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How it works
The System consists of the following components:
  • Hybrid inverter
  • Battery set
  • AI-based cloud software
Usually, the functionality of the System includes the following strategies:
  • Peak shaving. Low consumption and low price – buy and store, high consumption and high price – consume from storage.
  • Load shifting. High solar activity – store exceeded energy, no solar activity – consume from storage.
The system operates autonomously without any headaches and generates revenue from the energy market for you.
Peak Shaving is a powerful energy management strategy that helps reduce energy costs and provide power stability. The System is monitoring energy demand. It continuously tracks the household’s energy consumption and identifies peak demand periods (when appliances, heating, and cooking are active). The system decides to charge the battery during low-demand periods – typically at night or when energy prices are cheaper. Batteries are charging from the grid or solar panels. And vice versa, discharging during peak demand – detecting a surge in power usage, the battery discharges energy to meet this demand.

By supplying stored energy instead of drawing power from the grid, the system effectively reduces the home’s peak demand.

Example. Imagine a household that typically consumes 10 kW of power but occasionally spikes to 15 kW when cooking dinner or using a sauna. Instead of pulling the additional 5 kW from the grid at premium rates, the System delivers extra energy from batteries.
You can save up to 80% on existing energy bills!
The Load Shifting strategy maximizes savings and effectiveness of solar generation. This is ideal for homes with solar panels.

The System is monitoring the household’s demand and solar energy generation. AI algorithms identify the most cost-effective times to charge and discharge the battery depending on the proportion of consumption-generation, weather forecast, behaviour patterns, and others.

Excess solar energy that’s not immediately consumed is stored in the battery instead of being exported to the grid. This ensures that self-generated energy is available later when solar production drops. When energy prices are higher (typically in the evening and night) or solar production is low, the battery discharges to power the home.

The system may also prioritize battery discharge during cloudy days or winter months when solar production is lower.

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