基于大型电力系统分析软件NETOMAC,提出了机电暂态和电磁暂态混合时域仿真法。
A hybrid time-domain simulation method integrating electromagnetic transient simulation and electromechanical transient simulation based on large power system analysis software NETOMAC is proposed.
阐述了输电线电磁暂态仿真在现代电力系统分析中的作用和意义,对研究内容和方法进行了介绍。
The function and significance of electromagnetic transients simulation for transmission line in modern power system are clarified and the research contents and methods are introduced.
其次,以前步分析结果为基础,采用“场路混合法”对迎击式交流接触器电磁机构的动特性进行了仿真。
Secondly, on the basis of previous analysis results, this paper makes a emulation program of electromagnetic mechanism dynamic characteristics, combining with the magnetic circuit method.
介绍了一种新型的聚酰亚胺(PI)悬臂梁式电磁驱动微机电系统(MEMS)光开关,并对其总体结构进行了设计与仿真分析。
A new polyimide (PI) -cantilever MEMS optical switch of electromagnetic actuation is proposed, and the structure of the optical switch is designed and simulated.
对计算机并行处理技术在电磁暂态仿真计算中的应用进行了初步分析,并描绘了一种适合于并行计算的算法。
This paper presents a basic analysis on the application of electro magnetic transient simulation with computer parallel processing technique and describes an algorithm of parallel processing.
本文将直流偏磁现象与电磁场计算有机地结合在一起,对变压器在不同直流偏磁下的运行性能做了仿真和分析。
The phenomenon of DC magnetic bias analysis and electromagnetic field calculating are combined in this paper and the running performance is simulated with different magnetic bias DC.
基于电磁感应原理和仿真分析结果,设计和制作了感应线圈型电磁发射器模型。
Based on electromagnetic induction principle and result of magnetic field simulation, a model of induction coil launcher with control turn-on time is analyzed and designed.
然后基于实验研究,并结合三维全波电磁仿真软件在频域和时域对通孔结构性能进行分析。
And then, based on experiments and combined with three-dimensional full-wave electromagnetic simulation software, the frequency domain and time domain performance of the through-hole via is analyzed.
灵活的应用各种电磁场分析方法,使仿真结果与测试结果一致性更好,以方便工程设计。
Using several analysis methods of electromagnetic field, which makes the simulation results have good agreement with the test results, the engineering design is convenient.
简单介绍了电磁作动器的数学模型,通过仿真分析与试验分析了解了作动器的作动特性。
The mathematic model of electromagnetic actuator was introduced briefly, and the performance of actuator was understanded with simulation analysis and test analysis.
本文还建立了此闭环控制系统的数学模型,通过数字仿真分析了其动态特性,探讨了控制器参数对转子运动的控制效果以及与电磁轴承动刚度之间的变化关系。
Also this closed loop controlled system is modelled and its dynamic behaviors are analyzed by digital simulation. The influence of controller parameters on motion of the rotor and th...
其次,电机参数是仿真研究电机运行特性的基础,为了准确计算该种电机的电磁参数,对轴向分段式外永磁转子爪极电机进行了磁场分析。
Secondly, parameters of electric machine are research foundation of operating characteristics, in order to acquire the parameters of ASCPM correctly, magnetic analysis about ASCPM is done.
利用商用三维电磁场分析软件HFSS对集成化低噪声放大器组装和互连中的关键参数进行了仿真和优化。
Some critical parameters of packaging and interconnection of the integrated LNA were simulated and optimized by using commercial 3d electromagnetic field analysis software HFSS.
能实现线缆在系统环境下受到电磁辐照时的线缆感应电压和电流的仿真分析(RS分析)。
Can carry out simulation and analysis (RS analysis) on cable's induction voltage and current when the cable is under electromagnetic irradiation under system condition.
根据电磁场在包层边界应满足的基本关系,建立了描述其带隙结构的特征方程,给出了特征方程迭代求解的算法描述,为电磁波传播特性数值仿真分析提供了理论基础。
With the boundary conditions satisfied by the electromagnetic fields in the interface between the crystal and the clad, the characteristic equation to describe the band gap structure is deduced.
在介绍有限元法理论的基础上,应用ANSYS有限元分析软件,对电机进行2D电磁场仿真分析,验证了径向悬浮力产生的原理;
Based on the principle of the Finite Element, 2D magnetic fields are analyzed to validate the principle of radial suspension forces generated by the finite element ANSYS software.
为了使系统获得更高的图像分辨率,通过电磁场有限元仿真软件COMSOL分析,构建ERT/ECT双模态敏感阵列电极三维模型。
In order to improve the image resolution of the system, a 3D model of ERT/ ECT dual-modality sensing electrode array was established by using the software COMSOL.
然后通过三维电磁场仿真,并结合微波电路理论对封装结构,特别是高频信号传输路径进行了优化设计,另外对盖板的效应进行了定性分析。
Then, package structure, especially the signal transmitting path structure is optimized using 3d electromagnetic simulation and microwave circuit theory. Effect of package lid is also studied.
然后通过三维电磁场仿真,并结合微波电路理论对封装结构,特别是高频信号传输路径进行了优化设计,另外对盖板的效应进行了定性分析。
Then, package structure, especially the signal transmitting path structure is optimized using 3d electromagnetic simulation and microwave circuit theory. Effect of package lid is also studied.
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