AA MOSPEC $60D30 Thru S60D60 Schottky Barrier Rectifiers SCHOTTKY BARRIER RECTIFIERS Using the Schottky Barrier principle with a Molybdenum barrier metal. These state-of-the-art geometry features epitaxial 60 AMPERES construction with oxide passivation and metal overlay contact. 30 -- 60 VOLTS Ideally suited for low voltage, high frequency rectification, or as free wheeling and polarity protection diodes. * Low Forward Voltag. *Low Switching noise. * High Current Capacity * Guarantee Reverse Avalance. * Guard-Ring for Stress Protection. *Low Power Loss & High efficiency. * 125 C Operating Junction Temperature *Low Stored Charge Majority Carrier Cnduction. * Plastic Material used Carries Underwriters Laboratory Flammability Classification 94V-O TO-247 (3P) MAXIMUM RATINGS = as estieas Characteristic Symbol S60D Unit 7 | 30 | 35 | 40 | 45 | 50 | 60 p =i | Peak Repetitive Reverse Voltage Verm | 1 | Working Peak Reverse Voltage RWM 30 | 35 | 40 45 | 50 | 60 Vv ol len DC Blocking Voltage Ve | RMS Reverse Voltage Vamemsy | 21 | 24 | 28 | 31 [35 | 42 Vv re Average Rectifier Forward Current lew 30 A Total Device 60 MILLMETERS Peak Repetitive Forward Current lerm A DIM ( Rate V,,Square Wave,20kHz } 60 MIN| MAX Non-Repetitive Peak Surge Current lesm A A -- | 16.2 ( Surge applied at rate load condi- 500 B 1.7 2.7 tions halfware,single phase,60Hz ) 6 5.0 oy Operating and Storage Junction T, , T tg C E 14.8 | 15.2 Temperature Range - 65 to + 125 F 1.7 | 12.7 G -- 45 H - 2.5 I -- 3.5 J 1.1 1.4 ELECTRICAL CHARACTERISTICS i one 9-65 Characteristic Symbol S60D Unit M 4.7 5.3 30 | 35 | 40 | 45 | 50 | 60 NS lose loss { 0 0.45 | 0.85 Maximum Instantaneous Forward V; Vv Voltage 1 Common Cathod - on 0 20 Suffix" C" (l,= 30 Amp, T, = 25 C) 0.65 0.75 3 (1,= 30 Amp, T, = 100 C) 0.56 0.68 4 > _ Common Anode Maximum Instantaneous Reverse lr mA tog f=? Suffix" A" Current 1 2. Doubl ( Rated DC Voltage, T, = 25 C) 10 te oe ep ( Rated DC Voltage, T, = 100 C) 200 $60D30 thru S60D45 FIG-1 FORWARD CURRENT DERATING CURVE FIG-2 TYPICAL FORWARD CHARACTERISTICS 60 100 50 \ 40 \ \ . \ = Qo = \ 10 INSTANTANEOUS FORWARD CURRENT (Amp.} = _ 0.2 0.4 0.6 0.8 1.0 12 o 0 25 50 fi) 100 125 150 AVERAGE FORWARD RECTIFIED CURRENT (Amp.) CASE TEMPERATURE (C} FORWARD VOLTAGE (Volts.} FIG-3 TYPICAL REVERSE CHARACTERISTICS FIG-4 TYPICAL JUNCTION CAPACITANCE 4000 = = 5 red ur 1000 x oO : = a 2 500 a wi < i oO oc =z a So 4 me oO oO ur = = 3 =z 100 2 0 20 40 60 80 100 120 140 1 5 10 40 PERCENT OF PEAK REVERSE VOLTAGE(%) REVERSE VOLTAGE (Volts..) FIG-5 PEAK FORWARD SURGE CURRENT 600 500 5 400 Ph fe ee & a S 300 oO PL m Tene | B 2 200 z= 9 100 MS <= an) { 40 400 NUMBER OF CYCLES AT 60 Hz S60D50 , S60D60 AVERAGE FORWARD RECTIFIED CURRENT (Amp.) INSTANTANEOUS REVERSE CURRENT (mA) PEAK FORWARD SURGE CURRENT (Amp.) FIG-1 FORWARD CURRENT DERATING CURVE 60 \ 50 \ 40 30 \ 20 \ 25 50 75 100 126 CASE TEMPERATURE (C} FIG-3 TYPICAL REVERSE CHARACTERISTICS 150 600 500 400 300 200 100 20 40 60 80 400 120 PERCENT OF PEAK REVERSE VOLTAGE(%} FiG-5 PEAK FORWARD SURGE CURRENT 140 10 NUMBER OF CYCLES AT 60 Hz 100 INSTANTANEQUS FORWARD CURRENT (Amp.) JUNCTION CAPACITANCE (pF) FIG-2 TYPICAL FORWARD CHARACTERISTICS 100 = Qo o nm 0.2 04 0.6 0.8 1.0 1.2 1.4 ao FORWARD VOLTAGE (Volts.) FIG-4 TYPICAL JUNCTION CAPACITANCE 4000 1000 500 100 1 5 10 60 REVERSE VOLTAGE (Volts.)