The energy generation inside the human body represents a crucial aspect for powering implantable measuring circuits. In this work, a system for the electromagnetic energy harvesting, implantable in a total knee prosthesis (TKP) and capable of generating electricity from the knee movement, is presented. The energy harvesting system (EHS) is composed of two series of NdFeB magnets, located on each condyle, and a coil placed in a pivot of the tibial tray. The operating principles, design considerations and performed simulations are shown. Simulation results demonstrate that it is possible to generate an alternating voltage of maximum 600 mV. The proposed generator eliminates the batteries inside the human body and the use of techniques for the...
Converting energy from human upper limb motions into electrical energy is a challenge, as low freque...
This paper presents the design and fabrication of a rotary-impact magnetostrictive energy generator,...
Kinetic energy harvesting has been demonstrated as a useful technique for powering portable electron...
Monitoring the internal loads acting in a total knee prosthesis (TKP) is fundamental aspect to impro...
This paper describes an electromechanical generator, implantable in a human Total Knee Prosthesis (T...
This paper describes a miniaturized electromechanical generator, integrable in a human total knee pr...
International audienceEnergy harvesting inside human body is crucial for powering implantable long-t...
AbstractThis paper describes an improved micro-power electric generator where energy harvested from ...
International audienceThe goal of our paper is to quantify the electrical energy that can be harvest...
Failed hip replacements have resulted in increased demand for revision hip surgeries and rising cost...
Abstract Background Biomechanical energy harvesting–generating electricity from people during daily ...
Implantable medical devices usually require a battery to operate and this can represent a severe res...
This paper presents the principle and the energy potential of an original electromechanical generato...
We describe the preliminary optimal design of an electromechanical above-knee active prosthesis with...
We describe the preliminary optimal design of an electromechanical above-knee active prosthesis with...
Converting energy from human upper limb motions into electrical energy is a challenge, as low freque...
This paper presents the design and fabrication of a rotary-impact magnetostrictive energy generator,...
Kinetic energy harvesting has been demonstrated as a useful technique for powering portable electron...
Monitoring the internal loads acting in a total knee prosthesis (TKP) is fundamental aspect to impro...
This paper describes an electromechanical generator, implantable in a human Total Knee Prosthesis (T...
This paper describes a miniaturized electromechanical generator, integrable in a human total knee pr...
International audienceEnergy harvesting inside human body is crucial for powering implantable long-t...
AbstractThis paper describes an improved micro-power electric generator where energy harvested from ...
International audienceThe goal of our paper is to quantify the electrical energy that can be harvest...
Failed hip replacements have resulted in increased demand for revision hip surgeries and rising cost...
Abstract Background Biomechanical energy harvesting–generating electricity from people during daily ...
Implantable medical devices usually require a battery to operate and this can represent a severe res...
This paper presents the principle and the energy potential of an original electromechanical generato...
We describe the preliminary optimal design of an electromechanical above-knee active prosthesis with...
We describe the preliminary optimal design of an electromechanical above-knee active prosthesis with...
Converting energy from human upper limb motions into electrical energy is a challenge, as low freque...
This paper presents the design and fabrication of a rotary-impact magnetostrictive energy generator,...
Kinetic energy harvesting has been demonstrated as a useful technique for powering portable electron...