Hortens and APM

Hi,

I want Aurdupilot Mega to control a Horten airplane. My aim is to use APM in this 1:5 semiscale Model of a Schapel SA-882 (see http://www.twitt.org/schapel.htm for a description of the original)





The Model has a span of about 2,08 m, made of playwood with silk covering. It was originally a microturbine airplane (with Martin Lambert's 20N Kolibri), had a TOW of about 4,9 kg (including 1,2 litres of Petroleum). I exchanged the microturbine by an electric motor Scorpion S-4025-01driving a 13 x 8 " propeller on 6S Lipo. Now it has a TOW of about 4 kg. I still have to do the maiden flight with that setup...

Before I go into using APM as an autopilot I want to use ist as a logger to analyse the design. I've been doing some work on the code to include the changes I need (also added functionality for the Attopilot current sensor). And wrote a program to extract the data from the logs. It's the first time I ever work with a microcontroller, but thanks to Arduino it's the same as programming in C++ :D.

Yesterday I installed the APM into the smaller sister of the above airplane. Namely, into a 1:8 model of the Schapel. This small model was designed to be a speed model, in contrast to the larger one which was designed for more acrobatic movements. Nevertheless, the small one reaches speeds of about 250 km/h on a 800 W setup (a friends one, not mine), while the large one reached also speeds way above 200 km/h with the turbine.



As always, the first time one makes errors. I installed the APM flipped, so that the yaw information is mirrored. Nevertheless, it was yesterday a rough windy ride and I was happy to make 4 logs during motor and gliding flight. I was also sort of "rusty", due to the bad weather here in Germany it's about 2 Month that I flew. The sight was also bad and it was freezing (-3 C). So, I was very happy to not have broken either the airplane or the APM. Here is one plot



The figure displays a gliding situation. The phugoid oscillation is clearly displayed (long period oscillation in altitude and velocity). In theory, the period should depend only on gravity and flight speed, which is more or less confirmed by the data. A strong oscillation in pitch is seen up to 880 s. I was probably still correcting the plane's attitude after turning. Afterwards we find two oscillations. One has a period of about 1.5 s (data between 885 and 890 s) and the other one is faster with a period about 0.7 to 0.75 s (see data between 898 and 900 s). The faster one is probably the so called short period oscillation in angle of attack, and the larger one is the second harmonic of this oscillation. To display the faster one better, a higher rate as 10 Hz would be needed. I would have to turn on the 50 Hz logging.


BTW the measurement shows a lift coefficient CL of about 0.6 and a gliding ratio of about 6 (i.e,. CD=0.1), which is not fantastic, but for a small airplane it is also not too bad. I guess I was flying the plane near stall, as my simulations tell me that stall is at about CL=0.6. Essentially the measurement confirms my simulations, as the gliding ratio was calculated to be 9 at stall (not including the cabin). Next time I'll trim the airplane to 60 - 65 km/h, where it should have theoretically a gliding ratio of 16 (realistic probably 12 or 13).


I will keep you informed on further progress ;)


Regards,


Andrés





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Comments

  • where's your rudders/latero-directional fins?
  • Great stuff, you seem to know about aircraft ! I th_facebook-like-button.jpg
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