5 8 Features 4 N8 7PMU 31 -XQFWLRQ *XDUG 5LQJ IRU 7UDQVLHQW DQG (6 3URWHFWLRQ 4DIPUULZ BSSJFS %JPEF 2 ,QIRUPDWLRQ Maximum Ratings & WR & WR & 5 P0D L PX P 0D L PX & H P0D L PX % L 0DUN JQ L H & ( HE3 9 9 + (OHFWULFDO &KDUDFWHULVWLFV & 8QOHVV 2WKHUZLVH 6SHFLHG - * , 9 ) ) 16 2 ( 160 , , , )60 1&+( 6 , 0 0 0 , ( 1 1 3 4 7 & G - % , ) & , ) 9 , ) ) ( , ) * , ) + - , 9 9 5 5 6XJJHVWHG 6ROGHU 3DG /D RXW 9 , %5 5 PP 7 SLFDO -XQFWLRQ 0HDVXUHG DW & 7 0+ 9 5 , ) W , P a P UU 5 5HFRYHU 7LPH 5 / 1RWH Rev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ig. 2 - Typical Reverse Leakage Characteristics 100 10 T =100C A 7 1 7 T =25C 0.1 A 0.01 10 20 30 40 5HYHUVH 9ROWDJH 9 PELHQW 7HPSHUDWXUH & Rev.3-2-12012020 0&&6(0, &20 3RZHU LVVLSDWLRQ P: ,QVWDQWDQHRXV )RUZDUG &XUUHQW P Instantaneous Reverse Leakage Current ( A) )LJ 3RZHU HUDWLQJ &XUYH ,QVWDQWDQHRXV )RUZDUG 9ROWDJH 9 & & &XUYH &KDUDFWHULVWLFV +(