改进的宽带偶极子阵列馈电系统设计

1998 IEEE-APS Conference on Antennas and Propagation for Wireless Communications (Cat. No.98EX184) Pub Date : 1998-11-01 DOI:10.1109/APWC.1998.730664

S. Y. London, V. P. Leonov, P. Koert, L. Susman

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引用次数: 1

摘要

作为高频主动极光研究计划(HAARP)的一部分，一个大功率、宽带高频相控阵正在阿拉斯加的加尔科纳建造。对阵列演示原型(DP)版本的广泛测试发现，在模拟扫描条件下，离散频率下的馈电谐振效应不理想，塔电流过大。分析和随后的测量指出偶极子的偶模激发是造成这些困难的原因。为了解决这一问题，对进给系统进行了改进，使其同时控制奇偶激励和奇偶激励。设计了一种新型的宽带高效混合平衡天线匹配单元，并对其进行了测试，验证了该馈电方式的优越性。低频段版本正在整合到DP测试平台中，并将低频段性能提高了20%，具有更低的损耗和更低的塔电流。通过计算阵列系统的平均效率来进一步评估馈电设计，根据频率的不同，该系统的平均效率在理论最大值的0.25到1.5 dB之间。

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Improved feed system design for a wideband dipole array

A high power, wideband HF phased array is being constructed as part of the High Frequency Active Auroral Research Program (HAARP) in Galkona, Alaska. Extensive testing of a demonstration prototype (DP) version of the array discovered undesirable feed resonance effects at discrete frequencies and excessive tower currents under simulated scanned conditions. Analyses and subsequent measurements pointed to even mode excitations of the dipole as the cause of these difficulties. To solve this problem the feed system was modified with the goal of controlling both the even and odd mode excitations. A novel wideband high efficiency hybrid-balun and balanced AMU (antenna matching unit) was designed and tested confirming the superiority of the new feed arrangement. A low-band version is being incorporated into the DP testbed and extends the low-band performance by 20%, with lower loss and reduced tower currents. The feed design is further evaluated by calculating the average efficiency of the array system, which is within 0.25 to 1.5 dB of its theoretical maximum, depending on frequency.

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1998 IEEE-APS Conference on Antennas and Propagation for Wireless Communications (Cat. No.98EX184)

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