The Energy Storage System WTB-10K/16S-B is a high-capacity lithium energy storage unit designed to store electrical energy and provide controlled energy management within a structured power system. Based on the product image, the unit features a vertical cabinet design with a reinforced outer shell, a circular front display module, and clearly marked electrical information showing 51.2V, 200Ah, and 10kWh. The system integrates side handles for positioning and a wheeled base that improves mobility during installation and relocation. The front interface is minimal and structured, ensuring that system status can be accessed directly without complex external equipment.
From a user experience perspective, the system focuses on operational clarity and accessibility. The built-in display provides real-time system visibility, allowing users to observe energy status directly on the device. The presence of communication ports and mobile monitoring capability enables users to access system data remotely, reducing the need for on-site supervision. The cabinet structure ensures stable placement during operation, while the integrated wheels improve deployment flexibility. Compared with typical 10kWh LiFePO4 storage units such as LINIOTECH 10kWh 51.2V Battery, this system maintains a similar capacity class but emphasizes mobility and structural integration for easier handling and monitoring.
| Model | WTB-10K/16S-B |
| Cell | |
| Cell Chemistry | LiFePO4/C |
| Module | |
| Nominal Capacity (Wh) | 10K |
| Nominal Voltage | 51.2V |
| System | |
| Operating Voltage Range | 44.8V-58V |
| Standard Charging Current (A) | 50 |
| Max. Charging Current (A) | 100 |
| Continuous Discharge Current (A) | 100 |
| Peak Discharge Current (A) | 2000 |
| Cycle Life (cycles) | 5000 |
| Self-discharge Rate | ≤3%/month |
| Operating Environment | |
| Charging Temperature (℃) | 0-45 |
| Discharging Temperature (℃) | -75 |
| Storage Temperature (℃) | -55 |
| Storage Humidity (RH) | 5-95% |
| Protection | |
| Overcharge Protection Voltage | √ |
| Over-discharge Protection Voltage | √ |
| Overcurrent Protection | √ |
| Short Circuit Protection | √ |
| Temperature Protection | √ |
| Active Balancing | 1A |
| Communication & Display | |
| CAN / RS485 / RS232 | √ |
| Mobile APP | √ |
| Display | 4.3" |
| Appearance | |
| Dimensions (Including Footmaster Wheels) | 770*450*250mm |
| Weight (Including Footmaster Wheels) | 88kg/90kg |
Use Brand-Name A Battery Cells (if Any Non-A Cells Are Found, Please Report Them). The Cell Design Life Is 8,000 Cycles @ 80% DOD
Using The Well-Known Brand BMS, The Entire Series Features Active Currentbalancing With Small Currents, Ensuring That The System Can Extend Its Servicelife By 20% In Normal Environments (compared To Our Non-Active Balancingsystem)
Ouchscreen Design, No Screws On The Front, Elegant And Stylish
Built-In Aerosol To Eliminate Safety Hazards
485/232 Communication
Support Viewing Of The APP
The system is suitable for residential backup energy storage where continuous power availability is required during outages. With a capacity of 10 kWh, it can support essential household loads such as lighting, refrigeration, and communication systems for extended periods. Compared with smaller 5 kWh systems, the increased capacity allows longer backup duration, often exceeding 8 to 12 hours depending on load conditions. The stable voltage output ensures that sensitive home equipment operates without interruption. The integrated monitoring interface allows users to track energy usage and system status in real time, ensuring that backup readiness can be maintained and adjusted based on demand.
In off-grid or remote living environments, the system provides a reliable energy storage solution capable of maintaining stable power supply without grid dependency. The high capacity of 10 kWh ensures sufficient energy availability for daily operations, while the low self-discharge rate allows energy to be preserved over extended periods. The system can operate under varying environmental conditions, maintaining consistent performance. Remote monitoring capability enables users to access system data without being physically present, ensuring that energy management remains controlled even in isolated locations.
For small commercial or office environments, the system provides stable energy storage to support essential equipment such as computers, networking devices, and lighting systems. The 10 kWh capacity ensures that sufficient energy is available for continuous operation during power interruptions. The stable voltage output ensures that equipment operates without disruption, reducing the risk of data loss or downtime. Communication interfaces allow integration with monitoring systems, enabling centralized energy management and improving operational efficiency within office environments.
Telecommunication infrastructure requires consistent and uninterrupted power supply, and this system supports that requirement with stable voltage and high discharge capability. The peak current capacity allows the system to handle sudden demand changes, ensuring continuous operation of communication equipment. The ability to monitor system status remotely ensures that operators can maintain performance without frequent site visits. This improves system reliability and reduces maintenance requirements in telecom installations.
As part of a backup energy system, the unit ensures that stored energy is available during unexpected power interruptions. The structured energy storage capacity allows the system to deliver consistent power over extended periods, while the long cycle life ensures reliability across repeated backup events. The integrated display provides real-time system status, allowing users to verify readiness at any time. This ensures that the system can respond effectively to power disruptions without performance degradation.
In agricultural environments, the system supports stable energy storage for equipment that requires continuous operation. The 10 kWh capacity ensures that sufficient energy is available for extended working periods, while the stable discharge capability ensures consistent performance. The system can operate under varying environmental conditions, maintaining reliability over time. This ensures that agricultural processes remain uninterrupted and that energy availability is maintained during critical operations.
For mobile or temporary installations, the system provides a structured energy storage solution with enhanced mobility. The integrated wheels allow easier movement and positioning, reducing installation effort. The system maintains stable operation during relocation and ensures consistent performance across different deployment scenarios. Communication interfaces enable real-time monitoring, allowing users to adjust system parameters based on operational needs. This flexibility ensures that the system can be used efficiently in dynamic environments where installation conditions may change frequently.
