Power density plays a critical role in making power electronic systems smaller, more efficient, and more cost-effective. As power density increases, so does the heat generated inside a device.

Discover how heat resistant materials and material science innovations help electronics manufacturing manage rising temperatures, boost reliability, and enable smaller, more powerful next‑generation ...

In an exclusive interview with TI’s director of power management R&D, we explore the role of advanced packaging in low-voltage power electronics. From state-of-the-art materials and process technology ...

Imagine a future where electric vehicle charging stations or AI data center power supply systems can be built like LEGO bricks — small, stackable units that can expand as demand grows. Luca Corradini, ...

Atomic force microscopy (AFM) shows the surface of the TaC thin film before and after annealing at high temperatures. The initial film surface is composed of many columnar grains, whereas after ...

The world of power electronics has changed over the decades as the products they power have evolved. For several decades, it was PCs and servers. Then, a massive influx of portable electronics, ...

Real-time simulation of power electronic systems represents a transformative advance in both academic research and industrial application. By utilising hardware platforms such as field programmable ...

Chiplets have generated a lot of interest in recent years as design engineers look for alternatives to traditional system-on-chip technology to house complex, multi-function electronics. At the ...