Determination of Conducted EMI in SiC Based Dual Active Bridge Converter

Yalcin, Samet; Göksu, Tuna; Kesler, Selami; Bingöl, Okan

doi:10.18100/ijamec.801730

Cited by 2 publications

(2 citation statements)

References 9 publications

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“…There are two types of electromagnetic interference (EMI) propagation types. The first of these is emission by radiation, which the EMI source interferes with through the air [4][5][6][7][8][9][10], and the second is the emission by transmission, where the source interferes over the line to which it is connected [11,12]. The form of conducted emission noise is defined by modes in systems.…”

Section: Introductionmentioning

confidence: 99%

Experimental Analyses of EMI Noise Separator for CISPR25

Yalçın

Göksu

Kesler

et al. 2023

International Journal of Engineering and Innovative Research

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In energy transmission systems, devices must be able to work safely with each other. Therefore, electromagnetic emission and susceptibility of the converting systems are expected to be in a certain range. electromagnetic propagation, especially by radiation and conduction, cannot be neglected in power electronics such as electric vehicle, microgrid, aerospace technologies. In order to examine and reduce the noise emitted by the devices, the noise should be separated into common mode and difference mode components. In this study, Shou Wang modeling, which is used to separate the noise components into related components, has been examined in order to analyze the noise components within the framework of the CISPR25 standard used for electric vehicles and redesigned. Circuit simulation and design were done and the results were compared. Thanks to these results, it has been seen that the circuit works efficiently up to 90MHz and gives 8dB S11 reflection parameter at the 108MHz threshold level. In addition, the separator circuit was used in a bidirectional DC-DC converter with a known EMI level of 1KW and the noise components obtained were compared with the components of the converter. As a result, it has been seen that the results obtained using the noise separator circuit are almost the same as the real results. In the 18 - 42 MHz range, only the results obtained with the noise separator are up to 8dBuV higher than the real results, other than that the results are exactly the same.

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Section: Introductionmentioning

confidence: 99%

Experimental Analyses of EMI Noise Separator for CISPR25

Yalçın

Göksu

Kesler

et al. 2023

International Journal of Engineering and Innovative Research

Self Cite

View full text Add to dashboard Cite

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“…It has been observed that SiC Mosfet emits EMI at high frequencies, but it is less than Si Mosfet . [2] There are studies on how the This study was carried out to compare the Silicon (Si) and Silicon Carbide (SiC) MOSFETs in the market used on motor driver circuits. A motor driver circuit is designed to run the Brushless Digital Current motors.…”

Section: Introductionmentioning

confidence: 99%

The Performance Comparison of the SiC and Si Mosfets Used in the 3-Phase Brushless DC Motor Drives for Electric Vehicles

Çetin

SEVİM

2022

International Journal of Automotive Science and Technology

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This study was carried out to compare the Si and SiC MOSFETs in the market used on motor driver circuits. A motor driver circuit is designed to run the brushless DC motors. Thanks to the semiconductors used in the driver circuit, the motor receives current as desired. While performing this task, the MOSFETs get hot and lose power. This situation changes according to the material structure used inside the MOSFETs. Hence, it is planned to compare Si MOSFETs that have been in the market for a long time and SiC MOSFETs that have been used recently under different loads and different temperatures circumstances. Si and SiC MOSFETs are placed in the motor driver circuit, which has the same structure in the simulation environment. The operation of the motor under no load and on different mechanical loads has been analysed. In these cases, the response of the MOSFETs to temperature changes was also analysed by changing the cooling temperature. As a result of the study, SiC MOSFETs were less heated and less power loss was observed than Si MOSFETs. It has been observed that when the mechanical load is high, the switching speed of Si MOSFETs decreases despite the speed of SiC MOSFETs is not affected. As a result of this study, it has been observed that SiC MOSFETs used in the motor driver circuit work more efficiently than Si MOSFETs for electric vehicles.

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Determination of Conducted EMI in SiC Based Dual Active Bridge Converter

Cited by 2 publications

References 9 publications

Experimental Analyses of EMI Noise Separator for CISPR25

Experimental Analyses of EMI Noise Separator for CISPR25

The Performance Comparison of the SiC and Si Mosfets Used in the 3-Phase Brushless DC Motor Drives for Electric Vehicles

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