The FDD86567 is an N-Channel PowerTrench® MOSFET from Fairchild Semiconductor (now ON Semiconductor). It's optimized for high-efficiency synchronous rectification in DC-DC converters and other power management applications. This MOSFET features a very low RDS(on) and gate charge (Qg) to minimize power losses and improve overall system efficiency. Its design is focused on providing exceptional performance in demanding switching environments.

Applications

• Synchronous rectification in DC-DC converters
• Power supplies for computing and telecom equipment
• Battery management systems
• Motor control applications
• Load switching

Features

• Low RDS(on): Reduces conduction losses for improved efficiency.
• Low gate charge (Qg): Minimizes switching losses and reduces driver requirements.
• 100% UIS tested: Ensures reliable performance under avalanche conditions.
• RoHS compliant: Meets environmental standards.
• Thermally enhanced package: Provides excellent heat dissipation.

Benefits

• High efficiency: Minimizes power losses in power conversion systems.
• Reduced heat generation: Lower RDS(on) results in less heat dissipation.
• Increased power density: Enables smaller and more efficient power supply designs.
• Enhanced reliability: Robust design and testing ensure stable performance.
• Simplified design: Easy to drive and implement in various power topologies.

Additional Details

The FDD86567 has a drain-source voltage (VDS) rating of 30V and a continuous drain current (ID) rating of up to 40A (depending on the application and thermal conditions). It is available in a Power 5x6 package, which offers excellent thermal performance. The typical gate threshold voltage (VGS(th)) is around 2V. This MOSFET is particularly well-suited for synchronous rectification applications where low conduction losses are critical for achieving high efficiency. The PowerTrench® technology ensures optimal switching performance and low on-resistance. The device's thermally enhanced package allows for efficient heat dissipation, enabling it to handle higher power levels.