LiFePO4 battery is the best you can buy among any deep cycle batteries. However, there are countless options, even among LiFePO4 batteries. These batteries come in different voltages, ampere-hour ratings, features, and many other parameters. Therefore, you need to know how to choose a lifepo4 battery to buy the right one.
You can find more information on our web, so please take a look.
This article will provide all the information you need on the subject. You will know about all the factors that play a role in buying decisions. You will also learn about the best places to get these batteries.
LiFePO4 battery stands for Lithium Iron Phosphate batteries. They are named so because the cathode material is LiFePO4. The anode is made of graphite. LiFePO4 batteries are a considerable improvement over conventional lithium-ion batteries. Additionally, their performance is leaps and bounds ahead of lead-acid batteries. These reasons have made LiFePO4 the most popular battery choice in recent years.
Different users will have different preferences when buying a LiFePO4 battery. Your decision should be based on factors like:
The capacity of a battery represents how many appliances it can power and for how long. It is measured in Watt hours (Wh). The capacity is the primary factor to consider and the main factor that drives up the LiFePO4 battery cost.
Users often get confused when they cannot see a Wh rating mentioned on the battery. Instead, they find voltage and Amp hours (Ah) ratings.
That is alright. You can find the Wh rating by multiplying voltage and amp hours.
Wh = V x Ah
For a 12V battery with a 320 Ah rating, the Wh will be:
Wh = 12 x 320 = Wh
To find out how much capacity you need, you can add the wattage of all the appliances you use. Then you can multiply it by the hours you want to run them without charging the battery. This will give you the minimum watt hours of the lithium-ion batteries you should buy.
For instance, if you want to run a total of 300W load for 10 hours, you require a minimum of:
Minimum Wh = 300 x 10 = Wh
Since the load or running time can increase or decrease, the required battery should have more capacity than the minimum Watt hours you require. Therefore, the Wh battery will be a good fit for the Wh minimum capacity.
Many users focus on ‘price’ as the deciding factor. However, a better factor to consider should be the value for money of the battery.
Lead acid batteries are the cheaper option in the market today. However, their lifespan is only one-tenth that of a LiFePO4 battery. While LiFePO4 batteries can last over 10 years, a lead acid battery will run out after a year or so. Additionally, there is always the risk of cheaper batteries running out while on the job.
Therefore, opt for value for money instead of the price as the deciding factor. It can save you countless trouble in the long run. This brings us to our next important criterion.
It is essential to consider how many years a battery will last. You can save money and buy lead-acid batteries if you want a short fix for a few months. However, most users do not want that. Instead, they require a long-term solution.
A LiFePO4 battery is the best option in terms of battery life. A good quality LiFePO4 battery will easily last upward of 10 years. AGM and conventional lithium-ion batteries can work well for three to four years.
Cycle life means the number of charge and discharge cycle that your battery can undergo. A longer cycle life means a battery will last longer. Batteries do not come with a suggestive lifespan on the box. However, they do mention a cycle life. Choose an option with a longer cycle life for a better return on investment.
Warranty is a good indicator of the build quality of the battery and its lifespan. Lead acid batteries come with a 6-month warranty. Therefore, they are workable for up to a year until they demand replacement. LiFePO4 battery is a whole different game.
You will find different kinds of warranty periods with different LiFePO4 manufacturers. Eco Tree Lithium is the leader in the game as it provides a warranty of an astonishing 6-year. You can expect the Eco Tree Lithium batteries to easily work for over 10 years with a warranty like that.
Depth of Discharge (DoD) is a significant factor that makes people switch from existing lead acid batteries to lithium iron phosphate batteries. Depth of discharge denotes the usable capacity of the battery.
For instance, the depth of discharge for lead acid batteries is 50%. Therefore, you can use these batteries to 50% of their capacity. After that, they will require charging. However, for Eco Tree Lithium’s LiFePO4 battery, the DoD is a whopping 100%. You can use LiFePO4 through the full rated capacity.
Here is an example for putting things in perspective. Suppose your capacity requirement is 200 Ah. You can meet this requirement with a 200 Ah LiFePO4 battery. However, you will need a 400 Ah battery capacity if opting for a lead acid battery due to its half depth of discharge.
Every battery has a distinct maintenance requirement. Lead acid batteries have many requirements like electrolyte top-ups and venting the buildup gases. Fortunately, maintenance of LiFePO4 battery is much simpler and easy.
