JC-DC-100-120-2 120KW Double Gun DC Charging Pile
  • JC-DC-100-120-2 120KW Double Gun DC Charging Pile

JC-DC-100-120-2 120KW Double Gun DC Charging Pile

DC charger products adopt modular design and have APFC function, which can meet the charging requirements of different voltage levels and different powers. With the characteristics of high stability, high reliability, high intelligence and simple operation, it is mainly

120KW double gun DC charging pile 

Model: JC-DC-120-90-2 

DC charger products adopt modular design and have APFC function, which can meet the charging requirements of different voltage levels and different powers. With the characteristics of high stability, high reliability, high intelligence and simple operation, it is mainly installed in independent operating places such as expressway service areas, gas stations, large-scale electric bus stations and electric vehicle charging stations to provide fast charging for large-scale electric buses and electric buses. 

Product parameter 

Product dimensions: 700*500*1800mm 

Product weight: ≈250kg 

Rated input voltage: 380VAC 15% (three-phase) 

Protection grade: IP55 

Operating frequency: 50hz 10% 

Working temperature: -25℃~55℃ 

Output power: 60KW~120KW (customizable) 

Environmental humidity: ≤90% 

Efficiency: ≥96% 

Power factor: ≥0.98 

Peak-peak coefficient: ≤0.2% 


Product function 

High charging power and wide range of output current and voltage can meet the needs of different buses 

The LCD touch screen is used as the man-machine interface to display the current charging mode, time, power and billing information, etc. 

It has a variety of communication interfaces such as CAN/RS485/ Ethernet, which can provide perfect communication functions and accept remote control commands 

Set the card swiping interface to support common card swiping methods such as RFID cards and IC cards

Adopt flame retardant shell material, the shell is firm, and the structure prevents users from easily touching the live part

The products comply with GB/T18487.1-2015; NB/T33002-2010; NB/T33008.2-2013; GB/T20234.3-2015 testing requirements