In the dynamic world of engineering design, the escalating requirements placed on power systems frequently give rise to intricate design challenges. The evolving landscape of DC power systems ...

National navies use equipment ranging from ships and helicopters to munitions and all-terrain ground vehicles. Professionals who create these essential defense products must overcome numerous ...

Applications for the Internet of Things (IoT) are created on smart, networked, and most likely battery-powered electronic devices that send pre-processed data to a cloud-based infrastructure. An IoT ...

Demand for smaller and smaller medical devices is growing, driving innovation and standards, while creating new challenges for motion system design engineers. Microsurgery, diagnostic imaging, ...

As data speeds push into the multi-gigabit range and requirements on digital systems grow more complex, cutting down the time-to-market while also ensuring error-free reliable designs seems impossible ...

Explore the future of IC design with the Calibre Shift left initiative. In this paper, author David Abercrombie reveals how Siemens is changing the game for block/chip design-stage verification by ...

Build a low-power smart sensor system with a tailored board, MOSFET switching, and ESP32 deep sleep, giving up to 1.7 years usage between charges ...

Why genAI is so power-hungry. Why conventional power architectures are ill-equipped to manage rising AI data-center energy requirements. How a promising new approach to power delivery can help ...

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

Ships are designed to operate for decades—often up to 50 years or more. While routine repairs and sometimes major retrofits are expected throughout that lifespan, these vessels must be engineered from ...