The Magnetic Energy Harvester With Improved Power Density Using Saturable Magnetizing Inductance Model for Maintenance Applications Near High Voltage Power Line

Park, Bum-Jin; Huh, Sungryul; Kim, Jong-Wook; Kim, Haerim; Shin, Yujun; Woo, Seongho; Park, Jaehyoung; Brito, Andres; Kim, Dong-Wook; Park, Hyun Ho; Jeong, Okhyun; Koo, Ja-Il; Ahn, Seungyoung

doi:10.1109/access.2021.3085989

Cited by 14 publications

(4 citation statements)

References 29 publications

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“…The main advantage of the independent induction structure is higher flexibility as there is no strict localization constraint. However, in most designs, the demagnetization factor and energy density are challenging issues [45]. This has been an inspiration for researchers to propose a harvester that captures the maximum energy when the core is placed in saturation [48][49][50].…”

Section: Independent Meh Methodsmentioning

confidence: 99%

Review and Analysis of Magnetic Energy Harvesters: A Case Study for Vehicular Applications

Enayati

Asef

2022

IEEE Access

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Energy harvesting (EH), as an enabling technology of energy derivation from ambient sources, has attracted much research attention in wireless sensor network (WSN) context. The magnetic energy harvester (MEH) introduces ambient energy harvesters' most promising technological development. This paper presents a review and analysis of MEH applications in WSN like vehicular systems and technologies. The successful approaches are introduced and classified based on technical characteristics and working principles. The fundamentals of their operation are discussed in detail, and the power points of each method are reviewed. To select the optimal energy harvester, in this work a case study is provided for feeding navigational sensors mounted on a rotating wheel of vehicles. Finally, the performance of the developed MEH model is evaluated and discussed for harvesting energy at the rotating wheels of a ground vehicle. To offer electromagnetic field analysis of the studied MEH, the simulations are performed in Ansys Maxwell software for further harvested power evaluation.

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Section: Independent Meh Methodsmentioning

confidence: 99%

Review and Analysis of Magnetic Energy Harvesters: A Case Study for Vehicular Applications

Enayati

Asef

2022

IEEE Access

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“…In recent years, a large number of scholars have obtained power for electronic equipment through environmental energy acquisition, such as solar energy, mechanical energy, electric field energy, magnetic field energy, etc. [2][3][4][5][6] , depending on the environment in which the equipment is located, the energy used is different.…”

Section: Introductionmentioning

confidence: 99%

Research on power management circuit of magnetic field energy harvesting for wireless sensor

Liu,

Chen,

2023

J. Phys.: Conf. Ser.

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In order to solve the power supply problem of wireless sensors in the power cable environment, the changing magnetic field around the cable is used, and the open energy harvesting coil and power management circuit are used to supply power to the sensor. However, improving circuit applicability and output efficiency is the key. For this reason, through the circuit principle and simulation analysis, the basic model of the power management circuit is established, and the overvoltage protection and energy storage unit are designed for the special environment of the cable to solve the problem of circuit protection and energy supply dead zone. Then reduce the circuit loss according to the circuit topology design. Finally, an experimental platform is built to verify the output effect of the power management circuit. The voltage induced by the magnetic induction power acquisition module can obtain a stable and reliable output voltage through the power management circuit, which can realize the self-sufficiency of the power supply of the wireless sensor.

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“…The reduction of inductor size is crucial also in other contexts, for example, for electromagnetic interference filters 10 or magnetic energy harvesters. 11 Inductors are usually the biggest and heaviest components in SMPSs, 12 limiting the overall power density. As well known, a current flowing through the inductor wire induces a magnetic flux across the windings.…”

Section: Introductionmentioning

confidence: 99%

“…Achieving a high power density (defined as the ratio between power and volume) is of paramount importance in the automotive and aerospace fields since smaller and therefore lighter converters contribute to lowering the overall vehicle power consumption, 4,5,7‐9 and size can be an issue especially in small vehicles. The reduction of inductor size is crucial also in other contexts, for example, for electromagnetic interference filters 10 or magnetic energy harvesters 11 …”

Section: Introductionmentioning

confidence: 99%

Nonlinear models of power inductors: A survey

Oliveri

Lodi

Storace

2021

Circuit Theory & Apps

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Summary Switch‐mode power supplies (SMPSs) are widely exploited to interface electrical energy sources to motors and other electrical loads. Inductors are usually the biggest and heaviest components in SMPSs, limiting their overall power density. Therefore, there is an increasing interest in designing SMPSs with partially saturating inductors, because this significantly reduces their weight and size, thus increasing power density. This paper provides a review of nonlinear behavioral models (based on easy‐to‐measure quantities) of the inductance, power loss, and temperature rise of inductors working, at least partially, in magnetic saturation. This survey discusses the pros, cons, and ranges of validity of these models, with a glimpse at their application to SMPS simulation, design, monitoring, and control.

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The Magnetic Energy Harvester With Improved Power Density Using Saturable Magnetizing Inductance Model for Maintenance Applications Near High Voltage Power Line

Cited by 14 publications

References 29 publications

Review and Analysis of Magnetic Energy Harvesters: A Case Study for Vehicular Applications

Review and Analysis of Magnetic Energy Harvesters: A Case Study for Vehicular Applications

Research on power management circuit of magnetic field energy harvesting for wireless sensor

Nonlinear models of power inductors: A survey

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