Design of Monitoring Battery Solar Power Plant and Load Control System based Internet of Things

Internet of Things technology in this research is utilized on solar power plant (Case Study: Electrical Engineering Department of Trunojoyo Madura University) as a battery power monitoring and load control system. All of these systems were built to make it easier for users to manage the power consum...

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Veröffentlicht in:	Teknik 2021-05, Vol.42 (1), p.35-44
Hauptverfasser:	Alfita, Riza, Joni, Koko, Darmawan, Fajar Dwika
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creator	Alfita, Riza Joni, Koko Darmawan, Fajar Dwika
description	Internet of Things technology in this research is utilized on solar power plant (Case Study: Electrical Engineering Department of Trunojoyo Madura University) as a battery power monitoring and load control system. All of these systems were built to make it easier for users to manage the power consumption while preventing battery damage so that lifetime can last longer and the use of PLTS than more optimal. All of these systems are designed to use several integrated components with their respective functions, including Raspberry as a data processing, smartphone as an interface, and sensors actuator as input-output. From the results of the monitoring accuracy test, the average error value is 1.56%. After ensuring the system has a high level of accuracy, The charge-discharge test is conducted in real-time for 7 days, which shows that the system works according to the research objectives as evidenced by the nothingness of power consumption exceeding the SOC standard limit battery used by 30%. Meanwhile, for the control system test, the wifi connection has the fastest average delay for 10,30 s, provider A 11,17 s, and provider B 12,60 s.
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title	Design of Monitoring Battery Solar Power Plant and Load Control System based Internet of Things
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