No. | parte # | Fabricante | Descripción | Hoja de Datos |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Ultrafast Rectifier • Superectifier structure for high reliability condition • Cavity-free glass-passivated junction • Ultrafast reverse recovery time • Low forward voltage drop • Low leakage current • Low switching losses, high efficiency • High forward surge capabilit |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Miniature Clamper/Damper Glass Passivated Rectifier • Specially designed for clamping circuits, horizontal deflection systems and damper applications • Plastic package has Underwriters Laboratory Flammability Classification 94V-0. • High temperature metallurgically bonded construction • Cavity-free gl |
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Vishay Siliconix |
Miniature Clamper/Damper Glass Passivated Rectifier • Specially designed for clamping circuits, horizontal deflection systems and damper applications • Plastic package has Underwriters Laboratory Flammability Classification 94V-0. • High temperature metallurgically bonded construction • Cavity-free gl |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Miniature Glass Passivated Junction Reverse Voltage 400 to 800V Forward Current 1.5A * d e t n e t Pa Dimensions in inches and (millimeters) 0.300 (7.6) 0.230 (5.8) • Plastic package has Underwriters Laboratory Flammability Classification 94V-0 • High temp. metallurgically bonded c |
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Vishay Siliconix |
Glass Passivated Ultrafast Rectifier • Superectifier structure for high reliability condition • Cavity-free glass-passivated junction • Ultrafast reverse recovery time • Low forward voltage drop • Low leakage current • Low switching losses, high efficiency • High forward surge capabilit |
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Vishay Siliconix |
Glass Passivated Ultrafast Rectifier • Superectifier structure for high reliability condition • Cavity-free glass-passivated junction • Ultrafast reverse recovery time • Low forward voltage drop • Low leakage current • Low switching losses, high efficiency • High forward surge capabilit |
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|
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Junction Rectifier • Superectifier application structure for high reliability SUPERECTIFIER® • Cavity-free glass-passivated junction • Low forward voltage drop • Low leakage current • High forward surge capability • Meets environmental standard MIL-S-19500 • Solder d |
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Vishay Siliconix |
Glass Passivated Ultrafast Rectifier • Superectifier structure for high reliability condition • Cavity-free glass-passivated junction • Ultrafast reverse recovery time • Low forward voltage drop • Low leakage current • Low switching losses, high efficiency • High forward surge capabilit |
|
|
|
Vishay Siliconix |
Glass Passivated Ultrafast Rectifier • Superectifier structure for high reliability condition • Cavity-free glass-passivated junction • Ultrafast reverse recovery time • Low forward voltage drop • Low leakage current • Low switching losses, high efficiency • High forward surge capabilit |
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