A. Hamied scite author profile

In this paper, a low-cost monitoring system for an off-grid photovoltaic (PV) system, installed at an isolated location (Sahara region, south of Algeria), is designed. The PV system is used to supply a small-scale greenhouse farm. A simple and accurate fault diagnosis algorithm was developed and integrated into a low-cost microcontroller for real time validation. The monitoring system, including the fault diagnosis procedure, was evaluated under specific climate conditions. The Internet of Things (IoT) technique is used to remotely monitor the data, such as PV currents, PV voltages, solar irradiance, and cell temperature. A friendly web page was also developed to visualize the data and check the state of the PV system remotely. The users could be notified about the state of the PV system via phone SMS. Results showed that the system performs better under this climate conditions and that it can supply the considered greenhouse farm. It was also shown that the integrated algorithm is able to detect and identify some examined defects with a good accuracy. The total cost of the designed IoT-based monitoring system is around 73 euros and its average energy consumed per day is around 13.5 Wh.

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Experimental Validation of a Prototype for Fault Detection and Classification of a Photovoltaic System Using dSPACE

Hamied¹,

Rabhi²,

Rouibah³

et al. 2020

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A. Hamied

IoT-based experimental prototype for monitoring of photovoltaic arrays

IoT-Based Smart Photovoltaic Arrays for Remote Sensing and Fault Identification

A Low-Cost Monitoring and Fault Detection System for Stand-Alone Photovoltaic Systems Using IoT Technique

IoT-Based Low-Cost Photovoltaic Monitoring for a Greenhouse Farm in an Arid Region

Experimental Validation of a Prototype for Fault Detection and Classification of a Photovoltaic System Using dSPACE

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