This article presents the 2nd part of the switching regulator topologies, which will cover the buck/boost discontinuous and continuous mode. It will also describe the synchronous and asynchronous ...

Buck converters, as a fundamental class of DC–DC converters in power electronics, exhibit complex dynamical behaviours arising from their intrinsic switching operations. The interplay between ...

The following is Chapter 4, part three of a five part series “Some thoughts on DC/DC converters” by the late Jim Williams and Brian Huffman from Linear Technology's Volume II book entitled, “Analog ...

Fig 1. The buck converter schematic shows the voltage feedback loop and the fast peak CMC loop. The current waveform as seen by the shunt is the dominant signal at the ramp of the PWM comparator. Fig ...

For the PDF version of this article, click here. Let's return to the question, “Why Have an Air Gap?” initially posed in the Power Design article in the December 2002 issue of Power Electronics ...

The LTC7150S is a 20V, 20A monolithic synchronous buck converter with differential VOUT remote sensing. The device’s phase lockable controlled on-time constant frequency current mode architecture ...