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Why opt for lithium iron phosphate batteries?

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Lithium iron phosphate batteries (LiFePO4 or LFP) offer lots of benefifits compared to lead-acid batteries and other lithium batteries. Longer life span, no maintenance, extremely safe, lightweight, improved discharge and charge effificiency, just to name a few. LiFePO4 batteries are not the cheapest in the market, but due to a long life span and zero maintenance, it’s the best investment you can make over time. HOUNY  has specififically developed and launched a series of car start-stop batteries that use automotive-grade lithium iron phosphate batteries and a built-in intelligent battery management system (BMS). Benefits of automotive-grade lithium batteries LONG LIFESPAN The cycle life of lead-acid batteries is generally 250 to 300 times and the average lifetime of lead-acid batteries is just two years. Whereas the cycle life of lithium iron phosphate batteries is about 3000 times. If the vehicle is parked for a long time without starting, the battery of the car will be exhauste...

The Best Stop-start Car Battery

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Stop-start Technology Overview The Stop-Start System is a low-cost method for increasing fuel economy and decreasing emissions. The system turns off the internal combustion engine when the vehicle stops at a stoplight or during stop-and-go traffific where the vehicle would normally idle for a minimum of three to fifive seconds.  BBC published an article  on how UK rush hour drivers spent an average of 74 hours stuck in traffific in 2017. In reality, this is the case all around the globe—experiencing heavy traffific on a daily basis. To simplify the stop-start system is where the engine shuts down but other components continue to run such as the air conditioning system, power steering, brakes, sound system, etc. Start-stop systems have been popular in Europe since the 1980s, but have only recently been introduced to the U.S. market. Audi, BMW, Chrysler, Daimler, Fiat, Ford, General Motors, Honda, Hyundai/Kia, Jaguar, Land Rover, Mazda, Nissan, PSA Peugeot, Citroën, Renault, Toy...

Lithium batteries replacing sealed lead acid in float applications

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  It is extremely typical for lithium batteries to be positioned in an application where a shantytown battery used to be maintained on a floating fee. There has been some problem, whether this is secure for lithium batteries. It is usually appropriate to make use of a basic continuous voltage SLA charger with our lithium batteries, as long as it abides by particular requirements. As a side note, some clever or multi-stage shanty town battery chargers have an attribute that detects an open-circuit voltage (OCV). An over-discharged lithium battery that is in defense mode will have an OCV of 0. This type of charger would presume this battery is dead as well as would not attempt to charge it. A battery charger with a lithium setup will attempt to recuperate or "awaken" an over-discharged lithium battery. Long term storage space If you need to maintain your batteries in storage for a prolonged duration, there are a few things to think about as the storage space needs are various f...

How to charge lithium iron phosphate batteries?

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If you've lately purchased or are looking into lithium iron phosphate batteries (described lithium or LiFePO4), you know they give more cycles, and even circulation of power shipment, and also evaluate less than a similar sealed lead-acid (RUN-DOWN NEIGHBORHOOD) battery. Did you understand they can also bill 4 times faster than SLA? However specifically how do you bill a lithium battery, anyhow?   Lithium battery charging qualities Voltage as well as present setups during charging The complete fee voltage of a 12V SLA battery is nominally around 13.1 and the full charge voltage of a 12.8 V lithium battery is around 13.4. A battery will just receive damage if the charging voltage used is substantially higher than the full cost voltage of the battery. This implies an SLA battery must be maintained listed below 14.7 V for Stage 2 billing and also below 15.2 V for lithium. Float charging is only required for an SLA battery, suggested around 13.8 V. Based upon this, a charge voltage ran...

Applications for Lithium Iron Phosphate And Lithium-Ion

Lithium iron phosphate is sought after for any electronics or machines where safety and longevity are desired but doesn't need an extremely high energy density. Electric motors for vehicles, medical devices, and military applications where the technology will experience higher environmental temperatures. Lithium iron phosphate is also ideal for applications that are more stationary as the battery is slightly heavier as well as bulkier than lithium-ion, although it can be used in some portable technologies. Lithium iron phosphate may not be selected for applications where portability is a major factor due to its extra weight. For smartphones, laptops, and tablet devices, lithium-ion batteries are used. Any high-energy device that needs the best performance on the first day can benefit from the chemistry found on lithium-ion batteries. Besides looking for the right energy sources based on portability, safety and energy density, manufacturers also must consider the costs during the p...

Lithium Iron Phosphate VS. Lithium-Ion: Differences and Advantages

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When using power sources to run embedded components, it's not always simple to pop in a fresh set of batteries. Newer technologies, from smartphones to electric vehicles to portable power tools, require batteries that can hold a significant amount of energy, be lightweight enough to carry or move, and be safe for the user. Lithium batteries offer all these benefits for portable electronics, vehicles, medical equipment, and even grid energy storage. Lithium-ion and Lithium iron phosphate are two types of batteries used in today's portable electronics. While they both share some similarities, there are major differences in high-energy density, long life cycles, and safety. Most people are familiar with lithium-ion as they most likely own a smartphone, tablet, or PC. Lithium iron phosphate is a newer type of battery gaining recognition in the manufacturing industries due to its cost-effective materials and stability with high temperatures. Chemistries of Lithium Iron Phosphate And...

12.8V 300Ah 3840Wh Deep cycle battery pack

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12.8V 300Ah 3840Wh Deep cycle battery pack 300ah Deep cycle batteries are commonly used in RV and marine solar systems. There are different types of deep cycle batteries, plug-in deep cycle battery alternatives for recreational vehicles, off-grid solar applications, boats, trolling motors, etc., suitable for maximizing energy storage and power requirements With overcharge, overdischarge, overcurrent and short-circuit protection and high self-discharge rate. 100% safe, non-toxic and renewable energy.  Our lithium iron deep cycle batteries   has a capacity of up to 300Ah, low self-discharge rate, low capacity loss, and 40% stronger than lead-acid batteries of the same size (lead-acid batteries have a depth of discharge of about 60%). Efficient charging and easy installation Suitable for off-grid solar system and outdoor home backup power, RV, camping, sailing and other applications. Large capacity, you don't have to worry about not being able to charge the battery on cloudy days...