By: ICN Bureau
Last updated : October 06, 2025 8:36 pm
The new system features industry-leading power density and flexible dispenser options that can be configured to suit any site or operational need
Siemens has announced the launch of Sicharge Flex, its next-generation distributed electric vehicle (EV) charging system, setting a new benchmark in flexibility, performance, and scalability for the megawatt era. Engineered to meet the growing global demand for robust and efficient EV infrastructure, Sicharge Flex is designed to support a wide range of use cases—from fleet and depot operations to en-route charging—making it one of the most adaptable systems on the market.
The new system features industry-leading power density and flexible dispenser options that can be configured to suit any site or operational need. The central power unit delivers between 480 kW and 1.68 MW DC, with fully dynamic power distribution and charging currents of up to 1,500 A. This allows operators to distribute power dynamically from 80 kW to 1.68 MW per charge point, ensuring optimal performance across multiple vehicles and applications.
Designed with modularity and scalability at its core, Sicharge Flex enables operators to future-proof their investments while maintaining high energy efficiency and reliability. Its distributed architecture allows for easy system expansion as EV adoption grows, minimizing installation costs and operational disruptions.
The system’s first deployment will take place with OMV, which has ordered the inaugural Sicharge Flex unit for a project in Kufstein, Austria. This marks an important step toward integrating high-capacity, flexible charging infrastructure into commercial and public transport networks.
With Sicharge Flex, Siemens reaffirms its commitment to advancing smart infrastructureand accelerating theglobal transition to electric mobility. The launch reflects the company’s focus on delivering innovative solutions that empower sustainable transportation and help meet the increasing demands of the EV ecosystem.