a_i TAG SEMICONDUCTORS LTD b3 DE aaay7s0 oooo7s3 2 8834750 TAG SEMICONDUCTORS LTD e3C 0073 UF ASIS TAG SEMICONDUCTORS LTD S1610BH - S1610NH SCRS 16A 200-3800V 10-25mA The $1610 series silicon controlled rectifiers are high performance glass passivated PNPN devices. These parts are intended for general purpose high current applications where moderate gate insensitivity is required. Absolute Maximum Ratings Ta = 25 C unless otherwise noted Parameter Part Nr. Symbol Min. Max. Unit Test Conditions Repetitive Peak $1610BH 200 Vv Off State Voltage 1610DH_[ Vpram 400 V [Tj=-40C to 125C S1610MH yore] 600 Vv lon KQ | S1610NH 800 Vv On-State Current It(RMS) 16 A All Conduction Angles Tc = 85 C - Average On-State Current Hav) 10 A Half Cycie, O = 180 Tc = 85C : Nonrept. On-State Current ITsM 175 A Half Cycle, 60 Hz Nonrept. On-State Current Itsm 160 A Half Cycle, 50 Hz . Fusing Current [t 128 As t=10 ms, Half Cycle Peak Gate Current lom 4 A 10ps max. Peak Gate Dissipation Poem 10 WwW 10y1s max. Gate Dissipation Pe(av) 1 WwW 20 ms max. Operating Temperature Tj 40 125 Storage Temperature Tstg 40 125 % Soldering Temperature Tsid 250 C 1.6 mm from case, 10s max. Electrical Characteristics Ta= 25C unless otherwise noted Parameter Symbol Min. Max. Unit Test Conditions Off-State Leakage Current lprm/lRaM 2.0 mA @VprM + Varo, Rex =1KQ, Tj = 125 C Off-State Leakage Current lpRw/IRRM 10 pA @Vpro + Varo. Rok = 1KQ, Tj= 25 C On-State Voltage VT 174 V at lp =32A, Tj=25C On-State Threshold Voltage VtcTo) 0.9 Vv Tj=125C : On-State Slope Resistance IT 30 mQ Tj=125C Gate Trigger Current let 10 25 mA Vp=7V - Gate Trigger Voltage VGT 20 #V Vp=7V : Holding Current In 38 mA Rex=tKQ Latching Current I 75. mA Rox=1KQ Critical Rate of Voltage Rise dv/dt 400 V/ps Vp=.67xVprm Rex =1KQ Tj= 125 C Critical Rate of Current Rise di/dt 100 A/ps Ilq=125 mA dig/dt= 1.25 A/ps Tj = 125 C Gate Controlled Delay Time tga 500 ns Ig =125 mA dig/dt=1.25 A/us | Commutated Turn-Off Time tg 50 sus To = 85 C Vp =.67xVprRmM Vr=35 V Ir=I7(AV) Thermal Resistance junc. to case Rojc 2.2 K/W Thermal Resistance junc. to amb. Roja 60 K/W 95