Overview of FDMS86163P by onsemi
The FDMS86163P is a P-Channel PowerTrench® MOSFET characterized by its -100V drain-source voltage (Vds), -50A continuous drain current (Id), and a drain-source on resistance (Rds(on)) of 22mΩ. This part is packaged in a Power56-8 format, designed for surface mount installations. It operates effectively at Rds(On) test voltage of -10V with a gate-source threshold voltage max of -2.8V. This product is fully compliant with RoHS standards, ensuring adherence to environmental and safety regulations. The device also features an embedded diode within its single configuration, enhancing its functionality for switching applications.
Its exceptional power dissipation capability of up to 104W, coupled with a maximum pulsed drain current (IDM) of 100A, positions it as an optimal choice for applications requiring high efficiency and reliability. The FDMS86163P incorporates metal-oxide semiconductor FET technology, enhancing its performance across a wide range of operational temperatures, from -55°C to +150°C. The device’s moisture sensitivity level of 1 signifies its robustness in various environmental conditions, making it suitable for a broad spectrum of uses. Additionally, it has avalanche energy rating (Eas) of 486mJ, signifying its ability to handle sudden energy bursts.
Industry Applications for FDMS86163P
Given the versatile features of FDMS86163P, this component is suitably applied in various sectors. While the potential applications outlined require confirmation and analysis by engineering and design teams, the possible uses are widespread due to its technical specifications.
- Industrial Automation: The FDMS86163P could potentially serve in controlling automated machinery or robotic arms, requiring efficient and reliable switching capabilities.
- Motor Control Systems: Its high drain current and power dissipation characteristics may allow it to be used in electric motor drives and controllers, offering precise control over motor functions.
- Power Supply Units: Given its high efficiency and reliability, the FDMS86163P can be employed in switch-mode power supplies (SMPS), ensuring stable performance even under fluctuating load conditions.
- Renewable Energy Systems: It might also be found in inverters for solar panels or wind turbines, where efficient power conversion is critical for maximizing energy output.
- Automotive Applications: The device’s robustness makes it suitable for vehicle power management systems, including electric vehicles (EVs) power inverters, contributing to energy efficiency improvements.
Please note, these potential applications should be verified for compatibility and performance by professional engineers and design teams.
About onsemi
onsemi is a leading manufacturer specializing in a wide range of semiconductor components, with a particular strength in Power Field-Effect Transistors. The FDMS86163P is one example of onsemi’s commitment to providing high-performance, energy-efficient solutions for a variety of applications. onsemi focuses on addressing the key challenges faced by the automotive, industrial, and communication sectors, among others, by developing components that enhance power efficiency, reduce size, and increase reliability. Their portfolio includes a diverse range of products from discrete to complex integrated circuits, tailored to meet the evolving demands of the electronic and semiconductor industries.
Where to Find FDMS86163P by onsemi
For those looking to purchase the FDMS86163P, or researching potential alternatives, we recommend starting with findchips.com. Our platform allows you to compare prices, stock levels, and detailed specifications for the FDMS86163P as well as other Power Field-Effect Transistors. Historically, this part has been available at distributors including EBV Elektronik, Avnet Asia, Sensible Micro Corporation, TME, Future Electronics, Mouser Electronics, Avnet Americas, DigiKey, and Newark. To ensure you get the most current availability and pricing, visit findchips.com. Remember, stock levels and distributor availability can fluctuate, so it’s crucial to verify the most up-to-date information.