Transcutaneous dual tuned RF coil system voltage gain and efficiency evaluation for a passive implantable atrial defibrillator

Cardioversion of atrial fibrillation (AF) can be achieved by applying an electric shock to the heart (defibrillation). A cost-effective approach for internal cardioversion is by means of a subcutaneous passive implantable atrial defibrillator (PIAD). A circuit design using a dual tuned resonant circ...

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Hauptverfasser:	Escalona, O J, Velasquez, J J, Waterman, N, Chirwa, L, Anderson, J
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Coils Inductance Integrated circuit modeling Mathematical model Prototypes Receivers Resonant frequency
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creator	Escalona, O J Velasquez, J J Waterman, N Chirwa, L Anderson, J
description	Cardioversion of atrial fibrillation (AF) can be achieved by applying an electric shock to the heart (defibrillation). A cost-effective approach for internal cardioversion is by means of a subcutaneous passive implantable atrial defibrillator (PIAD). A circuit design using a dual tuned resonant circuit whose capacitance on the receiver side also serves as a voltage booster is proposed and evaluated. The circuit performance is characterised using a MATLAB based model and a PSpice simulation. The circuit exhibited inherent voltage gain stability with a reasonable voltage gain (V Rx /V Tx >; 0.3). Computed link efficiency modelling, estimated high link efficiency values of about 63.63% at the 208 kHz resonant frequency (26 mm air gap between coils). The above theoretical characterisation was supported by hardware prototyping which realised a system efficiency of 59.61% (best case).
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A cost-effective approach for internal cardioversion is by means of a subcutaneous passive implantable atrial defibrillator (PIAD). A circuit design using a dual tuned resonant circuit whose capacitance on the receiver side also serves as a voltage booster is proposed and evaluated. The circuit performance is characterised using a MATLAB based model and a PSpice simulation. The circuit exhibited inherent voltage gain stability with a reasonable voltage gain (V Rx /V Tx >; 0.3). Computed link efficiency modelling, estimated high link efficiency values of about 63.63% at the 208 kHz resonant frequency (26 mm air gap between coils). 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A cost-effective approach for internal cardioversion is by means of a subcutaneous passive implantable atrial defibrillator (PIAD). A circuit design using a dual tuned resonant circuit whose capacitance on the receiver side also serves as a voltage booster is proposed and evaluated. The circuit performance is characterised using a MATLAB based model and a PSpice simulation. The circuit exhibited inherent voltage gain stability with a reasonable voltage gain (V Rx /V Tx >; 0.3). Computed link efficiency modelling, estimated high link efficiency values of about 63.63% at the 208 kHz resonant frequency (26 mm air gap between coils). The above theoretical characterisation was supported by hardware prototyping which realised a system efficiency of 59.61% (best case).</abstract><pub>IEEE</pub><tpages>4</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Coils Inductance Integrated circuit modeling Mathematical model Prototypes Receivers Resonant frequency
title	Transcutaneous dual tuned RF coil system voltage gain and efficiency evaluation for a passive implantable atrial defibrillator
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