? 2000 ixys all rights reserved 1 - 2 vbe 26-06no7 eco-pac tm single phase rectifier bridge
i dav = 44 a v rrm = 600 v t rr = 35 ns v rsm v rrm typ v v 600 600 vbe 26-06no7 symbol conditions maximum ratings i dav t c = 85c, module 44 a i davm 90 a i fsm t vj = 45c t = 10 ms (50 hz), sine 110 a v r = 0 t = 8.3 ms (60 hz), sine 120 a t vj = t vjm t = 10 ms (50 hz), sine 95 a v r = 0 t = 8.3 ms (60 hz), sine 105 a i 2 t t vj = 45c t = 10 ms (50 hz), sine 60 a 2 s v r = 0 t = 8.3 ms (60 hz), sine 60 a 2 s t vj = t vjm t = 10 ms (50 hz), sine 45 a 2 s v r = 0 t = 8.3 ms (60 hz), sine 45 a 2 s t vj -40...+150 c t vjm 150 c t stg -40...+125 c v isol 50/60 hz, rms t = 1 min 3000 v~ i isol 1 ma t = 1 s 3600 v~ m d mounting torque (m4) 1.5-2/14-18 nm/lb.in. weight typ. 19 g features package with dcb ceramic base plate in low profile isolation voltage 3000 v~ planar passivated chips low forward voltage drop leads suitable for pc board soldering applications supplies for dc power equipment input and output rectifiers for high frequency battery dc power supplies field supply for dc motors advantages space and weight savings improved temperature and power cycling capability small and light weight low noise switching data according to iec 60747 refer to a single diode unless otherwise stated for resistive load at bridge output. d k a n symbol conditions characteristic values typ. max. i r v r = v rrm t vj = 25c 0.1 ma v r = v rrm t vj = t vjm 0.5 ma v f i f = 15 a t vj = 25c 2.01 v v t0 for power-loss calculations only 1.13 v r t 13 m r thjc per diode; dc current 1.6 k/w r thch per diode, dc current, typ. 0.3 k/w i rm i f = 25 a, -dif/dt = 100 a/s 4 4.9 a v r = 100 v, l = 0.05 mh, t vj = 100c t rr i f = 1 a; -di/dt = 100 a/s; v r = 30 v, t vj = 25c 35 tbd ns a max. allowable acceleration 50 m/s 2 d s creeping distance on surface 11.2 mm d a creepage distance in air 9.7 mm ixys reserves the right to change limits, test conditions and dimensions. 032 dimensions in mm (1 mm = 0.0394")
? 2000 ixys all rights reserved 2 - 2 vbe 26-06no7 note: fig. 2 to fig. 6 shows typical values 200 600 1000 0 400 800 70 80 90 100 110 120 0.0001 0.001 0.01 0.1 1 10 0.001 0.01 0.1 1 10 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 0.0 0.4 0.8 1.2 1.6 v fr di f /dt v 200 600 1000 0 400 800 0 10 20 30 40 100 1000 0 500 1000 1500 2000 012 0 10 20 30 40 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 a/ m s s VBE26-06NO7/vue35-06no7 z thjc i f = 30a i f = 15a i f = 7.5a t vj = 100 c v r = 300v t vj = 100 c i f = 15a 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 = 30a i f = 15a i f = 7.5a 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 = 30a i f = 15a i f = 7.5a t fr v fr fig. 7 transient thermal resistance junction to case t vj =150 c t vj =100 c t vj = 25 c note: fig. 2 to fig. 6 shows typical values constants for z thjc calculation: ir thi (k/w) t i (s) 1 0.5464 0.0052 2 0.2104 0.0003 3 0.0432 0.0004 4 0.8 0.0092
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