Wireless energy transfer system based on metglas/PFC magnetoelectric laminated composites

Yu, Xinjie; Wu, Tianyi; Li, Zhen

doi:10.7498/aps.62.058503

Cited by 7 publications

(2 citation statements)

References 14 publications

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“…[1][2][3][4] Many studies have been done on the positive ME coupling effect, which allows the magnetic signal to induce the output of an electric signal, especially on the nonlinear ME coupling effect with consideration of the variable temperature environment and the different stress environment. [5][6][7][8][9] The theoretical studies have promoted the applications of new devices using ME laminated composite materials, such as a high precision sensor for a weak magnetic field, [10] an energy harvester, [11][12][13] a current-to-voltage converter, [14] a voltage transformer, [15] etc. Studies of the converse ME effect in ME laminated composite materials mainly focus on the new tunable device design and the involved microwave ME mechanism in ME dual-tunable microwave device, which consists of the ME laminated com-posite materials and the microwave device.…”

Section: Introductionmentioning

confidence: 99%

Lumped-equivalent circuit model for multi-stage cascaded magnetoelectric dual-tunable bandpass filter

Zhang¹,

Zhu²,

Zhou

2015

Chinese Phys. B

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A lumped-equivalent circuit model of a novel magnetoelectric tunable bandpass filter, which is realized in the form of multi-stage cascading between a plurality of magnetoelectric laminates, is established in this paper for convenient analysis. The multi-stage cascaded filter is degraded to the coupling microstrip filter with only one magnetoelectric laminate and then compared with the existing experiment results. The comparison reveals that the insertion loss curves predicted by the degraded circuit model are in good agreement with the experiment results and the predicted results of the electromagnetic field simulation, thus the validity of the model is verified. The model is then degraded to the two-stage cascaded magnetoelectric filter with two magnetoelectric laminates. It is revealed that if the applied external bias magnetic or electric fields on the two magnetoelectric laminates are identical, then the passband of the filter will drift under the changed external field; that is to say, the filter has the characteristics of external magnetic field tunability and electric field tunability. If the applied external bias magnetic or electric fields on two magnetoelectric laminates are different, then the passband will disappear so that the switching characteristic is achieved. When the same magnetic fields are applied to the laminates, the passband bandwidth of the two-stage cascaded magnetoelectric filter with two magnetoelectric laminates becomes nearly doubled in comparison with the passband filter which contains only one magnetoelectric laminate. The bandpass effect is also improved obviously. This research will provide a theoretical basis for the design, preparation, and application of a new high performance magnetoelectric tunable microwave device.

show abstract

Section: Introductionmentioning

confidence: 99%

Lumped-equivalent circuit model for multi-stage cascaded magnetoelectric dual-tunable bandpass filter

Zhang¹,

Zhu²,

Zhou

2015

Chinese Phys. B

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show abstract

“…Due to the large magnetoelectric (ME) coupling effect, ME compsite materials have great potential applications in high-tech equipments and integrated applications, [1] such as biological sensors, magnetic sensors, ME oscillators, ME conversion cells, and other ME devices [2][3][4][5][6] under low frequency, [7][8][9][10][11][12][13] and especially electric and magnetic dualtunable devices, owing to the characteristics of the electric field tuning ferromagnetic resonance (FMR) frequency shift under high frequency. [14][15][16] Tunable microwave devices can meet the requirements of modern radar and communications technology to switch quickly from one operating frequency to another.…”

Section: Introductionmentioning

confidence: 99%

Ferromagnetic resonance frequency shift model of laminated magnetoelectric structure tuned by electric field

2014

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Based on Smith-Beljers theory and classical laminate theory, an explicit model is proposed for the ferromagnetic resonance (FMR) frequency shift of a stress-mediumed laminated magnetoelectric structure tuned by an electric field. This model can effectively predict the experimental phenomenon that the FMR frequency increases under a parallel magnetic field and decreases under a perpendicular magnetic field when the electric field ranges from −10 kV/m to 10 kV/m. Besides, this theory further shows that the FMR frequency increases monotonically as the angle between the direction of the external magnetic field and the outside normal direction of the laminated structure increases, and the frequency will increase as great as 7 GHz. In addition, when the angle reaches a certain critical value, the external electric field fails to tune the FMR frequency. When the angle is above the critical value, the increase of the electric field induces the FMR frequency to increase, and the opposite scenario happens when it is below the critical value. When the angle is 90 • (parallel magnetic field), the FMR frequency is the most sensitive to the change of the electric field.

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Comprehensive investigation on direct and converse magnetoelectric effects in longitudinally magnetized and polarized laminate composites by equivalent circuit and experiments

Zhang

Yao

Zhou

et al. 2018

J Mater Sci: Mater Electron

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Wireless energy transfer system based on metglas/PFC magnetoelectric laminated composites

Cited by 7 publications

References 14 publications

Lumped-equivalent circuit model for multi-stage cascaded magnetoelectric dual-tunable bandpass filter

Lumped-equivalent circuit model for multi-stage cascaded magnetoelectric dual-tunable bandpass filter

Ferromagnetic resonance frequency shift model of laminated magnetoelectric structure tuned by electric field

Comprehensive investigation on direct and converse magnetoelectric effects in longitudinally magnetized and polarized laminate composites by equivalent circuit and experiments

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