Add to ORKGThis work is about modeling a readout system across narrow gaps using inductive means for a contact-less transfer of signal. The signal source could be devices implanted in humans or animals or even devices embedded buried in inaccessible locations for monitoring purposes, while the readout devices are normally in accessible locations in the external world. This work focuses on modeling the coupled coils used in the inductive coupling technique. The input impedance of the simplified model of the coupled coils as seen from the external readout circuit is derived. This impedance is plotted as a function of frequency for finding the points, at which the two coils get resonated, allowing signal transfer with a maximum strength. The preliminary ...
In this paper, we present a new approach for wireless link modeling in inductively powered microsys...
This paper reports wireless sensing of open loop micro inductors parameters i.e. distributed capacit...
Monolithic fabrication and advancements in MEMS and nanotechnology have made biomedical implants mo...
This work is about modeling a readout system across narrow gaps using inductive means for a contact-...
Powering implantable low wattage biomedical devices and sensors through non-contact means is on the ...
Recent technological advancements in sensors and conditioning electronics are finding applications i...
Considering the massive development that took place in the past two decades, wireless power transfer...
Coil-coupled passive sensors can be interrogated without contact, exploiting the magnetic coupling b...
This paper proposes an inductive coupled wireless power transfer system that analyses the relationsh...
Coil-coupled passive sensors can be interrogated without contact, exploiting the magnetic coupling b...
The readout methods for inductively coupled resonance sensors were simulated using a lumped element ...
The use of wireless communication using inductive links to transfer data and power to implantable mi...
Magnetic resonance coupling circuit is used in the inductive resonance based wireless power transfer...
<p>(a) Matching and signal pick-up coil and receiving coils. Two additional capacitors were soldered...
Transducers and sensors play an important role in instrumentation and measurement. Expectations fro...
In this paper, we present a new approach for wireless link modeling in inductively powered microsys...
This paper reports wireless sensing of open loop micro inductors parameters i.e. distributed capacit...
Monolithic fabrication and advancements in MEMS and nanotechnology have made biomedical implants mo...
This work is about modeling a readout system across narrow gaps using inductive means for a contact-...
Powering implantable low wattage biomedical devices and sensors through non-contact means is on the ...
Recent technological advancements in sensors and conditioning electronics are finding applications i...
Considering the massive development that took place in the past two decades, wireless power transfer...
Coil-coupled passive sensors can be interrogated without contact, exploiting the magnetic coupling b...
This paper proposes an inductive coupled wireless power transfer system that analyses the relationsh...
Coil-coupled passive sensors can be interrogated without contact, exploiting the magnetic coupling b...
The readout methods for inductively coupled resonance sensors were simulated using a lumped element ...
The use of wireless communication using inductive links to transfer data and power to implantable mi...
Magnetic resonance coupling circuit is used in the inductive resonance based wireless power transfer...
<p>(a) Matching and signal pick-up coil and receiving coils. Two additional capacitors were soldered...
Transducers and sensors play an important role in instrumentation and measurement. Expectations fro...
In this paper, we present a new approach for wireless link modeling in inductively powered microsys...
This paper reports wireless sensing of open loop micro inductors parameters i.e. distributed capacit...
Monolithic fabrication and advancements in MEMS and nanotechnology have made biomedical implants mo...