Figure 1. Using a high-side current monitor (U2) to generate a proportional feedback voltage, this synchronous boost converter (U1) shifts automatically between its high-power and low-power modes of ...

Global warming, air pollution, and other environmental impacts from fuel-based vehicles and industrial outputs have accelerated the shift toward electric vehicles (EVs) and renewable energy solutions.

In this work, we focus on exploring the capabilities and limitations of TFT technology to enable Watt-level power delivery by means of one vital power delivery circuit block, the boost DC-DC converter ...

A high-efficiency buck-boost DC-DC converter was developed by the research team headed by Prof. CHENG Lin from the School of Microelectronics at the University of Science and Technology of China (USTC ...

The combination of the Renesas two-phase synchronous GaN boost controller with ultra-efficient eGaN ® FETs from EPC (Efficient Power Conversion) enables high power density and low-cost DC-DC ...

Traditional synchronous boost converters offer little to no protection against short-circuit events at the output. Due to the boost converter’s topology, when the output is shorted to ground, a direct ...

Texas Instruments rolled out a new buck-boost converter with advanced power management that it said can boost the battery life of industrial and consumer Internet of Things devices by over 50%.

TDK has launched a new series of non-isolated DC-DC converters designed to improve efficiency and thermal performance in industrial and battery-powered applications. Buck-boost DC-DC converters for ...

A series of 150- and 200-V HEXFET power MOSFETs increases efficiency by up to 1% in 48-V input isolated dc-dc converters. The MOSFETs provide optimized device on-resistance and gate charge ...