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Receiving Paths Improvement of Digital Phased Array Antennas Using Adaptive Dynamic Range

Nguyen, X.L. and Dang Thi, T.T. and Nguyen, P.B. and Tran, V.H. (2024) Receiving Paths Improvement of Digital Phased Array Antennas Using Adaptive Dynamic Range. Electronics (Switzerland), 13 (21). ISSN 20799292

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Abstract

In contemporary radar technology, the observation and detection of objects with low radar cross-sections remains a significant challenge. A multi-functional radar model employing a digital phased array antenna system offers notable advantages over traditional radar in addressing this issue. Nonetheless, to fully capitalize on these benefits, improving the structure of the receiving path in digital transceiver modules is crucial. A method for improving the digital receiving path model by implementing a matched filter approach is introduced. Given that the return signals from objects are often lower than the internal noise, the analog part of the digital transceiver modules must ensure that its dynamic range aligns with the level of this noise and the weak signal. The output signal level of the analog part must correspond to the allowable input range of the analog-to-digital converter. Improvements in the receiving path to achieve a fully matched model can reduce errors in the phase parameters and amplitudes of the useful signal at the output. The simulation results presented in this paper demonstrate a reduction in amplitude error by approximately 1 dB and a phase error exceeding 1.5 degrees for the desired signal at the output of each receiving path. Consequently, these improvements are expected to enhance the overall quality and efficiency of the spatial and temporal accumulation processes in the digital phased array antenna system. Furthermore, to maintain the matched filter model, we also propose incorporating an adaptive “pseudo-expansion” of the linear gain range. This involves adding a feedback stage with an automatic and adaptive bias voltage adjustment for the intermediate-frequency preamplifier in the analog part of the receiving path. Simulations to qualitatively verify the validity of this proposal are conducted using data from practical operational radar system models. © 2024 by the authors.

Item Type: Article
Divisions: Offices > Office of International Cooperation
Identification Number: 10.3390/electronics13214161
URI: http://eprints.lqdtu.edu.vn/id/eprint/11436

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