A compact lowpass filter (LPF) design using cavity resonator and ladder-shaped defected ground structure (DGS) is presented in this paper. A cavity resonator is implemented on the top conductor layer with orthogonally oriented input and output feedlines for the proposed LPF filter. The cavity resonator has identical electrical function as of a square resonator. By proper design of the cavity structure, coupling coefficients and electrostatics parameters which influence the cutoff frequency can be controlled. The ladder-shaped DGS is etched on the ground plane directly beneath the 50 Ω input and output feedlines in order to manipulate the filter response. The DGS structure is effective for accurate transmission cutoff values, which ensure proper multiple spurious suppressions. The proposed LPF is prototyped using FR4 substrate with a dielectric constant of 4.7, loss tangent of 0.027 and thickness of 0.8 mm. The fabricated LPF has a compact dimensional size of 26 mm by 26 mm. The measured attenuation rate is 10 dB/GHz. Both simulation and measurement data are presented and discussed for the proposed LPF with and without the unique ladder-shaped DGS.
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机译:本文提出了一种使用腔谐振器和梯形缺陷接地结构(DGS)的紧凑型低通滤波器(LPF)设计。对于所提出的LPF滤波器,在具有垂直取向的输入和输出馈线的顶部导体层上实现腔谐振器。空腔谐振器具有与方形谐振器相同的电功能。通过适当设计空腔结构,可以控制影响截止频率的耦合系数和静电参数。梯形DGS刻在接地平面上的50Ω输入和输出馈线正下方,以控制滤波器的响应。 DGS结构可有效确保精确的传输截止值,从而确保适当的多重杂散抑制。所提出的LPF是使用FR4基板原型制作的,该基板的介电常数为4.7,损耗角正切为0.027,厚度为0.8 mm。所制造的LPF具有26 mm x 26 mm的紧凑尺寸。测得的衰减率为10 dB / GHz。在有和没有独特梯形DGS的情况下,针对所提出的LPF都提供了仿真和测量数据。
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