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Fully Integrated Wide Input Voltage Range Capacitive DC-DC Converters: The Folding Dickson Converter

Journal Contribution - Journal Article

This paper presents a modified Dickson converter to achieve wide input range capacitive DC-DC converters. Several implementations are carefully studied and compared, which shows that the folding Dickson converter is the best choice, not only for its reduced dynamic losses, but also for its very regular structure and operation. Folding is achieved by merging the terminals of two or more flying capacitors, creating one equivalent flying capacitor. In this design, a four stage folding Dickson converter is implemented to achieve four different voltage conversion ratios. A Bootstrapped Gate Boost Converter (BGBC) is proposed which uses a bootstrapping technique to generate a floating rail for the flying switches, whose terminal voltages vary by large amounts depending on input voltage and VCR. The inherent operation of the Dickson topology is used by copying the voltage of the flying capacitors on a grounded capacitor in one phase, which can then be used to generate a floating 1.2V in the second phase. The converter has been implemented in a 90nm technology, achieving a maximum output power of 50mW, peak efficiency of 76.6% in the 2:1 conversion mode, and an average efficiency above 60% over the entire Vin and Pout range.
Journal: IEEE Journal of Solid-State Circuits
ISSN: 0018-9200
Issue: 7
Volume: 50
Pages: 1560 - 1570
Publication year:2015
BOF-keylabel:yes
IOF-keylabel:yes
BOF-publication weight:3
CSS-citation score:2
Authors from:Higher Education
Accessibility:Open