Modern and multifunctional energy storages designed for home industrial applications and photovoltaic farms

Modularity production using high-precision laser technologies combined with unique BMS systems guarantee safety, reliability and a wide range of applications

  • Modularity
    Energy storage systems designed with Li-ion technology consist of battery modules, as well as the Battery Management System (BMS).

  • High energy density
    We design and build battery modules made of lithium-ion cells. This technology guarantees timeless durability: - the longest service life on the market - over 20 years of work in standard conditions.

  • Precise laser joining
    Laser connections made in LaserTec allow to achieve 2-3 times lower electrical resistance of the connected terminals. As a result, energy storages achieve much better battery operation parameters, and its lifetime is increased compared to classic metal joining technologies.

  • Efficient BMS battery management system
    The BMS system ensures the correct and safe operation of each module and the entire energy storage system. Additionally, it enables the connection of modules both in series and parallel configurations. There is possibility to build storage facilities with voltages from 48 V to 1000 V of any capacity.

    Li-ion batteries are built from certified components and in accordance with European standards and directives. The modules from which complete batteries are built are UN38.3 and EMC certified and comply with the following directives of the European Parliament and of the Council.

    Service from the user panel. • The energy storage is an energy buffer. • A real increase in the available capacity despite the inability to increase the connection capacity. • "flattening" the demand for energy from the grid. • Charging the energy storage at a cheap tariff and using the energy stored in when an costly tariff is operative.

    • 10 years warranty. • The longest service life on the market - >6000 full cycles at 0 to 100% charge and discharge levels (DoD = 100%; DoD - Deep of Discharge).

    • Possibility of extending the system with additional storages and inverters. • Possibility of expanding the system with vehicle charging stations.

    Remote system diagnostics. • Service in Poland ensuring responsiveness.

A single energy storage can be connected parallel with others of the same type, which increases the capacity and maximum charging and discharging currents. You cannot combine magazines with different nominal capacity.

Benefits of using energy storage

Due to energy storage you gain:

Eliminating production losses from RES

Energy independence

Shifting tariffs

Back-up function

Reactive power compensation

Reduction of power peaks

Benefits of safe energy

Charging/discharging to the network according to the schedule - saving energy by charging at the cheaper and discharging at the more expensive.

Backup power supply in case of power failure in the grid* - preventing power outages and voltage fluctuations in the installation *only when the inverter is a hybrid.

Limiting the connection power to the set value - the energy storage can charge when the measured power at the connection is lower than the set value and discharge when it is higher. It also prevents power overruns (current peaks).

Utilization of overflow energy from RES - when there is a overflow of production from RES, the energy storage is loaded. Because of this, energy is not exported to the grid and savings are achieved.

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