介绍了单双层绕组的特点、应用情况及电磁计算的方法。
The features, applications and electromagnetic computing method of single and two layer winding were introduced.
该方法利用了“图形电磁计算(GRECO)”的新技术。
This method implements a new technique called "Graphical Electromagnetic Computing (GRECO)".
列出了部分规格的计算值与实测值,证实其电磁计算有较高的符合性。
It lists the computed value and tested value of some specification and shows that the electromagnetic calculation is reasonable.
然后根据等效磁路法编制了电磁计算程序,据此进行了电机的初始设计。
Then a program is developed on the theory of EMCM (equivalent magnetic circuit method) and it is used in the pre-design of the PMSG.
同时利用图形电磁计算( GRECO)方法实现对各向异性材料的曲面结构的电磁计算。
Numerical examples are shown to highlight the effects introduced by the anisotropic surface impedance. The method is realized by using the graphic electromagnetic computing (GRECO).
电磁计算部分,本文主要考虑了表面贡献、边缘贡献以及多次反射贡献三种最主要的散射机理。
In the part of EM calculation, three principal scattering mechanisms, including facet contribution, edge diffraction and multi-scattering, are studied in the dissertation.
进行同步电机参数及性能计算分析时,可以采用传统电磁计算方法,也可以应用场路结合算法。
Both conventional method and mutually related field-circuit algorithm can be used to calculate and analyze parameter and performance of synchronous electric machine.
图形电磁计算(GRECO)方法是计算复杂目标高频区雷达散射截面(RCS)的有效方法之一。
Graphical Electromagnetic computing (GRECO) is one of the valuable methods for computing the radar cross section (RCS) of complex radar target in high frequency region.
图形电磁计算(GRECO)方法是计算复杂目标高频区雷达散射截面(RCS)的有效方法之一。
Graphical Electromagnetic computing (GRECO) is one of the valuable method for computing the radar cross section (RCS) of complex radar target in high frequency region.
特别是上世纪90年代以后,由于计算电磁学理论的成熟,涌现出许多已经实现商用的电磁计算引擎程序。
Especially after 90s of last century, there come a lot of great commercial EM computing engines software for the development on the theory of computational electromagnetic.
在不同波段不同极化下,应用图形电磁计算(GRECO)法计算了某模型的高频雷达散射截面(RCS)。
At different wave band and polarization, the high frequency RCS of a model was computed with the graphical electromagnetic computing (GRECO) method.
结构设计作为电磁计算、控制系统设计和相关分析的基础,我们更有必要对磁力轴承结构虚拟设计进行深入研究。
The structure design is the foundation of electromagnetism calculation, control system's design and other analysis, so we should take much count of the virtual design of magnetic bearings' structure.
最后介绍了MLM的局限性和尚待解决的关键技术问题,并对MLM在电磁计算中的潜在研究课题和应用前景进行了展望。
At last, MLM's limitations and problems are gathered up, and the potential researching topics and prospects to use MLM in em field computation are proposed.
电磁脉冲概念是利用能量突然爆发来烧毁敌人的计算机和通信设备。
The idea is to use a blast of energy to fry the enemy's computers and telecommunications gear.
电磁脉冲概念是利用能量突然爆发来烧毁敌人的计算机和通信设备。
The idea is to use a blast of energy to fry the enemy’s computers and telecommunications gear.
“辐射强度的减弱是以毫米来计算的”微波新闻的编辑LouisSlesin这样说。该栏目是涵盖健康与安全问题的网络新闻栏目,其中一些话题涉及到电磁辐射。
"Every millimeter counts," said Louis Slesin, editor of Microwave news, an online newsletter covering health and safety issues related to exposure to electromagnetic radiation.
这种钟表通过电磁波的频率来计算时间,单位为百万分之一秒。
The clock measures the passage of time in millionths of a second by counting the frequency of electromagnetic waves.
使用直流电是产生静电磁场的另一个原因,例如铁路系统使用直流电,电视和计算机屏幕带有阴极放射管。
The use of DC electricity is another source of static electric fields, e.g. rail systems using DC, and televisions and computer screens with cathode ray tubes.
这台电磁式机器一直使用到1959年,然后就被遗弃在灰尘中,因为到了那个时期,首先使用电子管、接着晶体管、然后集成电路芯片的真正电子计算机先后问世。
The electromagnetic machine remained in use until 1959, by which time it was left in the dust by true electronic computers using first vacuum tubes, then transistors, then chips.
按ibm的说法,他们将使用三维天线采集太空高频电磁波,并将采集到的信号送往计算机进行分析。
IBM said in a statement that the data will be collected using antennae designed to monitor radio waves in three dimensions to sample high-frequency emissions from space.
最后进行了与摇摆机相结合的激振装置的设计,包括激振装置的结构设计、激振装置的动力学参数和电磁参数的设计与计算。
The process of design includes the structure design of the vibrating device and the calculation of kinetics parameters and electromagnetism parameters of the vibrating device.
每个机器人都由多个10cm大小的立方体组成。这些立方体具有同一的部件、互相连接或分离的电磁石和计算机复制程序。
Each robot consists of several 10 cm cubes which have identical machinery, electromagnets to attach and detach to each other and a computer program for replication.
通过对褶皱芯材结构的电磁屏蔽实验数据和计算公式所得结果作对比分析,评价了该种结构对屏蔽效能的有益影响。
The data via shield efficiency experiments and calculated by the formula are compared and the profitable effect on shield efficiency of the structure are also evaluated.
分析了复合材料微波检测中电磁参量、电磁波频率和介质薄片厚度的计算方法。
The computation methods of electromagnetism parameters, electromagnetic wave frequency and medium slice thickness in microwave measuring for composite material were analyzed.
这些电磁场的暴露估计由一种场强度预测程序来计算。
These exposure estimates were calculated with a field strength prediction program.
利用普通的数值分析原理计算电磁场中的问题的程序。
Use of the numerical analysis of the general principles calculation of electromagnetic field procedures.
利用积分方程方法以及半空间并矢格林函数的快速算法对埋地目标体矢量电磁散射进行正演计算。
Forward electromagnetic scattering by buried objects is computed with the integral equation method and efficient algorithm for half-space dyadic Green's functions.
利用积分方程方法以及半空间并矢格林函数的快速算法对埋地目标体矢量电磁散射进行正演计算。
Forward electromagnetic scattering by buried objects is computed with the integral equation method and efficient algorithm for half-space dyadic Green's functions.
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