Overview of FDN304P by onsemi
FDN304P represents a P-Channel 1.8V Specified PowerTrench® MOSFET, manufactured by onsemi, showcasing a drain-source voltage of -20V and a continuous drain current of -2.4A. Its drain-source on-resistance is notably low at 52mΩ, making it efficient for power management applications. This component is encapsulated in a SUPERSOT-3 package, known for its compact footprint, allowing it to be integrated into space-constrained applications easily. The part’s significant features include a minimum DS breakdown voltage of 20V, drain-source on-resistance max of 0.052 Ω, and a maximum operating temperature of 150 °C, which enhances its reliability in varied operational conditions. Moreover, being RoHS compliant and with a moisture sensitivity level of 1, FDN304P is tailored for applications demanding high environmental and operational standards.
Industry Applications for FDN304P
P-Channel MOSFETs, such as the FDN304P, are essential in various electronic circuits, offering efficient power management and switch operations. Potential industry applications, which could benefit from the FDN304P’s specifications, necessitate precise analysis by engineering and design teams to ensure compatibility and performance. The applications include:
- Consumer Electronics: Devices like smartphones, tablets, and wearables might utilize the FDN304P for power management circuits, considering its low on-resistance and high efficiency. Its small footprint and moisture sensitivity level make it an excellent choice for compact, high-performance devices.
- Computing and Data Storage: In computers and servers, the FDN304P could potentially be used in power distribution systems, ensuring efficient, reliable operations. Its ability to handle significant current levels while maintaining low heat generation is crucial for these applications.
- Industrial Automation: Equipment that requires precise control over power delivery, such as automated machinery and robotic systems, might benefit from the FDN304P’s switching capabilities and reliability under varying temperatures and conditions.
- Automotive: Although the FDN304P is not specifically qualified for automotive standards like AEC-Q100, similar parts with appropriate certifications could be used in vehicle power management systems, electric vehicle (EV) battery controls, and internal electronics, given the importance of efficiency and reliability in such applications.
- Renewable Energy Systems: Solar inverters and wind turbine controls could potentially incorporate the FDN304P for its efficient power conversion properties, aiding in optimizing energy harvest and reducing waste.
It’s imperative to note that these potential industry applications are conceptual/illustrative and require thorough verification against specific requirements and standards.
About onsemi
Onsemi, a renowned provider in the semiconductor industry, offers an extensive range of components, including an array of Small Signal Field-Effect Transistors, among which the FDN304P is a notable part. Onsemi’s portfolio is well-regarded for its focus on energy efficiency, reliability, and performance, catering to the increasing demands of modern electronic applications. The company’s offerings in the field-effect transistors (FET) category demonstrate their commitment to advancing technology across a multitude of sectors, providing solutions that enhance power management, signal processing, and energy conservation.
Where to Find FDN304P by onsemi
To procure the FDN304P or to find alternate parts within the realm of Small Signal Field-Effect Transistors, visiting findchips.com provides a thorough and efficient approach. This platform enables users to compare current stock levels, pricing, and find similar parts from onsemi or other reputable manufacturers. Historically, distributors like New Advantage Corporation, EBV Elektronik, Avnet Silica, and Mouser Electronics have stocked the FDN304P, although availability can fluctuate. Therefore, for the most current and comprehensive procurement options, findchips.com serves as the optimal resource.