| No. | parte # | Fabricante | Descripción | Hoja de Datos |
|---|---|---|---|---|
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Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
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Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
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Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
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|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
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|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
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|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
|
|
|
|
Fairchild Semiconductor |
Bridge Rectifiers • Integrally molded heat-sink provided very low thermal resistance for maximum heat dissipation. • Surge Overload Ratings from 300 A to 400 A. • Isolated voltage from case to lead over 2500 V. • UL certified, UL #E258596 • Terminals Finish Material - |
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Desde 2024. D4U Semiconductor.
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