A Ka-band (26 GHz) circularly polarized 2×2 microstrip patch sub-array with compact feed

2017 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting Pub Date : 2017-07-09 DOI:10.1109/APUSNCURSINRSM.2017.8072766

Andrew M. Chrysler, C. Furse, R. Simons, F. Miranda

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引用次数: 5

Abstract

A Ka-Band (26 GHz) 2×2 sub-array with square-shaped microstrip patch antenna elements having two truncated corners for circular polarization (CP) is presented. In addition, the layout for a new compact microstrip feed network for the sub-array is also presented The compact feed network offers a footprint size reduction of near 60% over traditional sub-array at 26 GHz. Experimental data indicates that a truncation amount a = 0.741 mm for an isolated patch element results in a return loss (S11) of −35 dB at 26.3 GHz Furthermore, the measured S11 for the proof-of-concept sub-array with the above elements is better than −10.0 dB at 27.7 GHz. However, the impedance match and the operating frequency can be fine-tuned to 26 GHz by adjusting the feed network dimensions. Lastly, good agreement is observed between the measured and simulated S11 for the sub-array for both right hand and left hand CP. The goal of this effort is utilize the above sub-array as a building block for a larger NxN element array, which would serve as a feed for a reflector antenna for satellite communications.

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一种ka波段(26 GHz)圆极化2×2微带贴片子阵列

提出了一种ka波段(26 GHz) 2×2子阵列，该子阵列具有两个截断角的圆形微带贴片天线单元。此外，还提出了用于子阵列的新型紧凑型微带馈电网络的布局，该紧凑型馈电网络在26 GHz时比传统子阵列减少了近60%的占地面积。实验数据表明，截断量为a = 0.741 mm的隔离贴片元件在26.3 GHz时的回波损耗(S11)为- 35 dB，而使用上述元件的概念验证子阵列的测量S11在27.7 GHz时优于- 10.0 dB。然而，阻抗匹配和工作频率可以通过调整馈电网络尺寸微调到26 GHz。最后，在右手和左手CP子阵列的测量和模拟S11之间观察到良好的一致性。这项工作的目标是利用上述子阵列作为更大的NxN元素阵列的构建块，该阵列将作为卫星通信反射器天线的馈电。

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2017 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting

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