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Fully-integrated non-magnetic non-reciprocal components based on linear periodically-time-varying circuits

机译：基于线性定期时变电路的完全集成的非磁性非互易组件

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Lorentz reciprocity is a fundamental property of passive, linear, time-invariant circuits and systems constructed from conventional materials. Recently, we demonstrated the first CMOS non-magnetic non-reciprocal passive circulator that uses a linear periodically-time-variant (LPTV) phase-shifting N-path filter to break reciprocity. In this paper, we review the concept and present the measured performance of a 65nm CMOS 750MHz prototype that exhibits 1.7dB of loss in the transmitter-antenna (TX-ANT) and antenna-receiver (ANT-RX) paths and has high isolation (up to 50dB through tuning and 20dB bandwidth of 32MHz). Through an architectural feature specifically designed to enhance TX linearity, the circulator achieves an in-band (IB) TX-ANT IIP3 of +27.5dBm, remarkably two orders of magnitude higher than the ANT-RX IIP3 of +8.7dBm.

机译：Lorentz互惠是由传统材料构造的被动，线性，时间不变电路和系统的基本特性。最近，我们证明了第一个CMOS非磁性非互易被动循环器，其使用线性的周期性时变量（LPTV）相移N路径滤波器以破坏互动。在本文中，我们审查了概念并呈现了65nm CMOS 750MHz原型的测量性能，在发射器 - 天线（TX-ANT）和天线接收器（ANT-RX）路径中表现出1.7dB的损耗并具有高隔离（通过调谐和20dB带宽为32MHz，高达50dB）。通过专门设计用于增强TX线性度的架构特征，循环器实现了+ 27.5dBm的带内（IB）Tx-ant IIP3，比+ 8.7dBm的Ant-RX IIP3高的两个数量级。

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《IEEE Radio Wireless Week》|2017年|124p|共4页
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Negar Reiskarimian; Harish Krishnaswamy;
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中图分类 TN43-53;
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Circulators; Clocks; Frequency measurement; Linearity; Optical ring resonators; Scattering parameters; Microwave circuits;

机译：循环器;时钟;频率测量;线性谐振器;散射参数;微波电路;

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Fully-integrated non-magnetic non-reciprocal components based on linear periodically-time-varying circuits

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