Indirect Vector Control of Linear Induction Motors Using Space Vector Pulse Width Modulation

Vector control schemes have recently been used to drive linear induction motors(LIM)in high-performance applications.This trend promotes the development of precise and efficient control schemes for individual motors.This research aims to present a novel framework for speed and thrust force control of LIM using space vector pulse width modulation(SVPWM)inverters.The framework under consideration is developed in four stages.To begin,MATLAB Simulink was used to develop a detailed mathematical and electromechanical dynamicmodel.The research presents a modified SVPWM inverter control scheme.By tuning the proportional-integral(PI)controller with a transfer function,optimized values for the PI controller are derived.All the subsystems mentioned above are integrated to create a robust simulation of the LIM’s precise speed and thrust force control scheme.The reference speed values were chosen to evaluate the performance of the respective system,and the developed system’s response was verified using various data sets.For the low-speed range,a reference value of 10m/s is used,while a reference value of 100 m/s is used for the high-speed range.The speed output response indicates that themotor reached reference speed in amatter of seconds,as the delay time is between 8 and 10 s.The maximum amplitude of thrust achieved is less than 400N,demonstrating the controller’s capability to control a high-speed LIM with minimal thrust ripple.Due to the controlled speed range,the developed system is highly recommended for low-speed and high-speed and heavy-duty traction applications.

Realization of Space Vector Pulse Width Modulation Method Based on DSP

In order to compensate for the deficiency of Sine Pulse Width Modulation（SPWM）, on the base of analyzing the principle of space w tot pulse width modulation and being compared with SPWM, the method of solving working time of adjacent vector and the method of generate space voltage vector were introduced. The experiment to the inverter which consists of IGBT proves that SVPWM centrol algorithm can reduce harmonic effectively, it is beneficial to enhancing the utilization rate of voltage source inverter direct current power supply.

基于虚拟电压矢量的双三相直线磁通切换永磁电机容错SVPWM策略

高可靠性是电梯驱动系统的首要指标。针对双三相直线磁通切换永磁(dual-three-phase linear flux switching permanent magnet,DTP-LFSPM)电机单相开路故障,提出一种基于虚拟电压矢量的容错空间矢量脉宽调制策略。首先,基于单相开路故障下的五维变换矩阵计算得到故障后的32个空间电压矢量分布。然后,筛选部分空间电压矢量,以z子空间电压幅值为零且每个扇区产生对称的脉宽调制波形为目标,重构得到12个虚拟电压矢量,相邻的2个虚拟电压矢量都由3个基本电压矢量组成,并用于合成参考电压矢量,不仅可以减少单相开路故障容错控制时的电流谐波,而且具有计算简单,易于硬件实现等优点。最后,搭建DTP-LFSPM电机驱动控制系统仿真与实验平台,仿真和实验测试结果证明所提容错策略的正确性和有效性。

抑制级联H 桥变换器共模电压的简化SVPWM 策略

为解决传统空间矢量调制策略难以拓展至高电平数级联H桥多电平变换器,以及抑制级联H桥多电平变换器调制策略实现过程中产生的共模电压的问题,本文提出一种简化空间矢量调制策略。该策略基于α'β'坐标系,通过判断空间矢量所处区域,得出其边界开关状态,再引入修正参数K对边界开关状态进行修正,以此提高策略的快速性并完成共模电压抑制。仿真和实验结果表明该策略实现简单,可以将级联H桥多电平变换器共模电压抑制在最小变化范围内。

基于SVPWM调制策略的T型三电平逆变器研究

针对T型三电平逆变器在新能源发电领域的广泛应用,分析了T型三电平逆变器的结构和工作原理,阐述了空间矢量脉冲宽度调制(SVPWM)策略的思想,详细介绍了参考电压矢量位置判断、基本矢量作用时间计算和基本矢量作用时序生成三个步骤的实现方法.借助Matlab/Simulink软件搭建了基于SVPWM调制策略的T型三电平逆变器的仿真模型,仿真结果验证了仿真模型的正确性和SVPWM调制策略的有效性.

