yenyo dimensions in inches and (millimeters) maximum ratings and electrical characteristics for capacitive load, derate current by 20%. single phase, half wave, 60hz, resistive or inductive load. rating at 25 o c ambient temperature unless otherwise specified. notes : to-220ac HFR30A06 voltage range 600 v current 30.0 ampere glass passivated hyperfast recovery rectifier symbol v rrm v rms v dc if (av) i fsm v f i r trr c j t j , t stg HFR30A06 - - - - 20 325 2.5 40 500 60 - unit v v v v a a ua ua o c pf o cw ns recurrent peak reverse voltage rms voltage dc blocking voltage average forward rectified peak forward surge current, 8.3ms single instantaneous forward voltage @30a(25 o c) dc reverse current @t j =25 o c typical junction capacitance (note 3) operating junction and storage current t c =140 o c half sine-wave superimposed on rated load (jedec method) @30a(150 o c) at rated dc blocking voltage @t j =150 o c maximum reverse recovery time (note 1) typical thermal resistance (note 4) features ? l o w noise ? fast switching for high efficiency ? trr = 40ns ? case: molded plastic to-220ac ? high voltage super frd ? weight: 2.07 grams method 208 ? mounting position: any ? terminals: solderable per mil-std-202 mechanical data ? low reverse leakage current r jc temperature range (1) reverse recovery test conditions i f = 0.5a, i r = 1.0a, irr = 0.25a. (2) reverse recovery test conditions i f = 15a, di f /dt = 100a/us (3) junction capacitance test conditions : v r = 10v,i f = 0a. (4) thermal resistance junction to case. ? epoxy: ul 94v-0 rate flame retardant , 1 2 characteristic min. typ. max. - 30.0 - 600 420 600 - - - - - - - - - - - - 1.5 - 175 -65 - ? pfc application 1 / 3 r6, mar-11 2.2 max.412(10.5) max.07(1.7) .072(1.82) .062(1.58) .638(16.2) .602(15.3) .526(13.35) .508(12.90) .037(0.94) .027(0.68) dia .128(3 . 2 5 ) .114(2 . 9 0 ) .205(5.20) .195(4.95) .154(3.91) .137(3.50) pin 1 2 .185(4.70) .175(4.44) .102(2.60) .088(2.25) .025(0.64) .014(0.35) .27(6.86) .23(5.84) .055(1.40) .045(1.14) .056(1.43) .048(1.22) .057(1.45) .052(1.33) maximum reverse recovery time (note 2) trr - - 65 ns
ratings and characteristic curves HFR30A06 fig.1 - forward current derating curve fig.3 - typical instantaneous forward characteristics average forward rectified current, amperes 30.0 5.0 10.0 15.0 25.0 20.0 iinstantaneous forward current, amperes 10 100 0.5 1 0 2 2.5 3 0 0 50 100 175 case temperature, o c instantaneous forward voltage, volts fig.2 - maximum non-repetitive peak forward surge current peak forward surge current, amperes number of cycles at 60hz 0 100 200 300 400 1 10 100 fig.4 - typical reverse characteristics percent of rated peak reverse voltage,% instantaneous reverse current, microamperes 0.1 0 1 10 1000 100 20 40 60 80 100 fig.5 - t rr , t a and t b curves vs forward current i f , forward current (a) t , recovery times (ns) 60 hz resistive or inductive load pulse width 8.3ms single half-sire-wave (jedec method) t j =150 o c t j =25 o c 75 25 125 150 0.5 1.5 1.0 t j =25 o c t j =150 o c fig.6 - t rr , t a and t b curves vs forward current i f , forward current (a) t , recovery times (ns) t b t r r t a 50 0 20 30 10 40 1 5 10 15 t c = 25 o c, di f /dt = 100a/us t a t r r t b 100 0 40 60 20 80 1 5 10 15 t c = 100 o c, di f /dt = 100a/us yenyo technology co., ltd. 2 / 3 r6, mar-11
ratings and characteristic curves HFR30A06 fig.8 - typical junction capacitance reverse voltage, volts junction capacitance, pf 0 0 175 50 100 150 200 75 25 50 125 150 100 yenyo technology co., ltd. 3 / 3 r6, mar-11 fig.7 - t rr , t a and t b curves vs forward current i f , forward current (a) t , recovery times (ns) 175 0 50 75 25 125 1 5 10 15 t b t a t r r 100 150 t c = 175 o c, di f /dt = 100a/us test circuits and waveforms f i g . 9 - t r r t e s t c i r c u i t f i g . 1 0 - t r r w a v e f o r m s a n d d e f i n i t i o n s f i g . 1 1 - a v a l a n c h e e n e r g y t e s t c i r c u i t f i g . 1 2 - a v a l a n c h e c u r r e n t a n d v o l t a g e w a v e f o r m s r g l v d d i g b t c u r r e n t s e n s e d u t v g e t 1 t 2 v g e a m p l i t u d e a n d t 1 a n d t 2 c o n t r o l i f r g c o n t r o l d i f / d t + - d t d i f i f t r r t a t b 0 i r m 0 . 2 5 i r m d u t c u r r e n t s e n s e + l r v d d r < 0 . 1 e a v l = 1 / 2 l i 2 [ v r ( a v l ) / ( v r ( a v l ) - v d d ) ] q 1 = i g b t ( b v c e s > d u t v r ( a v l ) ) - v d d q 1 i m a x = 1 a l = 4 0 m h i v t 0 t 1 t 2 i l v a v l t i l
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