Visible to the public A Scalable Integrated DC/DC Converter with Enhanced Load Transient Response and Security for Emerging SoC Applications

TitleA Scalable Integrated DC/DC Converter with Enhanced Load Transient Response and Security for Emerging SoC Applications
Publication TypeConference Paper
Year of Publication2022
AuthorsLiu, Xingye, Ampadu, Paul
Conference Name2022 IEEE 65th International Midwest Symposium on Circuits and Systems (MWSCAS)
KeywordsComplexity theory, compositionality, correlation coefficient, DC/DC converter, dynamic voltage scaling, load transient response, power side-channel security, pubcrawl, Scalability, security, security scalability, side-channel attacks, system-on-chip, transient response, Voltage
AbstractIn this paper we propose a novel integrated DC/DC converter featuring a single-input-multiple-output architecture for emerging System-on-Chip applications to improve load transient response and power side-channel security. The converter is able to provide multiple outputs ranging from 0.3V to 0.92V using a global 1V input. By using modularized circuit blocks, the converter can be extended to provide higher power or more outputs with minimal design complexity. Performance metrics including power efficiency and load transient response can be well maintained as well. Implemented in 32nm technology, single output efficiency can reach to 88% for the post layout models. By enabling delay blocks and circuits sharing, the Pearson correlation coefficient of input and output can be reduced to 0.1 under rekeying test. The reference voltage tracking speed is up to 31.95 V/ms and peak load step response is 53 mA/ns. Without capacitors, the converter consumes 2.85 mm2 for high power version and only 1.4 mm2 for the low power case.
DOI10.1109/MWSCAS54063.2022.9859336
Citation Keyliu_scalable_2022