Overview of STH3N150-2 by STMicroelectronics
The STH3N150-2 is an N-channel 1500 V, 6 Ohm typ., 2.5 A PowerMESH power MOSFET, housed in an H2PAK-2 package. Manufactured by STMicroelectronics, this component leverages advanced MOSFET technology to provide high voltage power switching applications with improved power density, reduced on-resistance, and better thermal performance. It is specifically designed to address the requirements of highly efficient power conversion with a minimal footprint.
Its key specifications include a drain-source voltage (Vds) of 1.5Kv, a continuous drain current (Id) of 2.5A, and a maximum gate-source threshold voltage of 4V. Additionally, its thermal and electrical characteristics, such as a maximum operating temperature of 150°C and a power dissipation of 140W, are optimized for high-performance applications. The device also features a built-in diode, a drain current (max) capability of 2.5A, and an avalanche energy rating of 450 mJ, underscoring its robustness in demanding settings. It is RoHS compliant, adhering to the latest environmental standards.
Industry Applications for STH3N150-2
The STH3N150-2 power MOSFET can potentially serve a wide array of industries due to its high voltage and current handling capabilities, coupled with its efficiency and thermal performance. Please note that the following industry applications are conceptual and illustrative, necessitating detailed analysis and verification by engineering and design teams to ensure compatibility with specific requirements.
- Consumer Electronics: The device might be integrated into power supplies for high-end consumer electronics where efficiency and compactness are critical. This could include gaming consoles, desktop computers, and large-screen televisions, where its low on-resistance and high switching speed enhance overall power efficiency.
- Energy and Power Systems: In industrial power supplies or Renewable Energy systems such as solar inverters, the STH3N150-2 could potentially offer benefits in terms of efficiency and thermal management. Its high breakdown voltage is an advantage in applications requiring high voltage operation such as uninterruptible power supplies (UPS) and power conditioning systems.
- Renewable Energy: The efficiency and robustness of the STH3N150-2 might make it suitable for use in converters and inverters within solar energy panels or wind turbines. It could possibly handle high voltages and currents while minimizing losses, thus optimizing the power conversion process from renewable sources.
It’s crucial to underscore that these potential applications require thorough analysis regarding the part’s specifications and industry standards before any integration.
About STMicroelectronics
STMicroelectronics is a global leader in the semiconductor market, specializing in various semiconductor technologies, including a vast range of Power Field-Effect Transistors. The company has a rich portfolio of components designed for managing power in electronics, making innovations such as the STH3N150-2 possible. STMicroelectronics focuses on developing products that offer higher efficiency, reduced energy consumption, and better thermal management across a myriad of applications. Not only does STMicroelectronics provide components like the STH3N150-2, but it also offers a variety of similar parts tailored for specific needs, from high-voltage industrial applications to compact, energy-efficient solutions for consumer electronics.
Where to Find STH3N150-2 by STMicroelectronics
When looking to procure the STH3N150-2, it’s advisable to start your search at findchips.com. The website provides a comprehensive and up-to-date listing of availability and pricing from multiple distributors. For finding alternatives or similar Power MOSFETs, you can explore other Power Field-Effect Transistors offered by STMicroelectronics or other manufacturers. Historically, the part has been available from distributors such as Win Source Electronics, LCSC, EBV Elektronik, and Future Electronics among others. However, for current stock levels, pricing, and possible alternatives, conducting a search on findchips.com is highly recommended.