Negative buck converters are increasingly used to “step down” (by absolute value) negative voltages. The main reason behind the increasing demand is the standardization of switching transformers, ...

The most common switching-power topology is a buck converter, which efficiently transforms high voltages to low voltages. Figure 1 shows a typical buck converter in which the N-channel MOSFET, Q 1, ...

Offering light-load and noise-sensitive options, STMicroelectronics’ DCP3603 monolithic 3-A buck converter simplifies design, ...

The circuit described here is a 12-V dc to 5-V dc (±5%) switched-mode power supply (SMPS). The supply uses a 12-V input from an array of four 3-V dc, 40-mA solar cells connected in series. (The cells ...

Previously [1, 2, 3], several isolated DC-DC converter topologies were analyzed and we showed that eGaN FETs enabled significant efficiency improvements in all cases. Because buck converters, do not ...

DC to DC conversion has come a long way. What was once took an electromechanical vibrator and transformer has been reduced to a PC board the size of a largish postage stamp that can be had for a ...

As electronics become more advanced, the need for efficient power management increases. One crucial element of power management is the DC-DC converter, which is a device that converts DC voltage from ...

Designing a circuit is a lot easier on paper, where components have well-defined values, or lacking that, at least well-defined tolerances. Unfortunately, even keeping percentage tolerances in mind ...