1) magnetic vector potential method
矢量磁位法
2) magnetic vector potential
矢量磁位
1.
The fast multipole method(FMM) is introduced to solve the magnetic vector potential in 3-D electromagnetoquasistatic field.
将快速多极算法(FMM)应用于三维准静态电磁场矢量磁位的求解,首先根据计算精度的要求把连续分布的场源进行离散化处理,然后通过静电类比分析,将求解三维准静态矢量磁位的问题转化为多体问题,进而利用快速多极方法来计算三维空间中载流导体产生的矢量磁位,可以将计算量由O(N2)降低为O(N)次运算,大大提高了计算速度。
2.
A finite element method(FEM) model of a clap relay under the incident uniform magnetic field from all directions was proposed,and a magnetic vector potential(MVP) method was employed to analy.
该文针对以往电磁继电器生产厂家一直没有给出继电器产品的电磁兼容性指标问题,建立了电磁继电器在不同方向恒定磁场干扰下的矢量磁位有限元数学模型,并采用ANSYS软件分析给出了电磁继电器对空间磁干扰的最敏感方向,研究了该敏感方向下恒定干扰磁场B的大小与继电器静态特性的配合关系的影响规律,研究了干扰磁场对继电器吸合电压、释放电压以及继电器衔铁所受力矩等静态特性参数的影响。
3) vector potential
矢量磁位
1.
An analytical solution to the vector potential is presented in this paper, which is produced by arbitrary shape eddy-current probes above conducting slabs.
提出了一种求解任意形状线圈位于平板导体上方时矢量磁位的解析方法。
2.
Based on the electromagnetic induction law, Biot-Savart law and the numerical integration arithmetic, the vector potential of the busbar was calculated and the electromotive force of the planar coil for the single phase and three-phase busbar current was deduced.
根据电磁感应定律和毕奥–萨伐尔定律,运用数值积分算法,求解出汇流排导体矢量磁位,并推导了测量单相和三相汇流排导体电流时直线型线圈的输出表达式。
3.
In this paper, the boundary value problem of the magnetic vector potential is derived by use of the character of the axisymmetrical electromagnetic field.
利用轴对称电磁场的性质得到了以矢量磁位为求解对象的边值问题。
4) Magnetic potential vector
磁位矢量
5) vector magnetic potential
矢量磁位
1.
The vector magnetic potential A is calculated by the theoretic model.
此模型是关于矢量磁位 A 的方程,求解该方程,可得到公共磁通和漏磁通的磁场分界线。
6) A-φ method
复矢量磁位-复标量位法
补充资料:矢量
即“向量①”(51页)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条