Smart PV-Storage-EV Charging Integrated Infrastructure | 209kWh - 418kWh
Transform your facility into a self-sustaining energy hub with Xiehang's All-in-One PV-Storage-EV Charging Cabinets. Available in 209kWh and 418kWh configurations, these liquid-cooled platforms seamlessly unify solar generation, heavy-duty battery storage, and ultra-fast EV charging protocols—mitigating grid capacity constraints and eliminating peak demand penalties.
High-density microgrid solutions for EV Charging electrification and commercial centers
Engineered with premium 314Ah LiFePO4 cells, our 209kWh and 418kWh integrated systems offer flexible, modular deployment for site scaling. By consolidating bi-directional power conversion, localized EMS dispatch, and smart dynamic load balancing into a single weatherproof enclosure, we provide commercial operators with a turnkey microgrid capable of rapid deployment and zero-compromise asset security.
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Integrated Solar SystemIntegrated solar system | All-in-One PV+Storage+EV Charging Infrastructureread more
We've seen too many "integrated" systems that are really just different parts bolted together. Our integrated... -
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209kwh Pv-Storage & Ev Charging All-In-One System209kWh PV-Storage & EV Charging All-In-One System | 314Ah Smart Hubread more
Let's face it: managing separate solar, battery, and charging systems is a logistical nightmare for most businesses.... -
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107kwh Pv-Storage & Ev Charging All-In-One System107kWh Pv-Storage & Ev Charging All-In-One System | Compact Commercial Stationread more
Not every site has the luxury of space for a massive container. For urban office parks or smaller retail lots,...
Why Integrate Xiehang's PV-Storage-Charging Platform Into Your Infrastructure?
The rapid adoption of EV fleets and high-power DC fast chargers puts unprecedented stress on existing commercial grid connections. Upgrading grid transformers is notoriously capital-intensive and slow. Xiehang's 209kWh and 418kWh integrated cabinets bypass these bottlenecks entirely by acting as a dynamic "energy buffer"—storing localized solar or low-cost off-peak power, and discharging it instantly to meet high-current EV charging spikes.
Featuring a robust architecture verified for 8000+ deep cycles, this platform ensures a prolonged asset lifecycle and maximize solar self-consumption rates. Whether optimizing a logistics park for electric trucks or reinforcing a highway service station, our turnkey systems are engineered in strict compliance with CE, IEC, and UN38.3 standards. This pre-certified status accelerates local permitting, minimizes engineering risk, and ensures a streamlined path to project bankability.
Intelligent Integration: The Technical Subsystems of Xiehang's Charging Cabinet
Leveraging synchronized 314Ah Grade A LiFePO4 cells, the storage core delivers massive energy density within a minimized footprint. Rated for 8000+ deep cycles, it ensures reliable, high-frequency buffer performance required for heavy-duty commercial EV charging mitigation.
Featuring multi-channel energy routing, this integrated PCS manages simultaneous inputs from the PV array, grid, and battery bank. With advanced grid-forming and anti-islanding protections, it directs sub-millisecond precision power delivery during peak grid shaving or full off-grid operation.
Custom-tailored for high-power dispatch, the BMS executes continuous cell-level diagnostics. It actively prevents localized hot-spots and enforces proactive cell balancing, mitigating thermal propagation risks under continuous high-current fast-charging profiles to meet stringent IEC 62619 protocols.
The software brain governing solar tracking, battery state, and EV dispenser demand. Its predictive algorithms dynamically throttle charging loads based on real-time grid prices and factory consumption, directly insulating operations from costly demand charges while maximizing the ROI per charging session.