高功率微波波导缝隙阵宽角扫描特性研究

Liao Yong; Meng Fanbao; Xu Gang; Xie Ping; Ma Hongge

doi:10.11884/HPLPB201830.170364

高功率微波波导缝隙阵宽角扫描特性研究

doi: 10.11884/HPLPB201830.170364

中国工程物理研究院应用电子学研究所, 高功率微波技术重点实验室, 四川绵阳 621900

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中图分类号: TN321.5
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出版历程
- 收稿日期: 2017-09-08
- 修回日期: 2017-10-30
- 刊出日期: 2018-03-15

Analysis of wide-angle scanning of HPM waveguide slot array antenna

Science and Technology on High Power Microwave Laboratory, Institute of Applied Electronics, CAEP, P.O. Box 919-1015, Mianyang 621900, China

Funds: National High Technology Development Project

More Information

Author Bio:
Liao Yong (1967—), male, PhD, engaged in high power microwave antenna research; liaoyongmail@163.com

摘要

摘要: 波导间缝隙的互耦会严重降低高功率微波宽边纵缝波导缝隙阵的宽角扫描能力。设计了一L波段高功率宽边纵缝波导缝隙阵，在阵列波导间设计扼流槽结构抑制缝隙互耦。数值模拟结果表明，没有扼流槽结构的阵列波束扫描增益下降3 dB的角度为24.7°，具有扼流结构的阵列扫描增益下降3 dB的角度为33°。同时扼流结构还可以明显改善阵列的有源反射系数，有扼流结构的阵列有源VSWR≤3的带宽为6.6%，而没有扼流结构的阵列有源VSWR≤3的带宽为5.0%。数值模拟结果还表明，波束扫描时(扫描角35°)，阵列功率容量可达到957 MW, 比阵列无波束扫描时(1.008 GW)稍低一点。
- 高功率微波 /
- 波导缝隙阵 /
- 宽角扫描 /
- 扼流槽 /
- 介质窗
Abstract: In conventional High Power Microwave(HPM) waveguide arrays of longitudinal shunt slots, the mutual coupling of slots in different waveguide can badly decrease the capability of wide-angle scanning of array. For this reason, an L-band HPM waveguide array of longitudinal shunt slots was designed. The choke groove was adopted to restrain the mutual coupling of slots of the HPM array antenna. The results of simulation are: the scanning angle of array without choke groove structure with the gain of antenna decreased 3 dB is only 24.7°, and it is 33.0° for array with choke groove structure; the wideband of active reflection of array have been improved with choke groove structure, the bandwidth of VSWR ≤3 of array with choke groove is 6.6%, and that is 5.0% without choke groove; the power-handling capacity of array antenna with scanning angle of 35° can reach 957 MW, which is a little less than that of array without scanning(1008 MW).
- high power microwave /
- waveguide slot array /
- wide angle scanning /
- choke groove /
- dielectric window

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Figure 1. Structure of HPM waveguide array

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Figure 2. Active VSWR of waveguide slot array

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Figure 3. Array antenna pattern

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Figure 4. Antenna array wide angle scanning features

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Figure 5. Active VSWR at scanning angle 35°

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Figure 6. 3D pattern of array at scanning angle of 35°

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Figure 7. Waveguide slots array with choke grooves

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Figure 8. Angle scanning features of waveguide slots array

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Figure 9. Active VSWR of choke groove array with scanning angle of 35°

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Figure 10. Pattern of array with horn cavity structure (without choke groove) at scanning angle of 35°

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Figure 11. E-field distribution of array with choke groove

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Figure 12. E-field distribution of window in vacuum side

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Figure 13. E-field distribution of window in atmosphere side

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Figure 14. E-field distribution of window in atmosphere side with scanning angle of 35°

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Figure 15. Pattern of E-plane at 1.6 GHz without scanning

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Figure 16. Pattern of E-plane at 1.6 GHz with scanning angle of 35°

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Figure 17. Waveform and spectrum of measured high power microwave electric field radiated by array antenna with scanning angle of 35°

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参考文献(8)

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