12.8V 50Ah LiFePO4 Deep Cycle Battery
Voltage12.8V
Capacity (Ah)50Ah
Energy (Wh)640Wh
Explore two practical LiFePO4 replacement series for lead-acid, AGM, and GEL battery systems. This page helps you quickly confirm system fit, compare 12.8V and 25.6V options, and send an inquiry with your current setup.
Includes 12.8V and 25.6V category-level models for B2B sourcing and project matching.
Browse 12.8V category models for 12V replacement systems.
Product cards are intentionally lightweight for category browsing: model, voltage, capacity, energy, details, and inquiry. Final specifications should be confirmed on the product page or during inquiry.
Browse 25.6V category models for 24V replacement systems.
Product cards keep category-level essentials only: model, voltage, capacity, energy, details, and inquiry. Detailed configuration should be confirmed during product review.
Use this quick comparison and checklist to reduce selection mistakes before inquiry.
Use project details in your inquiry so model matching can be confirmed quickly.
Prepare the following details so model matching and quote discussion can move faster.
Use this table for a quick side-by-side view of key model differences before opening the product detail page.
| Thumbnail | Model | Voltage | Capacidad | Energy (Wh) | Corriente de descarga continua | Dimensiones | Peso | View Details |
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ANR-1250 | 12.8V | 50Ah | 640Wh | 50A | 330 × 172 × 216 mm | 5.2kgs | View Details |
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ANR-12100 | 12.8V | 100Ah | 1280Wh | 50A | 332 × 172 × 216 mm | 10kgs | View Details |
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ANR-12200 | 12.8V | 200Ah | 2560Wh | 100A | 532 × 207 × 215 mm | 21kgs | View Details |
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ANR-12300 | 12.8V | 300Ah | 3840Wh | 300A | 522 × 237 × 218 mm | 30kgs | View Details |
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ANR-24100 | 25.6V | 100Ah | 2560Wh | 50A | 345 × 190 × 245 mm | 21kgs | View Details |
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ANR-24200 | 25.6V | 200Ah | 5120Wh | 100A | 520 × 267 × 220 mm | 36kgs | View Details |
For full technical specifications, please check the product detail page or request the datasheet.
Typical application scenarios for lead-acid replacement category models.
Daily cycling and backup-ready storage in solar systems.
Practical battery replacement for mobile power systems.
Support critical loads in planned and emergency backup use.
For floor scrubbers, AGVs, and other small low-speed equipment that need reliable 12V or 24V power.
This section explains the practical reasons buyers move from lead-acid, AGM, or GEL batteries to LiFePO4 replacement solutions.
Compared with traditional lead-acid batteries, LiFePO4 batteries are typically lighter and easier to move, install, and replace in many 12V and 24V systems.
LiFePO4 batteries are commonly chosen for longer service life and lower replacement frequency, especially in repeated-use applications such as solar, backup power, and mobile power systems.
Many buyers switch to LiFePO4 for better charging efficiency and more usable stored energy in daily operation, especially when runtime and recharge speed both matter.
With both 12.8V and 25.6V options, buyers can compare replacement directions more clearly based on whether the current system is built around 12V or 24V battery setups.
A lead acid replacement battery is usually a LiFePO4 replacement battery designed for the same system voltage class as the battery it replaces, such as 12V or 24V deep-cycle systems. For most buyers, the key issue is not only chemistry, but whether the replacement matches the charger, load, and installation conditions of the existing setup.
12.8V batteries are commonly used for 12V replacement systems, while 25.6V batteries are commonly used for 24V replacement systems. The first step is to confirm the voltage class of the current system before comparing capacity or model size.
In many projects, yes - but only when the system voltage matches and the rest of the setup is compatible. Before treating it as a direct replacement, buyers should check charger profile, terminal layout, installation space, and actual current demand.
Usually yes. Buyers should confirm whether the charger supports a lithium charging profile or programmable charging settings. Charger compatibility should be checked before final model confirmation.
Capacity should not be chosen by Ah alone. Buyers should consider load, runtime target, system voltage, and installation space together before narrowing the right battery size.
Series connection is typically used for higher voltage, while parallel connection is used for higher capacity. The exact connection method should be confirmed according to the selected model and the intended system setup.
Low-temperature use and charging conditions should be reviewed carefully. Buyers should confirm the charging temperature range, any protection strategy, and the actual installation environment before final selection.
The most useful details are current battery voltage, target capacity, runtime requirement, charger type, installation space, and application scenario. These details make model matching faster and more accurate.
Send your current battery setup and project requirements. We will return a practical recommendation path.
Include voltage, capacity target, and application scenario for faster review.