Thus, smart charging enables the charging operator (whether a homeowner with a home charger or a business owner with several terminals) to regulate the quantity of energy provided to a connected electric car. The quantity can fluctuate based on how many people is consuming power at any particular time, decreasing grid pressure. Smart charging also prevents charging stations from exceeding the building’s maximum energy capacity, which is determined by local network capacities and power rates.
Furthermore, smart charging enables providers to establish certain limitations on energy use. As a result, we do not overburden the network by consuming more energy than we create. So that everyone may save money and energy, and, more significantly, that everyone can conserve energy to help safeguard our planet’s vital resources.
How does smart Charging work?
Connecting charge sites to customers and operators is what smart charging entails. When an electric car is plugged in, the charging station communicates data (such as charging time, speed, and so on) to a centralized cloud management platform through Wi-Fi or Bluetooth. Other data, including as information about local network capacity and current charging station utilization, can be forwarded to this cloud (home, office, supermarket, etc.). The platform’s software automatically analyses and visualizes the massive amount of data in real time. This information is then utilised to make judgments about when and how to charge electric vehicles automatically.
Charging operators may now simply monitor and limit energy consumption remotely via a platform, website, or mobile application. Other features and advantages are also available. Owners of electric vehicles, for example, may use an app to check and pay for their charges wherever they are and whenever they choose.
Perfect Smart charging features
The Power Sharing function, also known as load balancing, enables network operators or enterprises with numerous chargers to divide available power capacity appropriately to all charging stations. Because electricity is restricted at each location, increased energy consumption would usually necessitate costly electrical modifications to the infrastructure. To prevent these improvements, smart charging energy may be properly divided. To see how it works, visit to electric charging station site.
Power Boost, also known as peak shaving, is a smart charging function that keeps you from surpassing the maximum electrical capacity of your home. It is not suggested to reach or surpass the maximum electrical capacity because this might result in bill surpluses, especially if you continue to use energy-intensive equipment like a washing machine or dishwasher. Power Boost prevents this by constantly balancing the available charge between the charger and the rest of the household devices. When you appear to be nearing full capacity, the smart charging control technology minimizes the amount of energy your automobile consumes automatically.
Dynamic power sharing
Power Boost and Power Sharing are combined in Dynamic Power Sharing. As previously stated, the installation of additional charging stations on a site indicates a rise in total power demand. This is frequently a costly and unsuccessful alternative. The Dynamic Power Sharing (DPS) function monitors and measures a building’s demand in comparison to its available power capacity. When demand falls below maximum capacity, the leftover energy is sent to the charging network. The smart charging system will automatically distribute available power to all chargers in an equitable distribution.