This paper presents a connectivity module designed to facilitate easy interaction between photovoltaic (PV) plotting devices and cloud networks. The module enables real-time data transmission from PV systems, ensuring continuous and accurate monitoring of solar energy performance. With this solution, data generated by PV systems is securely transmitted to the cloud for storage, analysis, and further evaluation. This development enhances the capability of remote monitoring and supports data-driven decision-making, predictive maintenance, and optimisation of system efficiency. Its design emphasizes seamless integration with existing PV devices, robust data security, and scalability for a variety of solar energy applications. The uniqueness of this connectivity module lies in its ability to facilitate remote monitoring of solar power plants across different geographies. Real-time performance information is accessible to site operators, maintenance teams, and energy analysts, thereby reducing site visits and improving operational efficiency. Remote monitoring allows for immediate fault detection, thereby enabling predictive maintenance and minimising downtime. Integration with cloud technology also maximises data analysis, enabling users to extract valuable insights from trends, historical data, and predictive forecasting.

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Connectivity Module for PV-IV Plotting Devices

  • Santadip Rudra,
  • Kuntal Chakraborty,
  • Soumadeep Mandal,
  • Muhammad Adnan,
  • Priyakshi Bhattacharya,
  • Sudipta Basu Pal

摘要

This paper presents a connectivity module designed to facilitate easy interaction between photovoltaic (PV) plotting devices and cloud networks. The module enables real-time data transmission from PV systems, ensuring continuous and accurate monitoring of solar energy performance. With this solution, data generated by PV systems is securely transmitted to the cloud for storage, analysis, and further evaluation. This development enhances the capability of remote monitoring and supports data-driven decision-making, predictive maintenance, and optimisation of system efficiency. Its design emphasizes seamless integration with existing PV devices, robust data security, and scalability for a variety of solar energy applications. The uniqueness of this connectivity module lies in its ability to facilitate remote monitoring of solar power plants across different geographies. Real-time performance information is accessible to site operators, maintenance teams, and energy analysts, thereby reducing site visits and improving operational efficiency. Remote monitoring allows for immediate fault detection, thereby enabling predictive maintenance and minimising downtime. Integration with cloud technology also maximises data analysis, enabling users to extract valuable insights from trends, historical data, and predictive forecasting.