12V 100Ah 1280Wh Lithium Battery - LCD Display (100A BMS)
12V 100Ah 1280Wh Lithium Battery - LCD Display (100A BMS)
Using 12v 100Ah sealed lead acid batteries with a small inverter or UPS is not ideal. They are not meant for regularly handling high current and being discharged deeply. Even deep cycle batteries will only cycle 220 times if drained to 80% each time. Only using 50% capacity will increase the cycles to between 400 and 700. But when they are frequently drained (like during load shedding), or placed under high load like a UPS or Inverter places on them, often until the inverter cuts out, then they are basically internally damaged over time, and you will find that you need to replace them very often as they now longer hold charge for long.
This lithium iron phosphate battery on the other hand, has a high cycle rate of 2000 cycles, it can handle high discharge currents (Max 100A), and the internal battery management system (BMS) protects the battery from overcharging, or discharging too low and a short circuit.
This simply means our lithium battery replacement should last 10 times longer than the typical sealed lead acid (SLA) battery it is replacing.
Other advantages of these Lithium batteries are that there are no fumes, the self-discharge rate is only 3.5% per month (SLA will drain itself dead in 12 months), this battery weights 13kg vs the 28kg average weight of a 12v 100Ah SLA battery, and they can be charged and discharged faster (at higher current).
This battery can directly replace a sealed lead acid 12v 100Ah battery in terms of size, charging voltages, and is an upgrade in terms of how many cycles the battery can do (charged and discharged before needs replacing).
Technically the usable capacity of this 12v 100Ah Lithium battery is double that of a traditional 12v 100Ah sealed lead acid battery, if you only drain 12v SLA 100Ah batteries to 50% as recommended to extend it's life expectancy.
Can this battery last long enough for your application? This is complicating for a SLA battery, but simple to calculate for a lithium battery, see the capacity calculation below.
CAPACITY / RUNTIME : To calculate how long this battery can last in your application, lookup or measure the load power of the device(s) it will be powering in Watts, then divide 1280W with that number. Example, a small inverter, with an average 300W load, can run from this battery for 4hrs 15min (1280 / 300 = 4.26).
IMPORTANT : These cannot be used to start or operate a vehicle. The BMS cannot handle the very high instant current requirement.
INVERTER APPLICATION NOTE: Each inverter has it's own efficiency, and charging parameters which are not customizable in most cases, so the full capacity might not be usable. In most cases it means the battery will last even longer, since it is not being fully drained, which is actually a good restriction.
Example of tested inverters:
- Mecer 720W 12v Inverter : The inverter can utilize about 75% of total capacity. Thus less than a 300W load is recommended if you want 3hrs runtime. It is important to change the charge switch at the back of the Mecer unit over to 10A when replacing gel or lead acid batteries with lithium.
- Geewiz 720W 12v Inverter : The inverter can utilize about 75% of total capacity. Thus less than a 300W load is recommended if you want 3hrs runtime.
- Geewiz 1440W 24v Inverter : The inverter can utilize about 75% of total capacity. Thus less than a 640W load is recommended if you want 3hrs runtime. (Note - Requires two batteries in series to get 24v).
- RCT 2.4kw 24v Inverter : The battery parameters can be tweaked, so you able to utilize full 2.4kWh capacity, but it should be set to stop at 70/80% discharge. (Note - Requires two batteries in series to get 24v).
Features
- Ultra safe lithium iron phosphate (LifePO4) cells
- Integrated battery management system (BMS)
- Light weight versus SLA equivalent
- Water and dust resistant (IP55)
- Highly durable sealed plastic enclosure
- Drop-in lead acid replacement (small UPS, inverter, solar battery, camping battery)
- Sealed and non-liquid (No fumes, no leaking, mount in any position)
Specifications
- Lithium Iron Phosphate (LifePO4) Battery Type
- 1280 Wh Usable capacity
- 100 Ah Nominal capacity @ 0.2C
- 12.8 VDC Nominal Voltage
- Operating Voltage Range : 11.6 VDC to 14.4VDC
- Operating Temp Range : Charge: 0°C to 45°C | Discharge: -20°C to 60°C
- Protection : Over-voltage | Under-voltage | Short circuit | Dust and water resistant
- Lifespan : 2000 cycles @ 0.2C charging, or discharging until 70% capacity
- Dimensions : 328 x 172 x 216 mm (L x W x H)
- Weight : 10.4kg
Charging / Discharging :
- Bulk Charging Voltage : 14.4 VDC
- Float Charging Voltage : 13.8 VDC
- Charge Current : Max 100A
- Discharge Current : Max 100A (Burst 200A, <3s)
- Discharge Voltage Minimum : 11.6v
- Under-voltage Cut-out : 10 VDC
- Over-voltage Cut-out : 14.6 VDC
- Discharge Current : 10A for 10hrs | 14A for 7hrs | 20A for 5hrs | Max 200A burst
- Self-discharge rate : < 3.5% per month
In the box
1 x 12v 100Ah (1.28kWh) Lithium Battery
2 x 8mm Battery Lugs
Downloads
Download Data Sheet here:
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Bought this battery to replace the AGM battery in my caravan. Very good decision. Get much more usable power as the battery can discharge a lot deeper than a lead acid battery. Can run the fridge freezer while travelling - no problem.
Also similar price as a similar lead acid battery. It's a no brainer!
Simple drop in an connect. Nothing seems to be any different from the SLA batteries that it replaced. Waiting for load shedding and will then be able to comment.
Service from EL is as always fast and efficient. The product is great and as described. Straight swop, from old lead acid battery to new lithium battery, and off you go. Can't ask for any better.
So far the batteries exceed the performance of the original set ( lead acid) I bought with my inverter. I am very satisfied and assume they will last much longer
The battery is installed in my 4x4, charged by a 160 W solar panel and providing power to a fridge. The performance is much better than expected.