在圆柱面上进行一维菲涅尔区相位修正结构设计,可以构成一类新型的点源馈电透镜天线。
The one-dimensional Fresnel zone phase correcting principle can be applied in a cylindrical surface to constructed a new type of point source feeding lens antenna.
菲涅尔区相位修正平面天线是一种用于高功率毫米波发射系统的新型平面天线形式。
Fresnel zone phase correcting plate antenna is a new type of planar antenna which is used in high-power millimeter-wavelength radiation system.
菲涅尔区相位修正平面天线是一类具有广泛应用前景的新型天线。
The Fresnel Zone phase correcting Plate (FZP) antenna is a new kind of antenna, and has been found widespread application prospect.
将所得结果与严格求解的结果和一些实验数据进行了比较,结果表明,修正后的公式可适用于粗的圆柱形振子天线。
By comparing the re ults obtained from this formula with those from rigorous solution and come experimental data, we can show that the corrected formula is adaptable to thick cylindrical antennae.
本文提出一种修正近场天线测量中探头位置误差的方法——非线性迭代法。
A general correction technique is developed to remove probe positioning errors in the Near-field measurements of the antenna.
因此,准确测量天线罩电厚度是实现电厚度误差高精度补偿修正的关键。
So it is crucial that measuring electrical thickness exactly in order to realize precision compensating electrical thickness error.
方法提出天线单元间互耦的直接优化修正方法。
Methods a direct optimization method for the correction of the element mutual coupling was presented.
同时可以很方便地进行探头修正,并讨论天线平面近场测试中各关键参数对测试结果的影响。
At the same time, the corrections of probe-effect can be easily done and the effect of some key parameters in measurements can be easily discussed.
同抛物面反射器相比,菲涅尔区相位修正平面反射器的相位效率因子对天线效率的影响显著。
Compared with the parabolic reflector, a phase factor is of most importance in the efficiency evaluation of Fresnel zone phase-corrected plate (FZP) ones.
在毫米波波段,菲涅尔区相位修正平面(FZP)天线以轴向尺寸小、平面化结构、加工简单的优点,可以作为传统反射面天线的替代天线。
At millimeter-wave band, Fresnel Zone Plate (FZP) antenna has the advantages of simple structure, planar configuration and low cost, while giving performance comparable to the parabolic antenna.
将所得结果与严格求解的结果和一些实验数据进行了比较,结果表明,修正后的公式可适用于粗的圆柱形振子天线。
By comparing the re ults obtained from this formula with those from rigorous solution and come experimental data, we can show that the corrected formula is adaptable to thick cylindrical ant...
将所得结果与严格求解的结果和一些实验数据进行了比较,结果表明,修正后的公式可适用于粗的圆柱形振子天线。
By comparing the re ults obtained from this formula with those from rigorous solution and come experimental data, we can show that the corrected formula is adaptable to thi...
将所得结果与严格求解的结果和一些实验数据进行了比较,结果表明,修正后的公式可适用于粗的圆柱形振子天线。
By comparing the re ults obtained from this formula with those from rigorous solution and come experimental data, we can show that the corrected formula is adaptable to thick cylindric...
将所得结果与严格求解的结果和一些实验数据进行了比较,结果表明,修正后的公式可适用于粗的圆柱形振子天线。
By comparing the re ults obtained from this formula with those from rigorous solution and come experimental data, we can show that the corrected formula is adaptable to thick cylindric...
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