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21.2 A 27-to-41GHz MIMO Receiver with N-Input-N-Output Using Scalable Cascadable Autonomous Array-Based High-Order Spatial Filters for Instinctual Full-FoV Multi-Blocker/Signal Management

机译：21.2使用基于可扩展的可均可自主阵列的高阶空间滤波器，使用N-Input-N输出的27.2 A 27-41GHz MIMO接收器，用于本能全FOV多阻翁/信号管理

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Rapidly growing deployment of mm-wave links in commercial (e.g., 5G/automotive) and defense (e.g., fast-moving drones) applications often exposes the transceiver (TX/RX) front-ends in complex EM environments with multiple fast-changing yet unknown blockers (Angle-of-Arrival AoA/frequency/modulation). To preserve full field-of-view (FoV) and multi-beam/MIMO operations, digital arrays often skip FoV-limited front-end beamforming and rely on digital backends for spatial filtering [1]. However, the RXs and ADCs need high dynamic range (DR) to handle all the aperture information and avoid array saturation by strong signals/blockers that may hinder digital beamforming [2]. Therefore, to aid digital arrays and reduce RX/ADC DR, there is a critical need for agile spectral-spatial front-end filtering for instinctual blocker suppression and “power-equalizing” of desired signals.

机译：在商业（例如，5G /汽车）和防御（例如，快速移动的无人机）和防御（例如，快速移动的无人机）应用中迅速越来越大的部署MM波链路通常在复杂的EM环境中暴露于复杂的EM环境中的收发器（Tx / Rx）前端尚未变化未知的阻滞剂（到达角度AOA /频率/调制）。为了保留完整的视野（FOV）和多光束/ MIMO操作，数字阵列通常跳过FOV限制的前端波束成形并依赖于空间过滤的数字后端[1]。然而，RXS和ADC需要高动态范围（DR）来处理所有光圈信息，并通过可能阻碍数字波束形成的强信号/阻挡器来避免阵列饱和[2]。因此，为了辅助数字阵列和减少RX / ADC DR，对本能阻塞抑制的敏捷光谱 - 空间前端滤波和期望信号的“电力均衡”的临界需要临界需要。

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《IEEE International Solid- State Circuits Conference》|2019年|536 p. :|共3页
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Min-Yu Huang; Hua Wang;
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正文语种
中图分类半导体集成电路（固体电路）;
关键词
Array signal processing; MIMO communication; Wideband; Phased arrays; Receivers; Mixers; Feedforward systems;

机译：阵列信号处理;MIMO通信;宽带;相控阵;接收器;混合器;前馈系统;

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外文文献

1. A Mm-Wave Wideband MIMO RX With Instinctual Array-Based Blocker/Signal Management for Ultralow-Latency Communication [J] . Huang Min-Yu, Wang Hua IEEE Journal of Solid-State Circuits . 2019,第12期

机译：具有基于本征阵列的阻塞器/信号管理的毫米波宽带MIMO RX，用于超低延迟通信
2. Scalable Spatial Notch Suppression in Spatio-Spectral-Filtering MIMO Receiver Arrays for Digital Beamforming [J] . Linxiao Zhang, Arun Natarajan, Harish Krishnaswamy Solid-State Circuits, IEEE Journal of . 2016,第12期

机译：用于数字波束成形的时空频谱滤波MIMO接收器阵列中的可扩展空间陷波抑制
3. 21.2 A 27-to-41GHz MIMO Receiver with N-Input-N-Output Using Scalable Cascadable Autonomous Array-Based High-Order Spatial Filters for Instinctual Full-FoV Multi-Blocker/Signal Management [C] . Min-Yu Huang, Hua Wang IEEE International Solid- State Circuits Conference . 2019

机译：21.2具有N输入N输出的27到41GHz MIMO接收机，使用基于可伸缩级联自主阵列的高阶空间滤波器进行本能全FoV多块/信号管理

21.2 A 27-to-41GHz MIMO Receiver with N-Input-N-Output Using Scalable Cascadable Autonomous Array-Based High-Order Spatial Filters for Instinctual Full-FoV Multi-Blocker/Signal Management

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