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一种基于ADRC控制算法无刷直流电机的便携制氧装置的研究
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Abstract:
文章通过优化ADRC算法的参数设置,实现了电机的高效稳定控制,显著提升了制氧装置的氧气生成效率和系统稳定性。在系统集成过程中,通过精密传感器实时监测电机状态,结合ADRC算法动态补偿外部扰动,保证了系统在不同负载和环境条件下的稳定运行。经过全面的功能测试和性能验证,结果表明,采用ADRC算法的便携制氧装置在响应速度、抗干扰能力和能效方面均表现优异,满足了实际应用需求。
This article achieves efficient and stable control of the motor by optimizing the parameter settings of the ADRC algorithm, significantly improving the oxygen generation efficiency and system stability of the oxygen production device. During the system integration process, the motor status is monitored in real-time through precision sensors, and external disturbances are dynamically compensated using the ADRC algorithm to ensure stable operation of the system under different loads and environmental conditions. After comprehensive functional testing and performance verification, the results show that the portable oxygen generation device using ADRC algorithm performs excellently in response speed, anti-interference ability, and energy efficiency, meeting practical application requirements.
| [1] | 刘向辰, 马晓婧. 基于模糊自适应ADRC的无刷直流电机控制技术[J]. 汽车实用技术, 2022, 47(12): 29-33. |
| [2] | 刘红, 徐浩星, 牛同锋, 等. 小型便携式供氧装置国内外发展现状探究[J]. 中国个体防护装备, 2017(2): 19-23. |
| [3] | 魏士杰, 高龙琴, 王志伟. 基于嵌入式Web的医用变压吸附制氧装置控制系统设计[J]. 物联网技术, 2023, 13(9): 61-64. |
| [4] | 张绍福. 深冷空分制氧装置中各参数对氧气产量和质量的影响分析[J]. 冶金管理, 2023(23): 47-49. |
| [5] | 李俊芳, 毕旺琪, 李毅, 等. ADRC-GPC算法在旋转倒立摆系统中的应用[J]. 传感器与微系统, 2023, 42(9): 165-168. |
