Abstract
This article presents a switched-capacitor (SC)- parallel-inductor buck (CPL-Buck) converter with reduced inductor voltage and current. The proposed CPL-Buck converter reduces the voltage stress on the power inductor with a series- connected flying capacitor in one phase, alleviating the current stress with a parallel-connected SC path in both phases. There- fore, it effectively lowers the average inductor current as well as its ripple, allowing the utilization of a small-volume inductor to deliver a large output current. In addition, to cover a wide voltage conversion ratio (VCR) range, the proposed CPL-Buck is able to operate in either a sub-1/3X mode or a sub-1/2X mode. This work, fabricated in 65-nm CMOS, occupies an area of 2.72 mm 2. Measurement results show that the proposed CPL-Buck obtains a peak efficiency of 92.9% and a peak current density of 0.3 A/mm 2 with a power inductor as small as 1.6 × 0.8 × 0.8 mm3, with an input range of 3–4.2 V , an output range of 0.6–1 V , and 1.2-A maximum output current.