EV DC Charger Split type 240kW/360kW/480kW new design liquid-cooled

DC Chargers

DC Charging pile

Features:

• Simple operation, convenient installation, reliability and stability

• Save space, multiple connectors charging, convenient and safe

• Friendly interaction interface, 12.1-inch color touch screen

• Support Ethernet/3G/4G/WIFI(optional)

• Support RFID Card/Password/OCPP 1.6J (optional)

• Support GBT/CCS 1/CCS 2/CHAdeMO connector (optional)

• Support multiple modes of charging

• Ten Safety Protection

• Support online data upgrades

Buses

Multi connectors

Fast charging

R&D

DC Charging pile

POWER

240kW/360kW/480kW

Over voltage protection

Over temperature protection

Undervoltage protection

Lightening protection

Low temperature protection

Overload protection

Ground protection

Leakage protection

Emergency stop protection

Short circuit protection

Production

Sales

Service

Product overview

US Standard (62196-3 IEC2011 CCS-2)

US Standard (62196-3 IEC2014 CCS-1)

GB/T Standard GB/T 20234.2-2015

JPN Standard CHAdeMO: JEVS G 105

Details

Liquid-cooled cables are utilized in rapid chargers to effectively reduce the excessive heat generated during rapid charging.

The coolant circulates through the cable and reaches the contact point between the car and the connector, effectively cooling the connector. The heat is quickly dissipated as the coolant circulates within the connector, resulting in efficient cooling. Systems utilizing liquid cooling with water as the base can effectively dissipate heat up to ten times more efficiently compared to systems using alternative liquids.

Due to its numerous advantages, liquid cooling is gaining increasing recognition as the optimal choice. The charging cables can be significantly lighter and thinner by about 40% with the aid of liquid cooling technology. This makes it easier for the average customer to charge their car.

Our liquid cooling fluid connectors are designed to withstand the harshest environmental conditions, including extreme temperatures, moisture, and dust. Rest assured that our connectors are built to be durable and reliable. Furthermore, to ensure leak prevention and uphold their integrity during prolonged charging periods, these products are designed to withstand immense pressures.

Electric vehicle chargers typically employ a closed-loop system for liquid cooling. The charger's heat exchanger is connected to a cooling system that can be either liquid- or air-cooled. The coolant efficiently absorbs the heat generated during the charging process, thanks to the heat exchanger. Typically, the coolant consists of a blend of water and coolant additives such as ethylene glycol or glycol. The coolant in the charger's cooling system absorbs heat as it flows through, which is then transferred to a radiator or heat exchanger. The heat is either transferred to a liquid cooling system or released into the surrounding air, depending on the design of the charger.

Front panel customizable logo

LCD screen

LED strips

Card reader