Diodes Incorporated BC817-25Q-7-F NPN Bipolar Transistor
The BC817-25Q-7-F from Diodes Incorporated is a high-performance NPN bipolar (BJT) transistor, designed for use in a wide range of electronic applications. This small signal transistor is particularly well-suited for use in low-power switching and amplifier applications, offering a blend of reliability and efficiency in a compact SOT-23 package.
Key features of the BC817-25Q-7-F include a collector-emitter voltage (Vceo) of 45V, collector current (Ic) of up to 500mA, and a maximum power dissipation (Pd) of 300mW, making it capable of handling moderate power applications. The device offers a high current gain (hFE), which is classified as group "25" with hFE levels from 160 to 400, ensuring consistent performance for amplification purposes.
The BC817-25Q-7-F is also characterized by its low saturation voltage, which enhances overall energy efficiency by reducing power loss during operation. Its fast switching times make it an ideal choice for high-speed switching applications. The device’s robustness is further highlighted by its -55°C to +150°C operating junction temperature range, allowing it to perform reliably in a variety of challenging environments.
As a RoHS-compliant product, the BC817-25Q-7-F meets the requirements of environmentally sensitive applications, ensuring that no hazardous substances are used in its manufacture. This commitment to environmental sustainability makes it suitable for use in consumer electronics, where regulations may dictate the use of greener components.
Overall, the BC817-25Q-7-F is a versatile component that offers designers a practical solution for a multitude of circuit designs. Its small footprint, high efficiency, and reliable performance make it a popular choice among engineers looking to optimize their electronic designs.
Whether you are designing an amplifier, a switch, or any other application that requires a dependable NPN transistor, the BC817-25Q-7-F from Diodes Incorporated is a component that promises to deliver both performance and quality.