Reliable and Safe
• From cells to all accessories, undergone a number of rigorous tests to ensure reliable operation of the system.
• PACK, RACK, and PCS three-level overcurrent protection ensure system safety.
• Three-level fire safety design enables precise rescue operations to prevent the occurrence and spread of fire.
• AI monitors the health status of battery cells in real time, provides accurate early warning, and promptly suppresses thermal runaway.
Lower Lost
• Compact size, no need for foundation excavation, greatly reducing construction costs.
•Specially designed for the transportation of hazardous chemicals, adapting to more sea transportation conditions, saving transportation costs for customers.
•A highly integrated system with pre-installation and pre-debugging reduced.
•The multi-dimensional heat balance design provides at least 30% energy savings and significantly reduces operating costs.
Smart and Flexible
• Cloud App or Web cloud monitoring, to provide real-time alarm and troubleshooting solution.
• An be flexibly deployed side by side/back-to-back.
• Seamless parallel connection, supporting up to 20 units in parallel.
Wide-ranging Applications
• Used in various scenarios such as virtual power plant, industrial and commercial peak shaving, backup power supply and three-phase unbalance management.
Specifications and Parameters:
MODEL ID |
CESS+ T215 |
DC side |
Cell type |
LFP 3.2 v/280Ah |
Nominal voltage range |
624~864 v |
Nominal capacity |
215 kWh |
System battery configuration |
240S1P |
AC side(on-Grid ) |
Nominal power |
100 kW |
Nominal voltage |
400 v |
Voltage range |
340 - 440 v |
Nominal frequency |
50 Hz/60 Hz |
Frequency range |
45 Hz-55 Hz/55 Hz-65 Hz |
Max.THD of current |
<3%(Nominal power) |
DC component |
<0.5%(Nominal power) |
Power factor range |
1.0 leading ~1.0 lagging |
AC side(on-Grid) |
Nominal voltage |
400 v |
Nominal frequency |
50 Hz / 60 Hz |
Max.THD of voltage |
<3%(Linear load) |
Unbalance load capacity |
100% |
System parameter |
Temperature control method |
Intelligent liquid cooling |
Fire suppression system |
Default: Flammable gas detector, Smoke detector, Heat detector, Alarm sounder, Aerosol, Sprinkler. |
Communication interface |
Ethernet |
Communication protocol |
Modbus TCP |
Auxiliary power supply |
Internal power supply (Default) |
Operation humidity range |
0%~100% |
Operation temperature range |
-30 ℃ ~ 55℃ (> 45℃ derating) |
Noise |
≤70 dB ( A ) @1m |
Max operating altitude |
2000 m |
Degree of protection |
IP55 |
Max Parallel quantity(off-grid) |
10 |
Dimensions(W*H*D) |
1350 mm * 2000 mm * 1380 mm |
Weight |
2500 kg |
Anti-corrosion degree |
C5 (Optional) / C3 (Default) |
Standard |
TUV,IEC 62619,EC 62477,IEC61000,UN 38.3 |
Application Scenarios:
>>Solar Self-Consumption Optimization
Stores excess solar power for use at night or during cloudy days, reducing grid reliance
>>Backup Power During Outages
Critical in areas with unreliable grids or extreme weather
>>Time-of-Use (TOU) Bill Management
Charges batteries during low-cost off-peak hours and discharges during expensive peak times.
>>Grid Services & Virtual Power Plants (VPPs)
Aggregated home batteries provide grid stability services.
>>Off-Grid & Energy Independence
Used in remote areas or by homeowners seeking full energy autonomy (often paired with solar/wind).
Frequently Asked Questions (FAQ):
Q: Which battery cells are your ESS adopted?
A:Our battery cells primarily use LFP (Lithium Iron Phosphate) chemistry, known for its safety, long cycle life, and cost-effectiveness, making it ideal for home energy storage applications. However, specific product lines may vary based on regional requirements or customer needs.
Q: What are the advantages of LFP batteries?
A:LFP (Lithium Iron Phosphate) batteries offer several key advantages, making them a top choice for our solutions:
>>Safety
Exceptional thermal/chemical stability; resistant to overheating or thermal runaway (critical for residential use).
>>Long Cycle Life
Typically 6,000+ charge/discharge cycles (vs. 1,000–2,000 for NCM), ensuring 10+ years of service.
>>Cost-Effectiveness
Lower raw material costs (no cobalt/nickel) and longer lifespan reduce long-term expenses.
>>Eco-Friendly
Non-toxic materials and easier recyclability compared to other batteries.
>>Performance
Stable power output even at low charge levels, ideal for daily solar self-consumption.
Q: What is the lead time for a standard battery ESS order?
A: The lead time typically ranges from 2 to 4 weeks, also depending on the order quantity and placement date.
Q: What is the lead time for a custom battery ESS order?
A: The lead time typically ranges from 4 to 8 weeks, also depending on the complexity and size of the requirement.
Q: How long can the EES keep devices running?
A: A practical example:
A 1,000 Watt microwave oven running for one hour at maximum power will consume 1.0 kWh. The same is true for a 10 Watt LED bulb when lit for 100 hours. So a fully charged ESS+ energy storage system of 1.0 kWh will be able to run the above mentioned microwave oven for 9.5 hours and the LED bulb will be able to burn for 95 hours given 5% SOC left.
Contact Us:
Ready to transform your life with our ESS solutions? Contact us today for a free consultation and quote. Our team of experts is here to assist you every step of the way.
Phone: +86 536 2112566
Empower your life with our state-of-the-art lithium energy storage system – where innovation meets cutting edge technology.
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