Battery dimensions are important for applications like motorhomes. The battery compartments can accommodate a particular size battery bank. LiFePO4 battery has prefixed size groups to denote the standard size of the battery. Match the lithium battery group with your requirement.
Weight is not always on the priority list of important parameters. However, some users find having a lighter battery preferable. If that is the case, any lithium battery is a better buy over a lead acid battery. For instance, a lead acid battery pack of 500 Ah can weigh around 850 kg. The same job can be done by a 250 Ah lithium-ion battery weighing 210 kg. This means a considerable difference in weight.
The main differences come from the eliminated weight of lead plates and electrolytes. Additionally, lithium iron phosphate batteries have lighter electrodes.
Safety becomes essential when you operate your battery near life and property. There have been instances where lead acid battery leak fluids that cause corrosion of the battery and nearby appliances. Conventional lithium batteries have fire and explosion hazards with them. However, lithium iron phosphate batteries are made using very stable compounds of iron and phosphate. These will never explode or cause fire injury.
The voltage of the battery pack is important because it determines its usability. For instance, you cannot replace a 24V battery with a 48V battery and vice versa. Every type of voltage rating has a distinct application, advantage, and disadvantage. If you are replacing your old batteries, you will need to find old voltage rating and match new batteries with the same rating for a constant voltage.
Common voltage ratings are:
All batteries are known for performance stuttering in extreme temperatures. Freezing conditions can lead to battering running flat. These batteries often do not recover once the temperature toll takes place. Therefore, find the optimal temperature range of the battery. Better yet, choose Eco Tree Lithium batteries with an inbuilt heater for cold weather.
Modern batteries come with many features that add to the convenient user experience. Take the case of this battery. It has a Bluetooth feature to check your battery stats remotely. You do not have to open the battery compartment. You don’t have to use a multimeter to check the voltage and current parameters. You can manage the battery remotely from a Bluetooth device.
With competitive price and timely delivery, Wirentech sincerely hope to be your supplier and partner.
Other secondary features can include LED indicators for the charging system. Having a handle to transport the battery is also a handy feature to have.
Always choose a LiFePO4 battery that comes with a BMS. A battery management system has a lot of safety protocols against potential hazards. All batteries are prone to irreversible overcharge and over-discharge damage. BMS protection measures cut off the circuit to eliminate any possibility of damage.
Modern energy technologies are pushing towards greener initiatives. It is recommended to choose an environmentally friendly battery option. For instance, cobalt-based batteries (like lithium cobalt oxide) are not environmentally friendly. This is because cobalt is rare and toxic in nature. LiFePO4 battery is one of the greenest battery out there.
Cobalt and lead come in toxic heavy metals category. These materials can cause health hazards if they come into human contact. Therefore, batteries that include these metals are considered unsafe. This includes all lead batteries. However, a lithium iron phosphate battery does not have any toxic substances in them.
Additionally, lead acid chemistry leads to the emission of toxic gases. You might be familiar with the pungent smell that often comes from lead batteries. Therefore, choose a battery that does not have any such risk. You will never need to vent lithium iron batteries because it releases no toxic gases.
Yes, you should always buy a LiFePO4 battery with a BMS. Lithium iron phosphate battery is a hefty investment. A BMS protects that investment from any harm. BMS will prolong the life of your battery significantly by monitoring every parameter.
Battery management systems come with surge protectors to avoid the harm of excessive currents. Additionally, many other circuits shield the battery from adverse situations. Many BMS also come with displays and relays that monitor data.
Eco Tree Lithium is the best place to buy a lithium iron phosphate battery. These batteries outperform most batteries on the market. They have features like BMS, Bluetooth, an in-built heater, and a 6-year warranty. Additionally, you get the brand name of the leading LiFePO4 battery supplier globally.
You can easily choose the best battery with the above information. You can also differentiate between LiFePO4 and other lithium-ion batteries. A good battery can be the driving point for a decade of worry-free operation. A lousy option can lead to hazards, breakdowns, and chasing the manufacturer for a replacement. Therefore, spend extra time choosing the battery to avoid wasting your time later.
Here are the answers to some common questions regarding LiFePO4 batteries:
No, all LiFePO4 batteries are not the same. The build quality of the batteries differs between manufacturers. These batteries also come in many different types, dimensions, capacity, voltage rating, and features.
Before we get into specifics, you should know that there are a few different types of lithium technology — regular lithium, lithium-ion and lithium iron phosphate (LiFePO4 — also known as LFP). Standard lithium batteries are not rechargeable and, therefore, not fit for solar.
