FPGA-based Embedded
System for
Wind Tunnel Variable-Geometry Nozzle Positioning
Biljana Ilić
Mirko Milosavljević
Over the last few decades, the accuracy requirements for wind tunnel
testing have become much more stringent as aircraft industry strives
to achieve the best performance of their products. Investments in
advanced capabilities are necessary to obtain more accurate test
results more efficiently, ensuring that the wind tunnels stay
productive well into the future. The VTI Belgrade T-38 wind tunnel
responded to these challenges by applying a hierarchical approach to
design a distributed multilevel control system, a part of which is
the variable-geometry nozzle positioning system, presented in this
paper. It follows the hierarchy of the entire wind tunnel control
system, with critical positioning loops at the field-programmable
gate array (FPGA), and the user interface with real-time data
analysis capability implemented on a central wind tunnel computer.
In addition to more accurate positioning, the FPGA-based control
system significantly improved overall operation efficiency, speed
and reliability. Since the nozzle geometry uniquely determines
supersonic Mach number, the improved positioning accuracy is
verified in wind tunnel tests
Key words: nozzle, wind tunnel, FPGA, position control,
real-time system, actuators, sensors.
