Best Lithium TL-LFP Series Telecommunication Batteries
Product Main Parameters
| Model No. | Nominal Voltage (V) | Nominal Capacity (Ah) @25±2℃ 0.5C | Dimensions (mm) | Weight (±2kg) |
|---|---|---|---|---|
| VHR TL3650LFP | 35.2 | 50 | 500 x 250 x 133 | 19 |
| VHR TL36100LFP | 35.2 | 100 | 517 x 314 x 220 | 34 |
| VHR TL4830LFP | 48.0 | 30 | 442 x 330 x 133 | 18 |
| VHR TL4850LFP | 48.0 | 50 | 440 x 390 x 133 | 25 |
| VHR TL4880LFP-4U | 48.0 | 80 | 440 x 440 x 176 | 42 |
| VHR TL48100LFP-3U | 48.0 | 100 | 440 x 440 x 133 | 43 |
| VHR TL48150LFP | 48.0 | 150 | 440 x 480 x 222 | 66 |
| VHR TL48200LFP | 48.0 | 200 | 440 x 550 x 222 | 81 |
| VHR TL51100LFP-3U | 51.2 | 100 | 440 x 440 x 133 | 46 |
| VHR TL51150LFP | 51.2 | 150 | 440 x 480 x 222 | 68 |
Common Product Specifications
| Feature | Description |
|---|---|
| Technology | LiFePO4 (Lithium Iron Phosphate) |
| Cycle Life | 5000 cycles at 80%DOD |
| Charging Time | Fast charge capability |
| BMS | Integrated, with safety and reliability features |
| Compatibility | Support parallel connection |
| Monitoring | Remote measure, communication, and control by RS485 |
| Status Indication | LED status and alarm indication |
Product Manufacturing Process
According to authoritative papers, the manufacturing process of lithium-ion batteries, specifically LiFePO4 batteries, involves several key stages:
Electrode Preparation
The initial stage involves preparing the electrodes. This includes mixing lithium iron phosphate powder with carbon and a polymer binder to form a slurry. The slurry is then coated onto aluminum foil for cathodes or copper foil for anodes.
Cell Assembly
The coated foils are dried and cut into electrodes, which are then stacked or wound with separators to form cells. These cells are filled with an electrolyte solution and sealed.
Formation and Testing
The sealed cells go through a formation process, where they are charged and discharged under controlled conditions to form the solid electrolyte interphase (SEI) layer. Each cell is rigorously tested for performance and safety parameters.
Battery Pack Assembly
Individual cells are assembled into battery packs with integrated BMS to monitor and control the performance of the battery pack. The assembled battery packs undergo further testing to ensure reliability and safety.
Conclusion: The manufacturing process of LiFePO4 batteries involves meticulous steps to ensure high performance, safety, and longevity. The use of advanced materials and integrated BMS technology makes these batteries suitable for demanding applications such as telecommunication.
Product Application Scenarios
According to authoritative sources, telecommunication batteries play a crucial role in various application scenarios:
Base Transceiver Stations (BTS)
Telecommunication batteries are vital for BTS facilities, which are central to mobile network coverage. These batteries ensure that mobile communication remains uninterrupted, even during power outages, providing reliable connectivity essential for daily communications and emergency services.
Data Centers
Data centers require uninterrupted power to manage vast amounts of data and ensure continuous service availability, including cloud computing and data storage. Telecommunication batteries provide the necessary backup power, ensuring data integrity and service consistency.
Remote Locations
In remote or rural areas with unreliable or no power grid, telecommunication batteries are indispensable. They sustain communication networks, facilitating connectivity and communication in these regions.
Conclusion: Telecommunication batteries are essential for maintaining uninterrupted service in various critical infrastructure settings. Their reliability and efficiency are crucial for both daily operations and emergency responses, ensuring robust telecommunication networks.
Product After-Sales Service
HRESYS offers comprehensive after-sales support including a warranty period, technical support, and replacement services. Our dedicated team ensures that any issues are promptly addressed, guaranteeing customer satisfaction and optimal performance of our products.
Product Transportation
Our products are packaged securely to prevent damage during transit. We collaborate with reliable logistics partners to ensure timely and safe delivery of our products to customers worldwide.
Product Advantages
- High energy density, saving space and reducing weight.
- Long cycle life, up to 5000 cycles at 80% DOD.
- Fast charge capability, enhancing operational efficiency.
- Integrated BMS for superior safety and reliability.
- Support for parallel connection to increase capacity.
