Overview of FDS3572 by onsemi
The FDS3572 is an N-Channel PowerTrench® MOSFET characterized by its 80V drain-source voltage (Vds), 8.9A continuous drain current (Id), and remarkably low on-resistance of 0.014 Ohm at a 10V gate-source voltage (Vgs). This component, manufactured by onsemi, boasts enhanced power handling and efficiency which is encapsulated in a compact SO-8 package, confirmed to be RoHS compliant. Its exceptionally low on-resistance aids in minimizing energy losses and supports the development of energy-efficient solutions across a wide range of applications. Additional attributes include an avalanche energy rating (Eas) of 515 mJ and a maximum power dissipation of 2.5W, alongside a built-in diode, signifying its robustness in various electronic designs. The part sustains operation over a wide temperature range, from -55 °C to 150 °C, which further broadens its application spectrum. Included in the subcategory of Power Field-Effect Transistors, the FDS3572 is active in part life cycle status as per onsemi’s listing and is readily available for design-in and procurement.
Industry Applications for FDS3572
Given its specifications and features, the FDS3572 could potentially be employed in a variety of industry applications. Its high efficiency, low on-resistance, and compact form factor allow it to serve several critical functions across different sectors. These potential applications require thorough analysis and verification by engineering and design teams to ensure compatibility and performance. Some of the key industries and applications might include:
- Consumer Electronics: In portable and charging devices, desktops, laptops, and gaming consoles where power efficiency and size are principal concerns, FDS3572 could serve as a critical component in power management circuits.
- Energy and Power Systems: Considering its high avalanche energy rating and robust power dissipation capabilities, it could be utilized in power supply units, inverters, and converters within these systems, ensuring reliable power switching.
- Renewable Energy: In solar inverters and wind turbine controllers, where efficiency and reliability are paramount, the FDS3572 might provide the required performance for effective power conversion and energy management.
- Automotive: For electric vehicles (EVs) and automotive subsystems that require efficient power control, this MOSFET may contribute to enhanced performance in electric drivetrains, DC-DC converters, and various control units.
It’s important to note that the suitability of FDS3572 for the mentioned applications depends on specific system requirements and standards, necessitating proper validation for each use case.
About onsemi
onsemi is a leading manufacturer of semiconductor components, specializing in various transistors, including Power Field-Effect Transistors. The company has garnered recognition for its commitment to sustainability and innovation, providing energy-efficient solutions across a broad spectrum of applications. The FDS3572 is one among the comprehensive portfolio of power management and signal processing products that onsemi offers. Through advanced technology and manufacturing capabilities, onsemi continues to lead in the field by offering components that meet the rigorous demands of modern electronic devices and systems.
Where to Find FDS3572 by onsemi
For professionals in technical engineering or procurement looking to integrate the FDS3572 into their designs, findchips.com offers the most reliable avenue for current stock levels and pricing from a variety of distributors. Historically, the FDS3572 has been available at several prominent distributors such as New Advantage Corporation, Flip Electronics, EBV Elektronik, and Avnet. However, to ensure the best purchase decision, potential buyers are encouraged to visit findchips.com to get up-to-date availability and pricing from these distributors and others. For those seeking alternatives or comparable components offered by onsemi or other manufacturers, browsing the Power Field-Effect Transistors subcategory might reveal suitable options.