Low-speed direct-driven sensorless control including zero-speed for switched reluctance motor based on dynamic inductance model

机译：基于动态电感模型的开关磁阻电机包括零速的低速直接驱动无传感器控制

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Accurate and reliable rotor position estimation is extremely required in low-speed direct-driven applications for switched reluctance motor/generator. Due to seriously nonlinearity of phase inductance, phase inductance changes obviously under saturation. On the basis of Fourier analysis, the relationship between dynamic inductance model coefficients and phase current is given. At zero-speed condition, excitation pulse method is proposed for estimate initial rotor position. Dynamic inductance model is proposed for low-speed operation. Sensorless control algorithm is achieved by DSP and FPGA chips. Experimental results indicate that motor start up without inversion at zero speed, sensorless operation error is less than 0.5 degree. The overall sensorless control scheme is easy to implement.

机译：在开关磁阻电动机/发电机的低速直接驱动应用中，非常需要准确而可靠的转子位置估计。由于严重的相位电感非线性，在饱和状态下，相位电感会发生明显变化。在傅立叶分析的基础上，给出了动态电感模型系数与相电流之间的关系。在零速条件下，提出了一种励磁脉冲方法来估计初始转子位置。针对低速运行，提出了动态电感模型。无传感器控制算法是通过DSP和FPGA芯片实现的。实验结果表明，电动机在零速启动时不会反转，无传感器运行误差小于0.5度。整体无传感器控制方案易于实现。

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《International Conference on Electrical Machines and Systems》|2014年|763-767|共5页
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Xulong Zhang; Feng Wang; Xuanqin Wu;
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Fourier analysis; digital signal processing chips; field programmable gate arrays; reluctance motors; rotors; sensorless machine control; DSP chips; FPGA chips; Fourier analysis; dynamic inductance model coefficients; excitation pulse method; low-speed direct-driven sensorless control; phase current; phase inductance; rotor position estimation; switched reluctance generator; switched reluctance motor; zero-speed condition; Estimation; Inductance; Rotors; Sensorless control; Switched reluctance motors; Switched Reluctance Motor; dynamic inductance model; low-speed direct-driven; sensorless;

机译：傅里叶分析;数字信号处理芯片;现场可编程门阵列;磁阻电机;转子;无传感器机器控制; DSP芯片; FPGA芯片;傅立叶分析;动态电感模型系数;激励脉冲法;低速直接驱动无传感器控制;相位电流;相电感;转子位置估计;开关磁阻发电机;开关磁阻电动机;零速条件;估计;电感;转子;无传感器控制;开关磁阻电动机;开关磁阻电动机;动态电感模型;低速直接驱动;无传感器;

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专利

1. Sensorless Control of Switched Reluctance Motor Based on Dynamic Thresholds of Phase Inductance [J] . JUN CAI, ZHIQUAN DENG Electric Power Components and Systems . 2012,第5a8期

机译：基于相电感动态阈值的开关磁阻电机无传感器控制
2. Position sensorless control of switched reluctance motor based on a linear inductance model with variable coefficients [J] . Aide Xu, Jiagui Chen, Ping Ren, IET Energy Systems Integration . 2019,第3期

机译：基于线性电感模型的可变磁阻电动机的位置无传感器控制变系数
3. Inductance model-based sensorless control of the switched reluctance motor drive at low speed [J] . Hongwei Gao, Salmasi F.R., Ehsani M. IEEE Transactions on Power Electronics . 2004,第6期

机译：基于电感模型的低速开关磁阻电机驱动器的无传感器控制
4. Low-speed direct-driven sensorless control including zero-speed for switched reluctance motor based on dynamic inductance model [C] . Xulong Zhang, Feng Wang, Xuanqin Wu International Conference on Electrical Machines and Systems . 2014

机译：低速直接驱动的无传感器控制，包括基于动态电感模型的开关磁阻电动机的零速度
5. Inductance model based sensorless switched reluctance motor drives for high performance applications. [D] . Gopalakrishnan, Suresh. 2000

机译：基于电感模型的无传感器开关磁阻电机驱动器，用于高性能应用。
6. An Improved Model Predictive Current Controller of Switched Reluctance Machines Using Time-Multiplexed Current Sensor [O] . Bingchu Li, Xiao Ling, Yixiang Huang, 2017

机译：基于时分多路电流传感器的开关磁阻电机改进模型预测电流控制器
7. Sensorless control of double-sided linear switched reluctance motor based on simplified flux linkage method [O] . Wenkai Wei, Qing Wang, Rui Nie 2017

机译：基于简化磁通连杆方法的双面线性开关电动机无传感器控制
8. Modeling and Nonlinear Control of a Switched Reluctance Motor to Minimize Torque Ripple. Part 3 [R] . Zhong Ze, Z. , Martin, T. W. , Balda, J. C. 2000

机译：开关磁阻电动机最小化转矩脉动的建模与非线性控制。第3部分

Low-speed direct-driven sensorless control including zero-speed for switched reluctance motor based on dynamic inductance model

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