BAT64-04
Schottky diodes with 40V, 0.25A in SOT packages
Manufacturer: ['infineon', 'rochester']
series introduction
The BAT64-04 Series is a versatile family of Schottky diodes known for their high efficiency and low forward voltage drop, making them ideal for a variety of electronic applications. Designed with a focus on performance, the BAT64-04 diodes feature a maximum reverse voltage rating of 40V and a low forward voltage drop of typically 0.3V at 1A, which results in enhanced power efficiency and thermal management. This characteristic is particularly beneficial in applications requiring rapid switching and low power losses.
One of the key design features of the BAT64-04 Series is its small SOT-23 package, which allows for space-constrained designs without compromising on performance. This compact form factor is particularly advantageous for modern electronics, where PCB real estate is at a premium. The diodes are also constructed using advanced silicon technology, offering excellent thermal stability and reliability under varying operating conditions.
The BAT64-04 Series is ideally suited for a wide range of applications, including power management circuits, rectification in switching power supplies, and reverse polarity protection. Their fast switching speed makes them an excellent choice for high-frequency applications such as RF power amplifiers and signal demodulation. Moreover, their low leakage current characteristics contribute to improved efficiency in battery-operated devices, making them suitable for use in portable electronics and energy harvesting systems.
In the industrial sector, the BAT64-04 diodes find application in automation and control systems, where reliability and efficiency are paramount. They are also utilized in automotive electronics, including LED lighting and power distribution systems, where robust performance is critical. Overall, the BAT64-04 Series stands out as a reliable and efficient solution for designers looking to optimize power management and enhance the performance of their electronic systems.
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