Keying (PWM-ASK) in biomedical implants enables the si-multaneous transmission of wireless energy as well as data using a single inductive link. This paper approaches Pulse-Width Modulated Amplitude-Shift Keying (PWM-ASK) from a communication theory point of view. It provides a design methodology to obtain high data rate while maintaining an optimal BER (Bit Error Rate), and optimal power transfer in biomedical implants. Index Terms—Pulse-Width Modulation Amplitude-Shift Key-ing, PWM-ASK, biomedical implants, wireless power
This paper deals with the modified wireless power transmission system for biomedical implanted devic...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
To date, there are no clinically available cortical neural implants which wirelessly transmit the fu...
Using Pulse-Width Modulation Amplitude-Shift Keying (PWM-ASK) in biomedical implants enables the sim...
peer reviewedBiomedical implanted systems require wireless technology to transfer data and power to ...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
Abstract—This paper examines short-range wireless power-ing for implantable devices and shows that e...
[[abstract]]Bio-medical implantable devices have appeared for more than fifty years. With more under...
Implanted medical devices are very important electronic devices because of their usefulness in monit...
Power delivery for biomedical implants is a major consideration in their design for both measurement...
Recently there has been a lot of attention to the development of battery less implantable electronic...
This paper deals with designing a simple and efficient simultaneous inductive power and data transmi...
Wireless power transmission is a technique that converts energy from radio frequency (RF) electromag...
Wireless power and data communication systems in implantable medical devices (IMDs) are developed to...
Abstract—A high data-rate frequency-shift keying (FSK) modu-lation protocol, a wideband inductive li...
This paper deals with the modified wireless power transmission system for biomedical implanted devic...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
To date, there are no clinically available cortical neural implants which wirelessly transmit the fu...
Using Pulse-Width Modulation Amplitude-Shift Keying (PWM-ASK) in biomedical implants enables the sim...
peer reviewedBiomedical implanted systems require wireless technology to transfer data and power to ...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
Abstract—This paper examines short-range wireless power-ing for implantable devices and shows that e...
[[abstract]]Bio-medical implantable devices have appeared for more than fifty years. With more under...
Implanted medical devices are very important electronic devices because of their usefulness in monit...
Power delivery for biomedical implants is a major consideration in their design for both measurement...
Recently there has been a lot of attention to the development of battery less implantable electronic...
This paper deals with designing a simple and efficient simultaneous inductive power and data transmi...
Wireless power transmission is a technique that converts energy from radio frequency (RF) electromag...
Wireless power and data communication systems in implantable medical devices (IMDs) are developed to...
Abstract—A high data-rate frequency-shift keying (FSK) modu-lation protocol, a wideband inductive li...
This paper deals with the modified wireless power transmission system for biomedical implanted devic...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
To date, there are no clinically available cortical neural implants which wirelessly transmit the fu...