PotisEdge was founded in 2015. Its vision is to create comprehensive smart energy storage solutions. With its own independent research and development team, it focuses on developing its own software, algorithms, system architecture and hardware. All this forms the solid foundation of PotisEdge.
The company develops integrated BESS using iCCS (intelligent cell contact system), BMS (battery management system) and EMS (energy management system) and offers excellent smart solutions for energy management and storage.
PotisEdge applies the highest possible standards of quality and safety. Among other things, they have been awarded the IATF 16949 and ISO 26262 ASIL D certificates, which represent the highest functional quality and safety in the automotive industry.
The company's three main areas of focus
In addition, they boast 247 technical patents and a production capacity of 31 GWh. They also collaborate with more than 180 experts from the energy industry, ensuring consistent product and solution development in line with industry developments, setting new standards in the industry and becoming a role model for others.
Commercial energy management solutions
C&I (commercial and industrial) energy storage is a system primarily designed for commercial and industrial applications such as manufacturing plants, office buildings, schools, hospitals, factories, shopping centres and other medium-sized facilities.
The system consists of batteries combined with an energy conversion system. Compared to home energy storage systems, C&I energy storage systems have much larger capacities because they have to handle the much higher energy demands of these facilities.
The main goal of C&I energy storage is to increase energy efficiency, reduce electricity costs, provide backup power, and integrate renewable energy sources such as solar and wind power plants.
Large-scale energy storage
Grid-scale battery storage, often referred to as grid-scale energy storage or large-scale battery storage, is a system primarily designed to store excess electricity from large power plants for later use and to ensure grid stability.
These systems play a key role in balancing electricity supply and demand, which is particularly necessary when integrating renewable energy sources such as solar or wind power plants.
These energy sources are not as predictable as traditional coal, gas or nuclear power plants and cause huge imbalances in the electricity grid if they are not connected to energy storage systems.
In order to connect large numbers of solar or wind power plants, the public grid must be supplied with energy storage systems to provide grid services such as frequency regulation, capacity reserves and optimisation of power curves.
By storing excess electricity when production exceeds consumption and releasing it when there is high instantaneous demand, battery storage systems support the reliability and resilience of the energy infrastructure.
How energy storage works
The main operating principle of commercial and industrial energy storage systems is similar to that of residential systems, with the only difference being the amount of energy that is stored and transferred.
The system can be powered by electricity from sources such as solar panels or wind turbines, as well as from the electricity grid during periods of lower energy demand (off-peak), when prices typically drop significantly.
The energy is stored in the form of direct current (DC), which is later converted to alternating current (AC) by a power conversion system (PCS) to power appliances and equipment on the premises.
At the heart of the operation is an energy management system (EMS) that actively manages charging and discharging cycles to ensure the best system performance and maximum profit for the user.
C&I systems are also commonly used to interact with the public grid to provide grid services such as frequency regulation or energy arbitrage.
OmniCube-A215, AIO solution (PV with battery)
OmniCube-L233, AIO battery with PCS(Power Conversion System)
PotisBank-3.7/5 - Container storage, requires PCS (Power Conversion System)