LiFePO4 Battery Pack 12V For LED Light (LFeLi-1230M)
LiFePO4 Battery Cell 3.2V
3000 cycles @1C 100%DOD
Monthly Self-discharge Rate
Efficiency of Charge
Efficiency of Discharge
Max Charge Voltage
Standard Charge Current
Max Charging Current
Charge Limit Voltage
Max Continuous Discharge Current
Max Discharge Current
Discharge Cut-off Voltage
Standard Discharge Current
Outer Case Material
Water Dust Proof
1. High energy density: different according to the electrode material, calculated by quality,up to 150~200Wh / kg (540~720kJ /kg); up to 250~530Wh / L (0.9~1.9kJ /cm3) by volume.
2. High open circuit voltage: up to 3.3~4.2V, depended on electrode materials.
3. Large output power: up to 300~1500W /kg (@ 20 seconds),depended on electrode materials.
4. No memory effect: Lithium iron phosphate lithium ion battery has no memory effect, and the battery can be charged and discharged at any time without being emptied, and the use and maintenance are simple.
5. Low self-discharge: <3% month. The intelligent lithium-ion battery has a built-in monitoring circuit, and the operating current of monitoring circuit is even higher than the self-discharge current.
6. Wide operating temperature range: It can work normally between -20°C and 60°C.
7. Charge and discharge speeds, lithium-ion batteries are widely used in consumer electronics, military products, aviation products.
What can I use LIPOWER ENERGY LiFePO4 battery for?
LIPOWER ENERGY LiFePO4 Battery can be used for any system or application that would normally use Lead acid battery (AGM, GEL) in 12V, up to 48V. After removing your old batteries, place our LiFePo4 batteries in the same way. You may use the same cables to reconnect them. LiFePO4 batteries are ideally suited for use in Caravans,Energy storage system,Telecommunications base stations and all other recreational and expedition vehicles.
The lithium-ion batteries are common in the field of consumer electronics. They are one of the most common types of rechargeable batteries in portable electronic devices, with high energy density, no memory effect, and only slow charge loss when not in use. In addition to consumer electronics, increasingly advanced lithium-ion batteries are becoming more popular for military, pure electric vehicles and aerospace applications. For example, lithium iron phosphate batteries are becoming a common replacement battery for lead-acid batteries. Historically, lead-acid batteries have been used in golf carts and utility vehicles, but this highly efficient new battery has been able to break through old lithium batteries. The various shortcomings of lead-acid batteries have reached the goal of comprehensive replacement.
Commonly Asked Questions:
Q:What are the advantages of Lithium iron phosphate battery compared with other battery types?
A: Lithium-ion batteries are different from ordinary lithium-ion batteries, they are greatly improved in the discharge and charge time and the storage life. The disadvantage is that the capacity is slightly smaller than ordinary lithium batteries, but the volume is still larger than NiMH batteries. Lithium batteries suitable for and used in pure electric vehicles are lithium iron phosphate batteries and lithium titanate batteries were specially suitable for pure electric vehicles and already used for them. Compared with ordinary lithium ion battery, the lithium iron phosphate battery has a larger transmission power, and the charging speed is faster, but the capacity is 14% lower.
Q:Which is better lead acid battery or lithium battery?
A: Lithium batteries are more than 95% efficient. In the same example, you'd have over 950 watts of power available. Higher efficiency means your batteries charge faster. Depending on the configuration of your system, it could also mean you buying fewer solar panels, less battery capacity and a smaller backup generator.
You May Want to Know:
Industrial application of lithium iron phosphate
The first hybrid electric vehicle that uses this lithium battery material is General Electric's Chevrolet Volt, which was officially launched in 2010. The Volt has a battery life of 60 kilometers per charge. In the case of a long journey, the car is equipped with a small gasoline engine to charge the battery, allowing the Volt to run further. GM believes this PHEV can have a fuel consumption of 150mpg. In Japan and mainland China, there are more lithium battery factories that have invested in the production of this new type of power lithium battery. The target market is electric bicycles and electric buses. LFP upstream and downstream industries are developing at a high speed, and GE, Google, Buffett and European manufacturers have announced their entry into the LFP industry.
LFP material properties are related to industrial development
However, the real battle point is probably still dependent on the market of plug-in hybrid electric vehicles (PHEV). The main reason why LFP materials are valued in lithium batteries is that the root cause is still the LFP safe olivine structure. This structure is different from this structure. Lithium-cobalt or lithium-manganese series battery positive electrode materials of other lithium batteries in layered and spinel structure; LFP of olivine structure, due to structurally strong bonding with oxygen (O2), when a lithium battery is short-circuited Will not explode because of a short circuit.