本文提出了一种新型多模SRLR (square ring loaded resonators)结构,并基于该谐振结构设计了一款具有高共模噪声抑制的双通带超导平衡滤波器.此外,本文详细地给出了该谐振器的差共模谐振机理,拓扑结构,模拟仿真结果.基于上述分析,使用0....本文提出了一种新型多模SRLR (square ring loaded resonators)结构,并基于该谐振结构设计了一款具有高共模噪声抑制的双通带超导平衡滤波器.此外,本文详细地给出了该谐振器的差共模谐振机理,拓扑结构,模拟仿真结果.基于上述分析,使用0.5 mm厚度的氧化镁(MgO)基片上的钇钡铜氧(YBCO)高温超导薄膜设计制作一款四阶双通带平衡滤波器,该滤波器的两个通带的中心频率分别为2.2 GHz和3.5 GHz,带内的损耗分别为0.1 d B和0.12 dB,两个通带内的共模抑制分别为74.9 d B和67.4 dB.其测试曲线、模拟仿真曲线、理论计算具有良好的吻合度,验证了所提出滤波器的设计方法的正确性.展开更多
With the continuous development of power supplies toward miniaturization,light weights,and high levels of integration,research on high-frequency resonant conversion based on planar magnetics is becoming extensive.Comb...With the continuous development of power supplies toward miniaturization,light weights,and high levels of integration,research on high-frequency resonant conversion based on planar magnetics is becoming extensive.Combining the soft-switching characteristics of resonant converters with those of wide bandgap devices,the switching frequency can be increase to the MHz range,and the power density of the entire system can be improved considerably.However,higher switching frequencies impose new requirements for the structural design,loss distribution,and common mode(CM)noise suppression of passive magnetic components.Herein,a thorough survey of the-state-of-the-art of planar magnetics in high-frequency resonant converters is conducted.Printed circuit board winding-based planar magnetics,magnetic integration,and power-loss optimization strategies are summarized in detail.Suppression methods for CM noise in high-frequency planar magnetics are also clarified and discussed.An insight view into the future development of planar magnetics for high-frequency resonant converters is presented.展开更多
文摘本文提出了一种新型多模SRLR (square ring loaded resonators)结构,并基于该谐振结构设计了一款具有高共模噪声抑制的双通带超导平衡滤波器.此外,本文详细地给出了该谐振器的差共模谐振机理,拓扑结构,模拟仿真结果.基于上述分析,使用0.5 mm厚度的氧化镁(MgO)基片上的钇钡铜氧(YBCO)高温超导薄膜设计制作一款四阶双通带平衡滤波器,该滤波器的两个通带的中心频率分别为2.2 GHz和3.5 GHz,带内的损耗分别为0.1 d B和0.12 dB,两个通带内的共模抑制分别为74.9 d B和67.4 dB.其测试曲线、模拟仿真曲线、理论计算具有良好的吻合度,验证了所提出滤波器的设计方法的正确性.
基金Supported by the National Natural Science Foundation of China(52122708,51977105)Natural Science Foundation of Jiangsu Province,China(BK20200017).
文摘With the continuous development of power supplies toward miniaturization,light weights,and high levels of integration,research on high-frequency resonant conversion based on planar magnetics is becoming extensive.Combining the soft-switching characteristics of resonant converters with those of wide bandgap devices,the switching frequency can be increase to the MHz range,and the power density of the entire system can be improved considerably.However,higher switching frequencies impose new requirements for the structural design,loss distribution,and common mode(CM)noise suppression of passive magnetic components.Herein,a thorough survey of the-state-of-the-art of planar magnetics in high-frequency resonant converters is conducted.Printed circuit board winding-based planar magnetics,magnetic integration,and power-loss optimization strategies are summarized in detail.Suppression methods for CM noise in high-frequency planar magnetics are also clarified and discussed.An insight view into the future development of planar magnetics for high-frequency resonant converters is presented.