给出了驱动线圈和偏置线圈结构参数的计算方法。
The method of calculation of the bias and driven solenoid coil structure parameters is given.
因此,必须从线圈的绝缘强度、机械强度、耐热性能、转换效率等方面综合考虑,进行线圈结构参数优化。
Therefore it must be taken into account from the coil strength, mechanical strength, heat resistance and conversion efficiency etc, for the optimization of the coils 'structure and parameters.
在磁刺激激活函数达到阈值条件下,调整平面螺旋线圈的结构并计算出依赖于线圈结构参数的输出性能值,从而,寻找最优的线圈几何参数。
With the activating function at stimulating threshold, an optimal coil is searched by adjusting the coil structure parameters and computing the corresponding coil output.
对比原始均匀压力线圈,验证结构参数优化后疲劳寿命有所提高。
Original uniform pressure on the coil compared to verify the optimized structural parameters of the fatigue life increased.
分析了增强织物的取向、组织结构、线圈形态、几何与结构参数等因素对拉伸与弯曲性能的影响。
The effects of fabric orientation, stitch structure, loop shape and geometrical parameters on the tensile and flexural properties are analyzed.
介绍机床改装原理、结构和技术参数,对电磁感应器磁路及电磁线圈参数进行了有关的计算。
Introducing the principle, construction and technological parameters of machine tool changement. This paper calculates some design data such as electro-magnetic induction circuit and coil.
电磁结构设计中,采用电磁场解析计算进行初步设计,进而采用有限元法对致动器的结构和线圈参数进行进一步的分析与优化。
The magnetic circuit structure of actuator is designed by analysis method. The structure and parameters are analyzed and optimized by electromagnetic field FEM.
电磁结构设计中,采用电磁场解析计算进行初步设计,进而采用有限元法对致动器的结构和线圈参数进行进一步的分析与优化。
The magnetic circuit structure of actuator is designed by analysis method. The structure and parameters are analyzed and optimized by electromagnetic field FEM.
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