Golen Power has officially commenced shipment of two 1 MW Grid-Forming Central PCS Integrated Systems for an NVIDIA Data Center Project in Asia, marking another milestone in the company's growing presence in next-generation power infrastructure for AI computing facilities. At the same time, Golen Power has formally launched an in-house Solid-State Transformer (SST) development program, with initial validation planned for completion within the year.

From replacing conventional diesel backup generators to advancing the future architecture of AI data center power systems, Golen Power is taking strategic steps to strengthen its position in the rapidly emerging “Computing-Electricity Synergy” sector, where reliable energy infrastructure and high-performance computing converge.

Grid-Forming Central PCS Integrated Systems Cut Lifecycle Costs by Half

In February of this year, Golen Power secured a contract to supply backup power solutions for an NVIDIA data center project in Asia. The project's primary requirement was straightforward yet critical: uninterrupted server operation in the event of a grid outage.

Traditional diesel generator-based backup systems often face challenges including high noise levels, fuel consumption, and relatively slow response times, typically requiring 10–20 seconds to reach full output after startup. To address these limitations, Golen Power deployed its Grid-Forming Central PCS Integrated System, enabling seamless, zero-interruption backup power with virtually instantaneous response. The system ensures uninterrupted power delivery during grid disturbances, maintaining continuous operation of AI servers and protecting critical computing workloads from downtime.

Beyond reliability, the solution also delivers significant economic benefits.

“Compared with conventional diesel-based solutions, energy storage backup systems offer lower noise, faster response, and substantially reduced operating costs,” said Dr. Xie Lei, Chief Technical Engineer of Golen Power. “We estimate that the total lifecycle cost of the storage-based solution is approximately 50% lower than that of traditional diesel generator systems, while simultaneously improving power quality and operational resilience.”

The solution is specifically designed to address common power challenges in parts of Asia, including voltage sags, typhoon-related transmission interruptions, and regional power curtailment events. Fully compliant with key local electrical standards, including JIS, JE, and JC-STAR requirements, the system provides a robust foundation for continuous AI computing operations.

Launching SST Development to Power the Next Generation of AI Data Centers

As large-scale AI models and high-performance computing clusters continue to expand, power demands within AI Data Centers (AIDCs) are increasing dramatically, with rack-level power demands rapidly approaching the megawatt scale.

Traditional power-frequency, multi-stage power architectures suffer from efficiency losses, large equipment footprints, and increased operational complexity, making them increasingly unsuitable for next-generation AI infrastructure. Solid-State Transformers (SSTs) are widely regarded as a key enabling technology for future high-density computing facilities. By enabling direct high-voltage DC power delivery—from 10kV distribution networks to 800V HVDC computing loads—SSTs significantly simplify power conversion pathways, improve efficiency, reduce infrastructure requirements, and enhance overall system reliability.

Recognizing this opportunity, Golen Power has officially initiated its proprietary SST development program. The technology roadmap targets multiple high-growth application scenarios, including:

AI Data Centers (AIDCs)

Ultra-fast EV charging infrastructure

Renewable energy direct-connect systems

DC distribution networks

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Through the development of proprietary topologies and deep integration with domestic semiconductor and component ecosystems, @Golen Power aims to accelerate innovation across critical technologies such as power semiconductors, magnetic components, and advanced packaging solutions, while contributing to a more resilient and self-sufficient green computing infrastructure ecosystem.

Advancing Green Computing Through Source–Grid–Load–Storage Integration

The shipment of energy storage systems for the NVIDIA data center project and the launch of the SST development initiative represent two important milestones in Golen Power's broader strategy to advance the integration of energy infrastructure and digital computing. As AI applications continue to drive unprecedented demand for reliable, efficient, and sustainable power systems, the convergence of energy and computing is becoming a defining trend for the future of infrastructure development.

Looking ahead, Golen Power will continue to strengthen its capabilities across the entire energy value chain—from Source–Grid–Load–Storage (SGLS) integration to intelligent energy management—building a comprehensive energy service ecosystem designed to support the next generation of global computing infrastructure. By delivering safe, efficient, and low-carbon power solutions, Golen Power remains committed to empowering the growth of green computing and supporting the high-quality development of the global digital economy.