SimpliPhi Power PHI 1.3 kWh LPF Battery 24V

PHI 1.3-24

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Product information

The SimpliPhi Smart-Tech batteries require no ventilation or cooling systems. They are modular, lightweight and scalable. Unlike lead-acid batteries, lithium ferrous phosphate (LFP) batteries require no maintenance throughout their life span, and are made from 100% recyclable materials, which are all non-toxic and non-hazardous.

They have a charging temperature range from 32°F – 120°F, and an operating temperature range from -4°F – 140°F. These can be used for residential, commercial, grid-tie or off-grid applications.

SimpliPhi LFP deep cycle batteries are also compatible with standard battery inverters and chargers currently available on the market. Smart-Tech batteries can replace lead-acid batteries.

10 year/10,000 cycles limited warranty (Includes repair or replacement of LFP battery if found to have a manufacturing defect).

Specifications for SimpliPhi Power PHI 1.3 kWh LPF Battery 24V

Mechanical Specifications:
Lenght: 11.25"
Width: 9.25"
Height: 6.25"
Weight: 32.65 lbs 

Electrical Specifications:
Nominal DC Voltage: 25.6 V
Amp Hours: 52 Ah
Rated Wh Capacity: 1300 Watt Hours
Max Output Capacity: 60 Amps
Max Charge Current: 25 Amps C/2
DC Voltage range: 20 to 28.8 V
Depth of discharge: up to 100%

About SimpliPhi Power:
SimpliPhi Power is based in California, where their products are engineered and manufactured. They started out as a company called LibertyPak in 2002, that focused on lithium based batteries that were small yet efficient.

In 2007, the company transitioned and began production of lithium ferrous phosphate (LFP) batteries. They wanted to create a battery with improved efficiency, safety and ease of installation compared with all other lithium cobalt and deep cycle batteries on the market.

SimpliPhi has helped provide power to the military (overseas and stateside), international humanitarian groups, agricultural groups, as well as commercial and residential projects.

 
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PHI 1310 Wh LPF Battery

Specs for PHI 1310 Wh LPF Smart-Tech Deep Cycle Battery, 24V

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How to select the right battery

Selecting the right battery for your application

The first and most important step to configure your battery back is to know your system's voltage. Small systems used in RVs and boats are usually 12V. It is recommended to use 24V or 48V for medium sized energy systems and always 48V for large systems. Some systems can even go up to 60V, however, 12V, 24V and 48V are the standard in solar and renewable energy systems. Whatever your system voltage is, keep that number in mind since it will be consistent across your system design; changing your system voltage down the road could be a costly alternative.

Another factor is to know the space available for the batteries, this is especially true for mobile applications and systems with a designated battery enclosures. These type of enclosures are usually designed for a certain type and number of batteries, for example, four L-16 batteries.

Knowing the type of battery you want is also part of the selection process. You only want to use deep-cycle batteries in renewable energy systems. Lead acid batteries are the most common, they can be flooded or sealed. Flooded batteries require periodic maintenance such as refilling water levels while sealed or VRLA batteries are considered maintenance free. Flooded batteries are seen in most renewable energy systems mainly because of their lower cost. Applications in remote locations with difficult access call for sealed batteries that do not require constant human supervision. Both batteries, flooded and sealed, are comparable in terms of performance; the determining factors are the application and cost.

A factor that requires careful consideration is your energy needs which ultimately will determine the size of your battery bank. Technically speaking, the larger the battery bank, the better. A large battery bank will reduce the depth of discharge of each cycle, thus extending the life of the batteries. Realistically, not everybody has the budget for an oversized battery bank.

Once the above factors have been figured out, the rest is relatively easy. The number of batteries in the bank will be determined by the voltage, if you have a 48V system you will need eight 6V batteries or twelve 4V batteries.

Your energy requirements will determine the capacity, or the total amount of energy stored in the battery bank. It is usually measured in charge / discharge cycles. This part can get highly technical so we are going to simplify it for the purpose of this article. The capacity of your storage is measured in Ampere-Hour or Ah per cycle. To extend the life of the batteries it is recommended to discharge your batteries less than fifty percent per cycle (50% depth of discharge or DOD). So if you know that you need 350Ah to power all your loads on daily basis, you should consider a 700Ah battery bank for a healthy life cycle. In the same scenario, a 900-1000Ah battery bank won’t hurt, it will provide additional energy on the days when it is needed and will also help extend the life of the batteries by reducing the depth of discharge of each cycle. Needless to say it will also cost more money.

Note: As a rule of thumb, the larger the size of the battery bank, the lower the nominal voltage of each battery. For example, 12V batteries are only recommended in small systems with one or two batteries. 6V batteries are ideal for medium size banks and are widely used in renewable energy systems. 4V and 2V are high capacity batteries reserved for large energy systems.

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SimpliPhi Power PHI 1.3 kWh LPF Battery 24V

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