A Novel Low-Cost Frequency Diverse Array With Mirrored Two-Wave Mixing

Yu Liu; Rui Zhu; Quanhua Liu

doi:10.1109/LMWC.2022.3216047

A Novel Low-Cost Frequency Diverse Array With Mirrored Two-Wave Mixing

Yu Liu, Rui Zhu, Quanhua Liu

School of Information and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Frequency diverse array (FDA) has been considered as a potential solution to improve radar performance, such as interference suppression and target detection. In this letter, we propose a low-cost implementation of FDA based on two-wave mixing technique. In this method, two linear frequency modulated continuous wave signals are propagating against each other, and their frequency differences caused by propagation delays are converted to a frequency offset in FDA through periodically mixing operation. The two-wave mixing-based FDA automatically creates a desired frequency distribution and phase correlation between the antennas and provides additional phase controlling capability. We also propose a mirrored two-wave mixing FDA, in which the waveform peak can be controlled to only propagate in desired directions.

Original language	English
Pages (from-to)	1-4
Number of pages	4
Journal	IEEE Microwave and Wireless Components Letters
DOIs	https://doi.org/10.1109/LMWC.2022.3216047
Publication status	Accepted/In press - 2022

Keywords

Antenna radiation patterns
Frequency diverse array (FDA)
Frequency diversity
Frequency measurement
Frequency modulation
Phased arrays
Radio frequency
Time-frequency analysis
phase shifters
phased array

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10.1109/LMWC.2022.3216047

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title = "A Novel Low-Cost Frequency Diverse Array With Mirrored Two-Wave Mixing",

abstract = "Frequency diverse array (FDA) has been considered as a potential solution to improve radar performance, such as interference suppression and target detection. In this letter, we propose a low-cost implementation of FDA based on two-wave mixing technique. In this method, two linear frequency modulated continuous wave signals are propagating against each other, and their frequency differences caused by propagation delays are converted to a frequency offset in FDA through periodically mixing operation. The two-wave mixing-based FDA automatically creates a desired frequency distribution and phase correlation between the antennas and provides additional phase controlling capability. We also propose a mirrored two-wave mixing FDA, in which the waveform peak can be controlled to only propagate in desired directions.",

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doi = "10.1109/LMWC.2022.3216047",

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N2 - Frequency diverse array (FDA) has been considered as a potential solution to improve radar performance, such as interference suppression and target detection. In this letter, we propose a low-cost implementation of FDA based on two-wave mixing technique. In this method, two linear frequency modulated continuous wave signals are propagating against each other, and their frequency differences caused by propagation delays are converted to a frequency offset in FDA through periodically mixing operation. The two-wave mixing-based FDA automatically creates a desired frequency distribution and phase correlation between the antennas and provides additional phase controlling capability. We also propose a mirrored two-wave mixing FDA, in which the waveform peak can be controlled to only propagate in desired directions.

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KW - Frequency measurement

KW - Frequency modulation

KW - Phased arrays

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A Novel Low-Cost Frequency Diverse Array With Mirrored Two-Wave Mixing

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