| 1. | Research on the stator resistance intelligent observer based on bp neutral network
神经网络的定子绕组智能观测器的研究 |
| 2. | The wavelet networks are used in identifying the stator resistance of induction motor direct torque control . the simulation results show that this method is effective and feasible
将小波网络应用于对交流电机直接转矩控制中的定子电阻辨识,取得了较好的效果。 |
| 3. | Abstract : a mutual model reference adaptive method for the rotor speed and stator resistance identification is proposed in this paper to implement a speed sensorless direct torque control of induction motors
文摘:本文介绍了一种可互换模型参考自适应方法实现对电机转速和定子电阻的辨识,并将其应用于异步机的无速度传感器直接转矩控制中。 |
| 4. | To the problems of compensating stator flux linkage , tuning stator resistance and the problems in the low speed region , it is proposed to solve above problems using artificial neural network and fuzzy control
针对定子磁链补偿和定子电阻辩识及低速区存在的问题,本文提出了用神经网络结合模糊控制技术解决上述问题的方案,并进行了具体研究。 |
| 5. | In the chapter 3 , based on the analysis and summary for the stator resistance - current relation , the fuzzy inference parameters of the stator resistance and the inference rules are determined , and the control parameters of the switching state selector are optimized
第三章在分析总结定于电阻与电流非线性关系的基础上,确定了定于电阻模糊推理变量及推理规则,并对开关状态选择器的控制变量进行了优化。 |
| 6. | Aim at the dtc ' s blemish mentioned above and the direction of dtc technique development , the dissertation put great emphasis on the work as follows , with an eye to exalt dtc system function : ( 1 ) a new speed - flux observer of an induction motor is proposed to enhance the accuracy of flux observing , which is an adaptive closed - loop flux observer and different from the traditions . a new adaptive speed - observation - way is deduced out according to the popov ' s stability theories ; ( 2 ) to improve the performance of dtc at low speed operation , we have to exalt the accuracy of the stator flux estimation and a new way of bp neural network based on extended pidbp algorithm is given to estimate and tune the stator resistance of an induction motor to increase the accuracy of the stator flux estimation ; ( 3 ) digital signal processor is adopted to realize digital control . an device of direct torque control system is designed for experiment using tms320lf2407 chip produced by ti company ; ( 4 ) bring up a distributed direct torque control system based on sercos bus , sercos stand for serial real time communication system agreement which is most in keeping with synchronous with moderate motor control ; ( 5 ) the basic design frame of the hardware and software of the whole control system is given here and some concrete problem in the experiments is described here in detail
针对上面提到的直接转矩控制的缺陷和未来直接转矩控制技术发展方向,本论文重点做了以下几个方面的工作,目的在于提高dtc系统的综合性能: ( 1 )提出一种新型的速度磁链观测器,新型的速度磁链观测器采用自适应闭环磁链观测器代替传统的积分器从而提高磁链观测的精度,并且根据popov超稳定性理论推导出转速的新型自适应收敛律; ( 2 )改善系统的低速运行性能,主要从提高低速时对定子磁链的估计精度入手,提出了一种提高定子磁链观测精度的新思路? ?利用基于bp网络增广pidbp学习算法来实时在线地修正定子电阻参数; ( 3 )采用数字信号处理器dsp实现系统全数字化硬件控制,结合ti公司生产的tms320lf2407芯片,设计了直接转矩控制系统的实验装置; ( 4 )提出了基于sercos总线网络化分布式的直接转矩控制系统, sercos ( serialrealtimecommunicationsystem )是目前最适合同步和协调控制的串行实时通信协议; ( 5 )基本勾勒出整个控制系统的硬件和软件设计基本框架,详细描述一些实验中的具体的细节问题。 |
| 7. | Constant stator magnetic linkage control frequency converter includes power devices utilizing igbt , drive circuit using three - phase drive ic with multiple protection functions . pwm signal formation circuit in the way of voltage space vector control and realized with pld ( programmable logic device ) devices and compensation for the influence of supply voltage variation and stator resistance voltage drop
其中,恒定子磁链控制变频器的设计中主电路采用功率器件igbt ;驱动电路采用三相多功能集成驱动芯片; pwm脉宽调制信号产生电路采用电压空间矢量控制方式,由pld器件实现;对电源电压变化及电阻压降造成的影响进行了补偿。 |
| 8. | Specific issues examined are : compensation for the variation of the stator resistance , the offset error of the dc bus voltage , the voltage error generated by the forward voltage drop the dead time of the switches , improvement of the steady state performance , and the speed sensorless control for the pmsm dtc drive system are of major concern in this thesis
定子电阻变化,直流母线电压漂移,开关器件反向相电压降、逆变器死区时间引起的电压误差的补偿,提高系统稳态运行性能以及永磁同步电机直接转矩控制的无速度传感器运行方案等问题都是本文研究的重点。转矩的快速响应是直接转矩控制算法的一个卓越的性能。 |
| 9. | In the conventional pmsm dtc system , the stator flux linkage is calculated from the integration of the difference between the machine input voltage and voltage drop across the stator resistance , and the input voltage is obtained by synthesizing the dc - link voltage and the switching mode of the inverter
在常规直接转矩控制系统中,定子磁链是通过直接积分电机端部输入电压与定子电阻压降之差计算得到的。电机端部的输入电压又是通过电机直流母线电压和逆变器的开关状态综合得到的。 |
| 10. | The accurate calculation of the input voltage and the compensation for the dc - offset error and the variation of the stator resistance are important factors in practical implementation of the integration since they can cause a drift in the stator flux linkage trajectory and furthermore deteriorate the quality of torque control
因此,输入电压的准确计算、直流漂移量的补偿以及定子电阻变化的补偿都是影响积分计算准确性的重要因素,这些误差会导致定子磁链轨迹的偏移,进而降低系统转矩控制的性能。 |
