Built for 24V solar and backup systems, this 25.6V 100Ah LiFePO4 battery delivers 2560Wh of stored energy in one unit. It is a strong fit for higher-voltage deep-cycle applications where system matching, runtime, and stable performance matter more than simple 12V replacement.
Suitable for 24V solar storage, backup systems, RV, marine and other deep-cycle applications where 24V system design is preferred.
This snapshot helps buyers evaluate whether a 25.6V 200Ah LiFePO4 battery is the right fit for larger 24V systems, longer runtime targets, and high-capacity deep-cycle applications.
A 25.6V 100Ah LiFePO4 battery is built for 24V deep-cycle systems where higher voltage, stored energy, and system compatibility matter. The comparison below is written for cycling applications such as solar and backup use, not starter batteries.
Weight comparison (upload image)
Compared with a typical 24V 100Ah lead-acid setup, this 25.6V 100Ah LiFePO4 battery is much lighter and easier to move, install, and service.
Usable energy comparison (upload image)
Compared with a typical 24V 100Ah lead-acid setup, this 25.6V 100Ah LiFePO4 battery provides much more usable energy for daily cycling and backup runtime.
These checks are simple, but they prevent most replacement issues.
Confirm that your inverter, controller, charger, and connected loads are designed for a 24V battery system.
Use a charger or charge controller with a LiFePO4-compatible voltage profile. Lead-acid charging settings are not suitable.
Check system current, cable sizing, terminal access, and installation layout before deployment.
This 25.6V 100Ah battery is best suited to real 24V deep-cycle applications where system voltage matching, stored energy, and reliable daily use matter.
Small Solar & Off-Grid Backup Systems
A strong fit for small 24V solar and off-grid backup systems that need more stored energy in one battery and a cleaner match for 24V charge controllers and inverters.
24V Trolling Motors & Marine Use
Suitable for 24V trolling motor setups and marine auxiliary power where stable deep-cycle performance, lower system current, and easier monitoring are valuable.
RV, Camper & Caravan Power
A practical choice for 24V RV, camper, and caravan electrical systems where house power, auxiliary loads, and deep-cycle battery use are part of the setup.
Floor Scrubbers & Cleaning Machines
Well suited to floor scrubbers and cleaning machines that need a 24V lithium battery with stable output, repeatable cycling, and easier day-to-day operation.
Bluetooth is standard, so battery status can be checked more easily during installation, system setup, and after-sales service. This is especially useful in 24V solar and backup systems where battery visibility helps speed up troubleshooting and routine checks.
Battery monitoring helps with charge status review, voltage behavior checks, battery condition tracking, and troubleshooting during setup or daily use.
You can also check basic status and warning visibility depending on firmware.
Monitoring features vary by configuration; confirm the exact monitoring function required for your project.
The 25.6V 100Ah model is designed for 24V deep-cycle systems that need higher stored energy, system voltage compatibility, and practical integration into solar or backup applications.
| Cell Type | LiFePO4 |
|---|---|
| Warranty | 5 Years |
| Cycle Life | 4000 cycles at 100% DOD; 6000 cycles at 80% DOD; 15,000 cycles at 60% DOD |
| Nominal Voltage | 25.6V |
| Rated Capacity | 100Ah |
| Energy | 2560Wh |
| Max Expansion (Parallel & Series) | 2S4P |
| Internal Resistance | ≤40mΩ |
| Certifications | FCC, CE, RoHS, UN38.3 |
| Bluetooth | Standard |
| BMS | 100A |
| Max. Continuous Output Power | 2560W |
| Max. Continuous Charge Current | 100A |
| Max. Continuous Discharge Current | 100A |
| Max. Discharge Current (1 second) | 400A |
| Charge Method | CC/CV |
| Charge Voltage | 28.8V ± 0.2V |
| Recommend Charge Current | 20A |
| Charge Temperature | 0°C to 50°C / 32°F to 122°F |
| Discharge Temperature | -20°C to 60°C / -4°F to 140°F |
| Storage Temperature | -10°C to 50°C / 14°F to 122°F |
| Terminals | M8 Bolts |
| Weight Approx. | Available on request |
| Size | Available on request |
| Housing Material | ABS |
| Protection Class | IP65 |
| Protection Class | IP65 |
For a project-ready confirmation pack (datasheet + documents + compatibility notes), use the inquiry form below.
Before installation, it is important to confirm physical fit and system matching. For a 25.6V battery, compatibility is not only about dimensions and terminals, but also about 24V electrical system design.
Use the current dimension drawing and terminal spec to confirm compartment fit and cable hardware before ordering.
Fast checks that prevent rework in retrofits and new builds.
A built-in BMS helps protect the battery during normal operation, while correct 24V-compatible charging settings help support stable long-term use in solar, backup, and deep-cycle systems.
Any method works if the charge profile matches LiFePO4. If you share your charger/controller model, we can confirm recommended settings.
For 24V battery systems, charger and controller settings matter. Always confirm compatibility before installation.
Battery documents help buyers review transport, compliance, and project requirements before ordering.
The main difference is system voltage. A 12.8V 100Ah battery is designed for 12V systems, while a 25.6V 100Ah battery is designed for 24V systems. The 25.6V model is a better fit when the inverter, controller, and overall battery layout are built around 24V architecture.
Yes. This model is built for 24V applications, so it is more naturally matched to 24V solar controllers, inverters, and battery system layouts.
In many deep-cycle applications, yes. The exact fit depends on system voltage, charging profile, inverter compatibility, cable sizing, and installation layout.
Use a LiFePO4-compatible charger or controller designed for a 25.6V battery. Correct charging voltage and settings are important for proper battery performance.
Yes. It supports 2S4P expansion for larger system planning, subject to correct system design and battery matching.
Yes. Bluetooth monitoring is included as standard for easier battery checks, setup, and maintenance.
It is best suited for 24V solar storage, backup systems, and other higher-voltage deep-cycle applications. It may also be used in RV, marine, UPS, or equipment backup systems where 24V battery architecture is preferred.
Confirm voltage compatibility, charger/controller settings, inverter matching, cable sizing, terminal access, and physical fit.
If you are evaluating a 24V battery for solar, backup, RV, marine, UPS, or other deep-cycle applications, send your inquiry with your project details and system requirements.
To help provide a more accurate reply, please include the following if available: system voltage, inverter model, controller model, target runtime, battery quantity, installation space, and whether you are replacing a 24V lead-acid bank.
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Need a different voltage or capacity? Explore related options based on your system design and storage target.
