7294621 POWEREX INC 74 DE 5 7e94bel DOOLIIe 4 i TT 25-1F 5.2 Condensed Electrical and Thermal Characteris.:3s and Ratings PHASE CONTROL SCRs 8 f 63 TO 110 AMPERES 108 108.1 GE TYPE C147 C45/C46 , C60/C62 , C50/C52 C150/C152 JEDEC _ 2N2023-30 | 2N1909-16 2N1792-98 SPECIFICATIONS Voltage Range 25-1400 | 25-1200 | 25-500 | 25-1200 | 500-1400 | Forward Conduction Ipms) Max. RMS on-state current (A) 63 80 110 110 110 I Max. average on-state current 40 52 70 70 70 T(AY) @ 180C conduction (A) @ Te @ 102 @ 75C @ 88C @ 62 @ 80 I Max. average on-state current for 3 9 36 42 59 62 59 T(AY) conduction (A) @ Tc @ 101C | @35C | @90C @ 65C @ 87C I Max. peak one-cycle, non- 50 Hz. 910 750 910 910 1400 TSM repetitive surge current (A) 60 Hz. 1000 800 1000 1000 1500 rt Max. It for fusing 1.5 msec (A?sec) 2850 1800 2850 2850 7000 n- voltage @ 25 Vim ve ction sate rae ap 07180" 14 2.1 2.0 1.8 2.0 Roic function torcase (CCIW, de, 35 4 4 4 3 tg Typical turn-off time (usec) @ Max. T, 125 80 80 80 100 di/dt Rate-of-rise of turned-on current (A/ys) 100 100 30 100 200 T; Operating junction temperature range (C) 40 to 125 | 40 to 125 | 65 to 150 | 40 to 125 | 40 to 125 Qrr Max. reverse recovered charge (uc), Ty =25C _ _ _ _ Max. critical rate-of-rise of dV/dt off-state voltage, exponential @ max. 200 100 30 (TYP) 200 200 rated T; (V/s) Max. required gate current to trigger (mA) @ -65C _ 125 _ _ Ior @ -40C 300 130 _ 130 200 @ 25C 150 75 , 75 125 Vv Max. required gate voltage Ty = 40C 3.5 3 3 3 3 GT to trigger (V) Ty = 25C 3.0 _ _ _ Max. forward Ty (A) 50 8 20 10 4 Vp voltage drop Tvax(A) 1000 1000 2000 800 4000 for the current A 1.2 1.31 399 695 805 range: B 135 024 .246 244 026 Cc .003 .002 .003 .004 .0001 D .057 .046 ~ .046 .079 .08 Transient thermal Tman(S) 01 01 01 _ 01 Roic resistance for Tmax(S) 001 .001 .001 _ .001 time: F 81 6.14 23.15 1.25 G TT 929 1.02 _ .699 Package Outline No. 108.1 108,109 | 109, 108 109, 108 | 109, 108 Maximum Stud Torque (In-Lbs/N-M) 30/3.39 150/17 .}| 150/17 150/17 150/17 Expanded Electrical Characterization, see page: N.A. N.A. N.A. N.A. N.A. 1. Voltage Drop Model: Vp=A +B: Ly() + C-1+DVI. 2. Transient Resistance Model: Rayo = F :t9 125