THRU PS Features 6LQJOH 3KDVH 3DVVLYDWHG &KLS %ULGJH 5HFWLILHU 3ODVWLF &DVH :LWK 0HWDO %RWWRP WR 9ROWV Maximum Ratings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ig. 2 - Maximum Non-Repetitive Peak Forward Surge Current 500 450 400 350 300 250 200 150 100 8.3 ms Single Half Sine-Wave 6LQJOH 3KDVH +DOI :DYH 50 + 5HVLVWLYH RU ,QGXFWLYH /RDG 0 111000 1XPEHU RI & FOHV DW + Fig. - Typical Instantaneous Forward Characteristics Fig. - Typical Reverse Leakage Characteristics 50 1000 20 100 10 T =125C J 5 10 2 T =75C J 1 1 0.5 T =25C J 0.1 0.2 T =25C J 0.1 0.01 0.6 0.7 0.8 0.9 1.0 1.1 1.2 20 40 60 80 100 120 3HUFHQW RI 5DWHG 3HDN 5HYHUVH 9ROWDJH 3-11282020 0&&6(0, &20 Instantaneous Forward Current (A) YHUDJH )RUZDUG &XUUHQW Peak Forward Surge Current (A) Instantaneous Reverse LeakageCurrent (A) 5HY ,QVWDQWDQHRXV )RUZDUG 9ROWDJH 9 &DVH 7HPSHUDWXUH & )LJ )RUZDUG &XUUHQW HUDWLQJ &XUYH &XUYH &KDUDFWHULVWLFV &XUYH &KDUDFWHULVWLFV 03 : 7+58 03 :