The exponential growth of data centers, driven by cloud computing, AI processing, and digital services, has created unprecedented power demands that challenge traditional power distribution systems.

Researchers develop a sensorless boost PFC method delivering near 0.9998 power factor and low distortion, enabling smaller and more reliable power supplies for consumer electronics. Single-phase power ...

We may receive a commission on purchases made from links. It's not uncommon to have more than one power tool brand in your garage. After all, not all tools are created equal. Some are designed for ...

A new reference design developed by ROHM Semiconductor uses a single microcontroller (MCU) to control both sides of the AC-DC power supply — the power-factor-correction (PFC) AC-DC converter stage and ...

The "North America Power Factor Correction Market by Reactive Power, Type, Sales Channel, Application, and Region - Global Trends & Forecast to 2030" report has been added to ResearchAndMarkets.com's ...

Abstract: This paper presents a real-time power factor correction controller using Arduino, aimed at improving the efficiency of electrical systems with inductive loads. By continuously monitoring the ...

A 12-kW power supply unit (PSU) “designed for production” reference design from Navitas Semiconductor targets hyperscale AI data centers with high-power rack densities of 120 kW and high-capacity EV ...

Answering the increasing power requirements of AI will require ongoing innovation in silicon power MOSFET technology. Energy usage has always been a concern for data center operators, but the ...

Abstract: Power Factor Correction (PFC) is crucial for the efficient operation of Switched Reluctance Motor (SRM) converters, as it enhances energy utilization and minimizes system losses.