Determined the solar power system’s power requirements, including voltage, current, and safety.
The electrical panel had following components such as:
Main Breaker: For disconnecting the panel from the power source.
Solar Charge Controller: To regulate voltage and current from the solar panels to the batteries.
Inverter: To convert DC from solar panels to AC for household use.
DC and AC Circuit Breakers: To protect the system from overloads and short circuits.
Busbars: For distributing power.
Fuses and Disconnects: For additional safety.
Monitoring Equipment: For system performance tracking.
To assemble the panel, all components were securely mounted inside the enclosure based on layout design. The enclosure is a durable, and weatherproof.
Connect solar panels to a breaker box:
Set Up Solar Panels: Position and secure the solar panels.
Disconnect Breaker Box: Ensure the breaker box is disconnected from the grid.
Connect Inverter: Use draw cables to connect the inverter to the main breaker box.
Attach Charge Controller: Connect the solar charge controller to the panels and check current output with a multimeter.
Connect to Batteries: Link the controller to the batteries, using a bus bar junction if needed.
Inverter Connection: Connect terminals from the batteries and controller to the inverter.
Ground Wires: Properly ground remaining open wires and reinstall fuses.
Power On and Test: Switch on the controller and verify correct current and voltage with a multimeter.
Integrated with the solar power system, by connecting the input terminals of the electrical panel to the solar panels and the output terminals to the transformers.
Ensured that the panel and all components are properly grounded to prevent electrical shocks and ensure safety.
Conducted a thorough visual inspection to ensure all connections are secure and components are properly mounted and tested all circuit breakers and fuses for correct operation.
Tested the panel in conjunction with the solar power system to ensure seamless integration and proper energy distribution.
Ensured that the panel was build according to electrical codes and standards.
Kept detailed records for the future reference.
By following these procedures, our electricians created an efficient electrical panel for distributing electricity generated by solar panels.
