基于自旋转矩纳米振荡器的无线通信CMOS发射器和接收器

2018 International Conference on Electronics, Information, and Communication (ICEIC) Pub Date : 1900-01-01 DOI:10.23919/ELINFOCOM.2018.8330556

Hee Sung Lee, Seung Hun Kim, T. Jang, C. Park

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引用次数: 1

摘要

本研究首次在CMOS电路中实现了包含高增益放大器的无线发射器和接收器，用于基于自旋力矩纳米振荡器的无线通信。定义了系统框图，并计算了1米OOK无线通信的功耗预算。发射器由STNO、LNA和SPDT开关组成，接收器由LNA、解调器和施密特触发器组成，均采用0.18 um CMOS实现。发射端和接收端LNA的模拟增益分别为38.5 dB和31.0 dB。制得的发射器和接收器芯片尺寸分别为2.34和4.42 mm2。发射机和接收机的功耗分别为18mw和21.2 mW。一个基于sto的无线通信将演示使用CMOS电路。

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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CMOS transmitter and receiver for spin-torque nano-oscillator based wireless communication

In this study, wireless transmitter and receiver including high gain amplifiers have been implemented in CMOS circuits for the first time for spin-torque nano-oscillator based wireless communication. The system block diagram is defined, and the power budget is calculated for 1-meter OOK wireless communication. The transmitter consists of STNO, LNA and SPDT switch, the receiver consists of LNA, demodulator and Schmitt trigger, and all are implemented in 0.18 um CMOS. Simulated gain of the LNA in transmitter and receiver are 38.5 dB and 31.0 dB, respectively. The fabricated chip sizes of transmitter and receiver are 2.34 and 4.42 mm2. The transmitter and receiver operate with 18 mW and 21.2 mW power dissipation, respectively. An STNO-based wireless communication will be demonstrated using CMOS circuits in the presentation.

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2018 International Conference on Electronics, Information, and Communication (ICEIC)

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