An S-Band-Receiving Phased-Array Antenna with a Phase-Deviation-Minimized Calibration Method for LEO Satellite Ground Station Applications

Lee, Dong-Hyo; Seo, Jung-Won; Lee, Myeong-Shin; Chung, Dae-Won; Lee, Dongkook; Bang, Jaehoon; Satriyotomo, Bagas; Pyo, Seongmin

doi:10.3390/electronics11233847

Cited by 3 publications

(1 citation statement)

References 22 publications

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“…Calibration of antenna arrays is in demand in complexes of various purposes. These are multi-user MIMO systems [29,30]; various on-board aviation systems [31,32]; ground and satellite stations [33][34][35][36]; and even floating [37] or rotational platforms [38]. Calibration algorithms are constantly being improved, new ones are appearing, and known methods are being experimentally studied [39][40][41].…”

Section: Introductionmentioning

confidence: 99%

Development of the Phaseless Calibration Algorithm for a Digital Antenna Array

Dobychina,

Snastin,

Savchenko

et al. 2023

Inventions

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In this paper, we will discuss a calibration algorithm for a digital antenna array that diagnoses its real performance. It can be applied at such stages of the antenna system life cycle as design, tuning, and especially maintenance. A calibration implementation using a scalar method for a multi-beam digital antenna array is proposed and investigated. On-the-fly calibration ensures a continuous improvement in beam pointing accuracy by reducing internal errors in the receiving (transmitting) channels. The purpose of the study is to experimentally examine the capabilities of digital beamforming to increase the angle-of-arrival estimation accuracy. A simulation model of the receiving antenna was created in an anechoic chamber with a planar antenna positioner. The possibility of precise estimation of the direction of arrival using the digital beamforming with electronic scanning was demonstrated. The proposed simulation model made it possible to observe the convergence of the antenna array calibration process using the proposed method for various errors in the signal paths, as well as different signal-to-noise ratios. It has been proven that even under adverse conditions early in the calibration algorithm, the phase error detection converges with high accuracy, and its value decreases uniformly even to the fractions of an angular degree.

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Section: Introductionmentioning

confidence: 99%

Development of the Phaseless Calibration Algorithm for a Digital Antenna Array

Dobychina,

Snastin,

Savchenko

et al. 2023

Inventions

View full text Add to dashboard Cite

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Review on 5G Small Cell Base Station Antennas: Design Challenges and Technologies

Praveen Kumar,

Kommuri

2024

IEEE Access

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Advancements in Antenna Systems for B5G and 6G Applications

Ramin Emadian

2024

Free Space Optics Technologies in B5G and 6G Era - Recent Advances, New Perspectives and Applications

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This chapter explores the fundamental concepts of antenna design critical for beyond 5G (B5G) and anticipated 6G technologies. It delves into various antenna types, including microstrip antennas, metamaterial-based designs, reconfigurable antennas, phased array antenna, and lens antennas, highlighting their role in achieving the ultra-high data rates, ultra-low latency, and massive device connectivity envisioned for B5G and 6G networks. The discussion covers key aspects such as beamforming, beam steering, and pattern reconfigurability of antenna arrays, along with interference mitigation strategies. By understanding these diverse antenna systems, researchers and engineers can contribute to shaping the future of wireless communication in the B5G and 6G era.

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An S-Band-Receiving Phased-Array Antenna with a Phase-Deviation-Minimized Calibration Method for LEO Satellite Ground Station Applications

Cited by 3 publications

References 22 publications

Development of the Phaseless Calibration Algorithm for a Digital Antenna Array

Development of the Phaseless Calibration Algorithm for a Digital Antenna Array

Review on 5G Small Cell Base Station Antennas: Design Challenges and Technologies

Advancements in Antenna Systems for B5G and 6G Applications

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