印刷微波连接器

Jotham Kasule, Shokat Ganjeheizadeh Rohani, M. Pothier, Yuri Piro, A. Akyurtlu, C. Armiento
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引用次数: 1

摘要

本文介绍了一种工作频率为1-7 GHz的印刷平面微波连接器的研制。该连接器基于接地共面波导(GCPW)传输线结构,使用3d打印热塑性材料(PEEK)和导电纳米颗粒银墨水制造。建立了电磁模型,为设计权衡及其对微波性能的影响提供指导。新的机械设计也被开发,以提供精确的对准和坚固的连接两半的平面连接器结构。最初的连接器原型是使用传统的双面铜层压板(Isola MT40)制作的,以验证新的平面设计。然后在连接器的全打印版本中实现这些设计。通过测量印刷PEEK的介电性能,建立了印刷连接器的电磁模型。经测量,打印连接器的插入损耗在整个频带内小于1.7dB。
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Printed Microwave Connector
This paper describes the development of a printed, planar microwave connector operating from 1-7 GHz. The connector, which is based on a Grounded Coplanar Waveguide (GCPW) transmission line structure, is fabricated using 3D-printed thermoplastic material (PEEK) and conductive nanoparticle silver ink. Electromagnetic models were established to provide guidance on design tradeoffs and their impact on microwave performance. New mechanical designs were also developed to provide accurate alignment and robust connection of the two halves of the planar connector structure. Initial connector prototypes were fabricated to validate the new planar design using conventional double-sided copper laminates (Isola MT40). The designs were then implemented in an all-printed version of the connector. Electromagnetic models of the printed connectors were developed using the measured dielectric properties of printed PEEK. The insertion loss of the printed connectors was measured to be less than 1.7dB across the band.
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