| No. | Partie # | Fabricant | Description | Fiche Technique |
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National Semiconductor |
Family of 16-bit CAN-enabled CompactRISC Microcontrollers and low power consumption resulting in decreased system cost. The device offers the high performance of a RISC architecture while retaining the advantages of a traditional Com- Block Diagram Fast Clk Slow Clk* CR16CAN FullCAN 2.0B Clock Generator Po |
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EIC discrete Semiconductors |
AUTOMOTIVE RECTIFIER DIODES : * * * * * High current capability High surge current capability High reliability Low reverse current Low forward voltage drop AUTOMOTIVE RECTIFIER DIODES 5° NOM 0.410 (10.4) 0.380 (9.70) 0.250 (6.4) 0.235 (6.0) 0.185 (4.7) 0.165 (4.2) MECHANI |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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SENSITRON SEMICONDUCTOR |
50A AUTOMOTIVE BUTTON DIODE |
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EIC discrete Semiconductors |
AUTOMOTIVE RECTIFIER DIODES : * * * * * High current capability High surge current capability High reliability Low reverse current Low forward voltage drop AUTOMOTIVE RECTIFIER DIODES 5° NOM 0.410 (10.4) 0.380 (9.70) 0.250 (6.4) 0.235 (6.0) 0.185 (4.7) 0.165 (4.2) MECHANI |
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EIC discrete Semiconductors |
AUTOMOTIVE RECTIFIER DIODES : * * * * * High current capability High surge current capability High reliability Low reverse current Low forward voltage drop AUTOMOTIVE RECTIFIER DIODES AR - L 0.053 (1.35) 0.050 (1.27) 0.250 (6.4) 0.235 (6.0) MECHANICAL DATA : * Case : Molded |
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EIC discrete Semiconductors |
AUTOMOTIVE RECTIFIER DIODES : * * * * * High current capability High surge current capability High reliability Low reverse current Low forward voltage drop AUTOMOTIVE RECTIFIER DIODES AR - L 0.053 (1.35) 0.050 (1.27) 0.250 (6.4) 0.235 (6.0) MECHANICAL DATA : * Case : Molded |
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EIC discrete Semiconductors |
AUTOMOTIVE RECTIFIER DIODES : * * * * * High current capability High surge current capability High reliability Low reverse current Low forward voltage drop AUTOMOTIVE RECTIFIER DIODES 5° NOM 0.410 (10.4) 0.380 (9.70) 0.250 (6.4) 0.235 (6.0) 0.185 (4.7) 0.165 (4.2) MECHANI |
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EIC discrete Semiconductors |
AUTOMOTIVE RECTIFIER DIODES : * * * * * High current capability High surge current capability High reliability Low reverse current Low forward voltage drop AUTOMOTIVE RECTIFIER DIODES AR - L 0.053 (1.35) 0.050 (1.27) 0.250 (6.4) 0.235 (6.0) MECHANICAL DATA : * Case : Molded |
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EIC discrete Semiconductors |
AUTOMOTIVE RECTIFIER DIODES : * * * * * High current capability High surge current capability High reliability Low reverse current Low forward voltage drop AUTOMOTIVE RECTIFIER DIODES AR - L 0.053 (1.35) 0.050 (1.27) 0.250 (6.4) 0.235 (6.0) MECHANICAL DATA : * Case : Molded |
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Power Semiconductors |
RECTIFIER DIODE t V V r FM F(TO) F SWITCHING t rr Q rr I rr Reverse recovery time Reverse recovery charge Peak reverse recovery current 175 µs µC A MOUNTING R th(j-h) R th(c-h) T F j Thermal impedance, DC Thermal impedance Operating junction temperature Mounting |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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Toshiba Semiconductor |
(TAR5Sxx) Point Regulators • • • • • • • Low stand-by current Overtemperature/overcurrent protection Operation voltage range is wide. Maximum output current is high. Difference between input voltage and output voltage is low. Small package. Ceramic capacitors can be used. Weig |
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