ON Semiconductor FDMF3035 - High-Efficiency MOSFET Module

The ON Semiconductor FDMF3035 is a state-of-the-art, high-performance MOSFET module designed for a wide range of power management applications. This compact and efficient module is an ideal choice for designers looking to optimize their power systems in terms of both space and efficiency.

Key Features:

• Integrated DrMOS Power Stage: The FDMF3035 combines high- and low-side MOSFETs and a driver IC in a single package, providing a complete DrMOS power stage for synchronous buck applications.
• High-Efficiency Operation: With its advanced power technology, the FDMF3035 achieves high efficiency, which is crucial for reducing thermal load and improving system performance.
• Compact Footprint: The module's compact 6x6mm PQFN package allows for a reduced board space requirement, making it suitable for space-constrained applications.
• High Switching Frequency: Capable of operating at high switching frequencies, the FDMF3035 enables the design of power supplies with excellent transient response and reduced output filter size.
• Optimized Gate Drive: The integrated driver ensures optimal gate drive for the MOSFETs, resulting in fast switching speeds and reduced switching losses.

Applications:

The FDMF3035 is versatile and can be used in various applications, including:

• DC/DC converters for CPU and GPU power supplies
• Memory power management
• Point of Load (POL) modules
• High-density power solutions for servers and telecommunications
• High-performance computing and gaming consoles

Technical Specifications:

• Input Voltage Range: 4.5V to 15V
• High-Side and Low-Side R_DS(on)
• Integrated Bootstrap Schottky Diode
• Over-temperature and Over-current Protection
• Under-voltage Lockout (UVLO)
• Power Good Output

The ON Semiconductor FDMF3035 is a robust and reliable choice for modern power management solutions, offering both performance and ease of design. With its integrated features and compact size, it is a go-to MOSFET module for engineers looking to enhance their power system designs.