Basic Introduce
|
Items |
Product |
120KW CCS GBT CHADEMO Vehicle Charging Solutions |
|
AC input Data |
Input |
400V AC +/-15%, Rated 380VAC; 3 phase+ neutral + PE; 45-65Hz |
|
DC Output Data
|
Output |
80KW-120KW / 200-1000V DC / 200A |
|
Output Plugs |
CS2 / CCS1 /CHADEMO / GBT; cable length 5M or customized |
|
|
Communication |
Internet |
Ethernet/WIFI/4G communication |
|
Protocol |
OCPP1.6 |
|
|
Environmental Data |
Operating |
-30℃to +50℃;5% ~ 95% no condensation;≤2000m |
|
IP Level |
IP54 (Indoor/Outdoor) |
Introduction
DC fast electric vehicle charging feature more advanced components compared to AC chargers, as they are designed to deliver high-power DC charging. These chargers contain built-in power electronics that convert AC power from the grid into high-voltage DC power. The charger communicates with the electric vehicle's (EV) onboard system to determine the optimal voltage and current for efficient and safe charging. By bypassing the vehicle's onboard AC-to-DC conversion, DC fast chargers significantly reduce charging times.
Charging Protocols and Communication
- Charging Standards: Public EV chargers adhere to standardized charging protocols like CHAdeMO, Combined Charging System (CCS), and Tesla Supercharger. These standards establish the electrical and communication frameworks necessary for compatibility between vehicles and charging stations.
- Communication with Vehicles: DC fast chargers use protocols like the Open Charge Point Protocol (OCPP) to exchange data with the EV. This communication allows the charger to authenticate the vehicle, regulate the charging session, control power output, and manage payment processing, ensuring a seamless charging experience.

The Growing Demand for Fast Charging Infrastructure
With the global surge in electric vehicle adoption, the need for accessible and fast electric vehicle charging infrastructure is critical for supporting EV growth. Key trends in this space include increasing charging speeds, expanding collaborations, the development of smart charging systems, and the integration of renewable energy sources. Meanwhile, challenges such as establishing efficient grid connections and promoting government efforts to ensure interoperability and standardization remain at the forefront.
DC Fast Chargers: Benefits and Uses of DC electric Vehicle charging Stations
DC electric vehicle charging stations, commonly known as fast charging stations, quickly convert AC power from the grid into direct current (DC) power to charge electric vehicles (EVs) at higher speeds. By bypassing the onboard charger, these stations deliver power directly to the vehicle's battery, resulting in much faster charging times.
1. Rapid Charging: The primary benefit of DC charging stations is their speed. For EV drivers in need of a quick recharge, DC stations can charge up to 80% of the battery in as little as 10 minutes, greatly enhancing efficiency.
2.Efficient Power Conversion: Since power is converted within the station itself, transmission losses are minimized, improving overall charging efficiency.
3. Advanced Features: DC charging stations are typically equipped with sophisticated control systems and user-friendly interfaces that offer various charging management options and seamless payment processing.
Despite their advantages, DC charging stations tend to be more expensive and require more stringent installation and maintenance. As a result, they are primarily installed in public charging networks and high-traffic fast charging areas.




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