? 2000 ixys all rights reserved 1 - 3 i rms = 90 a v rrm = 1200-1600 v ac controller modules minibloc, sot-227 b k2/a1 g1 k1/a2 g2 v rsm v rrm type v dsm v drm vv 1200 1200 mmo 90-12io6 1600 1600 mmo 90-16io6 features thyristor controller for ac (circuit w1c acc. to iec) for mains frequency international standard package minibloc (isotop compatible) isolation voltage 2500 v~ planar passivated chips ul registered, e 72873 applications switching and control of single and three phase ac softstart ac motor controller solid state switches light and temperature control advantages easy to mount with two screws space and weight savings improved temperature and power cycling high power density mmo 90 symbol test conditions maximum ratings i rms t c = 110 c, 50 - 400 hz, module 90 a i trms t vj = t vjm 65 a i tavm t c = 110 c; (180 sine) 41 a i tsm t vj = 45 c; t = 10 ms (50 hz), sine 800 a v r = 0 t = 8.3 ms (60 hz), sine 860 a t vj = t vjm t = 10 ms (50 hz), sine 700 a v r = 0 t = 8.3 ms (60 hz), sine 750 a i 2 t t vj = 45 c t = 10 ms (50 hz), sine 3200 a 2 s v r = 0 t = 8.3 ms (60 hz), sine 3110 a 2 s t vj = t vjm t = 10 ms (50 hz), sine 2450 a 2 s v r = 0 t = 8.3 ms (60 hz), sine 2360 a 2 s (di/dt) cr t vj = t vjm repetitive, i t = 150 a 100 a/s f =50 hz, t p =200 s v d = 2 / 3 v drm i g = 0.3 a non repetitive, i t = i tavm 500 a/s di g /dt = 0.3 a/s (dv/dt) cr t vj = t vjm ;v dr = 2 / 3 v drm 1000 v/s r gk = ; method 1 (linear voltage rise) p gm t vj = t vjm t p = 30 s 10 w i t = i tavm t p = 300 s 5 w p gavm 0.5 w v rgm 10 v t vj -40...+150 c t vjm 150 c t stg -40...+150 c v isol 50/60 hz, rms; i isol 1 ma 2500 v~ m d mounting torque (m4) 1.1 - 1.5 / 9 - 13 nm/lb.in. terminal connection torque (m4) 1.1 - 1.5 / 9 - 13 nm/lb.in. weight typ. 30 g data according to iec 60747 and to a single thyristor/diode unless otherwise stated. ixys reserves the right to change limits, test conditions and dimensions. k2/a1 g2 g1 k1/a2 029
? 2000 ixys all rights reserved 2 - 3 symbol test conditions characteristic values i d t vj = t vjm ; v r = v rrm ; v d = v drm 20 ma v t i t = 80; t vj = 25 c 1.43 v v t0 for power-loss calculations only 0.9 v r t 5.8 m v gt v d = 6 v; t vj = 25 c 1.5 v t vj = -40 c 1.6 v i gt v d = 6 v; t vj = 25 c 100 ma t vj = -40 c 200 ma v gd t vj = t vjm ;v d = 2 / 3 v drm 0.2 v i gd 5ma i l t vj = 25 c; t p = 10 s 250 ma i g = 0.3 a; di g /dt = 0.3 a/s i h t vj = 25 c; v d = 6 v; r gk = 100 ma t gd t vj = 25 c; v d = ? v drm 2s i g = 0.3 a; di g /dt = 0.3 a/s t q t vj = t vjm ; i t = 20 a, t p = 200 s; di/dt = -10 a/s typ. 150 s v r = 100 v; dv/dt = 15 v/s; v d = 2 / 3 v drm r thjc per thyristor; dc current 0.6 k/w per module 0.3 k/w r thch per thyristor; dc current 0.1 k/w per module 0.05 k/w d s creeping distance on surface 8 mm d a creepage distance in air 4 mm a max. allowable acceleration 50 m/s 2 mmo 90 m4 screws (4x) supplied dim. millimeter inches min. max. min. max. a 31.50 31.88 1.240 1.255 b 7.80 8.20 0.307 0.323 c 4.09 4.29 0.161 0.169 d 4.09 4.29 0.161 0.169 e 4.09 4.29 0.161 0.169 f 14.91 15.11 0.587 0.595 g 30.12 30.30 1.186 1.193 h 37.80 38.20 1.489 1.505 j 11.68 12.22 0.460 0.481 k 8.92 9.60 0.351 0.378 l 0.76 0.84 0.030 0.033 m 12.60 12.85 0.496 0.506 n 25.15 25.42 0.990 1.001 o 1.98 2.13 0.078 0.084 p 4.95 5.97 0.195 0.235 q 26.54 26.90 1.045 1.059 r 3.94 4.42 0.155 0.174 s 4.72 4.85 0.186 0.191 t 24.59 25.07 0.968 0.987 u -0.05 0.1 -0.002 0.004 v 3.30 4.57 0.130 0.180 w 0.780 0.830 19.81 21.08 minibloc, sot-227 b 1 10 100 1000 0.1 1 10 i g v g ma 1: i gt , t vj = 125 c 2: i gt , t vj = 25 c 3: i gt , t vj = -40 c v 4: p gav = 0.5 w 5: p gm = 5 w 6: p gm = 10 w i gd , t vj = 125 c 3 4 2 1 5 6 10 100 1000 1 10 100 1000 s t gd i g ma t vj = 25 c typ. limit fig. 2 gate trigger delay time fig. 1 gate trigger characteristics
? 2000 ixys all rights reserved 3 - 3 mmo 90 0 25 50 75 100 125 150 0 20 40 60 80 100 0 25 50 75 100 125 150 110 100 1000 10000 0.001 0.01 0.1 1 0 100 200 300 400 500 600 s i 2 t a 2 s i tavm c a 0.001 0.01 0.1 1 10 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 ms t a i tsm k/w v r = 0v 80 % v rrm 50 hz z thjc s t t c t 0.0 0.5 1.0 1.5 2.0 0 20 40 60 80 100 120 140 v a i t t vj = 25 c t vj =125 c v t 0.01 0.1 1 10 0 25 50 75 100 125 150 175 200 s i rms t t vj = 150 c t c = 85 c 0204060 0 20 40 60 80 100 120 t a c a i rms p tot a t vj =150 c t vj =45 c t vj =150 c t vj =45 c r thka k/w mmo90 w 180 sin 120 60 30 dc 0.5 1 1.5 2 3 5 10 fig. 5 surge overload current fig. 6 load current capability for single ac controller; 1 x mmo 90 fig. 7 i 2 t versus time (per thyristor) fig. 8 transient thermal impedance junction to case (per thyristor) fig. 9 maximum forward current at case temperature constants for z thjc calculation: r thi / (k/w) t i / (s) 0.039 0.0006 0.15 0.017 0.225 0.104 0.156 0.45 fig. 4 rated rms current versus time (360 conduction) fig. 3 forward current versus voltage drop per leg
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