给出一种解析方法求解在两种热载荷冲击作用下,正交各向异性圆柱体的动应力和磁场矢量扰动的集中效应。
The analytical expressions for the dynamic stresses and perturbation of magnetic field vector are obtained by means of a finite integral transform and Laplace transform.
通过三个矢量方程组,系统地归纳了小扰动理论应用于多排叶片时各待定系数的关联方程。
By means of a three vector equation system, the correlative equations of the undetermined parameters are thus deduced when the small disturbance theory is applied to multiple blade rows.
最后本文采用定子磁场定向的矢量控制策略,结合转速扰动功率观测的控制算法对转子侧进行了仿真验证。
Finally, simulating experiment for the whole system is carried through with the stator flux-oriented vector strategy and control arithmetic of rotor speed perturb and power observation.
本文提出了在交流矢量控制系统中设计线性状态观测器的新思路,并以此重构出负载扰动作前馈控制。
A novel idea of designing and applying linear state observer is presented in this paper to reconstruct the load disturbance for feed forward control in AC. vector control systems.
本文提出的矢量控制和扰动转矩观测器方法解决了电磁和力学耦合的问题。
The decoupling control of 3DOFM can be realized by vector control and disturbance torque observer.
最后,在感应电机矢量控制基础上,对其进行逆系统控制解耦性能、抗扰动性能和鲁棒性方面的仿真实验,证实了新型广义逆系统控制的有效性。
At last, the validity of new type of generalized inverse control is proved via simulations of decoupling performance, disturbance-rejection performance and robustness based on vector control.
最后,在感应电机矢量控制基础上,对其进行逆系统控制解耦性能、抗扰动性能和鲁棒性方面的仿真实验,证实了新型广义逆系统控制的有效性。
At last, the validity of new type of generalized inverse control is proved via simulations of decoupling performance, disturbance-rejection performance and robustness based on vector control.
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