ON Semiconductor 2N3904TFR General Purpose Transistor
The 2N3904TFR from ON Semiconductor is a versatile and widely-used NPN bipolar junction transistor (BJT) designed for general-purpose amplifier and switching applications. This transistor is recognized for its reliability and efficiency, making it an ideal choice for electronic enthusiasts and professionals alike.
Key Features:
- High Current Gain Bandwidth Product: With a transition frequency of 300 MHz, the 2N3904TFR is capable of amplifying signals with excellent speed, making it suitable for high-frequency applications.
- Low Saturation Voltage: The low collector-emitter saturation voltage ensures minimal voltage drop during operation, which translates to lower power losses and improved efficiency.
- Maximum Ratings: It can handle a continuous collector current of up to 200 mA and boasts a collector-base voltage of 60 V, providing a good margin for a variety of electronic circuits.
- TO-92 Package: Encased in a TO-92 package, the 2N3904TFR is easy to handle and integrate into a wide range of electronic circuits, owing to its through-hole mounting design.
Applications:
The 2N3904TFR is a go-to component for numerous applications due to its adaptability and performance. Common uses include:
- Signal amplification in audio and radio frequency (RF) circuits
- Driver stages in hi-fi amplifiers and television circuits
- Switching operations in consumer electronics
- Control systems and sensor circuits
Quality and Environmental Compliance:
ON Semiconductor is committed to providing environmentally friendly solutions. The 2N3904TFR complies with RoHS directives, ensuring that it is free from hazardous substances. Additionally, the company's dedication to quality is evident as the product is manufactured under stringent quality control standards to ensure reliability and performance.
Whether you are working on a DIY project or developing a commercial product, the ON Semiconductor 2N3904TFR transistor is an excellent choice for a reliable and efficient general-purpose solution.