Add to ORKGIn this study, a wireless power transfer system for miniaturized biomedical implants has been optimized for a 1mm-diameter receiver coil. This coil is wire wound around a 7.5 mm-long ferrite core and achieves a 3.56 μH inductance. For a distance of 10 mm between the industrial primary coil and the handmade secondary coil, measurements show a coupling factor of 3% and power transmission efficiencies of 21.6%, 20.8% and 20.5% respectively for a load power consumption of 1 mW, 500 μW and 250 μW, at 1cm distance and at 1 MHz, surpassing previously-reported comparable links
In the wireless power transfer system for freely moving biomedical implants, the receiving unit was ...
Wireless power transmission is a technique that converts energy from radio frequency (RF) electromag...
In the wireless power transfer system for freely moving biomedical implants, the receiving unit was ...
In this letter, a silicon-embedded receiving coil is designed and fabricated for high-efficiency wir...
Biomedical implant devices are fast becoming a growing part of the healthcare industry. Providing po...
Biomedical implant devices are fast becoming a growing part of the healthcare industry. Providing po...
Abstract—Efficient and compact wireless power transfer (WPT) systems are proposed and designed for r...
We present a new Resonant Wireless Power Transfer system based on a geometrically optimized coil and...
We present a new Resonant Wireless Power Transfer system based on a geometrically optimized coil and...
Implantable medical devices will play an important role in modern medicine. To reduce the risk of wi...
We present a new Resonant Wireless Power Transfer system based on a geometrically optimized coil and...
Magnetic resonance-based wireless power delivery provides a harmless way for powering implantable bi...
In this research wireless power transfer using near-field inductive coupling is studied and investig...
The development of wireless power technology for biomedical implant application has accelerated over...
The development of wireless power technology for biomedical implant application has accelerated over...
In the wireless power transfer system for freely moving biomedical implants, the receiving unit was ...
Wireless power transmission is a technique that converts energy from radio frequency (RF) electromag...
In the wireless power transfer system for freely moving biomedical implants, the receiving unit was ...
In this letter, a silicon-embedded receiving coil is designed and fabricated for high-efficiency wir...
Biomedical implant devices are fast becoming a growing part of the healthcare industry. Providing po...
Biomedical implant devices are fast becoming a growing part of the healthcare industry. Providing po...
Abstract—Efficient and compact wireless power transfer (WPT) systems are proposed and designed for r...
We present a new Resonant Wireless Power Transfer system based on a geometrically optimized coil and...
We present a new Resonant Wireless Power Transfer system based on a geometrically optimized coil and...
Implantable medical devices will play an important role in modern medicine. To reduce the risk of wi...
We present a new Resonant Wireless Power Transfer system based on a geometrically optimized coil and...
Magnetic resonance-based wireless power delivery provides a harmless way for powering implantable bi...
In this research wireless power transfer using near-field inductive coupling is studied and investig...
The development of wireless power technology for biomedical implant application has accelerated over...
The development of wireless power technology for biomedical implant application has accelerated over...
In the wireless power transfer system for freely moving biomedical implants, the receiving unit was ...
Wireless power transmission is a technique that converts energy from radio frequency (RF) electromag...
In the wireless power transfer system for freely moving biomedical implants, the receiving unit was ...