The Use of Photovoltaic Cells for Autonomous Power Supply of Radio Electronic Devices on the Example of a Wi-Fi Router-Reference-Cited by-同舟云学术

The Use of Photovoltaic Cells for Autonomous Power Supply of Radio Electronic Devices on the Example of a Wi-Fi Router

Published:2022-06-28 Issue:3 Volume:25 Page:73-85
ISSN:2658-4794
Container-title:Journal of the Russian Universities. Radioelectronics
language:
Short-container-title:Izv. vysš. učebn. zaved. Ross., Radioèlektron.

Author:

Lamkin I. A.¹,Degterev A. E.¹,Mikhailov I. I.¹,Romanovich M. M.¹,Patokov N. O.¹,Tarasov S. A.¹

Affiliation:

1. Saint Petersburg Electrotechnical University

Abstract

Introduction. In view of growing environmental concerns, innovative solutions to ensure electrical energy supply to various devices and systems are required. As a result, renewable energy sources, including those based on solar energy, are attracting much attention. In this context, the development of a Wi-Fi router powered by modern photovoltaic converters seems to be a relevant research task.Aim. Development of a Wi-Fi router powered by modern photovoltaic converters.Materials and methods. The proposed system was developed on the basis of a Wi-Fi router YF360-H and a photovoltaic cell HVL-105/O.Results. Calculations of the developed photovoltaic system were performed; volt-ampere and watt-ampere characteristics of the solar panel were investigated. The solar panel power supply circuit was developed, with the conversion efficiency in the working area achieving 90 %. The capacity of the external battery ensuring the system's autonomous operation for 7 days was determined. A modeling experiment in the MATLAB environment demonstrated the high efficiency of the developed system.Conclusion. According to the conducted calculations, a HVL-105/O photovoltaic cell can be used to power a Wi-Fi router YF360-H under the weather conditions considered most unfavorable for solar cells.

Publisher

St. Petersburg Electrotechnical University LETI

Subject

General Medicine

Reference15 articles.

1. Sheryazov S. K., Nikishin Y. A., Schelybaev M. V., Chigak A. S., Doskenov A. K. Modeling of Solar Batteries Operating Modes. IOp Conf. Series: Earth and Environmental Science. 2022, vol. 949, p. 012088. doi:10.1088/1755-1315/949/1/012088

2. Gorecki K., D^browski J., Krac E. Modeling Solar Cells Operating at Waste Light. Energies. 2021, vol. 14 (10), p. 2871. doi: 10.3390/en14102871

3. Degterev A. E., Kuzmina U. A., Lamkin I. A., Mikhailov I. I., Romanovich M. M., Tarasov S. A. Study of the Angle Influence of the Incidence Light Impact on the Accuracy of Coordinate Measurements in a Linear photosensitive Device with Charge Transfer for Orientation Systems on the Sun. Izvestia SpbETU "LETI". 2020, vol. 10, pp. 12-19. (In Russ.)

4. Aronova E., Radovanovic Z., Murgul V., Vatin N., Shvarts M. Energy-Efficient Modernization of the Nobel's Mansion in Saint Petersburg: Solar Energy Supply Potential. Applied Mechanics and Materials. 2015, vol. 725-726, pp. 1505-1511. doi: 10.4028/www.scientific.net/AMM.725-726.1505

5. Murgul V. A. Increasing the energy efficiency of residential buildings in the historical area of St Petersburg. Architecton: Proc. of Higher Education. 2012, vol. 4 (40), pp. 54-62. (In Russ.)

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