MikroKopter

FlightTime

Siehe auch: AntriebsTheorie, Einsteigertipps

Flight time of MikroKopters

The flight time depends on the following factors:

To estimate the theoretical flight times of the Mikrokopters, there are these possibilities:

how to read the curves

The curves were made with a software too by marc.

They use measured motor/propeller data.

Flight time vs. Lipo capacity

http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=76006&g2_serialNumber=1

Here we see the curve "Flight time vs. Lipo capacity" of a Quadro XL

On the lower scale we see Lipo capacity and on the upper scale we see the flight time.

If we want to find out, what flight time we can get with a 6600 Lipo, we need to do the following:

The curves are calculated with realistic Lipo-weights. They consider that higher capacity means higher weight.

You can also see on that curve, that the maximum capacity is 14.000mAh. That is the point where the additional Lipos-weights are negative for the flight time.

Flight time vs. Payload

Additional payloads reduce the flight time of course.

http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=76009&g2_serialNumber=1

There are three curves. They depend on the flight style.

Slow hovering results in the longest flight time, because of low losses.

So if we want to find out what flight time we can expect with 500g payload, we have to read the curves as follows:

In this excample the flight time is between 13 and 20 minutes depending on the flight style.

Theoretical calculation of the flight time

If you want to calculate the theoretical value, you can do it that way:

measure the total weight including battery

Example on a Hexa with ~2150g

--> 1000g Empty weight plus 1150g Lipos

Devide the value by 6 (because six engines) --> 358g per engine

Thrust per engine = Total weight / Number of Engines

reading the current from the table

Now we determine the current that the engine needs to hoover (more exactly: Input current of the BL controller) This one uses this characteristic:

http://www.mikrocontroller.com/files/Schubdiagramm_Roxxy2827-35.jpg

(This characteristic applies to ROXXY2827-35 and MK2832-35 (formerly known as MK2832/52) on a 4S Lipo)

In the courve you can see 2,5A for about 358g

Means: Each engine requires 2.5A, to lift his part of the total weight.

There is a total current of 2.5 A * 6 = 15A.

Calculate the maximum flight time using the battery charge capacity

The Hexakopter has been used in this example with two 5000mAh-Lipos.

The formula is:

t (in Hours) = Lipo-capacity / Total current

t = 10Ah / 15A = 0,666h

t = 60 * 10 / 15 = 40 minute

Power consumption and other losses

The above-determined value is an ideal value that specifies the absolute limit.

You'd have to really consider:

For this reasons we estimate ~10% losses

So you have:

t = 90% * 60 minute * Lipo-capacity / Total current

t = 0,9 * 60 * 10 / 15 = 36 minute

Test of the theory

This we wanted to test pratically. And here is the Video of the test.

http://www.rcmovie.de/video/858cf22b819d0bce64fb/MikroKopter-HexaKopter-Test-der-Flugdauer

Software tool for estimating the flight time

The calculation can be done very easily with a tool from Marc:

http://gallery.mikrokopter.de/main.php/v/uploads/Bildschirmfoto-Flugzeitrechner.png.html

http://forum.mikrokopter.de/topic-21052-1.html

Test at a time-of-competition

With the software-tool we calculated the following graphs:

http://gallery.mikrokopter.de/main.php/v/tech/Graph_Hexa2_capacity.gif.html http://gallery.mikrokopter.de/main.php/v/tech/Graph_HexaXL_capacity.gif.html

So for the Hexa2 we calculated a flying time of about 35 minutes and for the Hexa-XL 40 minutes

We were able to validate this in practice:

http://www.vimeo.com/15140230

(Video)

Weights and flight times of the (standard) MikroKopters

MikroKopter as Quadro

weight 640g without Lipo

maximum (arithmetical) Flight times:

Lipo

max.Flight time

with 200g payload

2200/4S

21min

16min

3300/4S

27min

22min

L4-ME

Time vs. Lipo

Time vs. Payload with 2200/4s

http://gallery.mikrokopter.de/main.php/v/tech/Quadro_2200_Lipo.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/Quadro_2200_Payload.gif.html

