No. | Partie # | Fabricant | Description | Fiche Technique |
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Fairchild Semiconductor |
Dual High Voltage Schotty Rectifier • Low Forward Voltage Drop • Low Power Loss and High Efficiency • High Surge Capability • RoHS Compliant • Matte Tin (Sn) Lead Finish • Terminal Leads Surface is Corrosion Resistant and and able to Withstand to 260°C • Wave Soldering or per MIL-STD-7 |
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Fairchild Semiconductor |
30 Ampere Schottky Barrier Rectifiers • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction • High Current Capacity, Low Forward Voltage Drop • Guard Ring for Over-Voltage Protection (OVP) Applications • Low-Voltage • High-Frequency |
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Fairchild Semiconductor |
SCHOTTKY POWER RECTIFIER • Compact surface mount package with J-bend leads (SMB). • 1.5 Watt Power Dissipation package. • 1.0 Ampere, forward voltage less than 600 mv Ordering: • 13 inch reel (330 mm); 12 mm Tape; 3,000 units per reel. Absolute Maximum Ratings* Parameter S |
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Fairchild Semiconductor |
16 Ampere Schottky Barrier Rectifiers • • • • • • Low power loss, high efficiency. High surge capacity. For use in low voltage, high frequency inverters, free wheeling, and polarity protection applications. Metal silicon junction, majority carrier conduction. High current capacity, low f |
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Fairchild Semiconductor |
30 Ampere Schottky Barrier Rectifiers • • • • • • Low power loss, high efficiency. High surge capacity. For use in low voltage, high frequency inverters, free wheeling, and polarity protection applications. Metal silicon junction, majority carrier conduction. High current capacity, low f |
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Fairchild Semiconductor |
Schottky Rectifiers • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction • High Current Capacity, Low Forward-Voltage Drop • Guard Ring for Over-Voltage Protection (OVP) Applications • Low-Voltage, High-Frequency |
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Fairchild Semiconductor |
SCHOTTKY BARRIER RECTIFIER • Low forward voltage drop • High frequency properties and switching speed • Guard ring for over-voltage protection Applications • Switched mode power supply • Freewheeling diodes 1 2 3 TO-3P 1. Anode 2.Cathode 3. Anode SCHOTTKY BARRIER RECTIFIER |
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Fairchild Semiconductor |
1.0 Ampere Schottky Power Rectifiers • • • Compact surface mount package with J-bend leads. 1.5 Watt Power Dissipation package. 1.0 Ampere, forward voltage less than 395 mv. 0.220 (5.588) 0.200 (5.080) 0.083 (2.108) 0.075 (1.905 ) 0.185 (4.699) 0.160 (4.064) 2 1 0.155 (3.937) 0.130 ( |
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Fairchild Semiconductor |
1.0 Ampere Schottky Power Rectifiers • • • Compact surface mount package with J-bend leads. 1.5 Watt Power Dissipation package. 1.0 Ampere, forward voltage less than 395 mv. 0.220 (5.588) 0.200 (5.080) 0.083 (2.108) 0.075 (1.905 ) 0.185 (4.699) 0.160 (4.064) 2 1 0.155 (3.937) 0.130 ( |
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Fairchild Semiconductor |
40 Ampere Schottky Barrier Rectifiers • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction • High Current Capacity, Low Forward Voltage Drop • Guard Ring for Over-Voltage Protection (OVP) Applications • Low-Voltage • High-Frequency |
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Fairchild Semiconductor |
Schottky Rectifiers • • • • • • Low power loss, high efficiency. High surge capacity. For use in low voltage, high frequency inverters, free wheeling, and polarity protection applications. Metal silicon junction, majority carrier conduction. High current capacity, low f |
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Fairchild Semiconductor |
16 Ampere Schottky Barrier Rectifiers • • • • • • Low power loss, high efficiency. High surge capacity. For use in low voltage, high frequency inverters, free wheeling, and polarity protection applications. Metal silicon junction, majority carrier conduction. High current capacity, low f |
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Fairchild Semiconductor |
16 Ampere Schottky Barrier Rectifiers • • • • • • Low power loss, high efficiency. High surge capacity. For use in low voltage, high frequency inverters, free wheeling, and polarity protection applications. Metal silicon junction, majority carrier conduction. High current capacity, low f |
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Fairchild Semiconductor |
Schottky Rectifiers • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction • High Current Capacity, Low Forward Voltage Drop • Guard Ring for Over-Voltage Protection (OVP) Applications • Low-Voltage, High-Frequency |
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Fairchild Semiconductor |
Schottky Barrier Rectifier • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction PIN1 • High Current Capacity, Low Forward Voltage Drop PIN3 • Guard Ring for Over-Voltage Protection (OVP) 1 2 Applications 3 • L |
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Fairchild Semiconductor |
Schottky Barrier Rectifier • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction PIN1 • High Current Capacity, Low Forward Voltage Drop PIN3 • Guard Ring for Over-Voltage Protection (OVP) 1 2 Applications 3 • L |
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Fairchild Semiconductor |
Schottky Barrier Rectifier • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction PIN1 • High Current Capacity, Low Forward Voltage Drop PIN3 • Guard Ring for Over-Voltage Protection (OVP) 1 2 Applications 3 • L |
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Fairchild Semiconductor |
Schottky Rectifiers • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction • High Current Capacity, Low Forward-Voltage Drop • Guard Ring for Over-Voltage Protection (OVP) Applications • Low-Voltage, High-Frequency |
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Fairchild Semiconductor |
Schottky Rectifiers • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction • High Current Capacity, Low Forward-Voltage Drop • Guard Ring for Over-Voltage Protection (OVP) Applications • Low-Voltage, High-Frequency |
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Fairchild Semiconductor |
Schottky Rectifiers • Low Power Loss, High Efficiency • High Surge Capacity • Metal Silicon Junction, Majority Carrier Conduction • High Current Capacity, Low Forward-Voltage Drop • Guard Ring for Over-Voltage Protection (OVP) Applications • Low-Voltage, High-Frequency |
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