Atess Transformer to suit 1 x PCS500, 400V, 500kW

The ATESS Transformer is specifically designed to provide reliable and efficient power conversion for a wide range of industrial and renewable energy applications, including integration with inverters such as the PCS500. With a rated capacity of 500kVA, this transformer is tailored to handle the output of high-performance inverters, ensuring seamless power transmission while maintaining high operational efficiency.

Key Features:

• Rated Capacity: 500kVA, optimised for high-power systems.
• Voltage Compatibility: Primary and secondary rated voltage of 400V, ensuring seamless integration with PCS500 inverters and other 400V systems.
• Current Handling: Capable of supporting 727A on both primary and secondary sides, accommodating high-current applications.
• Frequency Support: Designed to operate at 50/60Hz, making it suitable for various global regions.
• Vector Group Dyn11: This configuration ensures the correct phase alignment for robust system performance.
• Energy Efficiency: No load consumption of 950W and load consumption of 7100W (at 75°C), ensuring efficient energy use under different load conditions.
• Durability: Insulation level rated at H, providing reliable thermal resistance and long-term durability.
• Protection: With an IP00 protection level, the transformer is best suited for controlled indoor environments, ensuring safety and longevity.

Applications:

• Renewable Energy Systems: Perfect for solar or wind power plants, where the PCS500 inverter is used for power conversion and distribution.
• Industrial Power Distribution: Ideal for large industrial facilities requiring reliable and high-capacity power conversion.
• Energy Storage Systems: Useful in energy storage setups where integration with high-output inverters like the PCS500 is essential for efficient power distribution.
• Commercial and Utility-Scale Power Systems: Ensures the reliable operation of utility-scale systems that require stable and continuous power delivery.

The ATESS Transformer provides a critical role in ensuring efficient power transfer and conversion, making it an essential component in high-performance energy systems.