基于CMOS 65nm动态元件匹配的毫米波波束形成器温度传感器电路

2021 International Conference on Information and Communication Technology Convergence (ICTC) Pub Date : 2021-10-20 DOI:10.1109/ICTC52510.2021.9621051

Seunghyun Jang, Sunwoo Kong, Hui-Dong Lee, Bonghyun Park, Seok-Bong Hyun

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引用次数: 1

摘要

由于半导体制造过程中存在电路元件失配的问题，实际芯片的性能与电路仿真结果存在一定的差异。不幸的是，当系统要求更高的信号质量时，这种差异会变得更加严重。本文设计了一种用于第五代移动通信系统的毫米波波束形成器的温度传感器电路，并采用CMOS 65nm工艺进行了仿真。为了在芯片生产过程中获得对电路元件失配的高精度和鲁棒性，由于实现简单且占用硅面积小，因此采用了动态元件旋转。根据1000次蒙特卡罗仿真结果，当传感器偏置电流变化为3 σ时，所设计的温度传感器电路的精度提高了8倍

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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Temperature Sensor Circuit with Dynamic Element Matching in CMOS 65 nm for a mmWave Beamformer

Due to circuit element mismatch occurred during semiconductor fabrication, there exists a discrepancy in performance between the implemented chips and the circuit simulation results. Unfortunately, this discrepancy becomes more severe as a system require higher signal quality. In this paper, a temperature sensor circuit for a mmWave beamformer for 5th generation mobile communication systems is designed and simulated using a CMOS 65 nm process. To obtain highly accurate and robust performance against the circuit element mismatches during the chip production, a dynamic element rotation is exploited because the implementation is simple and occupies small silicon area. According to 1000-run Monte Carlo simulation results, the accuracy of a designed temperature sensor circuit is improved by eight times under a 3- σvariation in sensor biasing currents

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2021 International Conference on Information and Communication Technology Convergence (ICTC)

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