STL115N10F7AG - High-Performance N-Channel MOSFET
The STL115N10F7AG is a state-of-the-art N-channel Power MOSFET from STMicroelectronics, designed to deliver high efficiency and performance for a wide range of applications. This power MOSFET is part of STMicroelectronics' STripFET™ F7 series, which is known for its low on-resistance and low gate charge, making it an ideal choice for power management tasks.
With a drain-source voltage (V<sub>DS) of 100V, the STL115N10F7AG is capable of handling high voltage operations with ease. It features a continuous drain current (I<sub>D) of 180A at 25°C, which ensures that it can support high current applications without overheating or performance loss. The device's low on-resistance of just 1.15 mΩ (max) contributes to its high efficiency, reducing power losses during operation and improving overall system reliability.
The STL115N10F7AG is also characterized by its fast switching speed, thanks to its low gate charge (Q<sub>g) of 68 nC. This makes it particularly suitable for high-frequency switching applications such as DC/DC converters, motor drives, and power supplies for computer servers. The fast switching capability helps to minimize losses during the transition periods of the MOSFET, further enhancing the efficiency of the overall system.
For thermal management, the STL115N10F7AG comes in a PowerFLAT™ 5x6 package, which not only offers a compact footprint for space-constrained applications but also provides excellent thermal performance. The package is designed to optimize heat dissipation, ensuring that the device operates within its specified temperature range even under high load conditions.
With its robust design and advanced technology, the STL115N10F7AG is a perfect choice for designers looking for a high-performance N-channel MOSFET that can improve power density and efficiency in their applications. Whether it's for industrial, automotive, or consumer electronics, the STL115N10F7AG stands out as a reliable and powerful component that can meet the demanding requirements of modern electronic systems.