The TPCP8302(TE85L) is a sophisticated N-Channel MOSFET from Toshiba Semiconductor and Storage, specifically designed for high-efficiency power management applications. This MOSFET utilizes Toshiba's advanced U-MOS series process, enabling it to achieve low on-resistance and superior switching performance. This makes it ideal for use in DC-DC converters, load switches, and other power control circuits where energy efficiency is paramount. It's provided in a small surface mount package for ease of assembly.

Applications

• DC-DC converters
• Load switches
• Power management circuits in portable devices
• Motor control applications
• LED backlight drivers

Features

• N-Channel MOSFET: A common configuration for efficient power switching.
• Low On-Resistance (RDS(on)): Reduces power loss and improves overall efficiency.
• High-Speed Switching: Enables efficient operation at higher frequencies.
• Surface Mount Package: Facilitates compact and automated PCB assembly.
• Avalanche Rated: Provides robustness against transient voltage spikes.

Benefits

• Enhanced Efficiency: Lower on-resistance results in less power dissipation and improved energy efficiency.
• Compact Solution: Small surface mount package is ideal for space-constrained applications.
• Reliable Operation: Toshiba's stringent manufacturing standards ensure dependable performance.
• Versatile Power Control: Suitable for a wide range of power management functions.
• Increased System Reliability: Avalanche rating enhances robustness against voltage transients.

Additional Details

The TPCP8302(TE85L) typically features a gate-source voltage rating of ±20V and a drain-source voltage rating of 30V. The typical static drain-source on-resistance at VGS = 10V is 12.5 mΩ (milliohms). This MOSFET is Pb-free and RoHS compliant, ensuring adherence to environmental regulations. It is particularly well-suited for battery-powered applications where minimizing power consumption is crucial for extending battery life. The small package size and high efficiency make it a preferred choice for modern electronic designs.