? 2000 ixys all rights reserved 1 - 3 features � international standard package � planar passivated chips � very short recovery time � extremely low switching losses � low i rm -values � soft recovery behaviour � epoxy meets ul 94v-0 applications � antiparallel diode for high frequency switching devices � antisaturation diode � snubber diode � free wheeling diode in converters and motor control circuits � rectifiers in switch mode power supplies (smps) � inductive heating � uninterruptible power supplies (ups) � ultrasonic cleaners and welders advantages � avalanche voltage rated for reliable operation � soft reverse recovery for low emi/rfi � low i rm reduces: - power dissipation within the diode - turn-on loss in the commutating switch dimensions see outlines.pdf hiperfred tm epitaxial diode with common cathode and soft recovery a = anode, c = cathode, tab = cathode to-247 ad c a a a c a c (tab) pulse test: � pulse width = 5 ms, duty cycle < 2.0 % � pulse width = 300 � s, duty cycle < 2.0 % data according to iec 60747 and per diode unless otherwise specified ixys reserves the right to change limits, test conditions and dimensions. i fav = 2x 30 a v rrm = 600 v t rr = 30/35 ns dsec 60-06a dsec 60-06b v rsm v rrm type v v 600 600 dsec 60-06a 600 600 dsec 60-06b symbol conditions maximum ratings i frms 70 a i favm rect., d = 0.5; t c (vers. a) = 135c 30 a t c (vers. b) = 125c i fsm t vj = 45c; t p = 10 ms (50 hz), sine 250 a e as t vj = 25c; non-repetitive 0.2 mj i as = 1.3 a; l = 180 h i ar v a = 1.5 v r typ.; f = 10 khz; repetitive 0.1 a t vj -55...+175 c t vjm 175 c t stg -55...+150 c p tot t c = 25c 165 w m d mounting torque 0.8...1.2 nm weight typical 6 g symbol conditions characteristic max. values vers. a vers. b i r � t vj = 25c v r = v rrm 250 250 � a t vj = 150c v r = v rrm 12ma v f � i f = 30 a; t vj = 150c 1.25 1.56 v t vj = 25c 1.60 2.51 v r thjc 0.9 0.9 k/w r thch 0.25 0.25 k/w t rr i f = 1 a; -di/dt = 200 a/ � s; typ. 35 typ. 30 ns v r = 30 v; t vj = 25c i rm v r = 100 v; i f = 50 a; -di f /dt = 100 a/ � s typ. 6 typ. 4 a t vj = 100c both versions 008
? 2000 ixys all rights reserved 2 - 3 dsec 60-06a note: fig. 2 to fig. 6 shows typical values 200 600 10000 400 800 70 80 90 100 110 120 130 0.00001 0.0001 0.001 0.01 0.1 1 0.001 0.01 0.1 1 0 40 8 0 120 160 0.0 0.5 1.0 1.5 2.0 k f t vj c -di f /dt t s k/w 0 200 400 600 800 1000 0 5 10 15 20 0.0 0.3 0.6 0.9 1.2 v fr di f /dt v 200 600 10000 400 800 0 10 20 30 40 50 100 1000 0 500 1000 1500 2000 2500 3000 0.0 0 .5 1.0 1.5 2.0 0 10 20 30 40 50 60 70 i rm q r i f a v f -di f /dt -di f /dt a/ m s a v nc a/ m s a/ m s t rr ns t fr z thjc a/ m s s dsep30-06a DSEC60-06A i f = 60a i f = 30a i f = 15a t vj = 100 c v r = 300v t vj = 100 c i f = 30a fig. 3 peak reverse current i rm versus -di f /dt fig. 2 reverse recovery charge q r versus -di f /dt fig. 1 forward current i f versus v f t vj = 100 c v r = 300v t vj = 100 c v r = 300v i f = 60a i f = 30a i f = 15a q r i rm fig. 4 dynamic parameters q r , i rm versus t vj fig. 5 recovery time t rr versus -di f /dt fig. 6 peak forward voltage v fr and t fr versus di f /dt i f = 60a i f = 30a i f = 15a t fr v fr fig. 7 transient thermal resistance junction to case constants for z thjc calculation: ir thi (k/w) t i (s) 1 0.465 0.0052 2 0.179 0.0003 3 0.256 0.0396 t vj =25 c t vj =100 c t vj =150 c 008
? 2000 ixys all rights reserved 3 - 3 dsec 60-06b 200 600 10000 400 800 60 70 80 90 0.00001 0.0001 0.001 0.01 0.1 1 0.001 0.01 0.1 1 0 40 80 120 160 0.0 0.5 1.0 1.5 2.0 k f t vj c -di f /dt t s k/w 0 200 400 600 800 1000 0 5 10 15 20 0.00 0.25 0.50 0.75 1.00 v fr di f /dt v 200 600 10000 400 800 0 5 10 15 20 25 30 100 1000 0 200 400 600 800 1000 0123 0 10 20 30 40 50 60 i rm q r i f a v f -di f /dt -di f /dt a/ m s a v nc a/ m s a/ m s t rr ns t fr z thjc a/ m s s dsec 60-06b i f = 60a i f = 30a i f = 15a t vj = 100 c v r = 300v t vj = 100 c i f = 30a fig. 3 peak reverse current i rm versus -di f /dt fig. 2 reverse recovery charge q r versus -di f /dt fig. 1 forward current i f versus v f t vj = 100 c v r = 300v t vj = 100 c v r = 300v i f = 60a i f = 30a i f = 15a q r i rm fig. 4 dynamic parameters q r , i rm versus t vj fig. 5 recovery time t rr versus -di f /dt fig. 6 peak forward voltage v fr and t fr versus di f /dt i f = 60a i f = 30a i f = 15a t fr v fr fig. 7 transient thermal resistance junction to case constants for z thjc calculation: ir thi (k/w) t i (s) 1 0.465 0.0052 2 0.179 0.0003 3 0.256 0.0396 008 t vj =25 c t vj =100 c t vj =150 c note: fig. 2 to fig. 6 shows typical values
|
