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    题名: 半橋氮化鎵驅動電路和功率電晶體積體化設計和其降壓器應用;A Fully Integrated GaN Half-Bridge IC for Buck Converter
    作者: 蔡凱翔;Tsai, Kai-Hsiang
    贡献者: 電機工程學系
    关键词: 氮化鎵;閘極驅動器;降壓轉換器;半橋;Gallium Nitride;gate driver;Buck converter;half-bridge
    日期: 2023-11-10
    上传时间: 2024-09-19 17:11:34 (UTC+8)
    出版者: 國立中央大學
    摘要: 氮化鎵(GaN)電晶體由於其閘極電荷小,且內部沒有寄生pn 二極體(body diode),因 此可以達到非常快的切換速度與低硬切換損耗,非常適合應用於高壓電源轉換器。隨著 氮化鎵製程平台逐漸成熟,水平結構的氮化鎵電晶體能在單一晶片上實現閘極驅動器與 功率開關的積體化,從而降低電路的鎊線寄生效應。
    本篇論文將氮化鎵功率開關與閘極驅動器積體化成半橋(half-bridge)晶片,並利用氮 化鎵電晶體反向傳導之特性將自舉開關同時進行積體化。透過分析功率開關切換過程的 能量轉換評估半橋晶片的損耗,並透過傳導損耗與輸出電荷(Qoss)之間的權衡選擇功率開 關的尺寸,並設計其閘極驅動器,在有足夠的驅動能力下也同時抑制閘極振鈴。
    最後將此半橋晶片應用於降壓轉換器,此晶片能操作在500 kHz ~ 1 MHz 的切換頻 率,在切換頻率為1 MHz 時,可以實現48 V 到24 V 與12 V 的電壓轉換。操作於500 kHz 時可以實現100 V 到48 V 的電壓轉換。在48 V 到24 V 的電壓轉換與0.4 A 的輸出 電流下能達到91 %的峰值效率。;Gallium Nitride (GaN) transistors are highly suitable for high-voltage power converters due to their low gate charge and absence of a parasitic pn diode (body diode) within. These characteristics allow for rapid switching speeds and low switching losses, making them ideal for high-voltage power conversion applications. With the maturation of GaN fabrication processes, GaN transistors with lateral structures can be monolithically inte grated on a single chip, combining gate drivers and power switches to reduce circuit parasitics.
    This paper integrates gallium nitride power switches and gate drivers into a half-bridge chip and utilizes the reverse conduction characteristics of gallium ni tride transistors to integrate the bootstrap switch simultaneously. The losses of the half-bridge chip are evaluated by analyzing the energy conversion during power switch transitions. The sizing of the power switches is chosen through a trade-off between conduction losses and output charge (Qoss ), and their gate drivers are designed to provide sufficient drive capability and suppress gate ringing.
    Finally, this half-bridge chip is applied to a Buck converter. The chip can operate at switching frequencies between 500 kHz and 1 MHz. At a switching frequency of 1 MHz, it can achieve voltage conversions from 48 V to 24 V and 12 V. When operating at 500 kHz, it can achieve a voltage conversion from 100 V to 48 V. At a voltage conversion from 48 V to 24 V and an output current of 0.4 A, it can achieve a peak efficiency of 91%.
    显示于类别:[電機工程研究所] 博碩士論文

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