An efficient wireless monitoring system for photovoltaic panels using bluetooth technology

In the current period, the solar energy system has become the most important source of renewable energy, such as wind, fuel cells, and others. The need for it has increased greatly, so that it is relied upon in many services, industrial and agricultural fields, etc. With the increase in demand for s...

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Bibliographic Details
Main Authors: Khaleel, Kutaiba K., Al-Naib, Ahmed M. T. Ibraheem, Atyia, Thamir H.
Format: Conference Proceeding
Language:English
Subjects:
Alternative energy sources
Bluetooth
Data acquisition
Design
Fuel cells
Monitoring
Monitoring systems
Smartphones
Solar energy
Solar radiation
Tablet computers
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Summary:In the current period, the solar energy system has become the most important source of renewable energy, such as wind, fuel cells, and others. The need for it has increased greatly, so that it is relied upon in many services, industrial and agricultural fields, etc. With the increase in demand for solar energy, it leads us to develop and increase its efficiency and improve its performance in various ways. One of these ways is the interest in the monitoring system, which has received great attention from researchers and designers recently. Wireless monitoring systems have been linked with photovoltaic systems and display them on a platform in a more clear and easy way for the user. The design and implementation of a wireless data acquisition system for a photovoltaic panel system is discussed in this paper. based on the ATmega328P microcontroller integrated with the Arduino Uno board, In the proposed monitoring system, the Bluetooth technology was relied on to receive the values of the variables or parameters to be measured by the sensors that were previously determined, namely temperature, humidity, solar radiation, voltage, current, and power, and then display the results taken on smart phones and tablets running Android operating systems using the APK application. The proposed system is characterized by its low cost, simple design, open source, real-time measurement, developable, efficient, high accuracy, reliable, and practical.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0182370