Development of Engine Electrical Control Experimental Platform Based on Virtual Real Interaction_Vol. 2 No. 1 (JHET 2025)_Journal of Higher Education Teaching (ISSN: 3005-5776)

Home > Journal of Higher Education Teaching (ISSN: 3005-5776) > Vol. 2 No. 1 (JHET 2025) >

Development of Engine Electrical Control Experimental Platform Based on Virtual Real Interaction

DOI: https://doi.org/10.62517/jhet.202515112

Author(s)

Zhaorong Sun*

Affiliation(s)

College of Electronic Information and Automation, Civil Aviation University of China, Tianjin, China *Corresponding Author

Abstract

To improve the operability and visualization of engine electrical control system course experiments, a virtual real interactive engine electrical control experimental platform is developed. Based on SOPC technology, an engine controller and hardware simulation system are constructed. Labview is used to develop a control interface for simulating cockpit engine control and display. SolidWorks is used to design a virtual model of the engine and then achieve assembly and follow-up in the upper computer. A proportional engine model is developed by imitating the actual external dimensions and electrical accessory layout of the engine to achieve the acquisition of key engine parameters and simulation of the action of the actuating components. Through multiple rounds of experimental verification, the platform can accurately reproduce the engine electrical control logic, and the experimental data curve is consistent with the real engine parameter curve.

Keywords

Virtual Real Interaction; Virtual Model; System on Programmable Chip (SOPC); Engine Start Control; Engine Power Control

References

[1]Chen Jin, Cheng Zhiqun, Liu Guohua, et al. Teaching mode reform practice of "Communication Electronic Circuit Experiment" based on online and offline hybrid teaching interaction and virtual-real integration. Electronic Production, 2020 (22): 60-62. [2]Zhang Dingmei, Jiang Zaifu, Dai Wei, et al. Research on the reform of university physics experiment teaching under the credit system combining virtual-reality. Journal of Jingchu University of Technology, 2023, 38 (04): 91-96. (in Chinese) [3]Wang Ying, Hu Kun, Zhong Nanjing, et al. Exploration of open interactive experimental teaching model combining virtual-reality. Popular Science and Technology, 2018, 20 (08): 98-100. (in Chinese) [4]Wang Xuan, Han Zhenchao, Li Heng, et al. Construction method of semi-physical Simulation test Platform for an Engine Control System. Aeronautical Maintenance & Engineering, 2022 (10): 46-49. [5]Yan Feng, Yuan Xufeng. Analysis of virtual maintenance of aero Engine Ignition exciter. Experimental Technology and Management, 2023, 40 (03): 125-131+144. [6]Yuan Jun. Design of Control System for Aero Engine Test Bench. Chinese Instrument and Instrument, 2023 (11): 48-51. [7]Han Bin, Ding Li, Li Hongcai, et al. Design and implementation of missile-borne Turbojet Controller based on SOPC. Journal of Missile-Arrow and Guidance, 2019, 39 (04): 89-92. [8]Sun Yijun. Design and Implementation of engine Parameter Acquisition System for General Aircraft. Aeronautical Maintenance and Engineering, 2023 (11): 43-47. [9]Li Ke, Ma Wenjie, Kou Zhengli, et al. Research on the Control Principle of an aero-engine. Aeronautical Maintenance & Engineering, 2023 (10): 31-34. [10]Tian Yangtao, Yuan Jie, Xu Yangyang, et al. Simulation of AMESim-Simulink Control for Aeroengine Reverse Thrust Actuator System. Chinese Hydraulics & Pneumatics, 2019, 47(10): 182-188. [11]Dong Jianhua, Zhu Jianming, Li Hantao, et al. Research on virtual Self-learning control method of aeroengine. Advances in Aeronautical Engineering, 2023, 14 (06): 81-90. (in Chinese) [12]Ma Anxiang, Bai Guojuan, Li Yanhong, et al. Research on Fault Detection Design of Civil Aviation Engine Ignition System. Mechanical and Electrical Information, 2023 (09): 38-41. [13]Chen Jian, Zhang Tianhong, Liu Dongdong. Design and Verification of Micro Turbojet Controller based on SOPC. Measurement and Control Technology, 2012, 31 (07): 50-53+57.