| No. | parte # | Fabricante | Descripción | Hoja de Datos |
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Fairchild Semiconductor |
HUF76107D • Logic Level Gate Drive • 20A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.052Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse |
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Fairchild Semiconductor |
MOSFET Q1: N-Channel Max rDS(on) = 7.5 mΩ at VGS = 10 V, ID = 12 A Max rDS(on) = 12 mΩ at VGS = 4.5 V, ID = 10 A Q2: N-Channel Max rDS(on) = 4.2 mΩ at VGS = 10 V, ID = 17 A Max rDS(on) = 5.5 mΩ at VGS = 4.5 V, ID = 14 A RoHS Compliant April 2013 |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 6.5A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.030Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER™ Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 56A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.016Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 10A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.013Ω • Temperature Compensating PSPICE® Model • Thermal Impedance SPICE Model • Peak Current vs Pulse Width Curve • UIS Rating Curve • Related Literature - TB334, “Guidelines |
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Fairchild Semiconductor |
6-BIT / 1 GSPS FLASH A/D CONVERTER • • • • • • • 1:2 demuxed ECL-compatible outputs 1.0 GSPS conversion rate Wide input bandwidth: 1.4 GHz Low input capacitance: 8 pF Metastable errors reduced to 1 LSB Monolithic construction Binary/Two’s complement output APPLICATIONS • • • • • • Ra |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 5.5A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.050Ω • Simulation Models - Temperature Compensated PSPICE® and SABER™ Electrical Models - SPICE and SABER Thermal Impedance Models Available on the WEB at: www.fairchildsemi. |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 4.7A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.031Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER™ Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 20A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.023Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 47A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.021Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 47A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.021Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 20A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.016Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Mode • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse Wi |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 20A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.016Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Mode • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse Wi |
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Fairchild Semiconductor |
N-Channel MOSFET |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 75A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.011Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 75A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.011Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 11.5A, 30V • Simulation Models - Temperature Compensated PSPICE® and SABER³™ Electrical Models - SPICE and SABER Thermal Impedance Models - www.fairchildsemi.com • Peak Current vs Pulse Width Curve • UIS Rating Curve • Tran |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 75A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.009Ω • Temperature Compensating PSPICE™ Model • Temperature Compensating SABER™ Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 75A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.009Ω • Temperature Compensating PSPICE™ Model • Temperature Compensating SABER™ Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse W |
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Fairchild Semiconductor |
N-Channel MOSFET • Logic Level Gate Drive • 75A, 30V • Ultra Low On-Resistance, rDS(ON) = 0.0075 Ω • Temperature Compensating PSPICE® Model • Temperature Compensating SABER© Model • Thermal Impedance SPICE Model • Thermal Impedance SABER Model • Peak Current vs Pulse |
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Desde 2024. D4U Semiconductor.
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