Abstract

Efficient power delivery architecture is gaining more attention in the design of future generations of data centers in order to minimize the ever increasing trend of power consumption. Silicon-based power delivery architectures and designs have already reached a level of maturity in terms of efficiency and density. Recent studies indicate that 48-V voltage regulator modules (VRMs), instead of 12-V VRMs, are deemed a more efficient and cost effective architecture. In this paper a Gallium Nitride (GaN) based design of a two-stage solution is proposed. The first stage is a 48 V/12 V-250 W LLC converter with a matrix transformer design operating at 1.6 MHz with a peak efficiency of 97.3% and a power density of 870 W/in3. The second stage is a 12/1.8 V multiphase buck converter which can be either a conventional silicon-based or a GaN-based design with a higher operating frequency and power density. Furthermore, in this proposed two-stage architecture, a novel light load improvement mechanism is proposed by dynamically changing the bus voltage from 12 to 6 V during light load by which the system can achieve a more than 8% efficiency improvement.

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