绝缘栅型功率开关器件栅极驱动主动控制技术综述
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摘要
近10年来,绝缘栅型功率开关器件的栅极驱动主动控制技术因其对开关瞬态过程可控性高、无需对主电路进行改动的优势,在高压大容量电力电子应用场合得到越来越多的关注。首先介绍了主动栅极驱动电路的基本结构与电路实现,总结了现有栅极驱动主动控制技术的研究现状。在此基础上,从控制策略的设计、控制稳定性的分析、控制参数自适应调整能力、多功能集成以及宽禁带器件的主动控制方法等方面对当前的热点问题进行分析阐释。最后,围绕该技术有待研究的问题进行了讨论,并对其发展趋势做出展望。
In the past decade, active gate control(AGC) methods for insulated-gate power switching devices have stimulated increasing research interest in the field of high-voltage high-power power electronic applications, since they are effective in controlling switching transients of power devices and require no modification in main circuits. Firstly, the basic structures and circuit implementation of active gate drivers(AGDs) are introduced. Secondly, the state-of-the-art of AGC methods are reviewed in detail. Then the hot topics of AGC methods are analyzed and elaborated from the angles of control strategies, stability analysis, adaptive control capability, multifunctionality and AGC methods for wide-band gap power switching devices. Finally, some urgent problems and development trends are discussed.
In the past decade, active gate control(AGC) methods for insulated-gate power switching devices have stimulated increasing research interest in the field of high-voltage high-power power electronic applications, since they are effective in controlling switching transients of power devices and require no modification in main circuits. Firstly, the basic structures and circuit implementation of active gate drivers(AGDs) are introduced. Secondly, the state-of-the-art of AGC methods are reviewed in detail. Then the hot topics of AGC methods are analyzed and elaborated from the angles of control strategies, stability analysis, adaptive control capability, multifunctionality and AGC methods for wide-band gap power switching devices. Finally, some urgent problems and development trends are discussed.
引文
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