通过微波暗室实验证明,所给补偿方法是正确的。
The experimental results of the compensation in microwave dark room are given. It is shown that the method presented is effective.
TLM方法也可以模拟在微波暗室里对天线阵的测量。
TLM method can also be used to simulate the measurement of antenna array in microwave anechoic room.
本文讨论了一个基于分布式、网络化的微波暗室运动平台控制系统。
The distributed network control system for the movement platform in the microwave darkroom is discussed in this paper.
为模拟电磁波在自由空间的传输状态,研制了用于生物医学工程研究的大型专用微波暗室。
To simulate transmission conditions of EM wave in free space, the biomedical microwave anechoic chamber used for biomedical engineering research was developed.
利用几何光学法和物理光学法,分析了带有双柱面紧缩场天线的微波暗室内的电磁场分布。
Using the Go and Po methods, the electromagnetic fields in a microwave anechoic chamber setting up a compact two-cylindrical antennas range are analysed in this paper.
本文介绍了用微波暗室法校准雷达测速仪的工作原理,并对校准系统进行了描述和误差分析。
This paper introduces the operation principle for the calibration of radar speedometer with a microwave anechoic chamber. A calibration system and its error analysis is described briefly.
在微波暗室静区反射电平计算时常采用点源发射模型模拟天线的特性,它适用于低频段或方向性差的天线。
In calculation of reflected level of quiet zone in anechoic chamber, a spot emission model is often used to simulate antennas characteristic.
通常在微波暗室中,BPFLD - X型吸波材料安装于暗室的拐角部位,起到遮挡金属表面及过渡作用。
Commonly BPFLD-X absorbers are fixed in the corner of the chamber, as a kind of transition.
本论文主要包括微波暗室静区的确立,测试系统的测量不确定度评定以及TIS快速测试技术的研究三个部分。
This paper include the establishment of the quiet zone of microwave anechoic chamber, the evaluation of the systems 'measurement uncertainty and the research of TIS fast-measuring technique.
在高性能微波暗室技术设计中,由于静区指标较高,采用一般的几何光学技术不能进行准确计算,因此需采用几何绕射理论技术。
In design of anechoic chamber with higher quality, when requirements of quiet zone index are higher, it must use the geometrical theory of diffraction instead of the geometrical optics for accuracy.
在高性能微波暗室技术设计中,由于静区指标较高,采用一般的几何光学技术不能进行准确计算,因此需采用几何绕射理论技术。
Ray path tracing is a key step to apply geometrical theory of diffraction in solving the problems of high frequency electromagnetic scattering and radiating.
在高性能微波暗室技术设计中,由于静区指标较高,采用一般的几何光学技术不能进行准确计算,因此需采用几何绕射理论技术。
Ray path tracing is a key step to apply geometrical theory of diffraction in solving the problems of high frequency electromagnetic scattering and radiating.
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