Advance Omikron (Acro)


OMIKRON - Precise dynamics
Do you know how to do acro? We do! The OMIKRON combines high level, balanced dynamics with uncomplicated handling, and was developed by accomplished acro pilots (e.g. Christian Proschek and Michael Maurer) for acrobats and professionals. The OMIKRON has plenty of steam if you ask for it, but excess energy can always be effectively reined in with the brakes.

Power you can feel
The OMIKRON has pronounced high dynamic potential, but this is relatively straightforward to deal with. This appeals especially to competition pilots, and anyone else who likes this quality. The glide performance of this small powerpack is also very gratifying. Granted, this not does play a major part in competition acro scoring, but it’s an advantage (and a great feeling) to enter the box high and fast...

Maneuvers it likes
Infinity and Helicopter: The wing motion is very harmonic and pliable in the Infinity, and the g-load spikes surprisingly low. The wing does not flap a lot, and the OMIKRON keeps itself in the vertical plane for longer – the pilot has less correcting to do. In the Helicopter the rotation speed can be very efficiently adjusted by inside brake. The canopy helps to damp out oscillation by itself.

Materials that do this
In terms of design and materials the OMIKRON is exceptionally robust and long-lived. This Infinity Machine has only three cross ports per rib. Besides that the diagonals are not split in this wing. Outer surfaces use 38 Skytex cloth, inside there’s 40 Hardfinish. Base lines withstand 24 g; the top level lines are good for all of 52 g.





Flat surface m2 17 18
Projected surface m2 14.6 15.5
Recommended takeoff weight kg 70-100 75-110
Glider weight kg 4.7 4.8
Span m 9.8 10.1
Projected span m 7.9 8.2
Aspect ratio
5.7 5.7
Projected aspect ratio
4.3 4.3
Max. chord m 2.1 2.2
Number of cells
53 53
Number of risers
4 4
Max length of the risers cm 53 53
Max length of the lines with the risers cm 730 730
Accelerator travel max. cm 14 14
Lasttest EN-926-1 Lasttest EN-926-1