oauci, una. 20 stern ave. springfield, new jersey 07081 u.s.a. telephone: (973) 376-2922 (212) 227-6005 fax: (973) 376-8960 btw63 seres fast turn-off thyristors glass passivated, asymmetrical, fast turn-off, forward blocking thyristors (ascr) in to-48 envelopes, suitable for operation in fast power inverters. for reverse-blocking operation use with a series diode, for reverse-conducting operation use with an anti-parallel diode. quick reference data BTW63-600R repetitive peak off-state voltage average on-state current repetitive peak on-state current circuit-commutated turn-off time vdrm ma*- 600 800r 1000r 800 1000 't(av) itrm max. max. 25 250 a a suffix k suffix n suffix p tq < tq < 4 6 8 fis ms ik mechanical data fig.1 to-48 dimensions in mm 14.0 net mass: 14 g diameter of clearance hole: max. 6.5 mm accessories supplied on request supplied with device: 1 nut, 1 lock washer. torque on nut: min. 1.7 nm (17 kg cm) max. 3.5 nm (35 kg cm) nut dimensions across the flats: 11.1 mm nj semi-conductors reserves the right to change test conditions, parameter limits and package dimensions without notice. information furnished by nj semi-conductors is believed to be both accurate and reliable at the time of going to press. however, nj semi-conductors assumes no responsibility for any errors or omissions discovered in its use. nj semi-conductors encourages customers to verify that datasheets are current before placing orders. quality semi-conductors
btw63 series ratings limiting values in accordance with the absolute maximum system (iec134) anode to cathode transient off-state voltage repetitive peak off-state voltage continuous off-state voltage transient reverse voltage (tp < 5 /ra) average on-state current (averaged over any 20 ms period) up to tmb = 75 c vdsm vdrm vd ns period] 0.05 BTW63-600R max. 800 max. 600 max. 500 v vrsm 't(av) 't(av) 't(rms) 'trm 'tsm i2t 800r 1000 800 650 *v max. max. max. max. max. max. max. 1000r 1000 1000 700 15 25 22 40 250 370 700 v v v v a a a a a a's max. max. max. r.m.s. on-state current repetitive peak on-state current; tp = 50 jis; 8 = 0.05 non-repetitive peak on-state current tj = 125 c prior to surge; t? 10 ms; half sine-wave ljt for fusing; t = 10ms ? rate of rise of on-state current after triggering with ig - 1,25 a; ij = 80 a dlj/dt gate to cathode average power dissipation (averaged over any 20 ms period) pg (av) peak power dissipation; t = 10 us pgm temperatures storage temperature operating junction temperature thermal resistance from junction to mounting base rtn j.m^ from mounting base to heatsink with heatsink compound rth mo.n operating note the terminals should be neither bent nor twisted; they should be soldered into the circuit so that there is no strain on them. during soldering the heat conduction to the junction should be kept to a minimum. 1000 1 10 stg t, -40 to+125 max. 125 0.9 0.2 a/ms w w c c k/w k/w
btw63 series characteristics anode to cathode on-state voltage it = 50 a; tj = 25 c off-stats current holding current; tj = 25 c gate to cathode voltage that will trigger all devices vd=12v;tj = 25c current that will trigger all devices switching characteristics (see fig.5) circuit commutated turn-off time dvo/dt= 500 v//is (linear to vdrmmax); rgk = 10 n; vg = 0; tj = 125 c; when switched from l-r = 100 a;tp = 150 /is -d!t/dt=50a//is suffix k suffix im suffix p -dlt/dt= 10 a/fis suffix k suffix n suffix p vdl-r/dt id ih vgt 'gt reapplied vdm fig.2 circuit-commutated turn-off time definition. ?measured under pulse conditions to avoid excessive dissipation. 2.6 6.0 400 6 9 12 4 6 8 ma ma 2.0 v 250 ma ms
btw63 series m81-1282/3 /b p (w) 50 25 0 ig.3 art) = fo 2.8 4.0 i i / /, // m ff// i ijmf \af( \w^ / "\ i / / v ft f: t 1 1 ft f 1.57 1.9 ? 2.2 f t 'i ft ft t j / ' ft f / / 'j ^ / / '> / / / f / ' t f f t i f a =1.1 . f j i j / s ^ >x v s *?* s ^ "^ ^ /- ^ s 7 ^? ^ |s ?s, s^ ^ s v *s ^ ^ sy s, x. x ^ * ^ s^ ^ s s \fc skq ^ ?^ v s *, ?^ <* \ s, > ^ \ \^ ?s^ ?^ \ v s, ^ s ?^ ? 3 \ < ^ s s \ ^ s, s b k s s ?^ ^ k v w 1 s * !^ **, sa v s ^ s -^ \ ^ \ s v ^ \ ^ ^ c ?^ 1 ^ v ^ 5 ^ % v ^ v ' s v r \_ r '?-j d 20 40 0 50 100 12 t(av)'a> tamb(c) the right-hand part shows the interrelationship between the power (derived from the left-h and the maximum permissible temperatures. , 'tfrms) rm factor = 't(av) 57.5 tmb 80 10x5 125
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