An Overview of State-of-the-Art D-Band Radar System Components

2015 IEEE Hot Chips 27 Symposium (HCS) Pub Date : 2022-09-21 DOI:10.3390/chips1030009

Pascal Stadler, H. Papurcu, T. Welling, Simón Tejero Tejero Alfageme, N. Pohl

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引用次数: 5

Abstract

In this article, a literature study has been conducted including 398 radar circuit elements from 311 recent publications (mostly between 2010 and 2022) that have been reported mainly in the F-, D- and G-Band (80–200 GHz). This study is intended to give a state-of-the-art comparison on the performance of the different technologies—RFCMOS, SiGe/BiCMOS and III–V semiconductor composites—regarding the most crucial circuit parameters of Voltage-Controlled Oscillators (VCO), Power Amplifiers (PA), Phase Shifters (PS), Low-Noise Amplifiers (LNA) and Mixers. The most common topologies of each circuit element as well as the differences between the technolgies will futher be laid out while reasoning their benefits. Since not all devices were derived solely from single device publications, necessary steps to yield as fairly a comparison as possible were taken. Results include the area and power efficiency in RFCMOS, superior noise and power performance in III–V semiconductors and a continuous compromise between efficiency and performance in SiGe. The most rarely published devices, being Mixers and PSs, in the given frequency range have also been identified to give incentive for further developments.

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最先进的d波段雷达系统组件概述

在本文中，进行了一项文献研究，包括来自311份最近出版物(主要在2010年至2022年之间)的398个雷达电路元件，这些元件主要在F, D和g波段(80-200 GHz)报道。本研究旨在对rfcmos、SiGe/BiCMOS和III-V半导体复合材料等不同技术的性能进行最先进的比较，并对压控振荡器(VCO)、功率放大器(PA)、移相器(PS)、低噪声放大器(LNA)和混频器的最关键电路参数进行比较。每个电路元件的最常见拓扑结构以及技术之间的差异将进一步布局，同时推理它们的好处。由于并非所有的器械都完全来自于单一器械出版物，因此采取了必要的步骤来进行尽可能公平的比较。结果包括RFCMOS的面积和功率效率，III-V半导体的优越噪声和功率性能，以及SiGe的效率和性能之间的持续折衷。在给定的频率范围内，最很少发表的设备，即混频器和ps，也被确定为进一步发展的动力。

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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2015 IEEE Hot Chips 27 Symposium (HCS)

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