Wireless Data Acquisition System with Feedback Function

When operating solar–wind power plants (SWPPs) located in populated areas, cases of premature failure of expensive batteries and other power equipment often occur. The purpose of this study is to develop a wireless data acquisition system (DAS) for the operation of an SWPP with a feedback function t...

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Bibliographic Details
Published inApplied sciences Vol. 14; no. 13; p. 5553
Main Authors Manukovsky, Anatoliy, Sagyndyk, Aigerim, Kislov, Aleksandr, Talipov, Olzhas, Manukovsky, Alexey
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2024
Subjects
Alternative energy sources
Communication
Control algorithms
data acquisition system
Data acquisition systems
Data collection
Data transmission
Energy efficiency
Energy resources
Failure
Green buildings
infrared receiver
Internet of Things
microcontroller
Monitoring systems
Power plants
Power supply
radio module
Software
Solar energy
wireless sensor
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Summary:When operating solar–wind power plants (SWPPs) located in populated areas, cases of premature failure of expensive batteries and other power equipment often occur. The purpose of this study is to develop a wireless data acquisition system (DAS) for the operation of an SWPP with a feedback function to prevent material damage from the failure of power equipment and to increase the efficiency of natural energy use. The principles of constructing a DAS, free from some of the disadvantages of analogues, are described in this paper. Intelligent wireless current and voltage sensors and a device for receiving and recording data with an additional feedback function have been developed, providing real-time feedback when the measured parameters go outside the norm. Measurement data are displayed on the laptop screen and alphanumeric display and stored on the hard drive along with timestamps and current event messages. An example of using a reverse communication channel to implement the functions of backup battery protection and to switch SWPP loads is described. The principles and methods proposed in this article are suitable for constructing systems for remote measurements of any physical quantities; therefore, the scope of application of the described system can be significantly expanded.
ISSN:2076-3417
2076-3417
DOI:10.3390/app14135553