铁氧体移相器在相控阵雷达中得到了广泛应用。
Ferrite phase shifters are utilized widely in phased array radar.
介绍了大功率背脊波导锁式铁氧体移相器的一般设计方法。
In this paper, the general design of the latching ferrite phase shifter in back ridged waveguide with high power handling capacity has been presented.
在电调移相器中,铁氧体移相器以其高可靠性和低损耗等优点得到了极大的应用。
Of all sorts of phase shifters tuned by electricity, the ferrite phase shifters are much widely used, because of their advantages of high reliability and low insert loss.
对磁芯因受外部压力产生应力时对铁氧体移相器移相特性影响进行了初步实验研究。
This paper describes a preliminary experimentation study on some effect of stress caused by exterior pressure in magnetic core upon phase-shifting characteristics of a ferrite phase shifter.
首先利用双平板模型、麦氏方程组和边界条件推导矩形波导铁氧体移相器的超越方程。
The transcendental equation for ferrite phase shifters in rectangular wave guide has been obtained by applying twin slab model, Maxwell equations and boundary conditions.
根据超越方程对单环非互易铁氧体移相器的差相移随铁氧体厚度的变化进行了数值计算。
The differential phase shift changes as the change in the thickness of the ferrite phase shifter is calculated with the transcendental equation.
本文介绍了一种新型波导结构的锁式铁氧体移相器,给出了简明的数学解析与实验结果。
By concise mathematical explanations and experimental results, a new structure of latching ferrite rectangular waveguide phase shifter is first introduced in this paper.
利用双平板模型推导出了单环非互易铁氧体移相器的超越方程,并对其特性进行了讨论。
The transcendental equation for the single toroidal non-reciprocal ferrite phase shifter is obtained by using the twin slab model, and its properties are discussed.
利用双平板模型推导出了单环非互易铁氧体移相器的超越方程,并对其特性进行了讨论。
The differential phase shift changes as the change in the thickness of the ferrite phase shifter is calculated with the transcendental equation.
该电路应用于相控阵雷达铁氧体移相器驱动电路的一部分,也可用于其它功率放大器中。
The circuit is used in a part of driving circuit of phase control line radar ferrite phase shifter and is also used in the other power amplifiers.
铁氧体移相器是相控阵天线系统的关键器件之一,而它的温度特性对系统的性能影响较大。
Ferrite phase shifter is one of the key devices in phase array antenna system, while its temperature property significantly affects the system performance.
该网络的特点是采用了技术成熟、价格低廉的非互易铁氧体移相器作为变极化的基础元件。
The feature of this network is that the cheap and mature nonreciprocal ferrite phase shiftersare used as the basic variable polarization devices.
毫米波铁氧体移相器由于尺寸很小,铁氧体材料的脆性很大给加工和装配这种移相器带来很大困难。
It is difficult to manufacture and assemble MMW ferrite phase shifter for the small size and the frangibility of ferrite material.
用所得理论来分析X波段和C波段弯曲线型微带铁氧体移相器的阻抗匹配问题,与实验结果十分符合。
The developed theory is used to analyse the impedance-match problem of microstrip meander line ferrite phaser in X-Band, C-Band, and a good agreement with the experimental results is obtained.
理论分析表明,这种移相器在许多方面优于铁氧体和数字移相器,适用于相控阵。
The theoretical analysis shows that it has many advantages comparing with ferrite and digital phase shifters.
对铁氧体波导移相器的匹配问题进行了实验研究,理论计算与实验结果十分符合,并总结出一些有助于实验调试的规律性结果。
Experimental research on the matching of the ferrite waveguide phaser is carried out, and good agreement between theory and experiment is obtained.
文中还给出了三位和四位铁氧体微带移相器的主要性能。
The main properties of 3 and 4 digit ferrite microstrip shifters are also given.
本文讨论了铁氧体圆极化移相器的基本工作原理、宽带匹配技术。
In this paper the principle of the circle-polarized ferrite phase shifters and the technology of wide-band matching are briefly analyzed.
本文讨论了铁氧体圆极化移相器的基本工作原理、宽带匹配技术。
In this paper the principle of the circle-polarized ferrite phase shifters and the technology of wide-band matching are briefly analyzed.
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