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The 12V 100Ah deep cycle LiFePO4 battery is built with high-quality Grade A+ prismatic cells, delivering up to 105,86Ah of usable capacity and supports a lifespan of over 5000 cycles at 90% depth of discharge. Ideally suited for motorhomes, campervans, caravans, boats, gardens, or as an energy storage system for solar installations.
WattCycle 12V 100Ah deep cycle LiFePO4 battery with compact design (L260 x W168 x H209 mm) and IP65 water-and dustproof is equipped with Top EV grade A+ LiFePO4 cells and 100A safe BMS protection, providing excellent performance, unbeatable safety, and massive 1280W output power and 1280Wh energy for your indoor- and outdoor applications.
WattCycle 12V 100Ah deep cycle LiFePO4 battery uses EV A+ grade battery cells, providing 5000+ cycles @100% DOD, 8000+ cycles @70% DOD, and 15000+ cycles @40% DOD, while lead-acid batteries can only last 300 - 500 cycles.
Theinternal metal structureis an industry innovation that ensures the stability of the battery's internal structure. Compared to other easily movable foam supports, the metal structure allows WattCycle batteries to maintain a sustainable power supply even in bumpy environments.
WattCycle 12V 100Ah lithium battery with advanced 100A BMS protects against extreme temperatures (high or low temperature). You can use the battery at -20℃-70℃, and charge it at 0℃-50℃.
All WattCycle batteries have low-temperature cut-off protection. When the temperature drops below 0℃, the low-temperature cut-off protection activates, preventing the battery from charging and protecting the battery cells. When the temperature is below 5℃, the battery resumes charging automatically.
WattCycle 12V 100Ah deep cycle LiFePO4 battery with compact & lightweight design (L260 x W168 x H209 mm, 10,55 kg) has a higher energy density (121,33 Wh/kg) than 12V 100Ah lead-acid batteries (27,40 Wh/kg), Your smartest choice for lead-acid replacement.
WattCycle 12V 100Ah deep cycle LiFePO4 battery supports max. 4P4S scalable configuration to a 20,48kWh power solution. The 16pcs 100Ah lithium batteries build a 48V 400Ah battery system, providing 400A max. continuous charge and discharge current and 20,48 kW output power.
WattCycle 12V lithium batteries with EV grade A+ cells and 100% safe BMS protection is a versatile powerhouse, perfect for a variety of applications. Whether integrated into a home solar power system, used in a motorhome, caravan, camper, powering a trolling motor in a boat or marine system, or supporting an off-grid setup, the battery ensures reliable, efficient energy storage.
| Battery Technology | LiFePO4 |
| Dimensions | L260 x W168 x H209 mm |
| Weight | 10,50 kg |
| Terminals | M8 Bolts |
| Casing Material | ABS |
| Waterproof Rating | IP65 |
| Self-heating | No |
| Hazard class | 9 |
| Warranty | 5 Years |
| Certifications | IEC, CE-EMC, CE-RoHS, CE-Battery, FCC-SDOC, PSE, METI, RCM, UN38.3, MSDS |
| Nominal Voltage | 12,8V |
| Nominal/Usable Capacity | 100Ah |
| Energy | 1280Wh |
| Cell Balancing | No, passive balancing |
| Monthly Self Discharge | ≤3%/Month |
| Series & Parallel Configurations | Max. 4 in Parallel, Max. 4 in Series |
| BMS | 100A |
| Max. Continuous Output Power | 1280W |
| Overall Over-Charge Detection Voltage | 14,4±0,2V |
| Overall Over-Discharge Detection Voltage | 10±0,2V |
| Standard Continuous Charge Current | 20A (0.2C) |
| Max. Continuous Charge/Discharge Current | 100A (1C) |
| Over-current Charge Protection | 130A±20A |
| Over-current Discharge Protection | 300A±50A |
| BMS High Temperature Cut-Off | Charge: 55℃±5℃ Discharge: 65℃±5℃ |
| BMS Low Temperature Cut-Off | Charge: 0℃±5℃ Discharge: - 20℃±5℃ |
| High Temperature Recovery | Charge: 50℃±5℃ Discharge: 60℃±5℃ |
| Low Temperature Recovery | Charge: 2℃±5℃ Discharge: -15℃±5℃ |
| Charging Temperature | 0℃-55℃ |
| Discharging Temperature | -20℃-60℃ |
| Storage Temperature | 0℃-45℃ |
Our 12V 100Ah LiFePO4 batteries have a maximum charging current of 100A. However, we typically recommend charging them at 0.2C (20A) for optimal balance of speed, safety, and longevity.