- LED status and alarm indication for easy monitoring.
Product FAQ
1. What is the typical lifespan of the TL-LFP series batteries?
The best telecommunication batteries in the TL-LFP series are designed to last up to 5000 cycles at 80% Depth of Discharge (DOD), ensuring a long service life.
2. How do I monitor the status of these batteries?
Our best telecommunication batteries come with an integrated Battery Management System (BMS) that allows remote monitoring, communication, and control via RS485, ensuring ease of management and reliability.
3. Are there special maintenance requirements?
No, the best telecommunication batteries from our TL-LFP series are maintenance-free, thanks to the advanced BMS that balances and equalizes the cells, prolonging battery life.
4. How quickly can these batteries be charged?
These best telecommunication batteries have fast charge capabilities, significantly reducing downtime and enhancing operational efficiency.
5. Can I increase the capacity if needed?
Yes, our best telecommunication batteries support parallel connections, allowing you to increase the capacity as required for your specific needs.
6. What safety features are included?
The integrated BMS in our best telecommunication batteries protects against overcharge, over-discharge, and high current, ensuring safety and reliability.
7. Are these batteries environmentally friendly?
Yes, the best telecommunication batteries from HRESYS use LiFePO4 technology, which is safer and more environmentally friendly compared to other battery chemistries.
8. What are typical applications for these batteries?
The best telecommunication batteries are ideal for use in telecom base stations, data centers, and remote locations, ensuring uninterrupted service.
9. How do these batteries perform in extreme conditions?
Our best telecommunication batteries are built to withstand various environmental conditions, including temperature fluctuations and physical vibrations, to ensure reliable performance.
10. What is the warranty period for the TL-LFP series batteries?
HRESYS provides a comprehensive warranty period for our best telecommunication batteries, ensuring peace of mind and reliable support for our customers.
Product Hot Topics
1. The Role of Best Telecommunication Batteries in Modern Communication
Telecommunication batteries are critical for maintaining uninterrupted communication services. As reliance on mobile and internet increases, having reliable backup power becomes a necessity. HRESYS's best telecommunication batteries offer high reliability and long life to ensure consistent communication.
2. How LiFePO4 Technology Revolutionizes Telecommunication Batteries
LiFePO4 technology in the best telecommunication batteries provides numerous advantages such as higher energy density, longer cycle life, and enhanced safety. This technology ensures that telecommunication networks remain functional even during power outages.
3. Best Practices for Maintaining Telecommunication Batteries
While HRESYS's best telecommunication batteries are maintenance-free, understanding the importance of proper installation and monitoring can further enhance their longevity and performance. Utilizing integrated BMS systems helps in proactive maintenance and ensuring battery health.
4. Comparing Lead-Acid and Lithium-Ion Telecommunication Batteries
Lead-acid batteries have been the traditional choice, but lithium-ion batteries, particularly LiFePO4, are now considered the best telecommunication batteries due to their efficiency, longevity, and lower maintenance needs.
5. The Importance of Backup Power in Telecommunication
Backup power is vital for uninterrupted telecommunication services. The best telecommunication batteries ensure that networks remain operational even during power outages, supporting both daily operations and emergency communications.
6. Enhancing Data Center Reliability with Best Telecommunication Batteries
Data centers rely heavily on uninterrupted power. The best telecommunication batteries from HRESYS provide reliable backup, ensuring continuous data processing and storage services, critical for modern businesses.
7. Impact of Environmental Conditions on Telecommunication Batteries
Environmental conditions can significantly impact battery performance. HRESYS's best telecommunication batteries are designed to withstand various conditions, ensuring reliable performance regardless of temperature fluctuations and physical vibrations.
8. The Future of Telecommunication Battery Technology
Advances in battery technology, such as the development of LiFePO4, are paving the way for more efficient and reliable telecommunication batteries. HRESYS continues to innovate, ensuring we provide the best telecommunication batteries for future needs.
9. Scalability of Telecommunication Battery Systems
The scalability of telecommunication battery systems is crucial for accommodating growing power needs. HRESYS's best telecommunication batteries support parallel connections, allowing easy scalability and ensuring they meet the expanding demands of telecommunication infrastructure.
10. Customer Experiences with HRESYS Best Telecommunication Batteries
Customer feedback highlights the reliability, long life, and efficiency of HRESYS's best telecommunication batteries. Users particularly appreciate the advanced BMS, which provides ease of monitoring and enhanced safety features, making these batteries a top choice for telecommunication applications.
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