If you want to learn more, please visit our website.
How long a 200ah battery will last depends on a number of factors, including, the efficiency of your inverter, depth of discharge, and how much load you are running. A new 200ah deep cycle battery connected to a 12v inverter, will last 10 hours if discharged with a load of 150 watts at 80% efficiency and depth discharge. If your load is 300 watts, however, the battery will only last for about half that time.
To find how long will a 200ah battery last, first, you'll need add up the total wattage of the devices you want to power with your 200ah battery bank. Let's say you want to power six 9-watt LED light bulbs, a 45 watt TV and a 90 watt fan for 10 hours.
You will not only need an inverter capable of carrying the load, but also a battery bank capable of powering the load for the required backup period.
After you have determined your load's power consumption, the efficiency of the inverter, size and voltage of the battery bank, you can use this formula to determine how long will a 200ah battery will last:
12v (Battery Bank Voltage) x 200ah (Battery Capacity) x 0.8 (Depth of Discharge) x 0.8 (Efficiency) / 189 watts = 8 Hours
The above result shows that a single 200ah battery cannot power a load of 189 watts continually for 10 hours (at 80% depth of discharge and efficiency) to get the desired result (without damaging the battery) you would need to add an additional battery.
12v (Battery Bank Voltage) x 400ah (Battery Capacity) x 0.8 (Depth of Discharge) x 0.8 (Efficiency) / 189 watts = 16 Hours
There are just too many questions you will wonder when designing your device with a battery inside it.
The boss just want a cheap and small battery with it, but with no further information on how long does the end customer wants, how small can it be.
in this article, we will show you:
1 How to Calculate the Run Time of a Specific Battery?
2 How to Calculate Battery Capacity ?
3 Battery Capacity Calculator (Instant Calculation Tool)
4 Battery Run Time Calculator
5 How to convert Watts to Amps or Amps to Watts or Volts to Watts
Ready for your battery design?
Let’s go.
In the ideal/theoretical case, the time would be Time(H) = Capacity(Ah)/Current(A).
If the capacity is given in amp-hours and current in amps, time will be in hours (charging or discharging).
Feel Confused ?
So how to calculate how long a battery will last?
Throw away how long will a battery last calculator, and let’s see an actual case, 12V 10 Ah lithium battery delivering 1A, would last 10 hours. Or if delivering 10A, it would last for only 1 hour, or if delivering 5A, it would last only for 2 hours.
In other words, you can have “any time” as long as when you multiply it by the current, you get 10Ah (the battery capacity).
It is that simple.
so no more confusion on how to calculate battery life.
For a 18650 2500mAh(2.5Ah) battery with a device that draws 500mA(0.5A) you have:
2.5Ah/0.5A=5 Hours
GECONA SOLAR Product Page
For a 36V Li-ion Battery with capacity of 24Ah battery delivering 2A current, then you can constantly use your battery for:
24Ah/2A=12 Hours
Please take note that most batteries, especially those with circuits, will not work down to 0 Volts as a power supply (if it goes to zero, it will have shorter battery life, or even become dead battery if not charged in time), that’s to say,your circuit will stop working at a set voltage before the battery is fully drained.
see below dischaging chart
it will not go to zero(totally empty)
We, therefore, will need to times 0.8-0.9 for the calculation:
that’s 2.5Ah/0.5A*0.9=4.5 Hours
What if you know Watts only, you will notice that every device use watt to determine it’s main specifications.
5 Watt bulb,
20W Laptop,
100W Motor,
200W Solar Street Light
Just name a few.
In Theory, that’s:
Discharging Time=Battery Capacity*Battery Volt/Device Watt.
Say, 5AH*3.7V/10 Watts = 1.85 hrs
With 90% Power efficiency for Li-ion/LiPo batteries. Then
Discharging Time=Battery Capacity * Battery Volt*0.9 / Device Watt
5Ah*3.7V*0.9/10W = 1.66 hours
Let’s explain with more examples:
for a 1800mAh 3.7v 18650 battery to power a 3.7V 10W digital device, how to calculate the running time?
for 3.7V 10W device,working current would be 10÷3.7 = 2.7027A = 2702.7 mA
In theory that’s: 1800mAh ÷ 2702.7 mA = 0.666 h = 40 min
In reality that’s: 1800mAh ÷ 2702.7 mA*0.9 = 0.599h = 36 min
Quick Notes: 1A=1000mA (mA is current, mAh is Capacity)
Or you can use 3.7V*1.8Ah(1800mAh)*0.9/10W=0.599h=36min
Another example: 12V 60Ah li-ion battery pack to power 220V 100W light
Working time: 12V*60Ah*0.9/100W=6.48 H
Are you interested in learning more about Home Solar Lithium 48v 200ah LiFePO4 Battery? Contact us today to secure an expert consultation!