Data center power demands are growing fast. To address this situation, next-generation data centers are moving to 48 V bus architectures to reduce distribution loss on the bus bar of server racks. One important research topic regarding this architecture is stepping down from 48 V to the point-of-load voltage, which is usually implemented by an intermediate bus converter followed by a voltage regulator, with the benefits of high efficiency and reutilization of 12 V legacy systems.Many topologies have been explored for the 48-to-12 V intermediate bus applications, such as inductor-based converters. However, since capacitors have higher energy densities compared with inductors, switched-capacitor based converters have the potential to achieve higher power density and have gained increasing attention in performance-driven applications. Integrating resonant conductors into cascaded switch-capacitor converters further improves performance.To address this potential, researchers at UC Berkeley developed a novel resonant switched-capacitor based converter. The Berkeley converter uses a simple structure and operation principle, and has the potential to achieve dramatic efficiency and power density improvement over existing leading alternatives.