A Full X-Band Fully 3-D Printed E-Plane Rectangular-Coax-to-Waveguide Transition

Jin Li, Cheng Guo, Yang Yu, Guan-long Huang, Tao Yuan, Yi Wang, Jun Xu, A. Zhang
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引用次数: 6

Abstract

This paper reports on a new class of broadband fully 3-D printed E-plane rectangular-coax-to-waveguide transition. This type of transition is adopted to interconnect two E-plane rectangular waveguides, and is based on a full air-filled waveguide structure without introducing other types of transmission lines (TLs). It exhibits little dielectric loss and dispersion, and furthermore a potentially enhanced power handling capability. The transition is constructed by a section of air-filled rectangular coaxial TL cascaded in series to a broadband coax-to-waveguide probe transition. A proof-of-concept X-band back-to-back transition is designed and prototyped monolithically by incorporating stereolithography-based 3-D printing and copper electroplating techniques. The RF-measured result demonstrates a broadband and low-loss characteristic of the transition—an insertion loss of averagely 0.5 dB and a return loss of mostly better than 15 dB at the entire X band.
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全x波段全3d打印e平面矩形同轴波导过渡
本文报道了一类全新的宽带全3d打印e平面矩形同轴波导跃迁。这种类型的过渡是用来互连两个e平面矩形波导,并且是基于全空气填充波导结构,而不引入其他类型的传输线(TLs)。它具有很小的介电损耗和色散,并且具有潜在的增强的功率处理能力。过渡是由一段充满空气的矩形同轴TL串联级联到宽带同轴到波导探头过渡构成的。通过结合基于立体光刻的3d打印和铜电镀技术,设计和制作了一个概念验证x波段背靠背过渡的整体原型。rf测量结果表明,该过渡具有宽带和低损耗特性——在整个X波段,插入损耗平均为0.5 dB,回波损耗大多优于15 dB。
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