The 2SC2472-TD from ON Semiconductor is a high-performance NPN bipolar transistor designed for use in a wide range of electronic applications. This versatile component is well-suited for amplification and switching purposes, offering a blend of reliability and efficiency that ON Semiconductor is known for.
Key Features:
- Transistor Type: NPN - This allows for high-speed switching and amplification of electrical signals.
- Voltage Ratings: It has a collector-base voltage (VCBO) of 50V, collector-emitter voltage (VCEO) of 50V, and emitter-base voltage (VEBO) of 5V, which makes it suitable for moderate voltage applications.
- Current Handling: The 2SC2472-TD can handle a collector current (IC) of up to 150mA, making it capable of driving moderate loads.
- Power Dissipation: With a power dissipation (Pc) rating of 400mW, it can dissipate a reasonable amount of heat during operation.
- Gain Bandwidth Product (fT): The device has a transition frequency of 250MHz, providing good performance in high-frequency applications.
- Package: It comes in a compact TO-92 package, which is widely used and easy to install in various circuit designs.
Applications:
The 2SC2472-TD is ideal for a broad spectrum of applications, including but not limited to:
- Audio amplifiers and pre-amplifiers
- Signal processing
- Switching circuits
- Driver stages in hi-fi systems
- General-purpose amplification
Quality and Reliability:
ON Semiconductor is committed to delivering high-quality products. The 2SC2472-TD is manufactured with precision to ensure stable and long-lasting performance. It is designed to meet the stringent requirements of the electronics industry, with a focus on reliability and durability in various operating conditions.
Conclusion:
Overall, the 2SC2472-TD NPN bipolar transistor is a testament to ON Semiconductor's dedication to providing components that excel in both performance and reliability. Its robust design and versatile nature make it an excellent choice for designers and engineers looking to create efficient and durable electronic systems.