MIG-1080: DC Microgrid Distributed EV Charging System
MIG-1080: DC Microgrid Distributed EV Charging System is designed for high-demand charging applications, including mining sites, ports, heavy-duty truck depots, urban public charging hubs, logistics centers, and highway service stations. The system integrates a PCS, DC/DC converters, ESS battery, split-type DC chargers, and an intelligent Energy Management System (EMS) into a unified solution. Built on an advanced DC bus architecture, it enables seamless integration of photovoltaic (PV) generation and energy storage systems (ESS), maximizing renewable energy utilization and improving overall energy conversion efficiency. By dynamically allocating power between the grid, PV, ESS, and EV chargers, the system effectively mitigates grid capacity constraints, reduces peak demand, and supports stable, reliable, and scalable megawatt-level charging for large-scale commercial and public charging infrastructure.
Scope of Application
Hotel
Small Charging Station
Countryside
Guesthouse
Product Feature
Extended Lifespan
Liquid-cooled power unit with 10+ years service life,
covering entire station lifecycle requirements
DC Bus Integrated with PV-ESS
The DC bus architecture enables seamless grid expansion, effectively addressing large-scale deployment constraints caused by limited urban transformer capacity quotas
Dynamic Power Allocation
Intelligently distributes power in real-time to maximize utilization of power pools and enhance station revenue
Battery Diagnostics
Proprietary battery health monitoring technology, ensures real-time EV battery safety protection
DC BUS Architecture
Integrated with PV-ESS
The system employs DC bus architecture to minimize power conversion stages, boosting energy efficiency . Its forward-looking design ensures future-ready application adaptability.
Integrated with 237kWh*N energy storage battery, the system charges batteries during off-peak low-tariff periods and discharges during high-tariff peaks, enhancing profitability through strategic energy arbitrage.
Scalable & future-ready design supports flexible expansion of charging capacity, renewable energy integration, and next-generation energy applications.
Liquid-Cooled Power Modules
Enhanced Thermal Management for Reliable High-Power Charging
Featuring advanced liquid-cooled power modules, the system provides efficient heat dissipation and precise thermal control for reliable high-power charging operation. The optimized cooling architecture minimizes thermal stress on critical components, ensuring stable performance, higher operational availability, and extended service life even under frequent charging cycles and harsh environmental conditions.
Full-Matrix Power Flexible Allocation
Maximizes Station Utilization
Host power flexible dispatch enables intelligent scheduling to maximize charging efficiency, shorten queuing times, and enhance revenue streams.
Advanced Battery Testing Technology
Providing comprehensive protection for vehicle battery safety
Our cutting-edge battery inspection system implements 25+ comprehensive test protocols, fully covering all 12 mandatory national standards, to ensure complete protection for vehicle batteries. With 20 years of industry-leading expertise, we combine battery big data models and Battery AI technology to develop 100+ proactive safety strategies, delivering more robust and comprehensive protection than ever before.
Application scenarios
2-Parking-Spot Application Scenario
4-Parking-Spot Application Scenario
6-Parking-Spot Application Scenario
Basic Parameter
NESS-0360IPL06-E001
Input Voltage340V~440V
Input Power375kW
Dispenser Voltage200~1000V DC
Dispenser Current (Per Channel)0~250A
Dispenser Channel6
Dispenser Power (Per Channel)0~180kW
IP RatingIP54
Cooling MethodPower Cabinet: Liquid-Cooled; EV Charger: Air-Cooled