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Part Manufacturer Description Datasheet BUY
TPD4E004DSFR Texas Instruments UNIDIRECTIONAL, SILICON, TVS DIODE visit Texas Instruments
TPD3E001DRY Texas Instruments UNIDIRECTIONAL, SILICON, TVS DIODE visit Texas Instruments
TPD2E001YFPR Texas Instruments DIODE UNIDIRECTIONAL, SILICON, TVS DIODE, LEAD FREE, DSBGA-4, Transient Suppressor visit Texas Instruments
UC1610J/883B Texas Instruments SILICON, BRIDGE RECTIFIER DIODE visit Texas Instruments
UC3612J Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments
UC1611J/883B Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments

diode SKN

Catalog Datasheet MFG & Type PDF Document Tags

diode SKN 100

Abstract: SKN 100 Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 100 SKR 100 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 100 Fig. 1L Power dissipation vs. forward current Fig. 1R Power dissipation vs. ambient temperature Fig. 2 Forward current vs. case temperature Fig. 4 Transient thermal impedance vs. time Fig. 5 , SKN 100 Dimensions in mm This technical information specifies semiconductor devices but promises
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diode SKN

Abstract: semikron Skn SKN 45 Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 45 SKR 45 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 45 Fig. 1L Power dissipation vs. forward current Fig. 1R Power dissipation vs. ambient temperature Fig. 2 Forward current vs. case temperature Fig. 4 Transient thermal impedance vs. time Fig. 5 , SKN 45 Dimensions in mm This technical information specifies semiconductor devices but promises no
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diode skn 240 semikron

Abstract: Semikron SKR SKN 240, SKR 240 Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 240 SKR 240 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 240, SKR 240 Fig. 1L Power dissipation vs. forward current Fig. 1R Power dissipation vs. ambient temperature Fig. 2 Forward current vs. case temperature Fig. 4 Transient thermal impedance , 05-04-2004 SCT © by SEMIKRON SKN 240, SKR 240 Dimensions in mm This technical information
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diode BY 028

Abstract: SKN 5 Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 5 Features Typical Applications SKN 1 01-04-2004 SCT © by SEMIKRON SKN 5 Fig. 1 Power dissipation vs. forward current Fig. 4 Forward current vs. ambient temperature Fig. 5 Forward characteristics Fig. 6 Surge overload current vs. time Fig. 7 Rated overload current vs. duty cycle 2 01-04-2004 SCT © by SEMIKRON SKN 5 Dimensions in mm This technical information specifies
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scr stud

Abstract: SKN 2F50 THYRISTOR BRIDGE,SCR,BRIDGE Stud Diode Symbol Conditions Values Units Fast Recovery Rectifier Diode SKN 2F50 Features Typical Applications SKN 1 05-04-2004 SCT © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal impedance vs , © by SEMIKRON SKN 2F50 THYRISTOR BRIDGE,SCR,BRIDGE Dimensions in mm This technical information
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Abstract: SKN 45 THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 45 SKR 45 Features Typical Applications* SKN 1 SKR 17-02-2009 CRG © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1L Power dissipation vs. forward current Fig. 1R Power dissipation vs. ambient temperature Fig. 2 Forward current vs. case temperature , current vs. time 2 17-02-2009 CRG © by SEMIKRON SKN 45 THYRISTOR BRIDGE,SCR,BRIDGE SEMIKRON
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Abstract: SKN 70 THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 70 SKR 70 Features Typical Applications* SKN 1 SKR 17-02-2009 CRG © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1L Power dissipation vs. forward current Fig. 1R Power dissipation vs. ambient temperature Fig. 2 Forward current vs. case temperature , current vs. time 2 17-02-2009 CRG © by SEMIKRON SKN 70 THYRISTOR BRIDGE,SCR,BRIDGE SEMIKRON
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diode SKN

Abstract: SKN 60F THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud diode Fast Recovery Rectifier Diode SKN 60F SKR 60F Features Typical Applications* SKN 1 SKR 05-04-2004 SCT © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal , 05-04-2004 SCT © by SEMIKRON SKN 60F THYRISTOR BRIDGE,SCR,BRIDGE Dimensions in mm * The
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135f

Abstract: SKN 135F Symbol Conditions Values Units Stud Diode Fast Recovery Rectifier Diode SKN 135F SKR 135F Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 135F Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal impedance vs. time Fig. 4 Forward characteristics Fig. 5 Surge overload current vs. time 2 05-04-2004 SCT © by SEMIKRON SKN 135F
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scr stud

