The aviation electromechanics of small civil aviation is actively being modernized through the use of digital mechatronic devices. Significantly increasing the performance and reliability of digital electric drives in mechatronic devices, reducing mass-size indicators while negligibly increasing energy consumption, can only be achieved through algorithmic modernization. The paper is devoted to the methodology of algorithmic modernization for digital electric drives in mechatronic devices for small civil aviation. The methodology allows to reduce transition time of the process in the angular velocity control channel of the electric drive rotor rotation, improves the quasi-invariance indicators with respect to external perturbation influence (reduces the amplitude of the rotor rotation velocity surge caused by external perturbation and its duration), minimizes additional energy costs caused by algorithmic correction of the electric drive dynamic characteristics, improve operational characteristics of the electric drive (increase the reliability and reduce mass-size characteristics of the electric drive by swapping the mechanical rotor velocity meter with an algorithmic one).
Methodology of Energy-Efficient Algorithmic Modernization of Dynamic Characteristics of Digital Electric Drives of Mechatronic Devices for Small Civil Aviation
Lect. Notes in Networks, Syst.
International Workshop on Advances in Civil Aviation Systems Development ; 2023 ; Kyiv, Ukraine May 29, 2023 - May 31, 2023
Proceedings of the International Workshop on Advances in Civil Aviation Systems Development ; Chapter : 12 ; 152-165
2023-07-21
14 pages
Article/Chapter (Book)
Electronic Resource
English
Civil aviation ATM modernization strategy CAAMS
IEEE | 2016
Mechatronic drives in mobile equipment applications
Automotive engineering | 2003
|DoD Tactical Aviation Modernization Program
NTIS | 1997
|Technology - Mechatronic Drives In Mobile Equipment Applications
Online Contents | 2003
Modernization or New Engineering: Models of Leadership in the Global Civil Aviation Market
Springer Verlag | 2021
|