Portable Mobile EV Charger 20kw DC Fast Charger Electric Car Charging Station

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Portable Mobile EV Charger 20kw DC Fast Charger Electric Car Charging Station

Customization:	Available
Charge Method:	Quick Charge
Installation:	Mobile

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Product Description

Basic Specifications

Model NO.XC20750HG

LocationPublic Use

InterfacesOne Pile with One Charge

Transport PackagePlywood Wood Box

SpecificationL86*W54*H56cm

TrademarkMAX POWER

OriginChina

HS Code8504409999

Capacity500

Product Description

In the future, private cars will become the main force in electric vehicle ownership. With the construction of electric vehicle charging infrastructure, compared with large public charging stations, residential charging stations such as residential communities and industrial parks will gradually become the mainstay of private car charging.

Low-Power DC Charging Solution: The resident charging scenario features tight power capacity, long charging time, and high safety requirements. Low-power DC charging provides schedulable output and real-time electric vehicle battery data monitoring, perfectly matching core resident demands.

All electric vehicle batteries require direct current (DC) for charging. Whether using AC or DC methods, alternating current must be rectified into direct current to charge the vehicle.

The essential difference lies in where the rectification occurs:

AC Charging: Rectification is handled by the on-board charger (OBC) inside the vehicle.
DC Charging: Rectification is realized by the charging pile itself.

This means the energy loss during the rectification process is managed by the charging operator during DC charging, rather than being borne by the user during AC charging.

Frequently Asked Questions

1. What is the difference between AC and DC charging?

The main difference is where the power is converted. In AC charging, the vehicle's onboard charger converts AC to DC. In DC charging, the conversion happens within the charging station itself, allowing for faster and more direct power delivery to the battery.

2. Why choose low-power DC charging for residential areas?

Low-power DC charging is ideal for homes and industrial parks because it handles tight power capacities efficiently, provides schedulable output, and ensures high safety by monitoring battery data in real-time.

3. Can this charger monitor real-time battery data?

Yes, one of the core features of this DC charging system is the ability to grasp real-time electric vehicle battery data, ensuring optimal charging cycles and enhanced safety.

4. What are the dimensions and portability of the XC20750HG?

The unit measures L86*W54*H56cm. It is designed for public and residential use, often packaged in secure plywood boxes for safe transportation.

5. Is the energy loss higher in AC or DC charging?

During AC charging, the user bears the energy loss from rectification via the onboard charger. In DC charging, the rectification loss is handled at the station level by the operator.

6. What is the typical production capacity for this model?

The current production capacity for the XC20750HG model is approximately 500 units, catering to both public and private infrastructure needs.