Watt-Hours = Amp-Hours x Battery Voltage
100Ah x 12.8V = 1280Wh
The recommended operating temperatures for our 12V 100Ah lithium battery are:
The built-in Battery Management System (BMS) provides high- and low-temperature protection, ensuring safe operation. For example:
Key Notes:
Safety First!
The BMS ensures safe usage, but always monitor battery conditions in extreme environments.
Battery runtime is influenced by multiple factors, including battery capacity, connected load, and the battery’s condition. For example, a new battery performs better than a used one, as its capacity slightly decreases with repeated charge cycles. However, you can estimate runtime using a simple formula based on power consumption and battery capacity:
Runtime (hours) = Battery Capacity (Wh) / Total Device Power Consumption (W)
Example:
If you have a 12V 100Ah battery and connect a 50W lamp and a 50W speaker, the runtime will be:
1280Wh / (50W + 50W) = 12.8 hours
This straightforward formula helps estimate runtime under different loads. Always consider real-world factors like temperature and battery ageing for more accurate predictions.
To charge a 12V 100Ah battery from 100% depth of discharge in 4.5 peak sun hours, approximately ≥400 watts of solar panels and an MPPT charge controller are required.
Three 12V 100Ah batteries in parallel and a single 12V 300Ah battery provide the same total capacity (300Ah). However, using a single 300Ah battery offers key advantages:
When to Choose Three 100Ah Batteries:
Redundancy: If one battery fails, the other can still provide partial power.
Scalability: Easier to expand capacity incrementally (e.g., adding more batteries later).
Final Recommendation:
For most applications (e.g., solar storage, RVs, backup power), a single 300Ah battery is preferred for simplicity, reliability, and space efficiency. Use parallel setups only if redundancy or scalability is a critical priority.
Not recommended. WattCycle requires four rules for safely connecting batteries in series or parallel:
Why Mixing Different Batteries Is Risky:
Recommendation:
The primary difference lies in their physical size:
12V 100Ah battery dimensions: L260 x W168 x H209mm
Mini battery dimensions: L229 x W138 x H208mm
By connecting 4 parallel 12V 100Ah lithium batteries, you significantly increase your system’s total capacity, extending runtime. This configuration creates a 12V 400Ah battery system, delivering up to 5.12kWh of energy.
Runtime Calculation:
Runtime (hours) = Total Battery Capacity (Wh) / Total Device Power Consumption (W)
Example:
If you connect 4 parallel 12V 100Ah lithium batteries to a 50W lamp and a 50W speaker:
5.12kWh (5120Wh) / (50W + 50W) = 51.2 hours
Absolutely. LiFePO4 batteries are among the safest and most stable lithium battery technologies available.
WattCycle LiFePO4 batteries use high-quality Grade A cells and feature an integrated Battery Management System (BMS), providing protection against overcharging, overvoltage, extreme temperatures (including deep discharge protection), and more.
All WattCycle batteries undergo strict quality testing before leaving the factory and are certified to standards such as CE, RoHS, and UN38.3, as well as classified as Class 9 dangerous goods for transport.
The WattCycle LiFePO4 12V 100Ah battery measures 260 × 168 × 209 mm (L × W × H) and complies with the BCI Group 24 standard.
It weighs 10.5 kg, making it approximately 50% lighter than a typical 12V 100Ah AGM battery.
This 12V 100Ah battery does not include Bluetooth functionality.
To monitor battery status and capacity, an external battery monitor is required.
Passive balancing is activated when the battery voltage exceeds 13.6 V and the voltage difference between cells reaches ≥ 30 mV.
The balancing current is relatively low, at approximately 50 mA + 20 mA, meaning the process works gradually to equalise the cells over time.
Yes, this is possible.
However, WattCycle recommends occasionally separating the batteries and charging them individually to 100% to maintain proper balance and performance.
Yes, the battery supports an operating temperature range of -20°C to 70°C.
At temperatures below -20°C, the battery will automatically stop discharging to protect itself.
Once the temperature rises above 5°C, the BMS protection is released, and normal operation resumes.
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