1.5 Amp GLASS PASSIVATED SINGLE PHASE SILICON BRIDGE W005G . . . 10G Series Data Sheet Mechanical Dimensions Description Mechanical Data: Mounting Position - Any. Weight - 1.1 Grams. Features n COMPACT SIZE n 200 AMP SURGE OVERLOAD RATING n LOW LEAKAGE CURRENT n MEETS UL SPECIFICATION 94V-0 Electrical Characteristics @ 25oC. W005G . . . 10G Series Units Maximum Ratings W005G W01G W02G W04G W06G W08G W10G Peak Repetitive Reverse Voltage...VRRM 50 100 200 400 600 800 1000 Volts RMS Reverse Voltage...VR(rms) 35 70 140 280 420 560 700 Volts DC Blocking Voltage...VDC 50 100 200 400 600 800 1000 Volts Average Forward Rectified Current...IF(av) TA = 25C ............................................. 1.5 ............................................... Amps Non-Repetitive Peak Forward Surge Current...IFSM 8.3 mS Single 1/2 Sine Wave Imposed on Rated Load ............................................. 50 ............................................... Amps Forward Voltage...VF Bridge Element @ 1.0 Amp ............................................. 1.0 ............................................... Volts DC Reverse Current...IR @ Rated DC Blocking Voltage TA = 25C TA =100C Operating & Storage Temperature Range...TJ, TSTRG Page 3-9 ............................................. 10 ............................................... Amps ............................................. 1.0 ............................................... mAmps ......................................... -55 to 125 .......................................... C Amps Typical Reverse Characteristics Percent of Rated Peak Voltage Instantaneous Typical Forward Characteristics Instantaneous Typical Forward Characteristics Per Element TJ = 25C TJ = 25C Electrical Description Forward Current Derating Curve Amps 1.5 Ratings at 25 Deg. C ambient temperature unless otherwise specified. AC In 1 .5 DC Out 20 60 140 100 Ambient Temperature ( C) W005G . . . 10G Series 1.5 Amp GLASS PASSIVATED SINGLE PHASE SILICON BRIDGE Data Sheet Single Phase Half Wave, 60 HZ Resistive or Inductive Load. For Capacitive Load, Derate Current by 20%. Page 3-10