This paper proposes an integrated regulated resonant switched-capacitor DC-DC converter for a 2.5 V to 1.2 V, 3 A conversion designed in a 130 nm CMOS technology. The voltage is regulated through a combined frequency/time shift on-chip controller that operates thanks to a zero-crossing detector for the tank current. By using such control technique, an output voltage greater than $V_{in}/2$ can be reached. The integrated circuit also implements a medium-load and a light-load control modes that maximize the efficiency at every load condition. The external resonant tank is composed of a 12 nH air-core inductor and a 4.7 μF capacitor in a 0805 package, achieving high power density. In this paper, the operation principle and the control techniqu...
This paper reviews and discusses the state of the art of integrated switched-capacitor and integrate...
This thesis is motivated by the desire for power electronics designers to create power electronic co...
International audienceSwitched capacitor (SC) converters inherent losses limit the achievement of hi...
Part I: Resonant Switched-capacitor Converters with Wide Line Regulation Range The traditional s...
High Power Density 4:1 Resonant Switched-Capacitor DC-DC Converter for PoL Application
The traditional inductor-based buck converter has been the default design for switched-mode voltage ...
In this paper, we propose a fully integrated switched-capacitor (SC) DC-DC converter with hybrid out...
This paper provides a perspective on progress toward realization of efficient, fully integrated dc-d...
International audienceThe integration of power supplies has the potential to reduce the form factor ...
As parallelism increases the number of cores integrated onto a chip, there is a clear need for fully...
Mobile, wearable, and internet of things (IOT) electronic systems are typically powered by a single ...
This thesis presents a fully integrated switched capacitor DC/DC converter for System on Chip applic...
Resonant switched-capacitors converters (ReSCC) are becoming an attractive alternative to traditiona...
International audienceThe full integration of DC-DC converters offers great promise for dramatic red...
This paper presents a fully integrated on-chip switched-capacitor (SC) DC–DC converter that supports...
This paper reviews and discusses the state of the art of integrated switched-capacitor and integrate...
This thesis is motivated by the desire for power electronics designers to create power electronic co...
International audienceSwitched capacitor (SC) converters inherent losses limit the achievement of hi...
Part I: Resonant Switched-capacitor Converters with Wide Line Regulation Range The traditional s...
High Power Density 4:1 Resonant Switched-Capacitor DC-DC Converter for PoL Application
The traditional inductor-based buck converter has been the default design for switched-mode voltage ...
In this paper, we propose a fully integrated switched-capacitor (SC) DC-DC converter with hybrid out...
This paper provides a perspective on progress toward realization of efficient, fully integrated dc-d...
International audienceThe integration of power supplies has the potential to reduce the form factor ...
As parallelism increases the number of cores integrated onto a chip, there is a clear need for fully...
Mobile, wearable, and internet of things (IOT) electronic systems are typically powered by a single ...
This thesis presents a fully integrated switched capacitor DC/DC converter for System on Chip applic...
Resonant switched-capacitors converters (ReSCC) are becoming an attractive alternative to traditiona...
International audienceThe full integration of DC-DC converters offers great promise for dramatic red...
This paper presents a fully integrated on-chip switched-capacitor (SC) DC–DC converter that supports...
This paper reviews and discusses the state of the art of integrated switched-capacitor and integrate...
This thesis is motivated by the desire for power electronics designers to create power electronic co...
International audienceSwitched capacitor (SC) converters inherent losses limit the achievement of hi...