This paper presents a fully-integrated self-powered interface circuit for efficient rectification of the signals generated by vibration based low-voltage electromagnetic (EM) energy harvesters. The circuit utilizes an improved AC/DC doubler structure with active diodes to minimize the forward bias voltage drop for enhancing the rectifier efficiency. The comparators in the active diodes are powered internally by another passive AC/DC doubler with diode connected transistors. The performance is maximized through custom-designed comparators for each of the positive and negative terminals of the dual rail output. Measurement results show that the system is capable of driving 40 μA load at 0.61 V, with 67% power conversion efficiency, when opera...
In this paper a 90 nm power management circuit for vibration based electromagnetic energy harvesters...
Energy harvesting is an emerging technology with applications to handheld, portable and implantable ...
In this paper we present an interface circuit designed to match low-power and low-voltage harvesters...
This paper presents an interface circuit for efficient rectification of voltages from electromagneti...
This paper presents a fully integrated and battery-free 90 nm interface circuit for ac/dc conversion...
This paper presents a vibration-based electromagnetic (EM) energy harvester system utilizing novel a...
This paper presents a self-powered interface enabling battery-like operation with a regulated 3 V ou...
AbstractA compact vibration-based electromagnetic (EM) energy harvesting system utilizing high perfo...
This paper presents a compact energy harvesting system, which consists of an electromagnetic (EM) ge...
This paper presents a fully self-powered low voltage and low power active rectifier circuit for vibr...
This paper presents a new self-powered low voltage rectifier implementation for vibration-based elec...
A compact vibration-based electromagnetic (EM) energy harvesting system utilizing high performance i...
For many years batteries have been used as the main power sources for portable electronic devices. H...
A battery-less energy harvesting interface circuit to extract electrical energy from vibration has b...
This paper presents novel circuit concepts for integrated rectifiers and voltage converting interfac...
In this paper a 90 nm power management circuit for vibration based electromagnetic energy harvesters...
Energy harvesting is an emerging technology with applications to handheld, portable and implantable ...
In this paper we present an interface circuit designed to match low-power and low-voltage harvesters...
This paper presents an interface circuit for efficient rectification of voltages from electromagneti...
This paper presents a fully integrated and battery-free 90 nm interface circuit for ac/dc conversion...
This paper presents a vibration-based electromagnetic (EM) energy harvester system utilizing novel a...
This paper presents a self-powered interface enabling battery-like operation with a regulated 3 V ou...
AbstractA compact vibration-based electromagnetic (EM) energy harvesting system utilizing high perfo...
This paper presents a compact energy harvesting system, which consists of an electromagnetic (EM) ge...
This paper presents a fully self-powered low voltage and low power active rectifier circuit for vibr...
This paper presents a new self-powered low voltage rectifier implementation for vibration-based elec...
A compact vibration-based electromagnetic (EM) energy harvesting system utilizing high performance i...
For many years batteries have been used as the main power sources for portable electronic devices. H...
A battery-less energy harvesting interface circuit to extract electrical energy from vibration has b...
This paper presents novel circuit concepts for integrated rectifiers and voltage converting interfac...
In this paper a 90 nm power management circuit for vibration based electromagnetic energy harvesters...
Energy harvesting is an emerging technology with applications to handheld, portable and implantable ...
In this paper we present an interface circuit designed to match low-power and low-voltage harvesters...