Enterprise power supply systems are designed to handle high capacities, inrush currents, and reactive loads of industrial equipment, as well as the required autonomous operating time. The primary objective of such systems is to maintain uninterrupted operation of the production process regardless of external grid conditions.

Solutions for Industrial Enterprises
Enterprise power supply systems are designed to handle high capacities, inrush currents, and reactive loads of industrial equipment, as well as the required autonomous operating time. The primary objective of such systems is to maintain uninterrupted operation of the production process regardless of external grid conditions.
Solutions for Data Centres
The 99.99999% uptime reliability of servers and other IT equipment is ensured by data centre engineering infrastructures designed in accordance with current international standards. Multi-layer redundancy, the ability to perform maintenance, reconfiguration and upgrades without load disconnection are the key features of the power supply and cooling systems we build for data centres.
Solutions for Special Vehicles
To increase the power capacity of special vehicles, an additional onboard power network is installed. The onboard systems of special vehicles can be built on the same principles and using the same equipment as the onboard power systems of boats and yachts.
In each individual case, the solution is defined by specific requirements. The wide product range of Victron Energy covers any set of requirements.
As an example, below is a diagram of the power supply system for an ambulance.

The ambulance interior can accommodate medical equipment powered from 12 V and 24 V DC networks, as well as from a 230 V AC network.
The batteries are charged from the external grid using the MultiCompact multifunction device. In autonomous mode, MultiCompact generates 230 V AC using battery energy. The status of the power supply system is monitored via a remote control panel.
The Cirix-i battery monitoring device ensures independent operation of batteries within the shared DC network.
Load power and sustain time are determined by the battery capacity and the technical specifications of the inverter.
If needed, the onboard network can be supported by the vehicle engine compartment generator.