交流电机变频调速中矢量控制与直接转矩控制的研究

随着交流电机在现代社会生产中的广泛应用,三相交流异步交流调速控制系统成为研究的热点,各种各样的变频调速方案相继出现,作为当前两种主要的交流电机变频控制方法,矢量控制和直接转机控制在实际中得到广泛的应用。本文以矢量控制与直接转矩控制比较为核心,对二者的控制原理、特性以及应用进行了分析与比较。同时,在分析的直接转矩控制原理的基础上,基于Simulink环境下对直接转矩控制系统进行仿真模型的搭建,并得到相应的仿真图象。     

采用模糊逻辑修正的SRM滑模控制器设计

针对开关磁阻电动机输出转矩脉动问题,提出了一种基于模糊逻辑修正的滑模转矩脉动最小化控制方法;采用数学解析方法对有限元分析的电感数据进行处理,从而建立电机的非线性模型,并详细分析了转矩脉动机理;设计了基于滑模变结构的电机瞬时转矩控制器,并采用模糊逻辑修正模块对关断角进行实时补偿控制;仿真结果表明,与PI定角度控制及滑模控制相比,转矩脉动系数分别减小了24.7%和15.1%,提升了高转速时的电机动态性能。     

基于ANSYS的直流励磁电机电磁场分析与计算

应用有限元数值分析软件（ANSYS）对直流串励电机内部电磁场进行分析计算,获得电动机负载运行时的电枢反应磁场,并通过ANSYS的后处理功能得到负载运行气隙磁密分布图,在此基础上对直流励磁电机的电磁转矩进行了分析计算,通过样机实验验证了计算结果,证明了理论分析的正确性。为直流励磁电机的性能分析及设计提供了一定的参考。     

固有频率和阻尼度的测试方法研究

文章介绍了阶跃激励法、正弦激励法、脉冲激励法三种动态扭矩计量测试方法,并对不同时间做的两次试验进行了对比,得出的数据相差在3%以内,证明了上述动态特性的测试方法具有重复性和追溯性,可用作扭矩传感器动态特性的测试。     

BLDCM新型滑模观测器的无位置传感器控制

针对传统滑模观测器(SMO)抖振和相位延迟问题,提出了一种新型滑模观测器来获取无刷直流电机(BLDCM)反电动势(back-EMF),无需额外增加低通滤波器即能得到光滑的反电动势估计值.由反电动势估计值能够直接计算出转子位置角和转速.根据转子位置角和滞环控制器的输出来选择适当的电压空间矢量,实现无位置传感器控制,并根据转速和反电动势估计值计算转矩.最后,将该滑模观测器用于无磁链环直接转矩控制(DTC)中.实验结果验证了方案的可行性.     

异步电机反馈线性化二阶滑模定子磁链观测器设计

为了提高异步电机定子磁链的观测精度,提出了基于反馈线性化的二阶滑模磁链观测方法,设计了定子磁链观测器,并应用到异步电机直接转矩控制中.为更准确的观测磁链,选取转子磁链为系统输出,运用微分几何理论将异步电机系统的输入/输出线性化,得到以转子磁链为输出的异步电机反馈线性化模型.在此基础上设计基于Super-twisting算法的二阶滑模转子磁链观测器,实现对转子磁链的准确估算,并对所设计的观测器进行稳定性分析.然后再利用转子磁链与定子磁链的关系,估算出定子磁链.将该观测器用于异步电机直接转矩控制中,达到了很好的控制效果.仿真与实验结果验证了该方法的可行性和有效性.     

液态肥扭力靶式流量计的研制及试验研究

为了实时检测液态肥变量施肥系统中排肥口的流量,研制了一种液态肥扭力靶式流量计.采用力-扭力管-应变电压的转换方式设计了流量计结构,建立了流量与应变电压的数学模型;采用FLUENT软件分析了不同靶片形状和不同直径比对扭力靶式流量计性能的影响;制作样机并对扭力靶式流量计的性能进行了校验实验.实验结果表明,该扭力靶式流量计测量结果稳定可靠,可测流量范围为0.2m3/h~3.9m3/h,误差小于2.0%FS.满足液态肥变量施肥系统中流量测量的要求.     

液力变矩器控制系统的特性与应用

液力控制技术是近年来发展起来的一个新的技术领域。文章阐述了液力变矩器控制系统目前实用的几种组成方法和特性 ,这有助于设计液力控制系统并拓展其应用领域。     

Isokinetic strength characteristics in wrist flexion and extension

A laboratory experiment was conducted to measure strength characteristics in dynamic (isokinetic) wrist flexion and extension. Twenty four college-age males exerted their maximum torque in both concentric flexion and extension at 60, 120, and 180°/s of angular velocity through a ±60° range of deviation from wrist neutral. Results show that velocity and motion direction significantly effected both peak torque as well as the postural displacement of peak torque. The value of peak torque decreased with an increase in velocity and the wrist angle at peak torque generally moved to a more deviated, flexed posture (from neutral) with increasing velocity as well. Peak torque for all velocity and motion-type conditions tested occurred in a flexed posture relative to neutral. It is anticipated that these results may be of use as biomechanically based considerations in the evaluation and design of upper extremity tasks involving wrist flexion/extension as well as to perhaps give insight into functional characteristics of the wrist. Finally, regression equations were developed to aid in the prediction of peak torque based upon task, individual and/or population parameters.

Relevance to industry

Results from this study should enhance the overall understanding of wrist functioning. Specifically, motion type, velocity of movement and wrist posture are important ergonomic design considerations. These results can also be used to modify existing biomechanical models that do not consider wrist variables.     

Control of three-link underactuated manipulators using a switching method of fuzzy energy regions

In general, manipulators used for industry and in academic laboratories have actuators to drive each joint. On the other hand, underactuated manipulators handled by our research have some passive or free joints without actuators and brakes. We recently developed a switching method of fuzzy energy regions to control such manipulators. In such a method, it is necessary to design parameters related to energy regions and the gains of some partly stable controllers based on the computed torque method. Here, the switching method is applied for a three-link underactuated manipulator. We optimize such design parameters related to fuzzy energy regions by a genetic algorithm. The effectiveness of the present method is illustrated with some simulations. This work was presented in part at the 12th International Symposium on Artificial Life and Robotics, Oita, Japan, January 25–27, 2007