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LT-REE510 Advanced Three-Phase PV on-Grid Training System

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Description Technical Details

An advanced three-phase PV (Photovoltaic) on-grid training system with interactive software is a specialized educational tool designed to provide comprehensive training and understanding of grid-connected solar power systems. This system combines both hardware components and interactive software to offer a comprehensive learning experience.

Learning Objectives:

·       PV System Installation: Installing Photovoltaic Systems

  • Objective: Learn the step-by-step process of installing photovoltaic systems, including panel mounting, wiring, and safety measures.

·       Grid-Connected PV System Setup: Configuration and Testing of Grid-Tied Photovoltaic System

  • Objective: Set up and test a photovoltaic system to understand its seamless integration with the power grid.

·       Energy Measurement: Measurement of Photovoltaic Energy Generation

  • Objective: Measure and analyze the energy output generated by photovoltaic systems under various conditions.

·       Maximum Power Point Tracking (MPPT): Optimization of Photovoltaic System Performance

  • Objective: Study and implement MPPT techniques to maximize energy production from PV panels.

·       Inverter Power Limitation: Derating and Power Limitation in Photovoltaic Inverters

  • Objective: Explore the concept of derating and learn how to limit the power output of photovoltaic inverters.

·       Reactive Power Provision: Provision of Reactive Power in Photovoltaic System

  • Objective: Understand how photovoltaic systems can provide reactive power and its significance in grid stability.

·       Inverter Efficiency Determination: Evaluating the Efficiency of Grid-Tied Inverters

  • Objective: Determine and analyze the efficiency of power grid inverters used in photovoltaic systems.

·       Grid Inverter Control: Responsive Control of Grid-Tied Photovoltaic Inverters

  • Objective: Study the response and control mechanisms of photovoltaic inverters in grid-connected systems.

·       Sun Passage Emulator Data Recording: Data Logging with Sun Passage Emulator

  • Objective: Record and analyze system output data using a sun passage emulator to mimic various solar conditions.

·       Grid Outage Response: Investigating Photovoltaic System Behavior During Grid Outages

  • Objective: Examine how photovoltaic systems respond when the power grid experiences outages or disruptions.

·       Lightning Protection for PV Systems: Implementing Lightning Protection for Photovoltaic Systems

  • Objective: Learn strategies and equipment for protecting photovoltaic systems from lightning strikes.

·       Economic Analysis of PV Systems: Assessing the Economic Benefits of Photovoltaic Systems

  • Objective: Evaluate the financial advantages and return on investment associated with photovoltaic installations.Top of Form

·       LAN Transformer Analysis: Study of Local-Area Network (LAN) Transformers

  • Objective: Investigate the functions and characteristics of transformers within a local-area network (LAN) infrastructure.

·       PV Inverter Power Management: Managing Photovoltaic Inverter Power Output

  • Objective: Explore techniques and considerations for controlling and limiting the power output of photovoltaic inverters, also known as derating.

·       Automated Voltage Regulation: Implementing Automatic Voltage Control in a Local Power Grid

  • Objective: Examine the deployment and operation of systems for automated voltage control within a local power grid.