24V Lithium Battery
Product features
Technical Description
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MODEL |
Crius 24100 |
Crius 24150 |
Crius 24200 |
Crius 24280 |
Crius 24300 |
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Battery Type |
LiFePO4 (lithium iron phosphate battery) |
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Nominal Capacity |
100Ah |
150Ah |
200Ah |
280Ah |
300Ah |
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Nominal Voltage |
25.6V |
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Total Energy |
2560Wh |
3840Wh |
5120Wh |
7168Wh |
7680Wh |
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Charge Cut-off Voltage |
28.8V |
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Disharge Cut-off Voltage |
20V |
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Charge Current |
100A max |
150A max |
200A max |
150A max |
150A max |
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Discharge Current |
100A max |
150A max |
200A max |
150A max |
150A max |
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Communication Mode |
RS485, CAN |
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Ingress Protection |
IP20 |
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Scalability |
max 16pcs in parallel |
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Lifespan (80% DOD) |
≥6000 cycles, 25°C |
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Compatible Inverters |
Goodwe, Victron, SMA, Kosta, Fronius, Solis, Growatt, Sofar, Deye, Solar Ark, Outtback, Voltronic, Pylontech optional, more brands will be announced |
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Working Environment |
-20°C-60°C, < 95% RH |
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Storage Environment |
-20°C〜50°C, < 95% RH |
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Operating Altitude |
<2000m |
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Design Life |
15 years |
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Warranty Period |
5 years, 10years optional |
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Tips About Lithium Battery
Choosing the right solar battery involves several critical considerations to ensure it meets your energy needs efficiently and cost-effectively. Here’s a guide to help you make an informed decision:
1. Battery Type
There are primarily three types of batteries used for solar energy storage:
● Lead-Acid Batteries: These are the oldest technology, offering reliability and lower upfront costs. However, they have a shorter lifespan and lower depth of discharge (DOD), typically around 50%.
● Lithium-Ion Batteries: These are more expensive upfront but have a longer lifespan, higher DoD (around 80-90%), and are more efficient. They are lighter and require less maintenance.
● Flow Batteries: These are newer and more expensive but offer unlimited cycling and a 100% DoD. They are best for large-scale installations due to their long lifespan and scalability.
2. Capacity and Power
● Capacity (kWh): This is the total amount of electricity the battery can store. Choose a capacity that matches your energy consumption patterns. For instance, if your daily consumption is 10 kWh, a 10 kWh battery might suffice, considering partial day usage and cloudy days.
● Power (kW): This is the rate at which the battery can supply electricity. Ensure the battery can deliver enough power to run your essential appliances simultaneously.
3. Depth of Discharge (DOD)
DoD indicates how much of the battery's capacity can be used before it needs recharging. Higher DoD means you can use more of the battery's capacity without reducing its lifespan. For instance, a 10 kWh battery with a 90% DoD allows you to use 9 kWh before recharging.
4. Round-Trip Efficiency
This measures the efficiency of the battery in storing and releasing energy. A higher round-trip efficiency (typically 80-90% for lithium-ion) means less energy is lost in the process, making the battery more cost-effective over time.
5. Lifespan and Warranty
Consider the battery's lifespan, typically indicated by the number of cycles it can complete (charge and discharge) or its expected years of use. Check the warranty terms for both performance and product lifespan. A good warranty typically covers at least 10 years or 10,000 cycles.
6. Scalability
If you plan to expand your solar system in the future, choose a battery system that can be easily scaled. Modular batteries can be added to your existing setup as your energy needs grow.
7. Cost
While the initial cost is an important factor, consider the total cost of ownership, including maintenance, lifespan, and efficiency. Higher upfront costs for a more efficient and longer-lasting battery can lead to greater savings over time.
By carefully evaluating these factors, you can select a solar battery that provides reliable, efficient, and cost-effective energy storage for your specific needs.
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