Store More Energy. Enjoy More Freedom Living
Here at Enjoybot, we hope everyone can enjoy powering lifestyle easily. Enjoybot lithium batteries are built using legendary Grade-A lithium iron phosphate cells, bringing the most convenient and environmentally friendly travel and lifestyle solutions to every Enjoybot user. These batteries are all backed by a 10-year warranty.
Enjoybot LiFePO4 off-grid solar lithium battery is a deep cycle battery made of lithium iron phosphate for maximum energy efficiency. Built for use in off-grid electrical systems powered by solar energy, Enjoybot LiFePO4 battery give you twice the run time as your AGM or lead acid house battery and has a lifespan that is also 4X long. Additionally, it weighs only half as much as a traditional SLA battery. Investing in solar power is smart, and pairing solar power with lithium batteries is even smarter. Get rid of the shackles of shore power and enjoy a more free off-grid life.
Deep Cycle Lithium Marine Batteries
12V 150Ah Group 31
✔ Cold-Weather Charging Ready
✔ App-Enabled Monitoring Anywhere
✔ For RV, Trolling Motor, Golf Cart, etc
Choose your option
12V 200Ah Slimline
✔ Bluetooth Smart Monitoring
✔ Low-Temperature Charge Protection
✔ Fits Tight Spaces Where Standard Won’t
Choose your option
12V 320Ah Mini
✔ Massive 4096 Wh Energy
✔ Bluetooth Status Monitoring
✔ Extended Runtime for RV, Marine, ect
Choose your option
36V 100Ah Plus
✔ Strong Acceleration with 2C Rate
✔ App Real-Time Monitoring
✔ Multi-Protection BMS
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48V 100Ah Plus
✔ Enhanced Hill & Load Performance
✔ Real-Time Bluetooth Monitoring
✔ Rugged All-Weather Reliability
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12V 100Ah Group 24
✔ Safe Charging Below Freezing
✔ App Monitoring Anywhere
✔ Built for Winter Use
Choose your option
12V 100Ah
✔ True 100Ah Deep-Cycle Power
✔ Safe Low-Temp Charging Cut-Off
✔ Drop-In Lead-Acid Replacement
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12V 100Ah BT
✔ Real-Time App Monitoring
✔ Safe Low-Temp Charging Cut-Off
✔ True 100Ah Capacity
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12V 65Ah Group 22NF
✔ Self-Heating for Cold Charging
✔ 832Wh Energy & 1536 W Max. Output
✔ Perfect for Ice Fishing, Fish Finders
Choose your option
12V 30Ah Portable
✔ Multi-Port Charging Hub
✔ Bluetooth Battery Monitoring
✔ Ideal for Ice Fishing, Camping, Ham Radio
Choose your option
51.2V 105Ah Mini Kit
✔ Power for 6 kW Golf Carts
✔ Supports up to 500A Controllers
✔ Compact Square Design with 200A BMS
Choose your option
51.2V 105Ah Kit
✔ Power for 6 kW Golf Carts
✔ Supports up to 500A Controllers
✔ Narrow Design with 200A BMS
Choose your option
Why Choose Enjoybot Marine Batteries
New Power for the Tiny Off Grid Cabin (EnjoyBot) DIY System
How to Connect 12V Batteries Together [EnjoyBot]
Solar Powered Kitchen by Enjoybot Solar 12v 100AH Battery
Lithium Batteries For Solar Power Systems
Home Backup Power
The uses of lithium solar batteries in home backup power systems are diverse and impactful. Lithium solar batteries are utilized in home backup power systems to provide emergency power during grid outages or blackouts. This ensures that critical appliances, lighting, and communication devices can continue to operate, maintaining essential functionality during unforeseen power disruptions.
Moreover, Lithium solar batteries enable homeowners to capitalize on time-of-use electricity pricing by storing solar energy when rates are low and using it during peak pricing periods. This strategic energy management contributes to cost savings by minimizing reliance on grid power during expensive billing periods.
Off-grid Solar Power System
Lithium solar cells are used in a variety of off-grid systems to ensure reliable and efficient energy storage. Off-grid cabins, RVs, and Boats rely on lithium solar cells to store the energy generated by solar panels for use when sunlight is limited. This setup provides essential power for lighting, home appliances, and electronics.
Off-grid water pumping systems, especially in rural or agricultural settings, use lithium solar cells to store energy from solar panels. This stored energy powers water pumps, ensuring reliable access to water for irrigation or household use.
How It Works
Lithium Iron Phosphate (LiFePO4) solar batteries are an excellent investment for off-grid solar installations. These batteries, when connected to a solar controller (MPPT), efficiently collect energy from solar panels. They can be used for both AC and DC applications, making them versatile and cost-effective. LiFePO4 batteries are suitable for various applications, including home backup power, home security systems, pond pumps, sprinklers, small-scale poultry farming, and so on.
Lithium Solar Battery FAQs
How to connect multiple batteries in series and parallel?
How to connect multiple batteries in series and parallel?
The correct way to connect multiple batteries in parallel is to ensure that the total path of current in and out of each battery is equal.
There are 4 ways to do this:
1. Diagonal connection.
2. The cable length from the inverter to each battery must be equal.
3. Connect diagonally in the center, making sure all cables are the same length.
4. Use the busbar.
Please note: Before connecting batteries in series and parallel, please fully charge the individual batteries first, and then connect them in parallel for 24 hours, so that the batteries can be automatically balanced before connecting them in series and parallel.
How many solar panels do I need to charge the battery?
How many solar panels do I need to charge the battery?
The answer depends on many factors, including the power of the load, the capacity of the battery, the wattage of the solar panel, and the amount of sunlight available.
But in general, the calculation method is as follows:
Assume that your 1-day load power consumption is 2 kWh, the battery pack specification is 12.8V 200AH, and the effective sunshine for a day is 4.5 hours. It is required to fully charge the battery in one day.
Total battery capacity: 12.8V * 200AH=2560WH
A set of 12.8V 200AH batteries can just meet your daily electricity needs.
Solar panel power: 2560Wh/4.5h=568.8W
Solar panel power: 600W*4.5h=2700WH
Therefore, a 600W solar panel can fully charge the battery for one day.
Most solar panels have a power range of 100 to 300 watts.
Therefore, the total wattage divided by the power of the individual panels gives the number of panels required.
Would I need a battery controller so I don't overcharge?
Would I need a battery controller so I don't overcharge?
No worries about the over-charge problem, the BMS system will our battery protect from over-charge, over-discharge, overcurrent, overload, overheating, and short circuit.
The MPPT charge controller is also necessary, it can collect more solar energy efficiently. For example, your 200W solar panel can generate 0.9 kWh per day, if the MPPT is not connected, the battery can only collect 0.4-0.5 kWh energy.
