Технически документи
Спецификации
Brand
VishayMounting Type
Through Hole
Package Type
DO-35
Maximum Continuous Forward Current
30mA
Peak Reverse Repetitive Voltage
60V
Diode Configuration
Single
Rectifier Type
Schottky Diode
Diode Type
Schottky
Pin Count
2
Maximum Forward Voltage Drop
1V
Number of Elements per Chip
1
Diode Technology
Schottky Barrier
Diameter
1.7mm
Peak Non-Repetitive Forward Surge Current
500mA
Страна на произход
China
Детайли за продукта
Small Signal Schottky Diodes, Vishay Semiconductor
Schottky Rectifiers are semiconductor diodes that exhibit very low forward voltage drop with a very fast switching action. The reverse recovery times of Schottky diodes are extremely quick. Schottky diodes are suitable for applications requiring fast switching and low power loss.
Schottky Rectifiers, Vishay Semiconductor
Информацията за складовите наличности временно не е налична.
Моля, проверете отново по-късно.
€ 0,147
Each (Supplied on a Reel) (ex VAT)
250
€ 0,147
Each (Supplied on a Reel) (ex VAT)
250
Купете в насипно състояние
количество | Единична цена | Per Ролка |
---|---|---|
250 - 1000 | € 0,147 | € 36,78 |
1250 - 2250 | € 0,132 | € 32,98 |
2500 - 6000 | € 0,125 | € 31,23 |
6250 - 12250 | € 0,12 | € 30,06 |
12500+ | € 0,118 | € 29,48 |
Технически документи
Спецификации
Brand
VishayMounting Type
Through Hole
Package Type
DO-35
Maximum Continuous Forward Current
30mA
Peak Reverse Repetitive Voltage
60V
Diode Configuration
Single
Rectifier Type
Schottky Diode
Diode Type
Schottky
Pin Count
2
Maximum Forward Voltage Drop
1V
Number of Elements per Chip
1
Diode Technology
Schottky Barrier
Diameter
1.7mm
Peak Non-Repetitive Forward Surge Current
500mA
Страна на произход
China
Детайли за продукта
Small Signal Schottky Diodes, Vishay Semiconductor
Schottky Rectifiers are semiconductor diodes that exhibit very low forward voltage drop with a very fast switching action. The reverse recovery times of Schottky diodes are extremely quick. Schottky diodes are suitable for applications requiring fast switching and low power loss.