The 2SC4486T-AN is a high-performance NPN bipolar junction transistor (BJT) developed by ON Semiconductor, a global leader in power and signal management solutions. This transistor is designed to offer a blend of high speed and high current capabilities, making it an ideal choice for a variety of electronic applications.
The device features a collector-emitter voltage (VCEO) of 30V, collector current (IC) of 100mA, and a power dissipation (PD) of 200mW, which allows it to handle moderate power applications efficiently. The 2SC4486T-AN is characterized by its high gain bandwidth product (fT) of 250MHz, ensuring excellent performance in high-frequency signal amplification.
The hFE (DC current gain) of the transistor is in the range of 120 to 560, providing a stable and predictable amplification factor across various operating conditions. This makes the 2SC4486T-AN a reliable component for amplifying low-level signals in audio amplifiers, signal processing circuits, and other analog applications.
Packaged in a TO-92 configuration, the 2SC4486T-AN is designed for through-hole mounting, which simplifies the assembly process and offers robust mechanical stability. The TO-92 package is widely recognized for its ease of handling and its compatibility with a vast array of PCB designs.
The 2SC4486T-AN transistor is also known for its low noise figure, making it an excellent choice for applications that require low signal distortion and high linearity, such as RF amplification and mixing in communication devices. Its quick switching response and low saturation voltage contribute to the overall efficiency and performance of the circuits it is used in.
ON Semiconductor's commitment to quality ensures that the 2SC4486T-AN meets stringent reliability standards, making it suitable for industrial, commercial, and consumer applications. Whether you are designing an audio amplifier, a signal processing unit, or any other high-frequency application, the 2SC4486T-AN from ON Semiconductor is a component that promises to deliver performance and reliability.