on-state current 4 amp ft04...e/f logic level triac absolute maximum ratings, according to iec publication no. 134 gate trigger current < 5 ma to < 10 ma off-state voltage 200 v ?600 v jul - 02 repetitive peak off state voltage parameter conditions voltage unit symbol v drm v rrm r gk = 1 k w b 200 v d 400 m 600 to202-1 (e) mt1 mt2 g mt2 to202-3 (f) mt1 mt2 g mt2 rms on-state current non-repetitive on-state current non-repetitive on-state current fusing current peak gate current peak gate dissipation gate dissipation critical rate of rise of on-state current operating temperature storage temperature soldering temperature i t(rms) parameter conditions min. max. unit symbol i tsm i tsm i 2 t i gm p gm p g(av) t j t stg t sld all conduction angle, t c = 110 ? half cycle, 60 hz half cycle, 50 hz t p = 10 ms, half cycle 20 ? max. 20 ? max. 20 ms max. 1.6 mm from case, 10s max. 4 21 20 2.2 20 -40 -40 a a a a 2 s a w w a/? ? ? ? 1.2 2 0.2 +125 +150 260 di/dt tr 200 ns, f = 120 hz t j = 125 ? i g = 2 x i gt this series of triac s uses a high performance pnpn technology. these parts are intended for general purpose ac switching applications with highly inductive loads.
ft04...e/f logic level triac part number information jul - 02 fagor scr current case voltage sensitivity f t 04 09 b e 00 forming tu packaging electrical characteristics gate trigger current off-state leakage current threshold voltage dynamic resistance on-state voltage gate trigger voltage gate non trigger voltage holding current latching current critical rate of voltage rise parameter conditions sensitivity unit symbol i gt i drm v d = 12 v dc , r l = 30 w , t j = 25 ? ma ma 0.5 5 0.95 180 2 1.3 0.2 15 100 ma ? v m w v v v ma ma v/? v/? max max max max max max max max min max max max min min /i rrm v tm * v gt v gd i h * i l dv / dt* r th(j-a) thermal resistance junction-ambient v d = v drm , t j = 125 ? t j = 25 ? v r = v rrm , i t = 5.5 amp, tp = 380 ?, t j = 25 ? v d = 12 v dc , r l = 30 w , t j = 25 ? i t = 50 ma t j = 25 ? i g = 1.2 i gt , t j = 25 ? v d = 0.67 x v drm , gate open t j = 125 ? quadrant q1?3 q4 q1?4 q1?4 q1,q3,q4 q2 v d = v drm , r l = 3.3k w , t j = 125 ? ?/w ?/w (*) for either polarity of electrode mt2 voltage with reference to electrode mt1. r th(j-l) thermal resistance junction-leads for ac (dv/dt)c* (di/dt)c= 1.8 a/ms t j = 110 ? v to r d t j = 125 ? t j = 125 ? 05 5 5 09 10 10 10 15 25 100 2 7 10 15 20 1 critidal rise rate of commutating off-state voltage
ft04...e/f logic level triac jul - 02 fig. 1: maximum average power disipation versus rms on-state current (full cycle) 0 2 5 4 3 2 1 0 p (w) i t(rms) (a) 0.5 3 a 360 � fig. 2: rms on-state current versus ambient temperature (full cycle) i t(rms) (a) t amb (?) 5 4 3 2 1 0 0 25 50 75 100 125 1 1.5 2.5 3.5 fig. 3: relative variation of thermal impedance junction to ambient versus pulse duration. i gt , i h, il (tj) / i gt , i h, il (tj = 25 ?) fig. 4: relative variation of gate trigger current, holding and latching current versus junction temperature. tj (?) 2.5 2.0 1.5 1.0 0.5 0.0 -40 -20 20 60 80 100 0 40 120 140 ih & il igt i tsm (a). i 2 t (a 2 s) fig. 6: non repetitive surge peak on-state current for a sinusoidal pulse with width: tp 10 ms, and corresponding value of i 2 t. 100 10 1 1 10 tj initial = 25 ? tp(ms) i tsm i 2 t 1 10 100 1000 fig. 5: non repetitive surge peak on-state current versus number of cycles. 35 30 25 20 15 10 5 0 i tsm (a) number of cycles tj initial = 25 �c f= 50hz rth(j-a)=100 ?/w 1.00 0.10 0.01 zth(j-a) / rth(j-a) 1e-3 1e-2 1e-1 1e+0 1e+1 1e+2 5e+2 tp (s) rth(j-a)=rth(j-l)
ft04...e/f jul - 02 logic level triac fig. 7: on-state characteristics (maximum values) 20.0 1.0 0.1 i tm (a) 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 tj initial 25 �c v tm (v) tj max vto = 0.95 v rd = 180 mw (.287) 7,3 c d 10,5 (.413) n1 2,54 (.100) p 5,3 n (.209) max. o max. max. 1,4 (.055) (.028) 0,7 to 202-3 a max. 10,1 (.398) 1,5 (.059) max. f m 4,5 (.177) h (.020) 0,51 j 1,5 (.059) 3,16 3,20 (.124) (.126) k (.126) 3,2 a max. 10,1 (.398) g j h 1,5 (.059) (.020) 0,51 m 13,7 (.540) (.287) 7,3 c d 10,5 (.413) n1 2,54 (.100) p 5,3 n (.209) max. o i max. max. 1,4 (.055) (.028) 0,7 4,5 (.177) to 202-1 1,5 (.059) max. f package mechanical data to 202-1 to 202-3 10.0 tj max
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