Research of the Unity Theory Between Three-level Space Vector and Carrier-based PWM Modulation Strategy

两电平空间矢量脉宽调制（space vector pulse widthmodulation,SVPWM）与正弦脉宽调制（sinusoidal pulse widthmodulation,SPWM）存有一定的本质关系,对于三电平,在常见的8段式SVPWM序列中可以证明,SVPWM与SPWM本质上也存在某种统一。实际的SVPWM调制中,由于要考虑中点电压平衡、减少谐波等其它性能问题,一般会利用开关冗余状态得到8段以上的开关调制序列。目前的文献中还未曾有对这些情况进行统一性地验证,因此三电平SVPWM与SPWM的统一理论存在一定的不足。研究发现,可通过严格地理论推导将传统意义上的调制波分解为2个子调制波,再进行SPWM调制,可以得到与SVPWM完全吻合的序列。该文在此方法基础上深入研究了8段以上（10、12、14段）的SVPWM调制序列与SPWM的统一。经过严格地理论推导,成功实现了含任意段数的SVPWM序列与SPWM的统一。仿真结果证明了该理论的正确性。

基于SVPWM补偿优化的三电平NPC并网逆变器容错控制

为保证并网系统中三电平中点箝位(neutral point clamped,NPC)型并网逆变器单相桥臂短路或断路故障后持续运行,提出一种基于空间矢量脉宽调制(space vector pulse width modulation,SVPWM)的优化补偿型低共模电压容错控制策略。首先,通过分析故障后八开关三相逆变器(eight switch three phase inverters,ESTPI)拓扑开关状态对应的共模电压大小,确定参考电压矢量合成规则;然后,通过一个基波周期内中点电流情况分析中点电位波动机理,进而对空间矢量合成进行调节补偿;最后,设计低通滤波器和滞环控制器进一步对补偿进行优化调整,保证并网电流质量的同时有效抑制了直流母线中点电位偏移。仿真结果表明,该容错控制策略能够实现三电平NPC并网逆变器单相桥臂故障后并网系统的稳定可靠运行,每个基波周期有三分之一时间的共模电压得到改善,优化补偿后的并网电流质量显著提高,且在并网电流突变时具备良好的控制特性。

基于SVPWM的永磁同步电机矢量控制方法研究

随着伺服电机在工业自动化领域中的应用,针对伺服电机矢量控制系统运行稳定问题,研究两电平空间矢量脉宽调制(SVPWM)算法,建立基于转速环和电流环PI调节器的双闭环永磁同步电机矢量控制模型,在系统转速环设计一阶自抗扰控制器(ADRC),对该电机矢量控制方式进行优化。通过三相PWM波形在空载和负载情况下的脉冲宽度,电机转速以及转矩变化来对该永磁同步控制系统进行验证。仿真结果表明:优化后的永磁同步电机矢量控制方案能够有效提高响应速度和控制精度。

基于SVPWM算法的三电平矿用变频器的研究与仿真

随着电力电子技术的快速发展,大功率变频器在煤矿生产中得到了广泛应用。为了进一步提高变频器的节能和调速性能,在传统的三电平PWM的技术上,提出以一种空间矢量脉宽调制新算法的三电平逆变器模型,极大地简化了计算过程,减少了设备运行时的电能损耗。文章以三电平矿用变频器为目标,详细分析了SVPWM算法的调制过程,并基于理论分析的基础在MATLAB仿真软件中搭建了系统模型。

dSPACE电机控制平台设计与SVPWM矢量控制实现

以d SPACE半实物实时仿真系统为基础,利用d SPACE与MATLAB/Simulink可以实现无缝链接的优势,将离线仿真模型通过试验进行快速验证,提高电机控制系统开发效率,缩短项目开发周期。介绍了d SPACE标准组件系统的软硬件环境,完成基于d SPACE电机控制试验平台的设计。最后在此平台上实现永磁同步电机SVPWM矢量控制,验证了d SPACE电机控制试验平台进行控制算法开发的高效性。

SVPWM逆变器供电时FSCW-PMSM损耗特性研究

为探究空间矢量脉宽调制(space vector pulse width modulation,SVPWM)逆变器引入的时间谐波电流对分数槽集中绕组永磁同步电机(fractional-slot concentrated-winding permanent magnet synchronous machine,FSCW-PMSM)损耗特性的影响,文中提出一种SVPWM逆变器与FSCW-PMSM联合系统中电机损耗谐波特性分析方法。首先,理论分析了考虑时间谐波电流时电机损耗的时空谐波特性。其次,以一台三相双层绕组10极12槽PMSM为例,搭建电机与SVPWM逆变器的场路联合仿真模型,求解样机在恒转矩和恒功率调速时损耗的谐波特性,揭示各谐波损耗的产生机理。结果表明:转子谐波损耗由基波电流与次谐波、iZ±p次齿谐波和(f_(c)±4 f)/f、(f_(c)±2 f)/f次时间谐波电流与p、Z±p次空间谐波引起;定子铁芯谐波损耗由基波磁场、谐波励磁磁场及(f_(c)±4 f)/f、(f_(c)±2 f)/f次时间谐波电流引起。该结论适用于其他极槽组合的FSCW-PMSM。最后,通过实验验证了该分析方法的有效性。

