Infineon IPD30N03S4L-09: High-Performance N-Channel MOSFET for Power Management Applications
The Infineon IPD30N03S4L-09 is a state-of-the-art N-channel power MOSFET engineered to deliver exceptional efficiency and reliability in a wide array of power management applications. As electronic systems demand higher power density and improved thermal performance, this component stands out as a robust solution for designers.
A key feature of this MOSFET is its exceptionally low on-state resistance (RDS(on)) of just 3.0 mΩ (max). This ultra-low resistance is critical for minimizing conduction losses, which directly translates to higher system efficiency and reduced heat generation. This makes the device ideal for high-current switching tasks where energy savings and thermal management are paramount.
Built using Infineon's advanced OptiMOS™ technology, the IPD30N03S4L-09 offers superior switching performance and enhanced ruggedness. The technology ensures a low gate charge (Qg), which allows for faster switching speeds and reduces driving losses in the controller circuit. This is particularly beneficial in high-frequency switch-mode power supplies (SMPS), DC-DC converters, and motor control systems where switching efficiency is crucial.
Housed in a compact SuperSO8 package, this MOSFET provides an excellent power-to-size ratio. The package's superior thermal characteristics ensure effective heat dissipation, supporting sustained operation under high load conditions. Its design is optimized for automated assembly processes, making it a suitable choice for space-constrained modern electronics.
Furthermore, the device boasts a strong avalanche ruggedness and is 100% tested for repetitive avalanche events, guaranteeing high reliability and longevity in demanding environments. This makes it a trusted component for automotive applications, industrial automation, and power infrastructure.
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In summary, the Infineon IPD30N03S4L-09 is a high-performance MOSFET that combines low RDS(on), fast switching, and excellent thermal performance in a small footprint. It is an optimal choice for engineers focused on creating efficient, compact, and reliable power management systems.
Keywords: OptiMOS™, Low RDS(on), Power Management, SuperSO8, High Efficiency.
