Design of a continuously tunable reflectarray element for 5G metrology in the k-band

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Advances in Radio Science Pub Date : 2020-12-10 DOI:10.5194/ars-18-1-2020

T. Harz, T. Kleine-Ostmann, T. Schrader

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Abstract

We introduce a new tunable reflectarray element for an operation frequency of 26 GHz in the k-band. It is shown that a 340 continuous tunning range of the reflected wave can be accomplished by using an aperture-coupled patch antenna with only one single varactor diode. The simplified design and the small needed space make it usable for k-band reflectarrays with many elements. The functionality of the reflectarray element is explained and the crucial parts are analyzed. The approach to get a full phase shift is discussed in detail. A bias-T is developed to provide the control voltage to the varactor diode without interfering with the high frequency path. The high frequency path and the DCpath are decoupled by 39 dB using a bias-T. A commercial off-the-shelf varactor diode is selected and its functionality at 26 GHz is verified. Therefore, a test printed circuit board with through, reflect, line standards is developed to de-embed the varactor diode and to evaluate it with a vector network analyzer. The reflectarray is simulated in a unit cell with plane wave excitation and periodic boundary condition using the simulation software package CST Microwave StudioTM.

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用于5G k波段测量的连续可调谐反射元件设计

我们介绍了一种工作频率为26ghz的k波段可调谐反射元件。结果表明，采用单变容二极管的孔径耦合贴片天线可以实现340个连续调谐范围的反射波。设计简化，所需空间小，可用于多元素的k波段反射射线。说明了反射元件的功能，并对关键部件进行了分析。详细讨论了实现全相移的方法。一个偏置t被开发提供控制电压到变容二极管而不干扰高频路径。高频路径和直流路径使用偏置t进行39db的去耦。选择了一种商用的现成变容二极管，并验证了其在26 GHz下的功能。因此，开发了一种具有透、反射、线标准的测试印刷电路板，用于脱嵌变容二极管，并用矢量网络分析仪对其进行评估。利用CST Microwave StudioTM仿真软件包，在平面波激励和周期边界条件下，对单晶胞内的反射光进行了模拟。

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来源期刊

Advances in Radio Science ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

45 weeks