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Impact of Electronic Power Aging on Implantable Antennas: Insights Into Leakage and Current Characteristics of HV Armature Winding

Impact of Electronic Power Aging on Implantable Antennas: Insights Into Leakage and Current Characteristics of HV Armature Winding

Seeniappan Kaliappan, M. Muthukannan, A. Krishnakumari, S. Socrates
Copyright: © 2024 |Pages: 10
ISBN13: 9798369315866|ISBN13 Softcover: 9798369344729|EISBN13: 9798369315873
DOI: 10.4018/979-8-3693-1586-6.ch020
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MLA

Kaliappan, Seeniappan, et al. "Impact of Electronic Power Aging on Implantable Antennas: Insights Into Leakage and Current Characteristics of HV Armature Winding." AI Approaches to Smart and Sustainable Power Systems, edited by L. Ashok Kumar, et al., IGI Global, 2024, pp. 382-391. https://doi.org/10.4018/979-8-3693-1586-6.ch020

APA

Kaliappan, S., Muthukannan, M., Krishnakumari, A., & Socrates, S. (2024). Impact of Electronic Power Aging on Implantable Antennas: Insights Into Leakage and Current Characteristics of HV Armature Winding. In L. Ashok Kumar, S. Angalaeswari, K. Mohana Sundaram, R. Bansal, & A. Patil (Eds.), AI Approaches to Smart and Sustainable Power Systems (pp. 382-391). IGI Global. https://doi.org/10.4018/979-8-3693-1586-6.ch020

Chicago

Kaliappan, Seeniappan, et al. "Impact of Electronic Power Aging on Implantable Antennas: Insights Into Leakage and Current Characteristics of HV Armature Winding." In AI Approaches to Smart and Sustainable Power Systems, edited by L. Ashok Kumar, et al., 382-391. Hershey, PA: IGI Global, 2024. https://doi.org/10.4018/979-8-3693-1586-6.ch020

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Abstract

This study investigates the impact of electronic power aging on implantable antennas, with a specific focus on the leakage current characteristics of high-voltage (HV) armature winding. The research explores how vibrations generated by the electrostatic field during the operation of HV motors can lead to degradation in these antennas, a phenomenon analogous to slot partial discharge (PD) in series motors. The study delves into how increased melt temperature, due to inrush current or insufficient thermal efficiency, exacerbates this degradation. To simulate electronic aging, several discharge bar systems were used to observe the development of slot PD and the effects of aging factors on these characteristics, offering insights applicable to implantable antennas. Motor stator plates, akin to components in implantable antennas, were subjected to extended exposure at elevated temperatures, up to three times the nominal line voltage of 7 kV, to mimic aging conditions.

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