6533b855fe1ef96bd12b1bc1

RESEARCH PRODUCT

Transcutaneous transfer energy system designing for electronic pills

E.j.s. DinizK. DastooriMohan Kolhe

subject

Electromagnetic fieldEngineeringbusiness.industryApplied MathematicsElectrical engineeringCondensed Matter PhysicsPower (physics)Transmission (telecommunications)Electronic engineeringWorkbenchElectronicsElectric powerElectrical and Electronic EngineeringSpiral (railway)businessInstrumentationVoltage

description

Abstract This paper proposes a system capable of transcutaneous electric power delivery by means of a non-guided electromagnetic field, suitable for electronic pill technology to be continually powered without the limitations imposed by batteries. This system consists of a Class-E power oscillator, with a crystal-based feedback network to compensate automatically for changes in the operational frequency, multi-turn spiral coupled coils and a power recovery circuit providing a stable output voltage. The synthesis procedure is based on designing equations for optimizing the link efficiency. The proposed transcutaneous transfer energy system aims at transferring 100 mW and providing a stable 3.3 V DC output voltage, tuned at a transmission frequency of 1 MHz, has been simulated with the electronics workbench MULTISIM 12 and it has been able to achieve 43.8% link efficiency for an inter-coil distance of 75 mm. Also, a proof-of-concept prototype has been built, yielding an efficiency of 21.0%.

yearjournalcountryeditionlanguage
2015-06-01Measurement
https://doi.org/10.1016/j.measurement.2015.03.033