Basic Descriptions
The battery system built in for High voltage solar energy storage system. This 768v DC battery system can also be used as UPS lithium battery storage. Built in BMS/BMS and able to communication with inverters.
Features:
- Highlights
- Dramatic cost savings.
- Longer life span up to 3000-4500 times
- Longer warranties up to 5 years
- Safety operations, no explode, no pollution
Efficient and fast charging and discharging For the lithium iron phosphate battery cells, the single cell voltage is always 3.2V, all voltage, current, power (kW) and energy (kwh) applications are based on this voltage. High voltage lithium battery system usually refers to the battery system voltage is greater than or equal to 96V, for example, 192V 50Ah battery system is 1P60S (60 cells series connected) cell connection and based on 50Ah single cell capacity. And 240V 50Ah battery is 1P75S cell connection, 384V 100Ah battery is 1P120S cell connection based on 100Ah cell, etc. We also can parallel cell first for double or triple total capacity. The corresponding battery capacity is usually 50Ah, 100Ah, 150Ah, 200Ah, etc. For high voltage, in the single-cluster battery rack, the battery modules are always connected in series to achieve a higher voltage. Moreover, there is a high voltage DC main unit is needed to manage this rack. The main function of the high voltage DC main unit is to manage all the BMU units of this cluster through the master BMS, meanwhile to provide startstop, protection and other functions for this rack. Please reference left picture for a HV lithium battery system.
- Reliable LiFePo4 battery provides 20kwh standby power. The system consists of 8 modules of 48v 50Ah batteries to form a 384v 50Ah system in series.
- Support scale in Parallel. CAN and RS485 communication interface. CMX high voltage battery system support parallel connection for scalability to achieve higher capacity.
LCD display screen.
- The LCD screen allows you to monitoring the battery performance in real time. The real-time monitoring to take control of battery and avoid battery failure.
- Collecting battery data to bring you maintenance convenience and confidence whenever you need.
Applications
This battery suitable for Telecommunication room, internet data center (IDC). UPS and other areas as an ideal backup power supply.
Detail Specifications:
Item | Technical Parameters |
---|---|
The Machine Parameters | |
Battery Type | Lithium Iron Phosphate Battery (LiFePO4) |
Nominal Voltage | 768V |
Nominal Capacity | 105Ah |
Rated Reserved Energy | 80KWh |
Size ( The width is suitable for 19-inch Cabinets and the height is 47U) | 600(W)*800(L)*2260(H)mm |
Weight | 700kg |
Maximum Charging Current | 100A |
Maximum Discharging Current | 100A |
Charge Cut-off Voltage | 600~650V |
Discharge Cut-off Voltage | 850~876V |
Number of Battery Module Per Cabinet | 10pcs |
Number of Battery Cells Per Module | 24pcs |
Operation Temperature Range (Charge) | 0°C~+45°C |
Operation Temperature Range (Discharge) | -10°C~+60°C |
Protection Function | Over-current/ Over-voltage/ Under-voltage/ Short Circuit/ Temperature Protection |
Protection Grade | IP20 |
Communication Interface | RS485, CAN |
76.8V 105Ah Battery Module Parameters | |
Configuration | 24S1P |
Nominal Capacity | 105Ah |
Rated Voltage | 76.8V |
Internal Resistance | ≤ 40mΩ |
Maximum Charging Current | 100A |
Maximum Discharging Current | 100A |
Charge Cut-off Voltage | 87.6V |
Discharge Cut-off Voltage | 60V |
Operation Temperature Range (Charge) | 0°C~+45°C |
Operation Temperature Range (Discharge) | -10°C~+60°C |
Storage Temperature | 0°C~+40°C |
Storage Humidity | ≤ 90% |
CBMS Main Technical Parameters | |
Communication Interface with PCS | RS485/CAN |
Communication Interface with BMU | CAN |
Maximum Quantity of BMUs | 13 |
Power | 24VDC (18V~28V) |
Net Weight | 2400kg |
Jim Bradac –
I hope this message finds you well. I am writing to inquire about your 500V 50kW PCS 100kWh LiFePO4 Lithium Ion Battery Energy Storage System. I am interested in exploring the capabilities and features of this product for potential use in a renewable energy project.
To provide some background, I am currently involved in a sustainable energy initiative that aims to maximize the utilization of solar power and reduce reliance on the grid. We are seeking a reliable and high-capacity energy storage solution that can efficiently store excess solar energy and provide reliable power during peak demand or grid outages.
I would appreciate it if you could provide me with more information regarding the following aspects of the 500V 50kW PCS 100kWh LiFePO4 Lithium Ion Battery Energy Storage System:
Technical Specifications: Please provide detailed technical specifications of the battery system, including voltage range, power output, energy capacity, charging and discharging rates, cycle life, and any relevant certifications.
Compatibility: Could you confirm whether this system is compatible with solar panels, and if so, what type of solar panel configurations are recommended for optimal performance? Additionally, does it support grid-tie functionality and integration with other renewable energy sources?
Installation and Maintenance: What are the installation requirements for the system? Are there any specific maintenance procedures or considerations that need to be followed? Does the system come with monitoring and control features for tracking energy usage and system performance?
Safety and Protection Features: Please provide details about the safety features incorporated into the battery system, such as overcharge protection, short circuit protection, and temperature monitoring. How does the system ensure the longevity and safety of the LiFePO4 lithium-ion batteries?
Pricing and Availability: Could you provide pricing information for the 500V 50kW PCS 100kWh LiFePO4 Lithium Ion Battery Energy Storage System? Additionally, I would like to know about the availability and lead time for this product.
Support and Warranty: What kind of technical support and warranty do you provide with the purchase of this battery system? Are there any additional services or support packages available?
I appreciate your time and attention to this inquiry. Please provide any relevant documentation, brochures, or datasheets that can assist in evaluating the product further. If possible, I would also appreciate the opportunity to discuss my project requirements and any customization options that may be available.
Thank you in advance for your prompt response. I look forward to hearing from you and potentially exploring a partnership for our renewable energy project.
Sincerely,