Overview of FDMS5672 by onsemi
The FDMS5672 is an N-Channel UltraFET Trench® MOSFET with specifications including 60V drain-source breakdown voltage, 22A continuous drain current, and an ultra-low on-resistance of 11.5mΩ. It is designed for high-efficiency power management applications and comes packaged in a RoHS compliant, 8-pin MLP package; this MOSFET integrates a diode for additional circuit protection. Manufactured by onsemi, a leading provider in the semiconductor industry, the FDMS5672 is part of the Power Field-Effect Transistors subcategory and excels in various applications due to its enhanced performance specifications.
The part’s Eco-design attributes include Pb-free composition, compliance with REACH regulations, and an ECCN Code of “EAR99”, marking it as safe for a wide range of global exports. With a maximum operating temperature of 150 °C, moisture sensitivity level 1, and power dissipation up to 78 W, it is well-suited for demanding environments and high-power applications. Additionally, the FDMS5672 has a factory lead time of 32 weeks as of the current writing, illustrating its demand in the market and production schedules.
Industry Applications for FDMS5672
The FDMS5672 by onsemi has potential use cases in various industries, especially where power efficiency and package size are critical. Keep in mind these applications are conceptual and should be validated by engineering and design teams for specific use cases.
- Energy and Power Systems: This MOSFET could be adopted in power supply circuits, converters, and inverters within energy distribution systems. Its high efficiency and reliability make it an excellent choice for applications requiring long-term stability under high load conditions.
- Renewable Energy: Within the renewable energy sector, the FDMS5672 might find applications in solar inverters or wind turbine power converters, benefiting from its high drain current and low on-resistance for improved power conversion efficiency.
- Consumer Electronics: For portable and compact devices requiring efficient power management, this MOSFET could facilitate lower power loss and heat generation in circuits like DC-DC converters, enhancing battery life and reliability.
- Industrial Automation: In industrial settings, the FDMS5672 may improve the efficiency of motor drives, automated control systems, and power management solutions, providing the necessary robustness and durability for industrial applications.
It’s important to note these potential applications only serve as starting points for consideration. The FDMS5672’s high power dissipation capacity, efficiency, and packaging are critical in these applications but require thorough evaluation based on specific device requirements.
About onsemi
onsemi, formerly known as ON Semiconductor, is recognized in the semiconductor industry for its extensive range of components, particularly in the realm of Power Field-Effect Transistors and other transistor categories. The company’s focus on energy efficiency, manifested through innovations like the FDMS5672 and similar parts, positions onsemi as a key supplier for industries needing power management solutions. By continuously advancing semiconductor technologies, onsemi caters to a broad array of applications, from automotive systems to industrial automation, consumer electronics, and renewable energy systems. The FDMS5672 epitomizes onsemi’s commitment to providing high-performance, reliable components suitable for a wide range of modern, power-sensitive applications.
Where to Find FDMS5672 by onsemi
To procure the FDMS5672 N-Channel UltraFET Trench® MOSFET for your next project, start your search at findchips.com. Our platform provides an in-depth comparison of current stock levels, pricing, and purchasing options across a wide array of distributors. Historically, key distributors like Avnet Asia, Ameya Holding Limited, Avnet Americas, Future Electronics, RS, Mouser Electronics, EBV Elektronik, Avnet Silica, DigiKey, and Farnell have offered the FDMS5672. However, for real-time information on availability and to explore alternative Power Field-Effect Transistors that could also meet your specifications, visiting findchips.com ensures you have the latest data at your fingertips.