A 400 GHz Transmitter Integrated with Flip-chiped 3D Printed Horn Antenna with an EIRP of 1.26dBm

2018 IEEE/MTT-S International Microwave Symposium - IMS Pub Date : 2018-06-01 DOI:10.1109/MWSYM.2018.8439273
Alexander Standaert, P. Reynaert
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引用次数: 4

Abstract

This paper presents a 400 GHz radiating source in 28 nm CMOS technology with a 3D printed horn antenna directly mounted on-top of a on-chip waveguide feed. The CMOS chip is composed of two mutually-coupled triple-push oscillators and a differential microstrip to waveguide transition. A custom horn antenna is mounted on top of this waveguide feed, enabling an efficient and high gain output. The horn antenna is fabricated using a two-photon lithography 3D printing process. The part is metallized with platinum and copper through physical vapor deposition and electroplating. The measured EIRP of the fully integrated system is 1.26 dBm which is 13 dB higher then the EIRP of the standalone transmitter.
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集成倒装3D打印喇叭天线的400 GHz发射机,EIRP为1.26dBm
本文提出了一种采用28纳米CMOS技术的400 GHz辐射源,其3D打印喇叭天线直接安装在片上波导馈电的顶部。该CMOS芯片由两个相互耦合的三推振荡器和一个差分微带到波导的过渡组成。定制喇叭天线安装在该波导馈电的顶部,实现高效高增益输出。喇叭天线采用双光子光刻3D打印工艺制造。该部件通过物理气相沉积和电镀,以铂和铜金属化。测量到的完全集成系统的EIRP为1.26 dBm,比独立发射机的EIRP高13 dB。
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2018 IEEE/MTT-S International Microwave Symposium - IMS
2018 IEEE/MTT-S International Microwave Symposium - IMS
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