MikroKopter as Quadro XL

Weight 970g without Lipo

maximum (arithmetical) Flight times:

Lipo

max. Flight time

with 400g Payload

with 800g Payload

5000/4S

29min

18min

15min

QuadroXL

Time vs. Lipo

Time vs. Payload with 5000/4s

http://gallery.mikrokopter.de/main.php/v/tech/QuadroXL_5000_Lipo.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/QuadroXL_5000_Payload.gif.html

MikroKopter as Hexa / Hexa2

weight 1000g without Lipo

maximum (arithmetical) Flight times:

Lipo

max. Flight time

with 200g payload

with 500g payload

with 750g payload

3300/4S

21min

18min

14min

11min

5000/4S

28min

25min

19min

16min

Hexa2

Time vs. Lipo

Time vs. Payload with 3300/4s

Time vs. Payload with 5000/4s

http://gallery.mikrokopter.de/main.php/v/tech/Hexa2_3300_Lipo.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/Hexa2_3300_Payload.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/Hexa2_5000_Payload.gif.html

MikroKopter as Hexa-XL

weight 1600g without Lipo

maximum (arithmetical) Flight times:

Lipo

max. Flight time

with 200g payload

with 500g payload

with 750g payload

with 1000g payload

with 1250g payload

with 1500g payload

6600/4S

28min

24min

21min

18min

16min

14min

13min

Characteristic curve of the engines here: MK3538

HexaXL

Time vs. Lipo

Time vs. Payload with 6600/4s

http://gallery.mikrokopter.de/main.php/v/tech/HexaXL_6600_Lipo.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/HexaXL_6600_Payload.gif.html

MikroKopter as Okto / Okto2

weight 1260g without Lipo

maximum (arithmetical) Flight times:

Lipo

max. Flight time

with 200g payload

with 500g payload

with 750g payload

with 1000g payload

3300/4S

17min

16min

14min

12min

9min

5000/4S

24min

21min

18min

16min

13min

2*5000/4S

35min

32min

27min

24min

21min

Okto

Time vs. Lipo

Time vs. Payload with 5000/4s

Time vs. Payload with 6600/4s

http://gallery.mikrokopter.de/main.php/v/tech/Okto2_5000_Lipo.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/Okto2_5000_Payload.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/Okto2_6600_Payload.gif.html

MikroKopter as Okto XL

weight 1830g without Lipo

maximum (arithmetical) Flight times:

Lipo

max. Flight time

with 200g payload

with 500g payload

with 750g payload

with 1000g payload

with 1500g payload

6600/4S

24min

22min

19min

17min

16min

13min

2*6600/4S

35min

32min

28min

26min

24min

21min

Okto XL

Time vs. Lipo

Time vs. Payload with 6600/4s

Time vs. Payload with 10.000/4s

Time vs. Payload with 2 * 6.600/4s

http://gallery.mikrokopter.de/main.php/v/tech/OktoXL_6600_Lipo.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/OktoXL_6600_Payload.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/OktoXL_10000_Payload.gif.html

http://gallery.mikrokopter.de/main.php/v/tech/OktoXL_13200_Payload.gif.html

Weight of 4S-Lipos

Lipo

voltage

capacity

weight

2200/4S

14,8V

2,2Ah

238g

3300/4S

14,8V

3,3Ah

365g

5000/4S

14,8V

5,0Ah

520g

6600/4S

14,8V

6,6Ah

715g

Weight of 3S-Lipos

/!\ Be careful, the speed curve must have been taken with 3S (the curve of 2827-34 does not apply here)

Lipo

voltage

capacity

weight

1800/3S

11,1V

1,8Ah

153g

2200/3S

11,1V

2,2Ah

179g

3300/3S

11,1V

3,3Ah

269g



MikroKopter: en/FlightTime (zuletzt geändert am 11.01.2012 13:42 durch LotharF)