Voltgo, with its solution partner Beta Enerji, offers customers solutions from a single point by manufacturing and implementing end-to-end chargers and power units.
As electric vehicles (EVs) continue to enter our lives at a rapid pace, it is important to have knowledge about the charging process and how chargers work. For electric vehicle owners and enthusiasts, understanding the basic principles of chargers is crucial for proper use and efficiency. In this article, we will examine how electric vehicle chargers work, their basic components and the details of the charging process.
Basic Components of Chargers Electric vehicle chargers consist of three main components:
Power Supply:
The charger receives power from a household outlet, a dedicated charging station or through a commercial charging network. This power source can be alternating current (AC) or direct current (DC). Charging Cable: The charging cable that transmits the electricity from the power source to the vehicle. The charging cable is equipped with a plug suitable for the vehicle and provides a secure connection.
In-Car Charger:
This device, located inside the vehicle, converts AC electricity from outside into DC electricity and transmits it to the battery. Some fast chargers provide DC electricity directly and skip this stage. How Does the Charging Process Work? Connection: The charging process starts by connecting the charging cable to the car charging port. Once connected, communication is established between the charger and the vehicle. This communication ensures that the charging process takes place safely and efficiently.
Power Transfer:
The charger transmits the electricity from the power source to the in-car charger. AC chargers are commonly used at home or in the office and take longer to charge. DC fast chargers are usually found in commercial charging stations and provide a high amount of energy in a shorter time. Charge Management: The in-car charger continuously monitors the status of the battery and optimizes the charging speed. Bataryanın doluluk oranına ve sıcaklığına göre şarj hızı ayarlanır. This is important to extend the life of the battery and ensure its safety.
Complete and Cut-off:
When the battery is fully charged or reaches a certain level, the charger stops transferring power. This prevents overcharging and prevents damage to the battery.
Different Charging Levels
Level 1:
It is powered from standard household outlets (120V AC). It has a slower charging speed and usually requires a long time for a full charge.
Level 2:
Powered by dedicated charging stations or high voltage household outlets (240V AC). It offers moderate charging speed and is common for home use.
Level 3 (DC Fast Charging):
Provides fast charging using direct direct current (DC). It is available at commercial charging stations and transfers large amounts of energy in a short time.
Understanding the working principles of electric vehicle chargers is a great advantage for electric vehicle owners. Choosing and using the right charger both improves the performance of the vehicle and extends the life of the battery. As Voltgo, we aim to make the lives of electric vehicle users easier by offering high quality and reliable charging solutions. Stay tuned to our blog for more information about electric vehicles and charging technologies!
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Voltgo, with its solution partner Beta Enerji, offers customers solutions from a single point by manufacturing and implementing end-to-end chargers and power units.
Voltgo, Çözüm ortağı Beta Enerji ile uçtan uca şarj cihazları ve güç üniteleri üretimi ve uygulaması yaparak müşterilere tek bir noktadan çözümler sunmaktadır.
Voltgo, with its solution partner Beta Enerji, offers customers solutions from a single point by manufacturing and implementing end-to-end chargers and power units.
Voltgo, Çözüm ortağı Beta Enerji ile uçtan uca şarj cihazları ve güç üniteleri üretimi ve uygulaması yaparak müşterilere tek bir noktadan çözümler sunmaktadır.