A 93% Peak Efficiency Fully-Integrated Multilevel Multistate Hybrid DC–DC Converter

Abstract

The general structure of a multilevel multistate dc–dc converter is introduced, which is a hybrid between inductor-based (buck) converters and capacitor-based (switched capacitor) converters. The control of the new converter is hybrid between switched capacitor converters and buck converters, where the coarse tuning of the output voltage is achieved through the selection of an appropriate operating region similar to an SC converter, while fine tuning is achieved through the adjustment of a duty cycle value similar to a buck converter. A silicon implementation of a four-level four-state hybrid converter is presented as a specific example of the general hybrid converter structure. A new state interleaving technique was employed resulting in an increased effective switching frequency of the converter. Silicon measurements of the integrated four-level four-state converter on a 65-nm GF technology show that the converter can cover a wide range of output voltage values achieving a peak efficiency of 93% with a power density of 47 mW/mm2. The implemented converter attains a response time in the sub- ${\mu }\text{s}$ range with output voltage ripples below 50 mV.