## Calculate Flight Time of LiPo Battery

Before we can calculate flight time, we need to know the average amperage the quadcopter will draw. Once we have the average amperage draw we can then calculate flight.

To calculate flight time, take the **battery’s capacity in amp hours**, then **divide** that into the **average amp draw** of the quadcopter and then **multiply** it by **60**. The **total** is the** flight time in minutes**.

For Scout, I chose a 11.1 volt 30C 3000 mAh LiPo battery. I calculated the average amp draw of Scout to be around 20 amps. This will give me a flight time of 9 minutes.

Using your calculator at what level does that leave the battery.

The calculation is based on the batteries capacity. The estimate time will leave the battery at 0mAh and the minimal cell voltage of 3.0 volts.

Realistically you would want to have maybe 200mAh left on the battery to avoid premature failure of the battery.

So before you plug the numbers in, take off 20% to 30% of the batteries mah rating. For instance for a 2650 mah lipo, you would plug in 2650 X 80% or 70%, which would give you 2120 or 1855 mah.

Why are you taking off 20% to 30% from the battery capacity?

That for safety reason, lipo cannot be empty, it will damage the battery.

FLIGHT TIME IST SAME WHEN 48V ,30 AVG AMPS AND 12.2V 30 AVG AMPS

How did you calculated the average current draw to be 20Amp? only the motors(Turnigy 2213) takes from 24Amp to 60Amp? Am i missing something here?

The average current draw was calculated by having Scout hover and in the air and measuring the current draw. It take around 20 amps for Scout to hover. That means each motor was drew 5 amps. The Turnigy 2213 have an operating current range of 6-15 amps.

To preserve Lipos and prolong their life you should only discharge 80% of the available amps

how you calculate average amp draw?

First your Calculator does the math correctly.

For Example for a 5500 Mah battery and an Average Draw of 30 Amps

It calculates: (6000 but leaving 500 Mah margin(left-over)

5500/1000 = 5.5 Amp Hours

5.5 X 60 = 330 Amp Minutes

330 / 30 = 11 Minutes

However, In your opening explaination you say:

take the battery’s capacity in amp hours, then divide that into the average amp draw.

What you actually need to do is:

take the battery’s capacity in amp hours, then divide that by the average amp draw.

Above, I converted to Amp Minutes and then divided by the Average Draw, you can also first divide by the Average Draw and then convert to minutes.

Hope this helps all understand what is actually being computed/calculated.

Hi,

What is the practically achievable highest flying time ever designed? Is there any ways or anyone has designed a copter which could fly more than 40-50mins. I would appreciate if you could tell me what are the hurdles for this.

Thanks,

Anil

search google and youtube. there are multirotors with hour long flight times

Pleas riply on ketantejani77@gmail.com

Pleas riply on ketantejani77@gmail.com

is there any relation with propeller length?

Yes. Your propeller size will determine current draw, which will affect flight time. For long flight times, use a low KV motor with a 4s or 6s battery and 12-13 inch propellers.

can i used the 1800 kv motor with battery of 2700mah with 2c.

Pleas riply on ketantejani77@gmail.com

Hi there,

I am a mechanical engineering student. I have compiled an entire report in drone component selection for my project and I am at the stage where I have selected the components based on my research.

If possible I would like to get the combination of components checked or reviewed by someone in the field as I am unsure about the spec sheet I have generated. If anyone is able to assist I will put forward the specs or the contact details.

Kind regards

Jameel

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i have 2200 mah lipo battery i dont know how many C it is but i think its probably 20C and i have a 1000kv motor with 8X4,5inch prop so can any one calculate the lfight time

Hello there,

I am using BLDC EMAX XA2212, 820kv motor, Propeller size 11*4.7. One motor draws 12A current.And thrust is 830g. Quad-copter approximate weight will be 1800g. If i use 6000mAh battery how much flight time will i find? Which battery can i use to make my flight time around (+-) 10 minutes.

I am making an octacopter. My uplift weight is 12kg. We are planning to buy 2 16aH, i.e, a total of 32000mAh battery combination for the copter. I want to know what should be my highest avg amp draw by each motor.

I have shortlisted a motor that provides 1.75kg thrust at 22A which is about 57% of the highest possible amp draw of the motor.

Can you please help me out with the Calculations of flight time and suggest motors for the same?