The “XinYun Artificial Intelligence” data center in Karamay, Xinjiang, recently successfully deployed the DeepSeek-R1 series model. The stable power provided by Delta's high-integration power (HIP) modules support the efficient operation of this platform. The platform has integrated a total of 12 Delta HIP modules, each capable of outputting up to 1.8 megawatts. Each module consists of 3 DPH 600k modular UPS units and is equipped with 40 batteries in 4 sets, providing 15 minutes of backup power. This setup establishes a multi-layered protection mechanism for the entire system, ensuring stable operation even during sudden power outages.

The HIP modules from Delta demonstrate excellent spatial configuration advantages. The optimized structure reduces system space requirements by 40%, with transformer depth of just 1200mm, a reduction of 450mm on traditional solutions. Additionally, the integration of low-voltage distribution and UPS reduces overall footprint by 20%, allowing for more flexible site layout.

In terms of energy efficiency, the HIP modules also excel, with an online mode efficiency of 96.5% and an eco mode efficiency of 97.5%. They also feature a global automatic power factor correction capability of greater than 0.9, allowing for stable operation even in complex power conditions. This energy-saving and efficient design has helped “XinYun Artificial Intelligence” data center achieve its low-carbon operational goals.
Delta’s high-integration power modules provide stable power for the“XinYun Artificial Intelligence” data center smart computing platform.

To ensure the continuous stability of the system, the HIP modules use a design with all-copper piping and all-circuit breakers, simplifying the installation process and enhancing operational efficiency. Through a distributed architecture and smart monitoring system, the temperature of circuit breakers, critical components, and busbars can be monitored in real-time, allowing for early warning of potential issues and enhancing overall reliability.
In terms of project efficiency, HIP modules have demonstrated the advantage of rapid deployment. Their modular design has shortened on-site construction time to 14 days, reducing engineering volume by approximately 70% compared to traditional solutions and significantly accelerating the progress of platform construction.

Furthermore, the “XinYun Artificial Intelligence” data center has performed outstandingly in green energy utilization, with a green electricity usage rate of up to 100% and a PUE value controlled below 1.2. This is attributed to the abundant wind and solar energy resources in the area, combined with Delta's high-efficiency power conversion and smart energy management technologies integrated into the HIP modules, jointly creating a representative low-carbon computing power benchmark.

This collaborative project not only embodies the integration of technology and green energy but also signifies the deepening implementation of smart infrastructure and sustainable principles. In the future, as the platform continues to grow, Delta will continue to provide more advanced power support to help it steadily move forward in the era of the digital economy.