Explore the cutting-edge technology behind high voltage batteries, including applications in solar systems, electric vehicles, and energy storage solutions. Discover how advanced battery technology is shaping a sustainable future.
Rated voltage |
102.4V |
153.6V |
204.8V |
256V |
307.2V |
358.4V |
409.6V |
Working voltage range |
80-116.8V |
120-175.2V |
160-233.6V |
200-292V |
240-350.4V |
280-408.8V |
320-467.2V |
Rated capacity |
105AH |
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Energy |
10.75KWH |
16.13KWH |
21.5KWH |
26.88KWH |
32.26KWH |
37.63KWH |
42.97KWH |
Rated charge current |
50A |
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Rated discharge current |
105A |
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Peak charge current |
200A |
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Peak discharge current |
200A |
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Charge temperature |
0-55°C |
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Discharge temperature |
-10-55°C |
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Optimum temperature |
15-25°C |
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Cooling method |
Natural cooling |
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Relative humidity |
5%-95% |
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Altitude |
≤2000M |
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Cycle Life |
≥6000 times @ 80% DOD, 0.5C/0.5C, 25'C |
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Communication interfaces |
CAN2.0/RS485/Dry |
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Protection |
Over temperature, over current, over voltage, insulation and other multiple protection |
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Display |
LCD |
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Design lifetime |
≥10 years |
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Certification |
UN38.3/UL1973/IEC62619 |
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Dimension (L*W*H) |
580x430x400 |
580x430x600 |
580x430x800 |
580x430x1000 |
580x430x1200 |
580x430x1400 |
580x430x1600 |
Weight |
115KG |
160KG |
205KG |
250KG |
295KG |
350KG |
395KG |
Module |
51.2V 105AH |
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Seria/Parallel |
32S1P |
48S1P |
64S1P |
80S1P |
96S1P |
112S1P |
128S1P |
Module dimension |
580x430x200MM |
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Module weight |
45KG |
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Number of modules |
2PCS |
3PCS |
4PCS |
5PCS |
6PCS |
7PCS |
8PCS |
Battery type |
-20°C to 60°C(-4°F to 140°F) |
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In the dynamic world of energy solutions, high voltage batteries stand at the forefront of innovation and efficiency. These powerful units are pivotal in driving the transition towards more sustainable and reliable power sources across various sectors including automotive, renewable energy, and large-scale energy storage systems. With their remarkable charge capacity and voltage level, high voltage batteries such as the LiFePO4 battery not only offer enhanced longevity but also promise improved energy efficiency and environmental sustainability.
Understanding High Voltage Batteries
High voltage batteries encompass a range of advanced battery technology types, with each offering distinct advantages in terms of power density and operational safety. The term high-voltage unit generally refers to batteries that operate at a higher electrical potential than standard options, enabling them to store and deliver greater amounts of energy. This capability makes them ideal for demanding applications such as in HV battery systems and electric vehicle batteries.
High voltage battery packs are often constructed using LiFePO4 chemistry, renowned for its stability and safety features. These batteries provide significant advantages over traditional lead-acid or even other lithium-ion chemistries, due to their robustness, longer life cycles, and ability to maintain consistent performance under harsh conditions.
Key Applications of High Voltage Batteries
Electric Vehicles (EVs)
Solar Systems
Large-Scale Energy Storage
Innovations in High Voltage Battery Technology
Recent advancements in battery management systems and smart battery systems have significantly enhanced the performance and safety of high voltage batteries. Innovations such as real-time monitoring of charge capacity and discharge rate allow for better management of battery health, extending the lifespan and efficiency of these systems. Furthermore, developments in modular designs enable scalable solutions that can be customized for specific applications, from small residential setups to large industrial plants.
Future Prospects and Challenges
The future of high-voltage batteries is bright, with ongoing research focusing on improving energy efficiency and reducing costs. However, challenges such as raw material scarcity, recycling needs, and technological barriers still need to be addressed to fully realize the potential of this advanced battery technology.
High-voltage battery are at the heart of modern energy solutions, offering unmatched benefits in terms of efficiency, capacity, and sustainability. As technology progresses, these energy storage solutions will play a crucial role in powering our homes, vehicles, and industries, making a substantial impact on our energy consumption patterns and helping pave the way towards a more sustainable world.