Calibration-based phase coherence of incoherent and quasi-coherent 160-GHz MIMO radars
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Date
2020-04-01
Journal Title
Journal ISSN
Volume Title
Publication Type
Wissenschaftlicher Artikel
Published in
IEEE Transactions on Microwave Theory and Techniques, 2020
Abstract
Imaging radars are usually realized fully coherently. However, the distribution of one common radio frequency signal to all transmit and receive paths requires a high degree of hardware complexity. In order to reduce the hardware effort significantly, a novel phase synchronization method for incoherent and quasi-coherent frequency-modulated continuous-wave (FMCW) imaging radars with individual signal synthesis per channel is presented. The quasi-coherent setup uses one common oscillator for all frequency synthesizers. It is shown that in the case of the quasi-coherent system, only a phase difference between the calibration and the measurement has to be corrected to achieve coherence. In comparison, an incoherent system causes additional time, frequency, and FMCW ramp slope errors due to the different behavior of the oscillators. In order to achieve phase coherence and to correct the error sources, a calibration-based method using a defined signal path as part of the radar system is proposed. The imaging radar used for verification of the theory consists of individual single-channel radar monolithic microwave integrated circuits (MMICs) at 160 GHz; each MMIC fed by an individual frequency synthesizer. As shown by measurements, it is possible to achieve phase coherence for both system approaches and to perform angle estimation.
Description
Faculties
Fakultät für Ingenieurwissenschaften, Informatik und Psychologie
Institutions
Institut für Mikrowellentechnik
Citation
DFG Project uulm
binoMIMO / Hochauflösende binokulare MIMO-Millimeterwellen-Radare (binoMIMO) / DFG / 317632307
License
CC BY 4.0 International
Keywords
direction-of-arrival (DoA) estimation, phase noise, Kohärenz, Bildgebendes Verfahren, Millimeterwelle, MIMO, MMIC, Synchronisierung, Coherent states, Imaging systems, Millimeter waves, MIMO systems, Microwave integrated circuits, Synchronization, DDC 620 / Engineering & allied operations