63 peMaas4750 Oooo7049 oO j Sr ye Pee ee PT ee 8834750 TAG SEMICONDUCTORS LTD TAG SEMICONDUCTORS LTD X0402BE- - X0402NE SCRS 4.0A 200-800V <200LA The X0402 series silicon controlled rectifiers are high performance PNPN devices diffused with TAGs proprie- tary Top Glass Process. These parts are intended for general purpose appli- cations where gate sensitivity is required. Absolute Maximum Ratings Ta=25C unless otherwise noted Parameter Part Nr. Symbol Min. Max, Unit Test Conditions Repetitive Peak X0402BE 200 Vv Off State Voltage Q402DE [ Vpram 400 Vv Tj=40C to 125C X0402ME Re 600 Vv | Rown Ka | X0402NE 800 Vv : On-State Current IT(RMS} 4.0 A Ail Conduction Angles Tc = 85 C Average On-State Current trav) 2.5 A Half Cycle, O= 180 Tc = 85C Nonrept. On-State Current Itsm 33 A Half Cycle, 60 Hz Nonrept. On-State Current ITsM 30 A Half Cycle, 50 Hz Fusing Current [2t 4.5 A?s t=10ms, Half Cycle Peak Reverse Gate Voltage VGRM 8 Vv Igag=10pA Peak Gate Current Iem 1.2 A 10ys max. Peak Gate Dissipation P6m 3 Ww 10ys max. Gate Dissipation PG(AV) 0.2 WwW 20 ms max. Operating Temperature Tj 40 125 C | Storage Temperature Tstg -40 150 C 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 lornm/iRRM 0.2 mA @Vprm + Varo. Rok = 1KQ, T= 125 C Off-State Leakage Current lporw/iRRM 5 pA @Vprm + Varm. Rok = 1KQ, Ti= 25C On-State Voltage VT 2.17 =#V at F=8A, TJ=25C On-State Threshold Voltage VT(TO) 105 V Tj=125C On-State Slope Resistance IT 150 mQ- Tj=125C Gate Trigger Current let 200 yA Vp=7V Gate Trigger Voltage Vet 0.8 Vv Vp=7V Holding Current ly 5 mA Rex=1KQ Latching Current I 6 mA Rex =1KQ Critical Rate of Voltage Rise dv/dt 30 V/uys Vp=.67xVprm Rek= 1KQ Tj=125C Critical Rate of Current Rise di/dt 50 A/us Ig=10 mA dig/dt=0.1A/ys Tj = 125C Gate Controlled Delay Time tgd 2 ps Ig =10 mA dig/dt = 0.1A/ps Commutated Turn-Off Time tq 50 ys Tc = 85C Vp =.67xVpru . Va=35 V lr=h(AV) Thermal Resistance junc. to case Rojc 75 K/W Thermal Resistance junc. to amb. Roja 75 K/W ~ 51 63 90709. | DT~RSE-IB