PDF(2763 KB)
PDF(2763 KB)
PDF(2763 KB)
时域有限差分算法与遗传算法在平面螺旋电感设计中的应用
王宏建、李靖、刘和光、姜景山
The Application of FDTD and Micro Genetic Algorithms to the Planar Spiral Inductors
Wang Hongjian、 Li Jing、 Liu Heguang、 Jiang Jingshan
文章通过电磁场时域有限差分(FDTD)算法与遗传算法(GA)相结合进行平面螺旋电感设计。通过优化单元网格大小,可优化设计整个平面螺旋电感(包含空气桥)的结构尺寸。介绍了该方法既能够进行严格的电磁场求解,又可以避免繁杂的实验过程,是优化设计的一种有效而准确的手段。
High Q inductors are the important elements for RF circuit design. In this paper, the FDTD method is applied to explain the crowding effect of the spiral inductor , which can never be accurately analyzed by analytical solutions. The experimental results verify the FDTD simulation. The micro genetic algorithms and FDTD are combined to design the high Q inductor. The results show the efficiency of this exploration.
时域有限差分算法 / 遗传算法 / 平面螺旋电感 / 品质因素
FDTD / genetic algorithms(GA) / spiral inductor / quality factor
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