Design of Miniaturized Half-Mode Substrate Integrated Waveguide Dual-Mode Dual-Band Filter for X and Ku Band Applications

J. Comput. Mediat. Commun. Pub Date : 2023-01-01 DOI:10.12720/jcm.18.3.180-186

Cleophas D. K. Mutepfe, V. Srivastava

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Abstract

With the advancement in technology, devices are required to have superior performance and be as small in size as possible, due to compactness of electronic devices. Most of these devices don't meet all criterias in one go. To enhance the criteria matching, in this work, two dual-band filters have been designed. The first one uses a SIW multi-mode resonator, two of which are magnetically coupled to form a dual-band filter. To achieve miniaturization, the full-mode multi-mode resonator is cut into two using the diagonal symmetry line. This results in a Half-Mode Substrate Integrated Waveguide (HMSIW) resonator used in the dualband second-order filter design. Using this HMSIW, a size reduction of 50% was achieved while operating at the same frequencies as in the full mode structure. This aids to reduce the size of microwave devices and increase in selectivity. Rogers substrate with a permittivity of 2.2 has been used to design the filter. Center frequencies of operation are 9.5 GHz and 13.8 GHz for the first and second pass-bands, respectively. The insertion loss recorded was 1 dB and 3 dB for the first and second pass-band, respectively.

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用于X和Ku波段应用的小型化半模基板集成波导双模双带滤波器的设计

随着技术的进步，由于电子设备的紧凑性，要求设备具有优越的性能，并且体积尽可能小。大多数这些设备不能一次性满足所有标准。为了提高判据匹配能力，本文设计了两个双带滤波器。第一个使用SIW多模谐振器，其中两个是磁耦合形成一个双带滤波器。为了实现小型化，利用对角线对称将全模多模谐振器切成两半。这就产生了用于双频段二阶滤波器设计的半模衬底集成波导(HMSIW)谐振器。使用这种HMSIW，在与全模结构相同的频率下工作时，尺寸减小了50%。这有助于减小微波器件的尺寸并增加选择性。采用介电常数为2.2的罗杰斯衬底设计滤波器。第一通带和第二通带的中心工作频率分别为9.5 GHz和13.8 GHz。第一通带和第二通带记录的插入损耗分别为1 dB和3 dB。

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J. Comput. Mediat. Commun.

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