The direct torque control theory has achieved great success in the control ofinduction motors. However, in the DTC drive system of Permanent Magnet Synchronous Machine (PMSM)proposed a few years ago, there are many ba...The direct torque control theory has achieved great success in the control ofinduction motors. However, in the DTC drive system of Permanent Magnet Synchronous Machine (PMSM)proposed a few years ago, there are many basic theoretical problems that must be clarified. Thispaper describes an investigation about the effect of the zero voltage space vectors in the DTCsystem of PMSM and points out that if using the zero voltage space vectors rationally, not only canthe DTC system be driven successfully but also the torque ripple is reduced and the performance ofthe system is improved. This paper also studies the sensorless technique in the DTC system of PMSMand configures the DTC system of PMSM with sensorless technique including zero voltage spacevectors. Numerical simulations and experimental tests have proved the theory correct. In thecondition of sensor-less, the DTC system of PMSM is wide-rangely speed adjusting, and the ratio ofspeed adjustment is 1: 100.展开更多
This paper presents a simple sliding mode control strategy used for an electronic differential system for electric vehicle with two independent wheel drives. When a vehicle drives along a curved road lane, the speed o...This paper presents a simple sliding mode control strategy used for an electronic differential system for electric vehicle with two independent wheel drives. When a vehicle drives along a curved road lane, the speed of the inner wheel has to be different from that of the outer wheel in order to prevent the vehicle from vibrating and travelling an unsteady path. Because each wheel of this electrical vehicle has independent driving force, an electrical differential system is required to replace a gear differential system. However, it is difficult to analyse the nonlinear behaviour of the differential system in relation to the speed and steering angle, as well as vehicle structure. The proposed propulsion system consists of two permanent magnet synchronous machines that ensure the drive of the two back driving wheels. The proposed control structure called independent machines for speed control allows the achievement of an electronic differential which ensures the control of the vehicle behaviour on the road. It also allows to control, independently, every driving wheel to turn at different speeds in any curve. Analysis and simulation results of the proposed system are presented in this paper.展开更多
针对利用永磁同步电机驱动电源进行性能检测和功率评估,并使用实际永磁同步电机作为驱动负载进行试验时,存在的试验平台设计复杂、能耗高、参数不易调节等问题,研究了基于电子负载的永磁同步电机模拟系统的实现.采用StarSim软件搭建运行...针对利用永磁同步电机驱动电源进行性能检测和功率评估,并使用实际永磁同步电机作为驱动负载进行试验时,存在的试验平台设计复杂、能耗高、参数不易调节等问题,研究了基于电子负载的永磁同步电机模拟系统的实现.采用StarSim软件搭建运行在NI实时仿真器中的主电路模型,并利用DSP控制器实现对电机模型与模拟电流的控制,从而建立永磁同步电机模拟系统.为了分析系统可行性,对该模拟系统进行硬件在环(Hardware in the Loop,HIL)仿真试验,结果表明:该永磁同步电机模拟系统真实地反映了实际电机的电气特性,使用该系统替代真实电机对驱动电源进行性能检测和功率评估时,具有设计简单、绿色节能、参数便于调节等优点.展开更多
基金Aeronautical Science Emphasis foundation of China( 98Z5 2 0 0 1) Delta Power Electronics Science &Education DevelopmentF und
文摘The direct torque control theory has achieved great success in the control ofinduction motors. However, in the DTC drive system of Permanent Magnet Synchronous Machine (PMSM)proposed a few years ago, there are many basic theoretical problems that must be clarified. Thispaper describes an investigation about the effect of the zero voltage space vectors in the DTCsystem of PMSM and points out that if using the zero voltage space vectors rationally, not only canthe DTC system be driven successfully but also the torque ripple is reduced and the performance ofthe system is improved. This paper also studies the sensorless technique in the DTC system of PMSMand configures the DTC system of PMSM with sensorless technique including zero voltage spacevectors. Numerical simulations and experimental tests have proved the theory correct. In thecondition of sensor-less, the DTC system of PMSM is wide-rangely speed adjusting, and the ratio ofspeed adjustment is 1: 100.
文摘This paper presents a simple sliding mode control strategy used for an electronic differential system for electric vehicle with two independent wheel drives. When a vehicle drives along a curved road lane, the speed of the inner wheel has to be different from that of the outer wheel in order to prevent the vehicle from vibrating and travelling an unsteady path. Because each wheel of this electrical vehicle has independent driving force, an electrical differential system is required to replace a gear differential system. However, it is difficult to analyse the nonlinear behaviour of the differential system in relation to the speed and steering angle, as well as vehicle structure. The proposed propulsion system consists of two permanent magnet synchronous machines that ensure the drive of the two back driving wheels. The proposed control structure called independent machines for speed control allows the achievement of an electronic differential which ensures the control of the vehicle behaviour on the road. It also allows to control, independently, every driving wheel to turn at different speeds in any curve. Analysis and simulation results of the proposed system are presented in this paper.
文摘针对利用永磁同步电机驱动电源进行性能检测和功率评估,并使用实际永磁同步电机作为驱动负载进行试验时,存在的试验平台设计复杂、能耗高、参数不易调节等问题,研究了基于电子负载的永磁同步电机模拟系统的实现.采用StarSim软件搭建运行在NI实时仿真器中的主电路模型,并利用DSP控制器实现对电机模型与模拟电流的控制,从而建立永磁同步电机模拟系统.为了分析系统可行性,对该模拟系统进行硬件在环(Hardware in the Loop,HIL)仿真试验,结果表明:该永磁同步电机模拟系统真实地反映了实际电机的电气特性,使用该系统替代真实电机对驱动电源进行性能检测和功率评估时,具有设计简单、绿色节能、参数便于调节等优点.