There is no doubt that the electrification of transportation will have a positive impact on both society and the environment. However, the replacement of a sizable section of our transportation fleet with EVs will have a significant negative impact on our electrical infrastructure. Critics have expressed doubts about the capacity of our current grid systems to manage these additional electricity flows. For instance, if lots of people go home from work and charge their electric vehicles between 5 PM to 8 PM, this increases the demand for power. The networks that transport that electricity as well as our producing capacity would need to be upgraded significantly in order to fulfill this demand. This can result in users paying more for electricity. For EV owners, companies with charging stations, and network operators alike, there could be serious problems if EV infrastructures continue to rely on conventional charging points, which only supply power at a constant rate until the vehicle is fully charged.
Smart charging could be the solution to such challenges. It’s a technique for intelligently controlling EV charging to prevent grid overload or instability. Smart charging enables the car, utility company, and charging operator to “communicate” and so improve charging by creating channels for data connections. Smart charging will therefore be necessary to ensure that the adoption of EVs is a smooth transition rather than a catastrophic interruption.
Benefits for Smart Charging
Usually, EVs just plug in and charge, consuming as much power from the grid as necessary. Smart charging, however, enables network administrators to optimize the energy supply to EVs. In other words, individuals are able to control their energy intake in response to high and low energy demand. This enables them to offer their clients more dependable services. Through data connections, similar to those in a cloud, smart chargers “communicate” with the vehicles they are hooked into, the utility company, and the owner of the charging point. Charging operators are able to measure and control energy use and power levels remotely and in real-time thanks to these data linkages. Smart charging therefore gives grid managers the ability to create dynamic, connected energy systems that can withstand future spikes in EV charging demand. Grid operators can provide the greatest service to their clients by avoiding power shortages and supplying electricity whenever necessary despite unforeseen increases in demand since it gives their business a bright future.
The smart terminal is described as being linked, as opposed to the regular terminal. In other words, for it to function, it needs to be connected to the Internet, which enables the terminal to provide its user various data (such as the duration, pace, or power of the recharge) via a digital platform or directly through the device terminal’s interface. This information will be helpful to businesses in accurately charging customers for the cost of recharging. It will also be useful for allocating the available energy among several bus groups or calculating the precise electricity consumption by automobiles in a company fleet. Additionally, the smart terminal provides remote access to the administration and control settings for its energy consumption. Companies with a large number of charging stations can employ smart stations to divide the available energy capacity fairly. The smart terminal makes it possible to maximize charging without going over the network’s or even the electrical panel’s capacity by controlling the flow of electricity in this way and balancing the charging power according to peaks and overloads. When two electric vehicles are being recharged concurrently on two terminals linked to the same circuit breaker, this is a crucial option for load sharing.
A highly intriguing option for shared or public terminals is the ability to trigger the addition of users on some smart charging station types. For instance, the occupants of a multi-unit building using a shared charging station may then figure out and fairly divide the cost of charging among the many users. Due to the smart terminal, some businesses will be able to better manage the access of a particular segment of their consumers to electric charging (free or chargeable). The smart terminal immediately conveys technical issues pertaining to its use because it is connected to its user. Additionally, it provides remote updating of some features that may be necessary to guarantee the charging station’s compatibility with newly released electric vehicles in the future. Kazam might be able to assist you if you’re thinking about integrating this kind of charging technology into your company or even your house.
Spending billions to upgrade grids in order to accommodate more EVs is not necessary. Instead, operators may improve charging infrastructures to be more effective, more convenient, and more affordable for everyone involved by utilizing the potential of smart charging to balance the grid.
The Future is smart charging
It’s time to look into how EVs are powered in anticipation of a world with more EVs than ever. Consider this evaluation as an opportunity to improve and digitize how we distribute, use, produce, and store electricity for future generations. Smart charging is at the core of this shift. It will assist in preventing power outages, enhancing energy efficiency, reducing costs, and facilitating the switch to a greener energy system, particularly when combined with bidirectional charging. The advantages will be felt by everyone along the supply chain, including users, enterprises, operators, utility networks, and the environment.