S. Yeoh, Tao Yang, L. Tarisciotti, S. Bozhko, P. Zanchetta
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引用次数: 4
摘要
电动飞机(MEA)已被确定为未来飞机的主要趋势。在MEA中引入的关键改进之一是其发电系统。本文所研究的发电机系统由一个永磁电机和一个有源前端整流器组成。模型预测控制(MPC),而不是仅仅使用PI控制器来控制发电系统,因为它能够实现快速动态性能和多变量控制。MPC的一种变体称为调制模型预测控制(MPC with intrinsic modulator),最近被引入,显示出比标准MPC方法更好的性能。本文提出了一种电流内环采用调制模型预测控制,外环采用PI控制器的控制方案。将所提出的控制与全级联PI控制方案进行了比较。通过仿真试验对两种控制方法进行了比较,并对结果进行了分析。
Hybrid modulated model predictive control for the more electric aircraft generator system
The More Electric Aircraft (MEA) has been identified to be a major trend for future aircrafts. One of the key improvements introduced in MEA is its electrical power generation system. The generator system studied in this paper comprises of a permanent magnet machine and an active front-end rectifier. Rather than just using PI controllers to control the generation system, Model Predictive Control (MPC) is considered due to its ability to achieve fast dynamic performance and multivariable control. A variant of MPC called Modulated Model Predictive Control (MPC with intrinsic modulator) was recently introduced that showed significantly better performance than the standard MPC method. This paper presents a control scheme that utilizes Modulated Model Predictive Control for the current inner loop and PI controllers for the outer loop. The proposed control is compared with a full cascaded PI control scheme. Simulation tests are carried out to compare the two control methods and the results are presented and analysed.
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