a dc v f 1.30 volts maximum full load reverse current, full cycle average ta=55 maximum dc reverse current @ ta = 25 at rated dc blocking voltage @ ta = 125 maximum reverse recovery time (note 3) trr nsec notes :1.thermal resistance: mounted on pcb. 2. measured at 1 mhz and applied reverse voltage of 4.0 volts. 3.test conditions: if = 0.5a, ir = 1.0a, irr = 0.25a /w 5.0 100.0 i r 50.00 amps 1.00 50 75 thru 2 .0 -55 to +150 5 0 7 0 -55 to +150 phfm 2 08 20 maximum ratings and electrical characteristics 2 0 typical thermal resistance (note 1) phfm 2 01 30 1.70 characteristics amps amps i o i fsm s m b package * dimensions in inches and (millimeters) .191(4.85) .160(4.06) .115(3.94) .130(3.30) .086(2.20) .075(1.91) .220(5.59) .199(5.05) .096(2.44) .083(2.13) .012(0.30) .006(0.15) .060(1.52) .029(0.75) .008(2.03) .001(0.02) 1 www.paceleader.tw 2.0a surface mount high effclency rectifiers -50v - 100v ph fm 2 01 phfm 2 02 phf m 2 03 phf m204 fhf m 2 05 phfm 2 06 phf m 2 07 phfm 2 08
rating and characteristic curves ( phfm201 thru phfm208 ) fig. 1 - test circuit diagram and reverse recovery time characteristic 50 noninductive 10 noninductive d.u.t 25 vdc (approx) ( - ) ( - ) ( + ) ( + ) 1 non- inductive oscilloscope (note 1) pulse generator (note 2) notes: 1 rise time = 7ns max. input impedance = 1 megohm. 22pf. 2. rise time = 10ns max. source impedance = 50 ohms. trr +0.5a 0 -0.25a -1.0a 1cm set time base for 10/20 ns/cm fig. 2 - typical forward current derating curve average forward curent, (a) ambient temperature ( ) 4.0 2.0 0 25 50 75 100 125 150 175 0 single phase half wave 60hz resistive or inductive load fig. 6 - typical junction capacitance junction capacitance, (pf) reverse voltage, ( v ) 200 100 60 40 20 10 6 4 2 1 .1 .2 .4 1.0 2 4 10 20 40 100 hfm201~hfm205 hfm206~hfm208 t j = 25 fig. 3 - typical reverse characteristics instantaneous reverse current, (ua) percent of rated peak reverse voltage, (%) t j = 25 t j = 100 t j = 150 100 10 1.0 .1 .01 0410210010806 020 04 fig. 5 - maximum non-repetitive forward surge current peak forward surge current, (a) number of cycles at 60hz 70 60 50 40 30 20 10 0 1 2 5 10 20 50 100 8.3ms single half sine-wave ( jedec method ) fig. 4 - typical instantaneous forward characteristics instantaneous forward current, (a) instantaneous forward voltage, (v) 10 1.0 .1 .01 .001 0 .2 .4 .6 .8 1.0 1.2 1.4 1.6 1.8 pulse width = 300us 1% duty cycle t j = 25 hfm206~hfm208 hfm201~hfm203 hfm204~hfm205 2 www.paceleader.tw thru phfm 2 08 phfm 2 01 2.0a surface mount high effclency rectifiers -50v - 100v
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