| Customization: | Available |
|---|---|
| Installation: | Floor Type |
| Location: | Private Use |
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Air cooling superfilled pile highlights:
Charging efficiency is significantly improved
Fast charging speed: the supercharge device has a high single-gun rated power, which can charge a large amount of electricity for the vehicle in a short time, and the supercharge pile can achieve the charging speed of "one kilometer per second", which greatly reduces the charging waiting time.
Short recharge time: the battery can be charged to 80% or more in half an hour, which greatly improves the efficiency compared with the traditional fast charging method, effectively alleviating the user's "battery anxiety".
Advanced equipment and technology
High voltage and high current technology: high voltage overcharge technology has become the mainstream trend, compared with increasing the current, increasing the charging voltage can effectively reduce the heat release during the charging process, reduce energy loss, and improve the overall charging efficiency.
| Product model | 240kW | 360kW | 480kW | 640kW | 720kW | 800kW | |
| Input characteristic | Input standard | Three-phase five-wire (A+B++C+N+PE) | |||||
| Input voltage | AC380V±15% | ||||||
| Input power factor | ≥ 0.99 (More than 50% load) | ||||||
| Input frequency | 45 ~65Hz | ||||||
| Output characteristic | Rated power | 200kW | 240kW | 360kW | 400kW | 720kW | 800kW |
| Output voltage | DC200V~ DC1000V | ||||||
| Constant power range | 300 ~ 1000VDC | ||||||
| Single gun output current range | 5 ~ 250A | ||||||
| Voltage regulation accuracy | ≤±0. 5% | ||||||
| Steady flow accuracy | ≤±1% | ||||||
| Ripple coefficient | ± 1% | ||||||
| Charging interface | 2 | ||||||
| Measurement accuracy | Level 2.0 | ||||||
| Maximum peak efficiency | ≥95% (More than 50% load) | ||||||
| Functional design | BMS secondary source | 12Vdc | |||||
| Man-machine interface | Color display | ||||||
| Charging mode | Automatic charging (APP or screen stop charging at any time) | ||||||
| Charging mode | Scan code, swipe card, VIN start | ||||||
| Networking mode | Ethernet /4G | ||||||
| Double charge | support | ||||||
| Remote upgrade | support | ||||||
| Safety design | enforce standards | GB/T 18487.1 -2023 ,GB/T 20234.3-2023 , GB/T 27930-2023 ,JJG 1149-2022 | |||||
| Safety function | Charging gun over temperature protection, over voltage protection, under voltage protection, over current protection, overload protection, short circuit protection, ground protection, environmental over temperature protection, insulation monitoring protection, polarity reverse connection protection, lightning protection, emergency stop protection, leakage protection, communication fault protection, output contactor adhesion protection. | ||||||
| Environmental index | Operating temperature | -30ºC ~ + 50ºC (Derating works above 50 ° C) | |||||
| Relative humidity | 5%-95% no condensation cream | ||||||
| Working altitude | ≤2000m (Derating above 2000m is required), do not use this device in areas above 3000m | ||||||
| Atmospheric pressure | 70kPa ~ 106kPa | ||||||
| Class of protection | IP 54/IP 55 | ||||||
| Cooling mode | Air cooling | ||||||
| Noise control | ≤65dB | ||||||
| Installation mode | Floor type | ||||||
Q:What is your terms of payment?
A:online fast payment,T/T
Q:Do you test all your chargers before shipping?
A: All major components are tested before assembly and each charger is fully tested before shipped
Q:How long to fully charge a car?
A: To know how long to charge a car, you need to know the OBC(on board charger) power of the car, the car battery capacity, the charger power. The hours to fully charge a car =battery kw.h/obc or charger power the lower one. For e.g, the battery is 40kw.h, obc is 7kw, charger is 22kw, the 40/7=5.7hours. If the obc is 22kw,then 40/22=1.8hours.
Q:Are you Trading Company or manufacturer?
A: We are professional EV charger manufacturer.
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