The effect of periodicity distance in electric field direction on the resonance frequency by using equivalent circuit model and simulation

High speed switching is desired to reduce switching losses of SiC-MOSFETs. In order to realize SiC-MOSFETs capable of high speed switching, we numerically evaluated the electric field induced in SiC-MOSFETs during switching using an equivalent circuit model. Based on the evaluation, we designed a SiC-MOSFET, which successfully demonstrated high speed switching with a dV/dt of over 70 V/ns.

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Plasma effects in HEMT-like structures: Equivalent circuit model and simulation

2007 Korea-Japan Microwave Conference ◽

10.1109/kjmw.2007.4402274 ◽

2007 ◽

Author(s):

Irina Khmyrova

Keyword(s):

Equivalent Circuit ◽

Equivalent Circuit Model ◽

Circuit Model ◽

Model And Simulation ◽

Plasma Effects

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Equivalent Circuit Model for the Electric Field Sensitivity of a Magnetic Search Coil of Space Plasma

IEEE Sensors Journal ◽

10.1109/jsen.2014.2365495 ◽

2015 ◽

Vol 15 (3) ◽

pp. 1680-1689 ◽

Cited By ~ 3

Author(s):

Mitsunori Ozaki ◽

Satoshi Yagitani ◽

Ken Takahashi ◽

Tomohiko Imacih ◽

Hiroki Koji ◽

...

Keyword(s):

Electric Field ◽

Equivalent Circuit ◽

Equivalent Circuit Model ◽

Space Plasma ◽

Circuit Model ◽

Search Coil ◽

Field Sensitivity

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CRLH Transmission Lines for Telecommunications: Fast and Effective Modeling

International Journal of Antennas and Propagation ◽

10.1155/2017/1592783 ◽

2017 ◽

Vol 2017 ◽

pp. 1-5 ◽

Cited By ~ 2

Author(s):

Juanjuan Gao ◽

Guizhen Lu

Keyword(s):

Resonance Frequency ◽

Equivalent Circuit ◽

Transmission Lines ◽

Cell Model ◽

Extraction Procedure ◽

Equivalent Circuit Model ◽

Parameter Extraction ◽

Circuit Model ◽

Unit Cell ◽

Parallel Resonance

A different parameter extraction approach based on zero immittances for composite right/left-handed (CRLH) structure is presented. For lossless unit cell equivalent circuit model, LC parameters of series and parallel branches are extracted according to series resonance frequency and parallel resonance frequency, respectively. This approach can be applied to symmetric and unbalanced CRLH structures. The parameter extraction procedure is provided and validated by T-type unit cell model. The responses of distributed prototype and extracted equivalent LC circuit model are in good agreement. The equivalent circuit modeling can improve the degree of freedom in the CRLH TLs design. This parameter extraction method provides an effective and straightforward way in CRLH metamaterials design and applications in telecommunication systems.

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Equivalent Circuit Model of an Optomechanical MEMS Electric Field Strength Sensor

Proceedings ◽

10.3390/proceedings2130712 ◽

2018 ◽

Vol 2 (13) ◽

pp. 712

Author(s):

Andreas Kainz ◽

Wilfried Hortschitz ◽

Harald Steiner ◽

Michael Stifter ◽

Franz Keplinger

Keyword(s):

Field Strength ◽

Electric Field ◽

Electric Field Strength ◽

Equivalent Circuit ◽

Equivalent Circuit Model ◽

Field Measurements ◽

Circuit Model ◽

First Results ◽

Parasitic Effects ◽

Electric Field Measurements

We present a simple equivalent circuit model for the transfer function of an optomechanical MEMS transducer capable of distortion-free electric field strength measurements. This model allows not only to qualitatively understand the characteristics of the transducer but also takes into account parasitic effects and material properties. Such parasitic effects have been observed while evaluating the first results of electric field measurements performed with the sensor. The model helped to identify and diminish these parasitic effects.

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Evaluation of Detection Response of an Electric Field Probe to AM Signals Using Equivalent Circuit Model

2019 International Symposium on Electromagnetic Compatibility - EMC EUROPE ◽

10.1109/emceurope.2019.8872039 ◽

2019 ◽

Author(s):

Ifong Wu ◽

Yasushi Matsumoto ◽

Kaoru Gotoh ◽

Kanako Wake ◽

Soichi Watanabe

Keyword(s):

Electric Field ◽

Equivalent Circuit ◽

Equivalent Circuit Model ◽

Circuit Model ◽

Detection Response ◽

Electric Field Probe

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Electrical Characterization Method for Resonance Performance of Photo-Elastic Modulators

Optics ◽

10.3390/opt2040026 ◽

2021 ◽

Vol 2 (4) ◽

pp. 276-283

Author(s):

Wei Xiong ◽

Liyang Ou ◽

Xuezhou Chen ◽

Chaobo Li

Keyword(s):

Resonance Frequency ◽

Quality Factor ◽

Equivalent Circuit ◽

Equivalent Circuit Model ◽

Impedance Measurement ◽

Electrical Characterization ◽

Circuit Model ◽

Natural Resonance ◽

Vibration Parameters ◽

Natural Resonance Frequency

As a kind of resonant device, the modulation efficiency of the photo-elastic modulator (PEM) is determined by its inherent resonance characteristics, including the resonance frequency and quality factor (Q-factor). The existing methods used to characterize the resonance performance of the PEM are mainly based on the optical method to measure the vibration parameters, but these methods are more complex, have a high cost, and are not able to accurately measure the quality factor. Therefore, this paper proposes an electrical characterization method based on impedance measurement. In this method, an equivalent circuit model for the PEM is established. By measuring the impedance vs. frequency curve of the PEM and using the equivalent circuit model for fitting analysis, we can obtain the parameters of the equivalent circuit model. With these parameters, we can eventually calculate the natural resonance frequency and quality factor. The above method was applied to some commercial PEM products for experimental verification. The experimental results show that this method can accurately measure the natural resonance frequency and quality factor of the PEM, and the error is less than 0.03%.

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Lumped Elements and Its Existence in Quasi Lumped Element Resonator Antenna

Advances in Research ◽

10.9734/air/2019/v20i130149 ◽

2019 ◽

pp. 1-9

Author(s):

T. M. Bello ◽

A. M. S. Tekanyi ◽

A. D. Usman

Keyword(s):

Resonance Frequency ◽

Equivalent Circuit ◽

Equivalent Circuit Model ◽

Building Blocks ◽

Circuit Model ◽

Passive Components ◽

Interdigital Capacitor ◽

Lumped Element ◽

Lumped Elements ◽

To Come

In this paper, the Quasi Lumped Element Resonator Antenna is reviewed. It is composed of Lumped elements. Lumped Elements are passive components whose size across any dimensions should be small to make it a lumped element. The various researches that have been done to come about the various types of basic building blocks of the lumped element are staged in this write up. This review is towards accomplishing the derivation of the component elements used in the design of the Quasi Lumped Element Resonator Antenna. These elements are the interdigital capacitor, inductor and pad capacitors. The pertinent formulae for determining each one of them were all expressed in this review. The formula for calculating the resonance frequency of the Quasi Lumped Element Resonator Antenna was expressed in this review. The equivalent circuit model for the lumped elements were all reviewed and presented. This review brings about how the lumped elements are involved in the design of the Quasi Lumped Element Resonator Antenna.

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