The ACDB is responsible for collecting and distributing the alternating current (AC) power generated by the inverter. Solar inverters convert DC power from the solar panels into AC power, and the ACDB manages the distribution of this power to the loads or the electrical grid.
Allows for the isolation of the inverter from the rest of the system during maintenance or emergencies.
Circuit Breakers
Provide overcurrent protection for the AC side of the system and individual circuits.
Monitoring Devices
Instruments to measure and monitor the performance of the inverter and the overall AC side of the system.
Metering Equipment
Tracks the amount of AC power produced by the solar system.
Grid Connection Equipment
In grid-tied systems, the ACDB facilitates the connection to the utility grid.
Enclosure
Similar to the DCDB, the ACDB is usually housed in a weatherproof enclosure to protect it from environmental conditions.
Integration
Solar DCDB and ACDB are vital for safe, efficient power distribution in solar systems, designed based on panel count, system voltage, and capacity to meet electrical standards for safety and reliability.
Application
01
Solar Power Plants
Solar ACDB-DCDB boxes are essential components in utility-scale solar power plants, facilitating the efficient distribution of AC and DC power generated by solar panels.
02
Commercial Solar Installations
In commercial settings, these boxes are used to manage and control the flow of AC and DC power from solar inverters to the grid or local loads.
03
Industrial Solar Systems
Solar ACDB-DCDB boxes play a vital role in industrial solar installations, ensuring the proper synchronization and distribution of AC and DC power for industrial processes.
04
Off-Grid Solar Solutions
In off-grid applications, such as remote sites or standalone solar systems, ACDB-DCDB boxes help regulate and distribute power for local consumption.
05
Residential Solar Systems
Solar ACDB-DCDB boxes are employed in residential solar setups to manage the connection between solar inverters and the household electrical system.
Rating
Voltage Rating
Designed to handle high voltages and suitable for a range of solar installations.
Current Rating
The current rating is based on the maximum current from the solar panels to the inverter for safety and efficient power distribution.
Advantages
Enhanced Safety
Protects against overcurrent and short circuits. That ensures the safety of your solar power system.
Efficiency
Ensures efficient distribution of AC power from the inverter to the load.
Durability
Built with high-quality components for long-lasting performance.
Compliance
Meets all relevant electrical standards and regulations.
Enhanced Safety
Protects against overcurrent and short circuits. That ensures the safety of your solar power system.
Efficiency
Ensures efficient distribution of AC power from the inverter to the load.
Durability
Built with high-quality components for long-lasting performance.
Compliance
Meets all relevant electrical standards and regulations.
