In the context of modern society, economic and technological progress, energy consumption is increasingly intensifying. It is in this context that people's understanding of energy conservation has gradually deepened, and control technologies for energy conservation have also rapidly developed. The energy-saving control system is a control system established based on energy-saving control technology. It utilizes programmable automation control technology to achieve automatic control of the system, and has obvious advantages in energy-saving control in electronic and mechanical engineering. This article takes the energy-saving controller of asynchronous motors for vehicles as the research object, with the aim of reducing motor energy consumption and improving motor efficiency, to study extending the range of electric vehicles. In the energy-saving comparison experiment, this article proposes a scheme for energy-saving control experiment of automotive asynchronous motors. The experimental results show that under energy-saving conditions, the power factor improvement in condition 2 is the largest, with a value of 67%. Under the condition of not using any energy, the power factor of condition 6 increases by a maximum of 65%. This proves the correctness and effectiveness of this control method. It is very important to adopt energy-saving control technology for the application research of asynchronous motors.

Shaomin Lu, Siyu Hou, Yiqing Huang, Wei Li. Innovative Application of Energy-Saving Control Technology in Mechanical and Electronic Engineering. Academic Journal of Engineering and Technology Science (2023) Vol. 6, Issue 9: 57-64. https://doi.org/10.25236/AJETS.2023.060909.

[1] Huang Huacheng. "Analysis of Energy Saving and Consumption Reduction Technology In IOT Control System-Campus Energy Saving And Consumption Reduction Street Light System As An Example." Turkish Journal of Computer and Mathematics Education (TURCOMAT) 12.11 (2021): 3950-3957.

[2] Ashryatov, A. A., V. G. Kulikov, and A. V. Panteleyev. "Energy saving control system development for external lighting." Indonesian Journal of Electrical Engineering and Computer Science 17.3 (2020): 1601-1606.

[3] Chang Jun-yang, Jing Jin-song, and Wu Jun-yi. "Multi-hop based energy-saving control scheme for internet-of-things systems." Journal of the Chinese Institute of Engineers 45.6 (2022): 543-555.

[4] Ding Renkai, Wang Ruochen, and Meng Xiangpeng. "Energy-saving control strategy design and structure realization for electromagnetic active suspension." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 233.9 (2019): 3060-3075.

[5] Zhang Biying, Jin Shangtai, and Hou Zhongsheng. "Energy saving control of bionic robotic fish based on model-free adaptive control." IFAC-PapersOnLine 53.2 (2020): 3934-3939.

[6] Xing Yazhou. "Optimisation of energy-saving control parameters of urban underground sewage treatment pumps based on fuzzy parameter adaption." International Journal of Global Energy Issues 42.5-6 (2020): 339-354.

[7] Xiuying Yan, Pengfei Yu, and. Dengjia Wang. "Flexible Energy-Saving Control Strategy of a Solar-ASHP Integrated Heating System Based on Time-Sharing Heat Demand." Distributed Energy Resources 8.1 (2023): 1-10.

[8] Zheng, Mali. "Research on energy-saving control and optimisation of air conditioning system based on genetic algorithm." International Journal of Global Energy Issues 43.1 (2021): 38-54.

[9] Jin Zheliang, and Martinez Davis. "Energy-saving control method of electric heating film temperature for urban zero energy consumption building heating." International Journal of Global Energy Issues 42.5-6 (2020): 323-338.

[10] Fung Rongfong, and Wu Tsung-Liang. "Dynamic formulation, identification and energy-saving control for an LCD glass-handling robot system." International Journal of Dynamics and Control 8.1 (2020): 1-20.

[11] Li Dongmei. "Analysis on the monitoring system of energy conservation and comfort in office buildings based on internet of things." International Journal of Low-Carbon Technologies 15.3 (2020): 351-355.

[12] Wen Xiaolong. "Research on an optimisation control method of large-scale buildings energy saving based on particle swarm optimisation." International Journal of Global Energy Issues 44.2-3 (2022): 166-181.

[13] Watanabe Shoichiro. "Verification of optimized energy-saving train scheduling utilizing automatic train operation system." IEEJ Journal of Industry Applications 9.2 (2020): 193-200.

[14] Ding Damin. "Energy-saving optimization on active disturbance rejection decoupling multivariable control." Nuclear Engineering and Technology 55.3 (2023): 850-860.

[15] Chen Yu. "An Energy-saving Fuzzy Control Fan Array with Bluetooth Received Signal Strength Indicator Sensing." Sensors and Materials 34.9 (2022): 3449-3459.

[16] Fei Xiaotao, Yunwu Han, and Shaw Voon Wong. "An Overview of and Prospects for Research on Energy Savings in Wheel Loaders." Automotive Experiences 6.1 (2023): 133-148.

[17] Sun Xiaoye. "Research and evaluation of energy-saving reconstruction of intelligent community heating system based on the internet of things." International Journal of Heat and Technology 39.3 (2021): 701-710.

[18] Yang Guoqiang. "Adoption of Energy-Saving Materials in the Design of Hotel Intelligent System under Low Carbon Environment." Integrated Ferroelectrics 215.1 (2021): 256-266.

[19] Wang J. F. "Energy-saving operation of multistage stochastic manufacturing systems based on fuzzy logic." International Journal of Simulation Modelling 18.1 (2019): 138-149.

[20] Tingting Wang. Design and Implementation of Environmental Protection Publicity Based on Green Energy Effect. Nature Environmental Protection (2022), Vol. 3, Issue 3: 54-61. 

[21] Ken Lawrence. Resource Balance Optimization Method of Mechanical Engineering Project Considering Multi-objective Optimization. Kinetic Mechanical Engineering (2023), Vol. 4, Issue 1: 1-10.