微波集成电路MMIC设计报告
今天给大家带来一份微波集成电路MMIC设计报告,报告全称为:Fall 2012 JHU EE787 MMIC Design Student ProjectsSupported by TriQuint Semiconductor, Applied Wave Research, and Agilent Inc.Professors John Penn and Dr. Willie Thompson。本报告详细介绍了 K 波段单级平衡放大器单片设计微波集成电路 使用 90 度朗格耦合器。300 um 放大器设计为使用单个 3V 排水源操作。此电路是使用TQP13 工艺,适合 60 mil x 60 mil Anachip 布局。The design in this report is a cascode distributed amplifier. The goal of the design was to create anamplifier with a noise figure of <3dB, while still maintaining an output compression point of 17dBm overthe range of 2-20GHz. The process used is Triquint’s TQP13, and the simulations were performed inAgilent’s ADS 2011.10. The final amplifier has >13dB of gain over process variations, an excellent matchon the output, and a typical noise figure of 2.0dB.2-20 GHz Distributed Amplifier MMIC Design
The distributed amplifier architecture, shown in figure 1, is adopted for a wideband amplifier design utilizing an advanced low-cost GaAs PHEMT processfor high frequency applications. The mmic design utilizes distributed elementsfor inductive sections, and achieves a moderate gain and output power withreasonable input and output return loss, while only utilizing four devices. 著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2023-04-01
最近编辑:1年前
