Overall energy balance optimization, Cycle balancing , lifespan optimization, and Dynamic power allocation.
Precision load control, Energy mutual support, Overall anti-overload/anti-reverse flow, Multi-level collaborative power output
Direct data transmission reduces latency and enhances real-time performance. Customizable data processing and storage solutions tailored to specific needs. No reliance on third-party service providers minimizes risks and ensures full control over data workflows.
Rapid connectivity for personnel, devices, and systems. Granular segmentation of users and resources with minimum-privilege point-to-point encrypted connections, enabling flexible and secure transfers of critical data (e.g., scripts, installation packages). Security audit logs to precisely record operational timelines and behaviors for every user and application.
| Category | Configuration |
|---|---|
| Network | RJ45 * 4 (10/100Mbps), 4G module, Wi-Fi |
| Power Supply | DC12-24V, Power consumption < 5W |
| Serial Ports | CAN* 3, RS485* 11, USB * 1 |
| DIDO | DI * 8, DO * 6, AI * 2 |
| Environment | Temperature: -40°C to 75°C, Humidity: 5% to 95% |
| Display | Optional external 7/10-inch touchscreen |
| Storage | Built-in 8GB electronic hard drive, External 32GB TF card supported |
| Dimensions | 215W * 140D* 45H |
| Basic Functions | Interface with PCS, BMS, environmental sensors, fire protection, high-voltage box, photovoltaic system, intelligent batteries, energy meters, etc. |
Note: Specifications are subject to change without prior notice for product improvement. Data Sheet / Get your free product catalog and the latest pricing!
An EMS is a comprehensive control system designed to monitor, manage, and optimize the performance of energy storage systems, renewable energy sources, and loads to improve efficiency and reliability.
Common EMS hardware includes Cabinet-level EMUs (Energy Management Units) for local control and protection, and Station-level EMS controllers for site-wide coordination and energy optimization.
EMS hardware communicates with battery management systems (BMS) and power conversion systems (PCS) to regulate charging/discharging, ensure safety, and coordinate energy flows between storage, generation, and loads.
An EMS improves system efficiency, prolongs battery life, enhances safety, enables demand response, and provides valuable data for predictive maintenance and system optimization.
Yes, EMS hardware supports standard communication protocols (Modbus, CAN, Ethernet) for integration with solar PV, wind turbines, grid interfaces, and higher-level SCADA or cloud management platforms.
Photovoltaic-storage coordination, multi-storage centralized control, charging pile capacity expansion, energy balance scheduling, over-demand prevention, reverse flow prevention, and multi-level coordination.
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