Direct Metal Printed 4th order Stepped Impedance Filter in the C/X Band

S. Sattler, F. Gentili, R. Teschl, W. Bösch
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引用次数: 4

Abstract

In recent years, additive manufacturing (AM) techniques were increasingly applied to develop RF and microwave components. The main advantage of AM is a reduction in both mass and production time. The AM technique investigated in this paper is direct metal printing (DMP). As a consequence, challenging geometries can be implemented. Here we present a 4th order cavity filter, realized by cascading four lollypop-shaped resonators. The filter was designed to be manufactured in one block using stainless steel as a base material, however, for reasons of workpiece accessibility the two halves and the closing plates of the first prototype were produced separately and subsequently fixed together. Tuning screws were used to adjust the performance. The prototype filter exhibits a measured insertion loss of 1.14 dB with the matching being better than −12.77 dB, a fractional bandwidth of about 3.6 % at 7.926 GHz, and a Q-factor of 1600.
C/X波段直接金属印刷四阶阶阻抗滤波器
近年来,增材制造技术越来越多地应用于射频和微波元件的开发。增材制造的主要优点是减少了批量和生产时间。本文研究的增材制造技术是直接金属打印(DMP)。因此,可以实现具有挑战性的几何形状。本文提出了一个四阶腔滤波器,由四个棒棒糖形状的谐振器级联实现。该过滤器被设计为使用不锈钢作为基础材料在一个块中制造,然而,出于工件可及性的原因,第一个原型的两半和关闭板是分开生产的,随后固定在一起。调节螺丝用于调节性能。原型滤波器的测量插入损耗为1.14 dB,匹配优于- 12.77 dB,在7.926 GHz时的分数带宽约为3.6%,q因子为1600。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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