This paper presents the design of a dual-output reconfigurable buck-boost switched capacitor converter architecture that can be adapted for applications requiring multiple, distributed on-chip loads. This system uses adaptive gain control and discrete frequency scaling to regulate power delivered. Core-interleaving and an enhanced load regulation scheme have also been adopted to improve performance. The converter provides a fully-integrated, low-area and fully digital solution. Design and implementation using a standard bulk CMOS 0.18μm process provide simulation results showing that the converter has an output voltage range of 1.0-2.2V, can deliver up to 5mA in load current and is up to 67% efficient
Advances in manufacturing, transportation, and portable computing have created the need for small, h...
Multiple voltage conversion ratio (VCR) recursive switched-capacitor (SC) DC-DCconverters, based on ...
Abstract—Dynamic voltage and frequency scaling (DVFS) is a powerful technique to reduce power consum...
The traditional inductor-based buck converter has been the default design for switched-mode voltage ...
Advances in modern electronic technologies have given rise to portable devices that require better p...
This paper presents the design of a reconfigurable buck-boost switched-capacitor DC-DC converter sui...
In this paper, a power-efficient multiphase Recursive Switched Capacitor (RSC) converter is presente...
Switched-capacitor (SC) DC-DC converters provide a viable solution for on-chip DC-DC conversion as a...
A high efficiency all-CMOS switched-capacitor DC-DC converter (SC DC-DC) with frequency, switch size...
Since the smart grid is a complex system of metering nodes for power lines that is comprised of thou...
Recent portable electronic technologies require the power management circuit be efficient, small and...
Abstract — An on-chip buck converter which is implemented by stacking chips and which is suitable fo...
Switched-capacitor converters and their alternatives have been shown to provide high efficiency with...
Abstract — Dynamic voltage and frequency scaling (DVFS) is a powerful technique to reduce power cons...
This paper presents a fully integrated on-chip switched-capacitor (SC) DC–DC converter that supports...
Advances in manufacturing, transportation, and portable computing have created the need for small, h...
Multiple voltage conversion ratio (VCR) recursive switched-capacitor (SC) DC-DCconverters, based on ...
Abstract—Dynamic voltage and frequency scaling (DVFS) is a powerful technique to reduce power consum...
The traditional inductor-based buck converter has been the default design for switched-mode voltage ...
Advances in modern electronic technologies have given rise to portable devices that require better p...
This paper presents the design of a reconfigurable buck-boost switched-capacitor DC-DC converter sui...
In this paper, a power-efficient multiphase Recursive Switched Capacitor (RSC) converter is presente...
Switched-capacitor (SC) DC-DC converters provide a viable solution for on-chip DC-DC conversion as a...
A high efficiency all-CMOS switched-capacitor DC-DC converter (SC DC-DC) with frequency, switch size...
Since the smart grid is a complex system of metering nodes for power lines that is comprised of thou...
Recent portable electronic technologies require the power management circuit be efficient, small and...
Abstract — An on-chip buck converter which is implemented by stacking chips and which is suitable fo...
Switched-capacitor converters and their alternatives have been shown to provide high efficiency with...
Abstract — Dynamic voltage and frequency scaling (DVFS) is a powerful technique to reduce power cons...
This paper presents a fully integrated on-chip switched-capacitor (SC) DC–DC converter that supports...
Advances in manufacturing, transportation, and portable computing have created the need for small, h...
Multiple voltage conversion ratio (VCR) recursive switched-capacitor (SC) DC-DCconverters, based on ...
Abstract—Dynamic voltage and frequency scaling (DVFS) is a powerful technique to reduce power consum...