Create your load management of choice and deploy it to all your infrastructures with minimal effort.
Customize
Whether you need static- or dynamic load management, building, battery, or solar integration, with our microservices, you can craft your perfect load management system.
Static load management refers to a fixed/static maximum load capacity for the charging infrastructure. This is usually the case when a separate grid connection point for the infrastructure is present.
By dynamic load management, we refer to a flexible/dynamic maximum load capacity due to uncontrollable loads in the charging infrastructure. This is the case when building loads or renewable energy assets are connected to the same grid connection point as the charging infrastructure.
With access to your infrastructures from anywhere, you can setup any load management through the FLEXeCHARGE Cloud within minutes
Easily change any charging policies or add new features at any time.
Decentralized microservice stack with self-contained services, proactive monitoring, auto-maintenance, and integrated load balancing.
Load Management
Adaptive charging intelligently detects fully charged vehicles, redistributing currents to others. It adjusts to actual vehicle currents, minimizing unused allocations for streamlined efficiency.
Optimize charging with preferences based on time, energy, or RFID. Adapt to unique scenarios, ensuring efficient power distribution and tailored solutions for diverse infrastructures.
DNO Control gives the distribution network operator (DNO) the possibility to regulate the power output of the charging infrastructure in case of a significant grid imbalance.
Peak Load Reduction ensures minimal grid capacity fees by automatically setting a demand threshold based on the average utilisation and ensuring that the charging currents are kept below.
Multi-level clustering mirrors your system's actual wiring topology, ensuring precise load management. With power meters for each subcluster, achieve accurate monitoring in complex situations.
Integrating buildings and PV systems to streamline energy consumption, harnessing solar power for daily operations. This maximizes efficiency, reduces costs, and promotes sustainable energy use.
Battery integration boosts charging infrastructures, storing energy for peak demands. It optimizes charge cycles, reduces grid stress, and meets fluctuating energy needs.
Charge based on tariffs, adjusting to energy prices. Ensuring cost-effective charging, optimizing expenses, and promoting efficient energy consumption.
