输入脉冲形状对磁通调制混合电磁系统特性的影响

I. Yatchev, I. Balabozov, K. Hinov, I. Hadzhiev, V. Gueorgiev
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引用次数: 0

摘要

如今,材料和技术的加速发展和新材料的发现是改进各种设备中使用的已知电磁结构以及开发新结构的先决条件。研究了磁通调制混合电磁系统(HEMSMM)的新结构。结构由:带气隙的铁磁框架、输入输出线圈和永磁体组成。两个输入线圈连接到脉冲电源是用来改变永磁体的路径产生恒定的磁通量。在输入线圈上施加不同形状的输入脉冲,得到输出线圈中的信号并进行比较。这项工作的主要目的是找出输入脉冲的形状,使其输出功率比其他形状高。方法。采用有限元法和COMSOL软件对拟建结构进行计算机建模,并进行电磁场-电路耦合分析。结果。实现并研究了新型HEMSMM结构的三维数学和数值模型。该模型允许计算和比较不同形状的输入脉冲时所研究器件的功率效率。实用价值。所建立的计算机模型能够研究HEMSMM和其他电磁器件在不同工作模式下的工作情况。它可以进一步改进,并用于寻找特定电磁器件的最优参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the Shape of the Input Pulses on the Characteristics of Hybrid Electromagnetic System with Magnetic Flux Modulation
Nowadays, the accelerated development of materials and technologies and the finding of new ones is a prerequisite for the improvement of well-known electromagnetic constructions used in various devices, as well as for the development of new ones. New construction of hybrid electromagnetic system with magnetic flux modulation (HEMSMM) is studied. The construction is composed of: ferromagnetic frame with air gaps, input and output coils and permanent magnets. Two input coils connected to the pulsed power supply are used to change the path of the generated by the permanent magnets constant magnetic flux. Input pulses with different shapes are applied to the input coils and signals in the output coils are obtained and compared. The main purpose of the work is to find the shape of the input pulses which leads to higher output power in comparison with the other shapes. Methods. Finite element method and COMSOL software is used for computer modelling of the proposed construction, where coupled electromagnetic field – electric circuit analysis is carried out. Results. A mathematical and numerical 3D model of new HEMSMM construction is realised and studied. The model allows to calculate and compare power efficiency of the studied device, when input pulses with different shapes are applied. Practical value. The developed computer model enables the study of the HEMSMM and other electromagnetic devices at different operating modes. It can be further improved and used in the search for optimal parameters of a particular electromagnetic device.
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