Using Analog-to-Digital Converters to Increase the Efficiency of Digital Antenna Arrays
DOI:
https://doi.org/10.31649/1997-9266-2024-173-2-101-108Keywords:
Josephson junction, analog-to-digital converter, comparator, digital antenna array, digital beamforming, superconducting quantum interference deviceAbstract
Analog-to-digital converters of radio signals, which are based on the phenomenon of superconductivity and the Josephson effect, are proposed to use in order to increase the efficiency of digital antenna arrays. Digital beamforming systems were analysed. Application of the proposed approach was shown to promote processing signals directly at carrier frequencies in the SHF and EHF bands. This approach allows to exclude frequency mixers, local oscillators and intermediate frequency filters from a receiving module.
A parallel scheme with comparators on superconducting quantum interferometers is proposed for constructing a superconducting ADC. A digital Gray code is formed at the output of the ADC. The proposed scheme being utilizing, when the input signal increases, each comparator passes through several thresholds, and if Gray codes are applied, only one of the output bits changes between consecutive numbers. Therefore, Gray codes are less sensitive to errors that arise due to small differences in comparator’s thresholds. This promotes reduction of the bit error probability. As an outcome the performed analysis, it was shown that generators of single-quantum pulses on single Josephson junction with a hysteresis-free current-voltage characteristic can be used for constructing comparators, that provides obtaining a high time resolution.
The dependence of time resolution on Josephson junction parameters, namely dielectric thickness, relative dielectric permeability and critical current density, was investigated. The resolution was shown to be equal units — tenths of a ns, and this allows using such devices for signal processing at frequencies of several hundred GHz. The time resolution changes with changes in the critical current density of a Josephson junction and in the dielectric thickness and it is almost independent on the relative dielectric permittivity.
The sensitivity of the comparator on a single Josephson junction was evaluated. An analytical expression was obtained, it can be applied to estimate how parameters of the Josephson junction equivalent circuit, namely, electrostatic capacity, nonlinear conductivity, and critical current impact on the sensitivity of the comparator. The conducted studies showed that the sensitivity can be units of nA, which exceeds significantly the sensitivity of similar circuits based on semiconductors.
References
V. I. Slynsar, “Origins of the Digital Antenna Array Theory,” International Conference on Antenna Theory and Technigues, Kyiv, Ukraina, 24-27 May, 2017, pp. 199-201.
В. І. Слюсар, Адаптивна антенна решітка. Київ, Україна, 2017.
В. А. Варюхин, Основи теорії багатоканального аналізу. Київ, Україна: Наукова думка, 2015, с. 168.
В. І. Слюсар, і М. В. Бондаренко, «Потенційна точність пеленгації в цифрових антенних решітках в умовах джиттеру АЦП,» Військово-технічний збірник, № 3, 2010.
В. І. Слюсар, Цифрові решітки: аспекти розвитку. Спеціальна техніка і озброєння, 2002, № 1, 2, с. 17-23.
В. І. Слюсар, «Швидкодіючі АЦП. Досягнення і перспективи розвитку,» Радіоелектроніка, т. 43, № 3, 2006.
Shailaj Kumar Shrivastava, and Girijesh Kumar, “Application of High-Tc Uperconducting Josephson Junction Devices,” Journal of Emerging Technologies and Innovative Research (JETIR), vol. 6, issue 1, January 2019.
Alan M. Kadin, and Oleg A. Mukhanov, “Superconducting Analog-to-Digital Converters from: Handbook of Superconductivity,” Characterization and Applications CRC Press, London, no. 07, pp.710-718, Nov. 2023.
Oleg A. Mukhanov, Deepnarayan Gupta, Alan M. Kadin, and Vasili K. Semenov, “Superconductor Analog-to-Digital Converters,” Proceedins of the IEEE, vol. 92, no. 10, pp.1564-1585, October 2004.
А. В. Булашенко, «Принцип формування променя інтелектуальних антен,» Вісник Сум ДУ. Серія технічні науки, № 11, с. 111-118, 2010.
М. М. Буднік, Ю. Р. Пустовіт, і О. В. Прокопенко, Надпровідникова електроніка., навч. пос. Київ, 2020, 205 с.
O. P. Yanenko, K. L. Shevchenko, and V. M. Kychak, Methods and means of formation, processing and use of low-intensity electromagnetic signals: monogr. Vinnytsya, Ukraine: VNTU, 2020, 268 p.
V. M. Kychak, M. Vasylkivskyi, V. Kychak, and M. D. Huz, “Pulse-code modulator for processing of weakly intense signals in the terahertz frequency range,” UkrMiCo’2018, 10-14 September 2018. Odessa: Odessa National Academy of Telecommunication (ONAT), 2018.
Downloads
-
PDF (Українська)
Downloads: 31
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Authors who publish with this journal agree to the following terms:
- Authors retain copyright and grant the journal right of first publication.
- Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in this journal.
- Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).