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| SHINDENGEN Schottky Rectifiers (SBD) Dual D10SC9M 90V 10A FEATURES *oe Tj150*Z *oe PRRSM avalanche guaranteed *oe Fully Isolated Molding APPLICATION *oe Switching OUTLINE DIMENSIONS Case : ITO-220 Unit : mm power supply *oe DC/DC converter *oe Home Appliances, Office Equipment *oe Telecommunication RATINGS *oeAbsolute Maximum Ratings (If not specified Tc=25*Z) Item Symbol Conditions Ratings Unit Storage Temperature Tstg -40*150 *Z Operating Junction Temperature Tj 150 *Z Maximum Reverse Voltage VRM 90 V Repetitive Peak Surge ReverseVRRSM Voltage Pulse width 0.5ms, duty 1/40 100 V Average Rectified Forward Current 50Hz sine wave, R-load, Rating for each diode Io/2,10 IO Tc=111*Z A Peak Surge Forward Current IFSM50Hz sine wave, Non-repetitive 1 cycle peak value,100 Tj=125*Z A Repetitive Peak Surge ReversePRRSM Power Pulse width 10Es, Rating of per diode, Tj=25*Z 330 W Dielectric Strength Vdis Terminals to case, AC 1 minute 1.5 kV Mounting Torque TOR (Recommended torque*0.3Nm) F 0.5 Nm *oeElectrical Characteristics (If not specified Tc=25*Z) Item Symbol Conditions Ratings Unit Forward Voltage VF I =5A, Pulse measurement, Rating of per diode F Max.0.75 V IR V=V Pulse measurement, Rating of per diode Max.3 mA Reverse Current R RM, Junction Capacitance =10V, Rating of per diode Cj f=1MHz,R V Typ.185 pF AEjc junction to case Max.3.3 Thermal Resistance AEcf case to heatsink, Mounting torque=0.5Nm Max.1.5 *Z/W AEjf junction to heatsink Max.4.8 Copyright & Copy;2000 Shindengen Electric Mfg.Co.Ltd D10SC9M Forward Voltage 10 Forward Current IF [A] 1 Tc=150C [MAX] Tc=150C [TYP] Tc=25C [MAX] Tc=25C [TYP] Pulse measurement per diode 0.1 0 0.5 1 1.5 2 Forward Voltage VF [V] D10SC9M Junction Capacitance f=1MHz Tc=25C TYP per diode 1000 Junction Capacitance Cj [pF] 100 1 10 Reverse Voltage VR [V] D10SC9M 1000 Reverse Current Tc=150C [MAX] 100 Tc=150C [TYP] Tc=125C [TYP] Reverse Current IR [mA] 10 Tc=100C [TYP] 1 Tc=75C [TYP] 0.1 Pulse measurement per diode 0.01 0 20 40 60 80 100 Reverse Voltage VR [V] D10SC9M 40 35 Reverse Power Dissipation DC D=0.05 0.1 0.2 0.3 Reverse Power Dissipation PR [W] 30 25 20 15 10 5 0 0.5 SIN 0.8 0 20 40 60 80 100 120 Reverse Voltage VR [V] Tj = 150C 0 VR tp D=tp /T T D10SC9M 16 14 Forward Power Dissipation Forward Power Dissipation PF [W] 12 10 8 6 4 2 0 0.1 0.05 0.2 SIN 0.5 DC D=0.8 0.3 0 2 4 6 8 10 12 14 16 Average Rectified Forward Current IO [A] Tj = 150C IO 0 tp D=tp /T T D10SC9M 20 Derating Curve Average Rectified Forward Current IO [A] DC 15 D=0.8 10 0.5 SIN 0.3 0.2 5 0.1 0.05 0 0 20 40 60 80 100 120 140 160 Case Temperature Tc [C] VR = 45V 0 0 IO VR tp D=tp /T T D10SC9M 20 Derating Curve Average Rectified Forward Current IO [A] DC 15 D=0.8 0.5 10 SIN 0.3 0.2 5 0.1 0.05 0 0 20 40 60 80 100 120 140 160 Heatsink Temperature Tf [C] VR = 45V IO 0 0 VR tp D=tp /T T D10SC9M 200 Peak Surge Forward Capability IFSM 10ms 10ms 1 cycle Peak Surge Forward Current IFSM [A] 150 non-repetitive, sine wave, Tj=125C before surge current is applied 100 50 0 1 2 5 10 20 50 100 Number of Cycles [cycles] SBD 120 Repetitive Surge Reverse Power Derating Curve 100 PRRSM Derating [%] 80 60 40 20 0 0 50 100 150 Junction Temperature Tj [C] IRP IR 0.5IRP 0 tp PRRSM = IRP x VRP VR VRP SBD 10 Repetitive Surge Reverse Power Capability PRRSM p) / PRRSM p=10s) Ratio (t (t 1 0.1 1 10 100 Pulse Width t p [s] IRP IR 0.5IRP 0 tp PRRSM = IRP x VRP VR VRP |
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