Abstract—This paper presents the use of Class-E oscillators as inductive power transmitters for implanted telemetry devices that transmit information sensed by biosensors. Several Class-E oscillators were compared with an equivalent Class-E amplifier, showing higher efficiency while maintaining frequency clarity, stability and accuracy. Energy has been successfully transferred to a receiving inductor 1.5cm away, which was rectified to produce a 1VDC signal. I
The paper shows the design of microelectronic circuits composed of an oscillator, a modulator, a tra...
Implantable medical devices provide therapy to treat numerous health conditions as well as monitorin...
This master thesis investigates how implantable devices can operate without the use of internal batt...
This paper presents the use of Class-E oscillators as inductive power transmitters for implanted tel...
This paper develops the concept of Class-E self oscillation for wireless power delivery to implantab...
This paper deals with the modified wireless power transmission system for biomedical implanted devic...
The popular use of biomedical implants has been going on in numerous applications that include the u...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
In this paper, the design of a wireless power transfer system (WPT) targeting biomedical implants is...
Research Doctorate - Doctor of Philosophy (PhD)Ageing populations in the developed world are perhaps...
Inductive powering for implanted medical devices, such as implantable biosensors, is a safe and effe...
In this article, we propose a strategy for the design of a wireless power transfer system consisting...
In this work a 2 MHz on-off keying (OOK) transmitter/receiver for inductive power and data transmiss...
The design and implementation of a wireless power and data transfer system based on inductive coupli...
Wireless power transmission is a technique that converts energy from radio frequency (RF) electromag...
The paper shows the design of microelectronic circuits composed of an oscillator, a modulator, a tra...
Implantable medical devices provide therapy to treat numerous health conditions as well as monitorin...
This master thesis investigates how implantable devices can operate without the use of internal batt...
This paper presents the use of Class-E oscillators as inductive power transmitters for implanted tel...
This paper develops the concept of Class-E self oscillation for wireless power delivery to implantab...
This paper deals with the modified wireless power transmission system for biomedical implanted devic...
The popular use of biomedical implants has been going on in numerous applications that include the u...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
In this paper, the design of a wireless power transfer system (WPT) targeting biomedical implants is...
Research Doctorate - Doctor of Philosophy (PhD)Ageing populations in the developed world are perhaps...
Inductive powering for implanted medical devices, such as implantable biosensors, is a safe and effe...
In this article, we propose a strategy for the design of a wireless power transfer system consisting...
In this work a 2 MHz on-off keying (OOK) transmitter/receiver for inductive power and data transmiss...
The design and implementation of a wireless power and data transfer system based on inductive coupli...
Wireless power transmission is a technique that converts energy from radio frequency (RF) electromag...
The paper shows the design of microelectronic circuits composed of an oscillator, a modulator, a tra...
Implantable medical devices provide therapy to treat numerous health conditions as well as monitorin...
This master thesis investigates how implantable devices can operate without the use of internal batt...