Optimal Frequency Operating Points for Hybrid Switched Capacitor Converters and Lossless Current Sense Method

Data center electricity consumption has been increasing rapidly in the last few years as computation moved into cloud computing [1]. With the introduction of the 48 V power delivery architecture, powering digital loads (CPUs, GPUs, ASICs, . . .) is typically accomplished by means of a two-stages approach. Most commonly, the regulation is established at second-stage level, with an unregulated first stage. In general, the first stage is made with a fixed ratio dc-dc converter, such as LLC or Hybrid Switched Capacitor (HSC) converter. In this paper a novel optimal frequency feed-forward control and a lossless current sense methods are presented for HSC converters. The goal of the feed-forward method is to optimize the converter efficiency over the entire input voltage range, by tracking the optimal operating point. Experimental results for an HSC 5:1 750 W prototype in down-solution 18 x 47.5 x 7 mm are showing the effectiveness of the proposed approach.