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| Optimization of a Class E Power Amplifier in the Transmitting Part of an Inductive Power Transfer System |
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| Authors |
| | Selyutina E.V. |
| | Gurov K.O. |
| | Mindubaev E.A. |
| | Danilov A.A. |
| Date of publication |
| | 2022 |
| DOI |
| | 10.31114/2078-7707-2022-3-183-189 |
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| Abstract |
| | A class E power amplifier (PA) is widely used for designing the inductive power transfer (IPT) systems to supply various electronic devices. However, it is difficult to design the class E PA to obtain the required IPT system output characteristics. Design difficulties lead to increase of development time. To optimize the class E PA design, output characteristics of IPT systems with a class E PA and IPT systems with a resonance LC-circuit have been compared. During the investigation, IPT systems have been modeled numerically in the LTSpice and Matlab software. Capacitors in the class E PA load network have been tuned statically or dynamically. In the case of static tuning, a class E PA operated in the nominal conditions for the one coupling coefficient value of IPT system inductive coils. In the case of dynamic tuning, a class E PA operated in the nominal conditions for the range of coupling coefficient values. As a result, similarity has been noted between output characteristics of IPT systems with dynamically tuned class E PA and output characteristics of IPT systems with a resonant LC-circuit in the transmitter. Using the investigation results, rules of class E PA design have been proposed. According to these rules, class E PA design depends on the coupling of IPT system inductive coils. |
| Keywords |
| | implantable medical devices, wireless power transfer, inductive coupling, class E power amplifier. |
| Library reference |
| | Selyutina E.V., Gurov K.O., Mindubaev E.A., Danilov A.A. Optimization of a Class E Power Amplifier in the Transmitting Part of an Inductive Power Transfer System // Problems of Perspective Micro- and Nanoelectronic Systems Development - 2022. Issue 3. P. 183-189. doi:10.31114/2078-7707-2022-3-183-189 |
| URL of paper |
| | http://www.mes-conference.ru/data/year2022/pdf/D027.pdf |
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