电工技术学报  2023, Vol. 38 Issue (19): 5152-5163    DOI: 10.19595/j.cnki.1000-6753.tces.230946
电机及其系统 |
基于降阶动态相量模型的电感耦合式励磁系统间接励磁电流估计
付兴贺, 夏宏伟, 熊嘉鑫
东南大学电气工程学院 南京 210096
Indirect Field Current Estimation Algorithm for Inductively Coupled Excitation Systems Based on Reduced-Order Dynamic Phasor Model
Fu Xinghe, Xia Hongwei, Xiong Jiaxin
School of Electrical Engineering Southeast University Nanjing 210096 China
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摘要 电励磁同步电机(EESM)具有稀土永磁材料依赖性低、励磁磁场可控、调速范围广的优点,在新能源汽车驱动领域拥有良好的应用前景。利用电感耦合式无刷励磁技术可以有效降低传统有刷EESM的摩擦损耗和维护成本。但是,无刷励磁技术的引入导致励磁电流无法直接测量,因此提出一种基于降阶动态相量模型的间接式励磁电流估计方法。首先利用电感耦合关系将励磁电流的直接估计转换为间接估计,有效地提高了算法的鲁棒性;然后推导出励磁电流降阶动态相量估计模型,进一步提高间接估计方法的精度;接着考虑电流谐波影响,提出变系数改进方法;最后通过仿真和实验验证了估计方法的有效性。
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付兴贺
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关键词 电励磁同步电机电感耦合式无刷励磁技术电流估计动态相量模型    
Abstract:Electrically excited synchronous machines (EESM) has the advantages of low dependence on rare earth permanent magnet materials, controllable excitation field and wide speed regulation range, and has a good application prospect in electric vehicles. However, the traditional EESM's brush-slip ring structure caused friction loss, increased maintenance costs, and reduced reliability. Therefore, brushless excitation has become an urgent requirement and a critical issue to be solved for EESM applications. Inductively coupled brushless excitation technology can effectively reduce friction losses and maintenance costs. Currently, mainstream brushless excitation methods include exciter type, harmonic excitation type, and wireless power transfer type. Wireless power transfer excitation can be divided into inductive coupling and capacitive coupling types. Inductive coupling excitation has a simple structure and high transmission efficiency, making it promising for applications.
However, the usage of brushless excitation technology will bring a new challenges. The excitation winding of brushless excitation system rotates with the rotor, and there is no direct electrical connection between the transmitting circuit and the receiving circuit, resulting in the acquisition of excitation current value facing technical challenges. To estimate the field current in similar scenarios has been the scope of some previous studies. The existing current estimation methods can achieve good results in their respective application fields, but there are some limitations and shortcomings, which need to be further developed.
In view of this, an indirect excitation current estimation method based on reduced order dynamic phasor model is proposed for series-series compensation inductively coupled brushless excitation system, which has the characteristics of simple calculation, strong load adaptability and low hardware cost. The topology structure of excitation energy transmission circuit is designed. The equivalent circuit model of excitation system is established. In order to avoid the influence of load parameter disturbance, an indirect current estimation method is proposed by using the inductive coupling relation and the secondary side reflection voltage as the intermediate variable. A reduced order dynamic phasor estimation model is established to further improve the estimation accuracy of the indirect estimation method. Considering the harmonic effect of subside current, an improved method of variable waveform coefficient is proposed. Finally, the validity of the current estimation method is verified by simulation and experiment.
The experimental results show that indirect estimation method has high robustness, the maximum relative estimation error is 4.7% under load variation. Compared with the steady-state estimation model, the reduced order dynamic phasor estimation model can maintain higher estimation accuracy when the load condition changes. Using approximately fitted variable waveform coefficient kα to modify the estimation model can effectively reduce the estimation error caused by secondary current harmonics.
The proposed excitation current estimation method has a good effect in series-series inductively coupled excitation system. And only one current sensor is required, resulting in low hardware cost. However, the detailed analysis and accurate acquisition of waveform coefficients in the rectification model need further research. In addition, the indirect estimation idea and the dynamic phasor model can be used to estimate the current of more inductively coupled excitation systems with non-series-series topology with high accuracy and high robustness, and broaden the application range of the proposed current estimation method.
Key wordsElectrically excited synchronous machines    inductively coupled brushless excitation technology    current estimation algorithm    dynamic phasor model   
收稿日期: 2023-06-23     
PACS: TM341  
基金资助:国家自然科学基金资助项目(51977035)
通讯作者: 付兴贺 男,1978年生,博士,副教授,研究方向为高温特种电机及其控制、伺服系统多源异构扰动抑制。E-mail:fuxinghe@seu.edu.cn   
作者简介: 夏宏伟 男,1998年生,硕士研究生,研究方向为电机控制。E-mail:220213084@seu.edu.cn
引用本文:   
付兴贺, 夏宏伟, 熊嘉鑫. 基于降阶动态相量模型的电感耦合式励磁系统间接励磁电流估计[J]. 电工技术学报, 2023, 38(19): 5152-5163. Fu Xinghe, Xia Hongwei, Xiong Jiaxin. Indirect Field Current Estimation Algorithm for Inductively Coupled Excitation Systems Based on Reduced-Order Dynamic Phasor Model. Transactions of China Electrotechnical Society, 2023, 38(19): 5152-5163.
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