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Powering the Future with Advanced Lithium Battery & BMS Solutions
Energy Storage Battery:
Battsys Energy Storage Battery series mainly provides power for industrial parks, commercial centers, data centers, communication base stations, administrative buildings, hospitals, schools, residential buildings and ect. With safe and reliable, 10 years design life, intelligent BMS management system, flexible configuration, high security and other features.
As well as low-cost sources of electricity for social power systems to store rich electricity for peak use, not only can be used as an emergency power supply, but also can save electricity expenses for families.
As new energy moves into the civilian market, Huda Technology energy storage systems become one of the essential devices, especially for homes with rooftop photovoltaic systems or small home wind turbine systems.
The instability of power supply will create a large household energy storage market, the demand will be particularly strong in the developing countries and underdeveloped and backward regions of the world.
48V 280AH MOVABLE LITHIUM BATTERY
BMS protection:
over-charging/over-discharging protection, charging/discharging over-current protection, short-circuit protection, battery voltage self-balancing, high temperature discharge cut-off.
High capacity and light weight:
Small size, easy to move, ideal for outdoor camps and indoor power supply. Wide range of applications:Suitable for golf carts, off-grid systems and home use.High capacity and light weight: Small size, easy to move, ideal for outdoor camps and indoor power supply. Wide range of applications:Suitable for golf carts, off-grid systems and home use.
Long life span:Can be recycled up to 6000 times, life span up to 10 years. Easy to install:Supports wall-mounted, floor-mounted, stacked or rack-mounted installation.
Long life span:
Can be recycled up to 6000 times, life span up to 10 years. Easy to install:Supports wall-mounted, floor-mounted, stacked or rack-mounted installation.
| 280AH 48V Lithium Battery | |
|---|---|
| Lithium Iron Phosphate (LiFePO4) | |
| Voltage | 51.2 V |
| Rated Capacity | 280Ah |
| Absorption Voltage | 56.8 to 58.4 V |
| Float Voltage | 56.0 to 56.8 V |
| Equalize Voltage (if applicable) | 56.8 to 58.4 V (same as absorption) |
| Absorption Time | 60 to 120 minutes |
| Temperature Compensation | No |
| Charge Cut-off Voltage | 58.4 V |
| Discharge Cut-off Voltage | 40 V |
| Recommended Charge Current | 100A |
| Recommended Discharge Current | 100A |
| Maximum Continuous Charge Current | 200A |
| Maximum Continuous Discharge Current | 200A |
| Peak Discharge Curren | 210A |
| Bluetooth connection | Yes |
| Self Heating | No |
| IP Standard | IP30 |
| Communication | CAN/RS485/RS232 |
| Switch | Yes |
| BMS Protection | Charging Overcurrent Short circuit High/Low temperature |
| Internal Resistance | ≤30mΩ |
| BMS Leakage Current | ≤3mA |
| Operating Temperature Charge | 32°F (0°C) to 131°F (55°C) |
| Operating Temperature Discharge | -4°F (-20°C) to 131°F (55°C) |
| Storage Temperature 1 week | -4(-20°C) to 149°F (65°C) |
| Storage Temperature 1 month | -4°F (-20°C) to 113°F(40°C) |
| Storage Temperature 1 year | -4°F (-20°C) to 77°F (25°C) |
| Humidity Operating: | 5% to 90 % RH |
| Humidity Storage: | 35% to 85% RH |
| Certifications UN 38.3; CE | |
| Cycle Life | 6000 cycles |
| Product Lifespan | 10-year (Prorated) |
What is BMS battery management system:
The Battery Management System (BMS) is used to manage batteries. It usually measures the Battery voltage to prevent over-discharge, overcharge, and overtemperature of the battery. With the development of technology, many features have been gradually added. The battery management system and the electric vehicle power lithium batteries together, through the sensor to the battery voltage, current, temperature, the real-time detection, as well as detect the leakage, thermal management, balanced battery management, alarm to remind, the residual capacity of computing (SOC), discharge power, the report of the residual capacity of battery degradation (SOH) and state of (SOC), It also uses algorithms to control the maximum output power according to the voltage, current and temperature of the battery to obtain the maximum mileage and uses algorithms to control the charger to charge the best current. The CAN bus interface communicates with the vehicle master controller, motor controller, energy control system, and vehicle display system in real-time.
Why do lithium batteries need BMS?
The battery management system can effectively monitor, protect, energy balance, and fault alarm of the lithium-ion battery pack, improving the entire power lithium battery pack's working efficiency and service life. Lithium-ion batteries are widely used in various precision equipment due to their high working voltage, small size, lightweight, high energy density, no memory effect, no pollution, low self-discharge, long cycle life and many other advantages. However, lithium batteries have serious shortcomings. In summary, there are the following two aspects:
1. Security:
The lithium batteries have poor safety and have defects such as explosions from time to time. In particular, lithium batteries with lithium cobalt oxide as the cathode material cannot be discharged at a large current, and their safety is poor. In addition, almost all types of lithium-ion batteries overcharge or over-discharge can cause irreversible damage to the cells. Lithium batteries are also susceptible to temperature: if used at too high a temperature, it may cause the electrolyte to decompose, burn or even explode; if the temperature is too low, the performance of the lithium-ion battery will deteriorate significantly and affect the regular use of the device.
Due to the limitations of the battery manufacturing process, each battery cell's internal resistance and capacity will vary. When multiple battery cells are used in series, each battery cell's charging, and discharging rate will be inconsistent, leading to low battery capacity utilization. Because of this, in the actual use of lithium-ion batteries, a special protection system is usually required to monitor the battery's health to manage the use of the lithium-ion battery.
2. Maintainability:
We cannot accurately predict the capacity decay and power consumption of lithium batteries at low temperatures, which makes the maintainability of the equipment poor. Long-term online instruments need to replace the battery regularly, while the remote monitoring equipment work sites are scattered, and the distance between the sites is long. Therefore, the workload of replacing the battery is huge, and the cost is high.
In order to reduce maintenance workload and maintenance cost, the lithium-ion battery BMS management system must have an accurate state of charge estimation function to accurately grasp the state of charge of the battery and perform battery replacement work more purposefully; at the same time, the battery management system must have low power consumption to reduce maintenance frequency and extend battery life. Therefore, for the long-term continuous power supply remote monitoring instrument, the practical design of the lithium-ion battery BMS management system is of great significance to the maintenance of the equipment.
Battery management system definition:
Battery management system (BMS) is technology dedicated to the oversight of a battery pack, which is an assembly of battery cells, electrically organized in a row x column matrix configuration to enable delivery of targeted range of voltage and current for a duration of time against expected load scenarios.