Diodes Incorporated BC847CT-7-F NPN Transistor
The BC847CT-7-F is a high-quality NPN bipolar junction transistor (BJT) from Diodes Incorporated, renowned for its reliability and efficiency in a wide range of electronic applications. This small-signal transistor is designed for general-purpose and switching applications, making it a versatile component for designers and engineers.
Featuring a dual configuration in a compact SOT-523 package, the BC847CT-7-F is an excellent choice for space-constrained applications. With a collector-emitter voltage (Vceo) of 45V and a collector current (Ic) of 100mA, it is capable of handling moderate power levels while maintaining low saturation voltages, ensuring high efficiency and low power dissipation.
The transistor has a continuous collector current of 100mA, which allows it to drive loads in a variety of circuits. Additionally, its low collector-emitter saturation voltage ensures that power loss is minimized during switching, making it suitable for high-efficiency designs. The BC847CT-7-F also features a high current gain bandwidth product (fT) which makes it suitable for amplification purposes at higher frequencies.
With its excellent switching performance, the BC847CT-7-F can be used in digital circuits where fast switching is essential. It is also commonly found in audio amplifiers, signal processing, and other analog applications due to its low noise characteristics.
The BC847CT-7-F is RoHS compliant, ensuring that it meets the latest environmental standards and is free from hazardous substances. This commitment to environmental responsibility makes it a preferred choice for manufacturers looking to create eco-friendly products.
Whether you're designing consumer electronics, industrial control systems, or portable devices, the BC847CT-7-F from Diodes Incorporated offers the performance and reliability required to meet the demands of your applications. Its compact size, power handling capabilities, and versatility make it an invaluable component in the design and production of modern electronic devices.