The MPSH17 is a high-performance NPN bipolar RF (Radio Frequency) transistor designed and manufactured by ON Semiconductor, a leader in energy-efficient innovations. This transistor is specifically engineered for use in RF amplification and switching applications, making it an ideal choice for a variety of wireless communication systems.
Key Features:
- High Gain Bandwidth Product: With a transition frequency (fT) typically at 650 MHz, the MPSH17 is capable of operating at high frequencies, which is essential for RF applications.
- Low Noise Figure: It offers a low noise figure, which is crucial for maintaining signal integrity in communication systems.
- High Power Gain: The transistor provides a high power gain, which enables it to amplify weak signals effectively.
- Collector-Emitter Voltage (VCEO): It can withstand voltages up to 12 V between the collector and emitter, providing a good margin for various circuit designs.
- Emitter-Base Voltage (VEBO): With a VEBO of 3 V, it ensures stable operation when the base is biased positively relative to the emitter.
- Continuous Collector Current (IC): It supports a continuous collector current of up to 50 mA, suitable for handling moderate levels of signal amplification.
Applications:
The MPSH17 is widely used in RF applications such as:
- Low-power radio transmitters
- RF amplifiers in communication devices
- VHF and UHF receivers
- RF oscillator circuits
- Signal processing in telecommunication devices
Package and Quality:
ON Semiconductor provides the MPSH17 in a TO-92 package, which is a compact, through-hole package that is easy to handle and integrate into various circuit boards. The company is committed to high-quality standards, ensuring that each MPSH17 transistor meets rigorous performance and reliability criteria.
Whether you are designing a new RF system or upgrading an existing one, the MPSH17 NPN RF transistor from ON Semiconductor is a reliable and efficient choice that can help you achieve superior performance in your wireless communication applications.