分析了模拟电极法,提出了一种测量变压器线圈冲击分布的方法即不插铁测量。
The simulated electrode method is analyst and a method for ~measuring impulse voltage distribution of transformer windings without core is built.
重点探讨了lh线圈的抗干扰方法及模拟开关阵列、积分器、直流检出器的电路结构。
The disturbance resistant of LH coil and the circuit structure of analogue electronic switching matrix, integrator, direct current detector are especially studied.
目的探讨0.3T永磁MRI系统中笼式线圈的计算机模拟和优化。
Objective To investigate the simulation and optimization of birdcage coil in the 0.3t Permanent Magnet MRI system.
驱动系统输出信号驱动一次仪表上的线圈工作,模拟了科里奥利力的产生条件。
The drive system outputs to drive magnetic loop on the primary instrument, accordingly simulate the work condition of Coriolis force.
其设计的基础上,而不是创建继电器特性的线圈和磁铁的模拟电子设备的使用。
Their design is based on the use of analogue electronic devices instead of coils and magnets to create the relay characteristic.
实验发现加热毕后停留时间、线圈的电流密度、试样形状等对模拟结果有很大影响。
The test showed that the simulated results were influenced greatly by the soak time after heating, the current density and the sample shape.
在此基础上,对不同截面形状绕线圈所产生的磁场分布进行了有限元模拟分析。
On the basis, the magnetic field distribution produced by coils with different section shapes was analyzed by finite element simulation.
模拟计算以及实验结果表明,在加载时内层线圈的温升是最高的从内向外线圈的温升逐渐减小。
Experiment and simulation show temperature of interior solenoid loop the highest and it decreases from the interior to the exterior of solenoid loop.
模拟计算以及实验结果表明,在加载时内层线圈的温升是最高的从内向外线圈的温升逐渐减小。
Experiment and simulation show temperature of interior solenoid loop the highest and it decreases from the interior to the exterior of solenoid loop.
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