Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic Contactors

Conventional switchgear such as relays and magnetic contactors (MC) continuously consume energy to maintain an open and/or closed state, contributing to unnecessary energy consumption, dissipation, and heating. The minimization of such losses has become an important topic in recent years, leading to...

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Main Authors: Nikita Gabdullin, Jong-Suk Ro
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Online Access:https://ieeexplore.ieee.org/document/9146838/
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spelling doaj-02acaecaa27b41d5817af7613367f2c62021-03-30T03:23:28ZengIEEEIEEE Access2169-35362020-01-01813617613618510.1109/ACCESS.2020.30117509146838Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic ContactorsNikita Gabdullin0https://orcid.org/0000-0002-3009-8024Jong-Suk Ro1https://orcid.org/0000-0003-4429-9393School of Electronic and Electrical Engineering, Chung-Ang University, Seoul, South KoreaSchool of Electronic and Electrical Engineering, Chung-Ang University, Seoul, South KoreaConventional switchgear such as relays and magnetic contactors (MC) continuously consume energy to maintain an open and/or closed state, contributing to unnecessary energy consumption, dissipation, and heating. The minimization of such losses has become an important topic in recent years, leading to the development of more energy-efficient technologies such as permanent magnet (PM) MCs. However, concerns regarding the safety and reliability of PM MCs hindered the development of a zero-holding-energy PM MC (ZMC) due to the loss of the controllability in emergency scenarios (such as power outages). This paper presents a novel piezoelectric emergency subsystem (PES) that monitors the state of the input power source and opens the ZMC in emergency circumstances. The proposed PES consumes no energy upon charging its piezoelectric element, thus allowing the holding energy of the complete ZMC-PES system to remain zero without affecting the normal operating regimes of the ZMC. Because the application of the PES causes the ZMC to act as a normally-open MC, the ZMC-PES system can be conveniently controlled using traditional solenoid MC control strategies, enabling an easy transition from the conventional to the proposed technologies. The feasibility of the proposed PES is verified using data obtained from a fabricated prototype of a complete ZMC-PES system. The proposed system is promising not only for industrial grids, but also for vehicular microgrids as in electric aircrafts and ships where energy efficiency translated into the increased battery lifetime.https://ieeexplore.ieee.org/document/9146838/Emergency sub-systemmagnetic contactorpermanent magnetpiezoelectric cantileverzero-holding-energy
collection DOAJ
language English
format Article
sources DOAJ
author Nikita Gabdullin
Jong-Suk Ro
spellingShingle Nikita Gabdullin
Jong-Suk Ro
Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic Contactors
IEEE Access
Emergency sub-system
magnetic contactor
permanent magnet
piezoelectric cantilever
zero-holding-energy
author_facet Nikita Gabdullin
Jong-Suk Ro
author_sort Nikita Gabdullin
title Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic Contactors
title_short Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic Contactors
title_full Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic Contactors
title_fullStr Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic Contactors
title_full_unstemmed Novel Piezoelectric Emergency Opening Sub-System to Improve the Safety and Reliability of Zero-Holding-Energy Permanent Magnet Magnetic Contactors
title_sort novel piezoelectric emergency opening sub-system to improve the safety and reliability of zero-holding-energy permanent magnet magnetic contactors
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Conventional switchgear such as relays and magnetic contactors (MC) continuously consume energy to maintain an open and/or closed state, contributing to unnecessary energy consumption, dissipation, and heating. The minimization of such losses has become an important topic in recent years, leading to the development of more energy-efficient technologies such as permanent magnet (PM) MCs. However, concerns regarding the safety and reliability of PM MCs hindered the development of a zero-holding-energy PM MC (ZMC) due to the loss of the controllability in emergency scenarios (such as power outages). This paper presents a novel piezoelectric emergency subsystem (PES) that monitors the state of the input power source and opens the ZMC in emergency circumstances. The proposed PES consumes no energy upon charging its piezoelectric element, thus allowing the holding energy of the complete ZMC-PES system to remain zero without affecting the normal operating regimes of the ZMC. Because the application of the PES causes the ZMC to act as a normally-open MC, the ZMC-PES system can be conveniently controlled using traditional solenoid MC control strategies, enabling an easy transition from the conventional to the proposed technologies. The feasibility of the proposed PES is verified using data obtained from a fabricated prototype of a complete ZMC-PES system. The proposed system is promising not only for industrial grids, but also for vehicular microgrids as in electric aircrafts and ships where energy efficiency translated into the increased battery lifetime.
topic Emergency sub-system
magnetic contactor
permanent magnet
piezoelectric cantilever
zero-holding-energy
url https://ieeexplore.ieee.org/document/9146838/
work_keys_str_mv AT nikitagabdullin novelpiezoelectricemergencyopeningsubsystemtoimprovethesafetyandreliabilityofzeroholdingenergypermanentmagnetmagneticcontactors
AT jongsukro novelpiezoelectricemergencyopeningsubsystemtoimprovethesafetyandreliabilityofzeroholdingenergypermanentmagnetmagneticcontactors
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