提出了一种在缺陷接地结构(DGS)中用交指电容代替缝隙电容的方法。
A new method which USES interdigital capacitance instead of slot capacitance in defected ground structure (DGS) was presented.
缺陷接地结构由于其带阻特性而被广泛地应用到射频微波电路中,以改善电路性能。
DGS are widely applied to rf and microwave circuits to improve the performance because of its bandgap characteristic.
分析了在原有的低通滤波器的基础上加入了非周期缺陷接地结构后对滤波特性的影响。
Furthermore, the effect of Combinatorial Nonperiodic Defected Ground structure (CNPDGS) on the characteristic of the low-pass filter formed by the CNPDGS structure is studied.
即缺陷接地结构,它是近年来提出的一种在微波平面电路接地版上刻蚀出非周期形状的结构。
Defected ground structure (DGS) is a nonperiodic structure proposed in recent years, which means machining various shapes of etching on the ground plane.
即缺陷接地结构,它是近年来提出的一种在微波平面电路接地版上刻蚀出非周期形状的结构。
This paper presented a novel combinatorial non-periodic defected ground structure (CNPDGS) and its application in the lowpass filter.
缺陷接地结构(DGS)是目前应用于微波平面电路小型化设计领域的一种新技术,其构造简单、性能优越,而且易于设计和实现。
Defected ground structure (DGS) is a new technique used to reduce the size of microwave planar circuits. It is of simple structure and excellent performance and is easy to design and realize.
与哑铃形缺陷地结构相比,分形缺陷地结构不仅能更好的提高微带天线性能,还能减少刻蚀接地板的面积,提高地板利用效率。
The fractal defected ground structure not only improves the performance of antenna better, but also uses the area of ground more efficiently than the dumbbell defected ground structure.
与哑铃形缺陷地结构相比,分形缺陷地结构不仅能更好的提高微带天线性能,还能减少刻蚀接地板的面积,提高地板利用效率。
The fractal defected ground structure not only improves the performance of antenna better, but also uses the area of ground more efficiently than the dumbbell defected ground structure.
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