STMicroelectronics announced the expansion of its 800VDC power conversion portfolio with two new advanced architectures: 800VDC to 12V and 800VDC to 6V. Developed according to the NVIDIA 800 VDC reference design, these new power conversion stages complement the previously introduced 800VDC to 50V solution. The rapidly emerging 800VDC data centre architecture enables higher energy efficiency, reduces power losses, and supports more scalable, high compute density, infrastructure for hyperscale’s and AI compute.
“As AI infrastructure compute scale continues to expand fast, it requires higher voltage distribution and greater density, which can only be achieved with system-level innovation for each of the different AI server form factors,” said Marco Cassis, President, Analog, Power & Discrete, MEMS and Sensors Group Head of STMicroelectronics’ Strategy, System Research and Applications, Innovation Office at STMicroelectronics. “With these new converters for 800VDC power distribution, ST brings a complete set of solutions to support the deployment of gigawatt-scale compute infrastructure with more efficient, scalable, and sustainable power architectures.”
A complete 800 VDC ecosystem for the different AI server form factors
The expansion to 12 and 6V output stages reflects the industry move toward different server architectures requiring different power delivery topologies depending on GPU generation, server height, form factor, and thermal envelope for large-scale training clusters, inference farms, and high-density AI infrastructures. The 50, 12, and 6V intermediate DC buses will all coexist in AI data centres depending on rack density, GPU configuration, and cooling strategy.
The new 800VDC to 12V converter enables high-efficiency distribution from rack-level power shelves directly to the voltage domains that feed advanced AI accelerators.
The new 800VDC to 6V path allows OEMs to reduce the number of conversion stages and move the 6V bus closer to the GPU. This reduces copper usage, minimises resistive losses, and improves transient performance, a critical differentiator for large-scale training clusters.
Back in October 2025, STMicroelectronics introduced a fully integrated prototype power delivery system showcasing a compact GaN based LLC converter operating directly from 800V at 1MHz with over 98% efficiency and exceptional power density in a smartphone sized footprint exceeding 2,600 W/in³ at 50 V.
The three solutions combine ST technologies across power semiconductors (silicon, SiC, GaN), analog and mixed-signal, and microcontrollers.
Technical highlights of the new 12 and 6V architectures
Direct 800VDC to 12V high-efficiency conversion:
- Eliminates the traditional 54V intermediate stage, reducing conversion steps and system-level losses.
- Enables higher rack-level efficiency, lower copper usage, and simplified integration for future GPU generations.
- Includes newly developed high-density power delivery board (PDB) achieving efficiency targets exceeding the sum of previous two-stage conversion paths.
800VDC to 6V architecture for GPU-nearing conversion:
- Is designed for system builders who require power stages closer to the GPU, minimising IR drop and improving response under fast load transients.
- Completes the topology portfolio for servers with ultra dense GPU configurations.
