This article is part of our exclusive IEEE Journal Watch series in partnership with IEEE Xplore. Two semiconductors—silicon carbide and gallium nitride—are the rivals in a (quite literally) heated ...

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

A technical paper titled “Materials for High Temperature Digital Electronics” was published by researchers at University of Pennsylvania, Air Force Research Laboratory, and Ozark Integrated Circuits. ...

Tsukuba, Japan—Silicon (Si) semiconductors are ubiquitous in electrical appliances and play an essential role in our daily lives. However, in high-temperature environments exceeding 300°C, such as ...

Memories, both volatile and non-volatile are a critical element in various computing and logic devices, since that is where the data lives that is being processed. The mass market for memory ...

FormFactor (www.formfactor.com) has introduced a test platform for automotive devices that can reduce wire bond or system-on-chip device pad pitch as low as 60µm, increase the number of die tested in ...

This new organic thermoelectric device can convert room temperature heat, which is abundant in living environments and was previously not considered a possible energy source, into usable electrical ...

Unpacking the challenges with high-voltage power conversion and how SiC fits in. The pivotal advantages of SiC over traditional silicon in next-gen power converters. Rethinking circuit design for ...