This thesis describes a hybrid step-down dc-dc converter, which, compared to conventional buck, provides a lower volume solution in battery-powered portable applications. The new architecture combines a switched-capacitor and conventional buck converter such that the size of the inductor is reduced. Moreover, the introduced topology improves efficiency by up to a 5% compared to a conventional buck. The results are verified with an experimental prototype. The thesis also compares the introduced topology with state of the art step-down topologies using an optimization tool that generates the highest efficiency solutions for a given volume constraint.M.A.S
In this dissertation, we develop and explore very-high-performance power conversion systems for emer...
The need for reduced size DC-DC converters together with the importance of EMI regulations in the au...
In today's highly information-based society, portable smart devices are helping everyone all the tim...
This thesis describes a hybrid step-down dc-dc converter, which, compared to conventional buck, prov...
The number of mobile device users increases every year. Each mobile device is usually equipped with ...
The continual increase in performance and feature densities of small form factor mobile products has...
As the size of the electronics in mobile and IoT devices scales down while performance demands scale...
This thesis introduces a power management architecture (PMA) and its on-chip implementation, designe...
Hybrid DC-DC converter topologies, combining inductor-based switching cells with Switched-Capacitor ...
The paper presents a high voltage conversion ratio DC-DC step-down topology obtained from a classica...
© 2020 John Wiley & Sons, Ltd. This paper presents a new family of extendible hybrid and nonhybrid...
Abstract—This paper presents a bidirectional dc–dc converter for use in low power applications. The ...
In this thesis we seek to develop smaller, less expensive, and more efficient power electronics. We ...
Switched-mode power supplies (SMPS) are widely used as the voltage or current regulators for electro...
Power conversion circuits are essential components in every electronic device from laptops and cellp...
In this dissertation, we develop and explore very-high-performance power conversion systems for emer...
The need for reduced size DC-DC converters together with the importance of EMI regulations in the au...
In today's highly information-based society, portable smart devices are helping everyone all the tim...
This thesis describes a hybrid step-down dc-dc converter, which, compared to conventional buck, prov...
The number of mobile device users increases every year. Each mobile device is usually equipped with ...
The continual increase in performance and feature densities of small form factor mobile products has...
As the size of the electronics in mobile and IoT devices scales down while performance demands scale...
This thesis introduces a power management architecture (PMA) and its on-chip implementation, designe...
Hybrid DC-DC converter topologies, combining inductor-based switching cells with Switched-Capacitor ...
The paper presents a high voltage conversion ratio DC-DC step-down topology obtained from a classica...
© 2020 John Wiley & Sons, Ltd. This paper presents a new family of extendible hybrid and nonhybrid...
Abstract—This paper presents a bidirectional dc–dc converter for use in low power applications. The ...
In this thesis we seek to develop smaller, less expensive, and more efficient power electronics. We ...
Switched-mode power supplies (SMPS) are widely used as the voltage or current regulators for electro...
Power conversion circuits are essential components in every electronic device from laptops and cellp...
In this dissertation, we develop and explore very-high-performance power conversion systems for emer...
The need for reduced size DC-DC converters together with the importance of EMI regulations in the au...
In today's highly information-based society, portable smart devices are helping everyone all the tim...