- Product Details
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Quick Details
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Model Number:
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LVFU-12V-Lifepo4 Battery
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Place of Origin:
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Guangdong, China
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Weight:
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22KG
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The charging ratio:
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0.5C
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The discharge rate:
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0.5C
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Product name:
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12V Lifepo4 Battery Pack
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Battery Type:
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LiFePO4 Battery Pack
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Cycle life:
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>4000 Cycles @1C 80%DOD
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Battery Size:
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12v 50ah / 100ah/150ah/200ah/300ah
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Key words:
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12 Volt Lithium Battery Pack
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Nominal Voltage:
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12.8Volts
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OEM/ODM:
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Customized OEM ODM Battery Pack
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Coummunication Protocol:
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RS485(customized available)
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Charge Voltage:
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14.4V
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Warranty:
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5years
Quick Details
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Anode Material:
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LFP
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Application:
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Power Tools, Home Appliances, BOATS, Golf Carts, electric vehicles, Electric Power Systems, Solar Energy Storage Systems, Uninterruptible Power Supplies, Electric Forklifts
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Brand Name:
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LVFU
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Model Number:
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LVFU-12V-Lifepo4 Battery
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Place of Origin:
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Guangdong, China
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Weight:
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22KG
-
The charging ratio:
-
0.5C
-
The discharge rate:
-
0.5C
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Product name:
-
12V Lifepo4 Battery Pack
-
Battery Type:
-
LiFePO4 Battery Pack
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Cycle life:
-
>4000 Cycles @1C 80%DOD
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Battery Size:
-
12v 50ah / 100ah/150ah/200ah/300ah
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Key words:
-
12 Volt Lithium Battery Pack
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Nominal Voltage:
-
12.8Volts
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OEM/ODM:
-
Customized OEM ODM Battery Pack
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Coummunication Protocol:
-
RS485(customized available)
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Charge Voltage:
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14.4V
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Warranty:
-
5years
1. How long will a 12V 100Ah LiFePO4 battery last?
The lifespan of a 12V 100Ah LiFePO4 battery depends on various factors such as the depth of discharge, charging and discharging rate, operating temperature, and the number of cycles. Generally, LiFePO4 batteries have a longer lifespan compared to other types of batteries. Assuming a typical depth of discharge of 80% and a cycle life of 2000 cycles, a 12V 100Ah LiFePO4 battery could last up to 10 years if properly maintained and used within its specifications.
However, it's important to note that the actual lifespan of a battery may vary depending on usage patterns, environmental factors, and maintenance practices.
However, it's important to note that the actual lifespan of a battery may vary depending on usage patterns, environmental factors, and maintenance practices.
2. Is it better to have 2 100ah lithium batteries or 1 200Ah lithium battery?
Having two 100Ah batteries provides the advantage of redundancy, meaning that if one battery fails, you still have a backup power source. It also allows for greater flexibility in terms of battery placement and weight distribution, which can be important for some applications. Additionally, having two batteries connected in parallel can allow for higher current delivery, which may be necessary for high-power applications.
However, having a single 200Ah battery can be more cost-effective and may require less maintenance, as you only need to monitor and maintain one battery instead of two. It can also be more space-efficient and easier to install since there is only one battery to manage.
In general, if you prioritize redundancy and flexibility, two 100Ah batteries may be the better choice, while a single 200Ah battery may be a more practical and cost-effective option. Ultimately, the decision depends on your specific needs and preferences.
3. Can a LiFePO4 battery charge from alternator?
Yes, a LiFePO4 battery can be charged from an alternator, but it's essential to ensure that the charging voltage and current are within the battery's specifications.
LiFePO4 batteries require a specific charging profile, which typically involves charging at a constant current until the battery reaches a certain voltage, then holding the voltage constant while gradually reducing the charging current. This process is commonly referred to as a "CCCV" (constant current-constant voltage) charge profile.
Many alternators are designed to charge lead-acid batteries, which have different charging characteristics than LiFePO4 batteries.Therefore, it's important to use an appropriate battery charger or charging system that is designed to charge LiFePO4 batteries from an alternator.
Products Description
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Battery Model
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12V 50AH
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12V 100AH
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12V 200AH
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12V 300AH
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Battery Type
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LiFeP04:(BYD/EVE/CATL Cell)
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Battery Capacity
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600WH
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1200WH
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2400WH
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3600WH
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Voltage window (V-DC)
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10V-14.4V
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Maximum continuous charging current
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25A
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50A
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50A
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100A
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Maximum continuous discharge current
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50A
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100A
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100A
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200A
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Maximum pulse current
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150A 3S
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300A 3S
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300A 3S
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400A 3S
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Product Size(MM)
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L260*Wl68*H209
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L330*W175*H221
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L532*W207*H215
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L522*W270*H220
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Weight(KG)
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6KG
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12KG
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22KG
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29KG
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Maximum number of series connected
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4S 48V
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Maximum number of parallel connected
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10P
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Storage Time Charging
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The normal voltage is charged once every 3 months, and the voltage of 10 V-10.SV must be charged the next day.
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Case Material
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ABS
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Functions can be added
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LCD/Bluetooth/Heating/485
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Battery protection
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Overcharge protection, overdischarge protection, overcurrent protection, short ci「cuit protection,vertemperature protection
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Is LiFePO4 better than lithium ion?
Both LiFePO4 (Lithium Iron Phosphate) and Lithium-ion (Li-ion) batteries have their advantages and disadvantages, and which one is better depends on the specific application and requirements.
LiFePO4 batteries have a higher energy density than lead-acid batteries, but lower than lithium-ion batteries. However, LiFePO4 batteries have a longer cycle life, are more stable and safer, and have a higher tolerance for high temperatures than Li-ion batteries. LiFePO4 batteries are also less prone to thermal runaway, which is a safety concern in Li-ion batteries.
On the other hand, Li-ion batteries have a higher energy density and a lower self-discharge rate than LiFePO4 batteries. Li-ion batteries are also more widely used and available in various sizes and shapes, making them more convenient for some applications. In summary, LiFePO4 batteries are a good choice for applications where safety, reliability, and a long cycle life are essential, while Li-ion batteries are better suited for applications that require high energy density and low self-discharge rate.
LiFePO4 batteries have a higher energy density than lead-acid batteries, but lower than lithium-ion batteries. However, LiFePO4 batteries have a longer cycle life, are more stable and safer, and have a higher tolerance for high temperatures than Li-ion batteries. LiFePO4 batteries are also less prone to thermal runaway, which is a safety concern in Li-ion batteries.
On the other hand, Li-ion batteries have a higher energy density and a lower self-discharge rate than LiFePO4 batteries. Li-ion batteries are also more widely used and available in various sizes and shapes, making them more convenient for some applications. In summary, LiFePO4 batteries are a good choice for applications where safety, reliability, and a long cycle life are essential, while Li-ion batteries are better suited for applications that require high energy density and low self-discharge rate.
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