基于优化的VSVPWM三电平NPC逆变器控制策略

针对中点箝位(NPC:Neutral-Point-Clamped)型三电平逆变器直流侧上下两个电容电压不一致,以及传统的空间矢量脉宽调制(SVPWM:Spatial Vector Pulse Width Modulation)虽然可在一定的调制度范围内解决两个电容电压不一致,但在较大的调制比下中点电位无法维持平衡的问题,在传统SVPWM和虚拟空间矢量脉宽调制(VSVPWM:Virtual Space Vector Pulse Width Modulation)的基础上优化控制方法。该方法依据电流的流向对不同的正、负小矢量采用不同大小的平衡因子,同时根据中点电位差值,引入电压调差系数,并在此基础上与无差拍控制相结合。该闭环控制策略利用中点电位差值与逆变器三相电流输出值作为反馈量调整输出波形,抑制中点电位。仿真结果表明,该方法在三电平逆变器调制度较高时仍然可以维持直流侧中点电位的平衡,证明了控制策略的正确性和有效性。

基于SVPWM的PMSM模糊PI-DTC控制研究

为了解决在直接转矩控制(DTC)下永磁同步电机(PMSM)出现的转矩波动大、定子磁链和电流失真严重等问题,提出基于空间电压矢量控制的改进型PMSM模糊PI-DTC控制方法。用电压空间矢量脉宽调制(SVPWM)代替传统DTC的开关表搜索模块,并对PI调节器引入模糊规则在线整定参数,从而得到合适的空间电压矢量,进一步改善电机性能。仿真结果表明:基于SVPWM的PMSM模糊PI-DTC控制技术使得电机启动转矩增大到28.97 N·m,电机启动速度更快,上升时刻缩短,转速跟踪的超调量减为0.51%,极大地提高了跟踪精度,并能显著改善电流畸变和抑制转矩脉动。

基于双分频带的新型随机开关频率SVPWM策略

传统固定开关频率空间矢量脉宽调制(space vector pulse width modulation,SVPWM)技术导致的高次谐波使得电驱动系统电磁干扰问题较为严重,随机开关频率(random switching frequency,RSF)-SVPWM可用于改善此类现象。文中阐述了SVPWM技术与RSF-SVPWM技术的原理,探讨了RSF-SVPWM策略中扩频范围增大对系统的影响。为在扩频范围较小时仍能达到很好的高次谐波分散效果,提出一种基于双分频带的新型RSF-SVPWM策略。该策略以原中心开关频率为中点划分2个局部分频带,设置各自的局部中心频率点与扩频范围;以两相静止坐标系下理想β轴电压分量正负为标准,判断每一开关周期所属具体分频带后,使得开关频率围绕该分频带中的局部中心频率点进行各自的随机化。仿真与实验结果表明,该新型RSF-SVPWM策略相比于较大扩频范围的传统RSF-SVPWM策略,高次谐波分散效果相当,同时可降低系统电流环脉动,使得输出电磁转矩较为平稳,有助于推进电驱动系统在高端行业领域中的应用。

3H桥开关次数均衡死区消除SVPWM

针对死区时间引起H桥拓扑各桥臂输出电压波形偏离给定参考电压的问题,根据一个开关周期内调制波与输出电流极性提出了具有12种导通状态的新型开关方式。基于新型开关方式提出了3H桥开关次数均匀分布死区消除SVPWM方案。以三相感应电机作为负载,推导出采用死区消除SVPWM后,在输出电流过零处工频与高频工作桥臂具有的天然死区时间。MCU输出各桥臂上下开关管相位互差180°SVPWM信号以及表征调制波与输出电流极性的电平信号,而后信号经FPGA处理后获得死区消除SVPWM信号。实验结果中给出了在相同参考电压下,采用死区消除SVPWM时输出电压最大偏离给定电压在1.3%左右,而采用有死区SVPWM时最大偏离给定电压在23%左右。由此可见,由MCU与FPGA相结合的数字系统能够很好地实现开关次数均衡死区消除SVPWM策略。

