tic226 series silicon triacs ������� �
������� 1 april 1971 - revised september 2002 specifications are subject to change without notice. 8 a rms glass passivated wafer 400 v to 800 v off-state voltage max i gt of 50 ma (quadrants 1 - 3) absolute maximum ratings over operating case temperature (unless otherwise noted) notes: 1. these values apply bidirectionally for any value of resistance between the gate and main terminal 1. 2. this value applies for 50-hz full-sine-wave operation with resistive load. above 85c derate linearly to 110c case temperatu re at the rate of 320 ma/c. 3. this value applies for one 50-hz full-sine-wave when the device is operating at (or below) the rated value of on-state current. surge may be repeated after the device has returned to origi nal thermal equilibrium. during the surge, gate control may be lost. 4. this value applies for a maxi mum averaging time of 20 ms. rating symbol value unit repetitive peak off-state voltage (see note 1) TIC226D tic226m tic226s tic226n v drm 400 600 700 800 v full-cycle rms on-state current at (or below) 85c case temperature (see note 2) i t(rms) 8 a peak on-state surge current full-sine-wave at (or below) 25c case temperature (see note 3) i tsm 70 a peak gate current i gm 1 a peak gate power dissipation at (or below) 85c case temperature (pulse width 200 s) p gm 2.2 w average gate power dissipat ion at (or below) 85c case temperat ure (see note 4) p g(av) 0.9 w operating case temperature range t c -40 to +110 c storage temperature range t stg -40 to +125 c lead temperature 1.6 mm from case for 10 seconds t l 230 c electrical characteristics at 25c case tem perature (un less otherwise noted ) parameter test conditions min typ max unit i drm repetitive peak off-state current v d = rated v drm i g = 0 t c = 110c 2 ma i gt gate trigger current v supply = +12 v? v supply = +12 v? v supply = -12 v? v supply = -12 v? r l = 10 ? r l = 10 ? r l = 10 ? r l = 10 ? t p(g) > 20 s t p(g) > 20 s t p(g) > 20 s t p(g) > 20 s 6 -12 -10 25 50 -50 -50 ma v gt gate trigger voltage v supply = +12 v? v supply = +12 v? v supply = -12 v? v supply = -12 v? r l = 10 ? r l = 10 ? r l = 10 ? r l = 10 ? t p(g) > 20 s t p(g) > 20 s t p(g) > 20 s t p(g) > 20 s 0.7 -0.8 -0.8 0.9 2 -2 -2 2 v v t on-state voltage i t = 12 a i g = 50 ma (see note 5) 1.5 2.1 v ? all voltages are with respect to main terminal 1. mt1 mt2 g to-220 package (top view) pin 2 is in electrical contact with the mounting base. mdc2aca 1 2 3
tic226 series silicon triacs 2 ������� �
������� april 1971 - revised september 2002 specifications are subject to change without notice. ? all voltages are with respect to main terminal 1. notes: 5. this parameter must be measured using pulse techniques, t p = 1 ms, duty cycle 2 %. voltage-sensing contacts separate from the current carrying contacts are located within 3.2 mm from the device body. 6. the triacs are triggered by a 15-v (open-circuit amplitude) pulse supplied by a generator with the following characteristics: r g = 100 ? , t p(g) = 20 s, t r = 15 ns, f = 1 khz. i h holding current v supply = +12 v? v supply = -12 v? i g = 0 i g = 0 init? i tm = 100 ma init? i tm = -100 ma 10 -6 30 -30 ma i l latching current v supply = +12 v? v supply = -12 v? (see note 6) 50 -50 ma dv/dt critical rate of rise of off-state voltage v drm = rated v drm i g = 0 t c = 110c 100 v/s dv/dt (c) critical rise of commu- tation voltage v drm = rated v drm i trm = 12 a t c = 85c (see figure 7) 5 v/s thermal characteristics parameter min typ max unit r jc junction to case thermal resistance 1.8 c/w r ja junction to free air thermal resist ance 62.5 c/w typical characteristics figure 1. figure 2. electrical characteristics at 25c case temperature (unless otherwise noted) (continued) parameter test conditions min typ max unit gate trigger current t c - case temperature - c -60 -40 -20 0 20 40 60 80 100 120 i gt - gate trigger current - ma 1 10 100 1000 tc01aa case temperature vs v aa = 12 v r l = 10 ? t p(g) = 20 s v supply i gtm + + + - - - - + gate trigger voltage t c - case temperature - c -60 -40 -20 0 20 40 60 80 100 120 v gt - gate trigger voltage - v 01 1 10 tc01ab case temperature vs v aa = 12 v r l = 10 ? t p(g) = 20 s v supply i gtm + + + - - - - + }
tic226 series silicon triacs 3 ������� �
������� april 1971 - revised september 2002 specifications are subject to change without notice. typical characteristics figure 3. figure 4. thermal information figure 5. figure 6. holding current t c - case temperature - c -60 -40 -20 0 20 40 60 80 100 120 i h - holding current - ma 01 1 10 100 1000 tc01ad case temperature vs v supply + - v aa = 12 v i g = 0 initiating i tm = 100 ma latching current t c - case temperature - c -60 -40 -20 0 20 40 60 80 100 120 i l - latching current - ma 1 10 100 1000 tc01ae case temperature vs v aa = 12 v v supply i gtm + + + - - - - + max rms on-state current t c - case temperature - c 0 255075100125 i t(rms) - maximum on-state current - a 0 1 2 3 4 5 6 7 8 9 10 ti01ab case temperature vs max average power dissipated i t(rms) - rms on-state current - a 0246810121416 p (av) - maximum average power dissipated - w 0 4 8 12 16 20 24 28 32 ti01ac rms on-state current vs conduction angle = 360 above 8 a rms t j = 110 c see i tsm figure
tic226 series silicon triacs 4 ������� �
������� april 1971 - revised september 2002 specifications are subject to change without notice. parameter measurement information figure 7. v ac v mt2 i mt2 dut see note a r g c1 r1 i g v ac i mt2 v mt2 i g i trm dv/dt 10% 63% l1 v drm 50 hz pmc2aa note a: the gate-current pulse is furnished by a trigger circuit which presents essentially an open circuit between pulses. the pulse is timed so that the off-state-voltage duration is approximately 800 s.
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