We already use lithium-ion technology in common rechargeable products like cell phones, golf carts and electric vehicles. Most lithium-ion solar batteries are deep-cycle LiFePO4 batteries. They use lithium salts to produce a highly efficient and long-lasting battery product. Since they are deep-cycle batteries, the products do very well even when the attached solar panels experience inconsistent charging and discharging.
Before Tesla developed its Powerwall I lithium-ion solar battery , most solar batteries used lead-acid battery banks. There are now many lithium-ion solar batteries on the market, allowing a range of options for homeowners and their various needs.
Here’s a helpful video to learn more about the differences between lithium-ion batteries and lead-acid batteries:
The best battery type for your solar system will depend on several factors, like what your system powers, if you are on or off-grid, and how often the system is used.
There are a variety of benefits of lithium-ion and LFP batteries over lead-acid batteries, but they might not be ideal for every solar setup. Let’s take a look at some pros and cons.
Pros Cons Higher depth of discharge (DoD) Premium Cost Long lifespan Thermal runaway High efficiency High charge rates High energy density Low maintenanceThe DoD of a battery is the amount of the stored energy in the battery that can be used relative to its total capacity. Most batteries come with a recommended DoD to maintain the health of the battery.2
For example, the Tesla Powerwall II has a 100% depth of discharge (or so it advertises), which theoretically means that you can use 100% of the energy in the battery before it has to be recharged (we believe that it’s closer to 80% — fully draining the Powerwall between charges will significantly lower the battery life).
Lithium-ion batteries have a high depth of discharge, meaning homeowners can use more stored energy without having to charge it as often. Lithium-ion batteries can handle discharging around 80% of their charge before needing to be refilled, as opposed to a lead-acid battery, which should only be run to 50% depth of discharge.
Lithium-ion batteries have a substantially longer lifespan than lead-acid batteries because of their high DoD. A high DoD means that they don’t have to be recharged as often. The more you recharge a battery, the shorter its lifespan will be (similar to an iPhone).
Battery efficiency refers to the amount of energy you get out of a battery relative to the amount that you put in.
Lead-acid solar batteries are notoriously high-maintenance. Inconsistent use can lead to damage and deterioration of its lifespan. This is not a concern for lithium-ion batteries. Lithium-ion batteries accept a larger amount of charge current, leading to shorter charging times.
Partially charging lithium-ion batteries also has little to no effect on their lifespans and performance. But with lead-acid batteries, it is recommended to fully recharge the batteries after discharging any amount of energy. Partial charges can reduce a lead-acid battery’s lifespan.
Lithium-ion batteries store more power with less space than lead-acid batteries. This makes them a great choice for homeowners, as lithium-ion batteries can be stored in garages or even mounted on walls.
Unlike lead-acid batteries, lithium-ion solar batteries do not need regular maintenance. This can save you time, money and the hassle of servicing your batteries.
Lithium-ion batteries are typically the most expensive residential battery storage option. The upfront price tag can lead to sticker shock, especially when compared to lead-acid batteries.
However, they are more cost-effective in the long run. Lead-acid batteries need to be replaced more often and require more maintenance. Keep in mind that solar battery systems qualify for incentives like the federal solar investment tax credit. Certain states even have standalone tax credits for solar energy storage systems.
Thermal runaway is one of the primary risks related to lithium-ion batteries. It is a phenomenon during which the battery enters an uncontrollable, self-heating state. Thermal runaway can result in the ejection of gas, shrapnel, particulates or fire.
When properly installed, the risk of a lithium solar battery overheating is slim to none.3
The total cost to install a lithium battery storage system can range anywhere from $4,000 to over $25,000. While that is a big cost range, the total price depends on:
The higher price tag comes with the benefits that lead-acid batteries can’t provide, like a longer lifespan and lack of needed maintenance.
There are many high-quality lithium solar batteries on the market in , but the most well-known choice is the Tesla Powerwall II battery. It is one of the most cost-effective lithium-ion solar batteries, costing around $12,000 with all parts and installation factored in. Below, you’ll see our picks for the best lithium solar batteries and a side-by-side comparison.
To get the most out of your entire solar system, you will need more than just state-of-the-art solar panels. A reliable and efficient solar battery can help you save energy and money in the long run. Make sure you explore your options and account for your home’s specific energy needs when choosing the best solar batteries for your system.
Are you interested in learning more about Home Lithium Battery? Contact us today to secure an expert consultation!