Abstract: SKN 2,5 THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 2,5 Features Typical Applications SKN 1 01-04-2004 SCT © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1 Power dissipation vs. forward current Fig. 3 Forward current vs. ambient temperature Fig. 5 Forward characteristics Fig. 6 Surge overload current vs. time Fig. 7 Rated overload current vs. duty cycle 2 01-04-2004 SCT © by SEMIKRON SKN 2,5
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3F20

Abstract: SKN 3F20 THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud Diode Fast Recovery Rectifier Diode SKN 3F20 SKR 3F20 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal , 05-04-2004 SCT © by SEMIKRON SKN 3F20 THYRISTOR BRIDGE,SCR,BRIDGE Dimensions in mm This technical
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Abstract: SKN 60F Symbol Conditions Values Units Stud diode Fast Recovery Rectifier Diode SKN 60F SKR 60F Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 60F Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal impedance vs. time Fig. 4 Forward characteristics Fig. 5 Surge overload current vs. time 2 05-04-2004 SCT © by SEMIKRON SKN 60F Dimensions in SEMIKRON
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Abstract: SKN 5 THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 5 Features Typical Applications SKN 1 01-04-2004 SCT © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1 Power dissipation vs. forward current Fig. 4 Forward current vs. ambient temperature Fig. 5 Forward characteristics Fig. 6 Surge overload current vs. time Fig. 7 Rated overload current vs. duty cycle 2 01-04-2004 SCT © by SEMIKRON SKN 5 SEMIKRON
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scr bridge rectifier

Abstract: stud diode SKN 60F THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud diode Fast Recovery Rectifier Diode SKN 60F SKR 60F Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal , 05-04-2004 SCT © by SEMIKRON SKN 60F THYRISTOR BRIDGE,SCR,BRIDGE Dimensions in mm This technical
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scr stud

Abstract: 2F17 SKN 2F17 THYRISTOR BRIDGE,SCR,BRIDGE Stud Diode Symbol Conditions Values Units Fast Recovery Rectifier Diode SKN 2F17 SKR 2F17 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient , 2 05-04-2004 SCT © by SEMIKRON SKN 2F17 THYRISTOR BRIDGE,SCR,BRIDGE Dimensions in mm
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3F20

Abstract: 3f-20 SKN 3F20 Symbol Conditions Values Units Stud Diode Fast Recovery Rectifier Diode SKN 3F20 SKR 3F20 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 3F20 Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal impedance vs. time Fig. 4 Forward characteristics Fig. 5 Surge overload current vs. time 2 05-04-2004 SCT © by SEMIKRON SKN 3F20
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diode skn 320

Abstract: skn320 SKN 320 Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 320 SKR 320 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 320 Fig. 1L Power dissipation vs. forward current Fig. 1R Power dissipation vs. ambient temperature Fig. 2 Forward current vs. case temperature Fig. 4 Transient thermal impedance vs. time Fig. 5 , SKN 320 Dimensions in mm This technical information specifies semiconductor devices but promises
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diode BY 028

Abstract: SKN 2,5 Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 2,5 Features Typical Applications SKN 1 01-04-2004 SCT © by SEMIKRON SKN 2,5 Fig. 1 Power dissipation vs. forward current Fig. 3 Forward current vs. ambient temperature Fig. 5 Forward characteristics Fig. 6 Surge overload current vs. time Fig. 7 Rated overload current vs. duty cycle 2 01-04-2004 SCT © by SEMIKRON SKN 2,5 Dimensions in mm This technical information specifies
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2F17

Abstract: SKN 2F17 Stud Diode Symbol Conditions Values Units Fast Recovery Rectifier Diode SKN 2F17 SKR 2F17 Features Typical Applications SKN 1 SKR 05-04-2004 SCT © by SEMIKRON SKN 2F17 Fig. 1 Typ. recovery charge vs. current decrease Fig. 2 Peak recovery current vs. current decrease Fig. 3 Transient thermal impedance vs. time Fig. 4 Forward characteristics Fig. 5 Surge overload current vs. time 2 05-04-2004 SCT © by SEMIKRON SKN 2F17
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Abstract: SKN 100 THYRISTOR BRIDGE,SCR,BRIDGE Symbol Conditions Values Units Stud Diode Rectifier Diode SKN 100 SKR 100 Features Typical Applications* SKN 1 SKR 13-02-2010 CRG © by SEMIKRON RECTIFIER,DIODE,THYRISTOR,MODULE Fig. 1L Power dissipation vs. forward current Fig. 1R Power dissipation vs. ambient temperature Fig. 2 Forward current vs. case temperature , current vs. time 2 13-02-2010 CRG © by SEMIKRON SKN 100 THYRISTOR BRIDGE,SCR,BRIDGE SEMIKRON
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