%0 Journal Article
%K DC power transmission
%K Power converter
%K AC-DC power conversion
%K DC-DC power conversion
%K Losses
%A Daniel L Gerber
%A Fariborz Musavi
%A Omkar Ghatpande
%A Stephen M Frank
%A Jason Poon
%A Richard E Brown
%A Wei Feng
%B Energies
%D 2021
%G eng
%N 11
%P 3131
%R 10.3390/en14113131
%T A Comprehensive Loss Model and Comparison of AC and DC Boost Converters
%U https://www.mdpi.com/1996-1073/14/11/3131https://www.mdpi.com/1996-1073/14/11/3131/pdf
%V 14
%8 06/2021
%! Energies
%X <p>DC microgrids have become a prevalent topic in research in part due to the expected superior efficiency of DC/DC converters compared to their AC/DC counterparts. Although numerous side-by-side analyses have quantified the efficiency benefits of DC power distribution, these studies all&nbsp;modeled converter loss based on product data that varied in component quality and operating voltage. To establish a fair efficiency comparison, this work derives a formulaic loss model of a DC/DC and&nbsp;an AC/DC PFC boost converter. These converters are modeled with identical components and an equivalent input and output voltage. Simulated designs with real components show AC/DC boost&nbsp;converters between 100 W to 500 W having up to 2.5 times more loss than DC/DC boost converters.&nbsp;Although boost converters represent a fraction of electronics in buildings, these loss models can&nbsp;eventually work toward establishing a comprehensive model-based full-building analysis.</p>