Design and Comparative Analysis of an Ultra-Highly Efficient, Compact Half-Bridge LLC Resonant GaN Converter for Low-Power Applications

Faizan, Muhammad; Wang, Xiaolei; Yousaf, Muhammad Zain

doi:10.3390/electronics12132850

Cited by 4 publications

References 30 publications

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Mathematical Model-Based Analysis and Mitigation of GaN Switching Oscillations

Faizan,

Han,

Wang

et al. 2024

IEEE Access

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GaN high-electron-mobility transistor (HEMT) has superior features of wide band gap, high electron mobility and very high electric field strength due to its material advantages. By using the GaN HEMT, switching frequency can be enhanced up to megahertz with extremely high efficiency. Unfortunately, GaN HEMTs accomplished by undesirable switching oscillations and voltage spikes due to extremely fast switching frequencies with very high 𝑑𝑣 𝑑𝑡 ⁄ , 𝑑𝑖 𝑑𝑡 ⁄ and parasitic parameters. In this paper, RLC equivalent circuit models are developed for turn on and turn off conditions, including all parasitic components. In addition, the relative effect of each parasitic parameter is analyzed and estimated. Moreover, simple mathematical model is developed for theoretical analysis of switching oscillation phenomenon and, for guidance of snubber or damping circuit design. To validate these simple equivalent circuit models, both circuit simulation and experimental measurements are employed.INDEX TERMS GaN HEMT, RLC equivalent circuit model, parasitic components, snubber circuit, switching oscillations, switching loss reduction.

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Mathematical Model-Based Analysis and Mitigation of GaN Switching Oscillations

Faizan,

Han,

Wang

et al. 2024

IEEE Access

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Comprehensive Comparison of Current Mode Control Schemes for LLC Resonant Converter

Faizan,

Wang,

Yousaf

et al. 2023

2023 3rd International Conference on New Energy and Power Engineering (ICNEPE)

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Indirect Thermographic Measurement of the Temperature of a Transistor Die during Pulse Operation

Hulewicz,

Dziarski,

Drużyński

2024

Sensors

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This paper presents aspects related to the indirect thermographic measurement of a C2M0280120D transistor in pulse mode. The tested transistor was made on the basis of silicon carbide and is commonly used in many applications. During the research, the pulse frequency was varied from 1 kHz to 800 kHz. The transistor case temperature was measured using a Flir E50 thermographic camera and a Pt1000 sensor. The transistor die temperature was determined based on the voltage drop on the body diode and the known characteristics between the voltage drop on the diode and the temperature of the die. The research was carried out in accordance with the presented measuring standards and maintaining the described conditions. The differences between the transistor case temperature and the transistor die temperature were also determined based on simulation work performed in Solidworks 2020 SP05. For this purpose, a three-dimensional model of the C2M0280120D transistor was created and the materials used in this model were selected; the methodology for selecting the model parameters is discussed. The largest recorded difference between the case temperature and the junction temperature was 27.3 °C. The use of a thermographic camera allows the transistor’s temperature to be determined without the risk of electric shock. As a result, it will be possible to control the C2M0280120D transistor in such a way so as not to damage it and to optimally select its operating point.

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Design and Comparative Analysis of an Ultra-Highly Efficient, Compact Half-Bridge LLC Resonant GaN Converter for Low-Power Applications

Cited by 4 publications

References 30 publications

Mathematical Model-Based Analysis and Mitigation of GaN Switching Oscillations

Mathematical Model-Based Analysis and Mitigation of GaN Switching Oscillations

Comprehensive Comparison of Current Mode Control Schemes for LLC Resonant Converter

Indirect Thermographic Measurement of the Temperature of a Transistor Die during Pulse Operation

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