五电平有源钳位型变换器SVPWM死区效应分析与补偿方法研究

针对五电平有源钳位型变换器SVPWM调制的死区时间会导致跨电平跳变电压尖峰,产生过高的dv/dt影响系统稳定性的问题,提出一种不影响SVPWM调制效果的死区跨电平跳变补偿方法。首先对死区寄生模态导致电压误差的产生原理进行分析,列举了所有跳变过程中寄生电流的导通路径,采用在特定参考电压限定开关模态、筛选开关序列和脉冲调整等方法,重新规划电流导通过程,分类消除了跨电平跳变现象。最后搭建了实验样机,通过仿真和实验的手段对补偿方法进行了验证,对相同条件下的实验结果进行快速傅里叶对比分析,证明提出的死区补偿方法对输出电压谐波含量只产生了0.51%的微弱影响,且能有效消除跨电平跳变电压尖峰,表明该方法能维持五电平SVPWM良好的调制效果的同时,消除跨电平跳变隐患。

Improved VSVPWM Modulation Method for Three-level NPC Inverter in Rural Power Grid

With the acceleration of agricultural electrification,a lot of nonlinear and shock loads appear in the rural power grid,and the resulting harmonic and reactive currents pollute the rural power grid more and more seriously.To solve the above problem,three-level neutral point clamped(NPC)inverters have been widely used,but their development is greatly restricted by the defect of neutral point voltage imbalance.In this paper,an improved virtual space vector pulse width modulation(VSVPWM)was proposed.Firstly,the mathematical models of various space vectors were established,and the influence of various space vectors on neutral point voltage was analyzed.The sum of the vector current at the neutral point was zero and the voltage control at the neutral point was completed by.introducing the time offset into different switching times of the redundant small vector.This method was simple in design and avoided the redundant calculation of the traditional VSVPWM method and tedious switch sequence design.This balancing control strategy could greatly reduce the influence of virtual vectors on neutral point voltage and effectively control the low-frequency oscillation of neutral point voltage.The validity of the method was verified by establishing a matlab simulation model.

六相开绕组永磁同步电机通四相SVPWM控制方法

针对六相均匀分布的开绕组永磁同步电机(PMSM),此处提供了一种新的空间矢量脉宽调制(SVPWM)策略,即六相通四相的SVPWM策略。其调制信号不再是马鞍波,而且每个扇区内只有四相处于工作状态,这样就明显地减少了功率管的开关次数。与传统的SVPWM策略相比,其改进了扇区判断的计算并去掉了作用时间的计算,所以计算简单快速,程序运行时间缩短10%左右,因此系统效率提高了2%;而且一个控制周期功率管开关动作减少30%,因此其开关损耗同样降低了30%,且总谐波失真只有15.11%。最后,在实验台上验证了该新型SVPWM策略的正确性和有效性。

An Improved Hybrid Space Vector PWM Technique for IM Drives

In this paper, an improved hybrid space vector pulse width modulation (HSVPWM) technique is proposed for IM (induction motor) drives. The basic principle involved in the proposed random pulse width modulation (RPWM) cuddled SVPWM is amalgamating the pre-calculated switching timings for various sections of hexagonal space vector boundary and the random selection of carrier between two triangular signals, in order to disband acoustic switching noise spectrum with improved fundamental component. The arbitrary selection between triangular carriers, which is decided by digital signal states (Low or High) of the linear feedback shift register (LFSR) based pseudo random binary sequence (PRBS) generator. The SVPWM offers a control degree of freedom in terms of positioning of vectors inside every sampling interval and hence it has six possible variants of the voltage vectors arrangements in each sector. The developed HSVPWM is thoroughly analyzed in using the MATLAB? based simulation for all SVPWM variants. From the simulation and experimental results viz. harmonic spectrum, harmonic spread factor (HSF), total harmonic distortion (THD) etc., and the superiority of the proposed scheme such as better utilization of DC bus and the randomization of the harmonic power are evidenced. For the practical implementation, Xilinx XC3S500E FPGA device has been used.

九开关变换器驱动的双Y移30°永磁同步电机SVPWM算法

在双Y移30°永磁同步电机电压矢量的基础上,提出一种九开关变换器SVPWM算法。该算法相比于十二开关变换器最大四矢量SVPWM算法,不仅减少3个开关管,而且降低了开关损耗。针对九开关变换器采样周期过快,会导致直流侧母线电压短路的缺点,提出死区调制策略。仿真结果表明,该算法能够有效地应用于双Y移30°永磁同步电机。