Why do LED displays still feel limited? A design approach removes size, wiring, and power limits, helping engineers build displays faster.

These displays make operation clear, show information, connect with controllers, and let factories set up custom screens fast.

The research demonstrates a practical method for overcoming a long standing bottleneck in quantum computing, bringing closer ...

A new class of compact, high-power rack mount industrial supplies has emerged, promising hot-swap redundancy and easy system ...

By stacking diamond with a 2D material, researchers create compact, high-voltage electronics capable of thriving in extreme ...

Designed for dense 5G deployments, a compact power amplifier reduces radio unit power draw without sacrificing performance.

Save energy and make power systems work without changing boards. See how 1200 V SiC MOSFET modules handle high-speed power.

A research team has announced a breakthrough in impedance control for collaborative robots (cobots), tackling a persistent ...

Designed for higher voltage systems, the 200V BCD process enables compact, efficient power ICs for EV platforms and AI data centers.

Tiny 3D devices can now be made from many materials. This method can create micro-robots, sensors & small machines with new functions.

Stanford researchers unveil an efficient chip-scale optical amplifier that could transform data communications, biosensing, and mobile tech.

A wearable lens with wireless sensors tracks intraocular pressure continuously, offering ultra-sensitive, non-invasive ...