K Algorithm for Microstrip Peocessor Design

Authors

  • Zhongxiang Zhang School of Electronic and Information Engineering, Hefei Normal University, Anhui, 230601, P.R. China
  • Chenghua Fan School of Electronic and Information Engineering, Hefei Normal University, Anhui, 230601, P.R. China
  • Liang Zhang School of Electronic and Information Engineering, Hefei Normal University, Anhui, 230601, P.R. China
  • Meng Kong School of Electronic and Information Engineering, Hefei Normal University, Anhui, 230601, P.R. China

DOI

https://doi.org/10.52810/TNIC.2021.100052

Keywords:

Microstrip array antenna, low sidelobe, Taylor series, feeding network

Abstract

A 24x24 microstrip array antenna for Doppler radar is presented. For the low sidelobe, the feeding network of microstrip array antenna is used Taylor series amplitude weighting. The sidelobe of microstrip array antenna is less than -18.5 dB at 24.15GHz. The proposal design is confirmed by both simulation and measured results.

References

Reynalda T., Munir A., Bharata E., Characterization of 4x4 high gain microstrip array antenna for 3.3GHz WIMAX application,2011 6th International Conference on TSSA, PP 215-218,2011.

Lakshmanan A., Choon Sae Lee, A Standing-Wave microstriparray antenna,IEEE Trans. Antennas and Propagation, Vol. 59, No. 12, pp. 4858-4861, March 2011.

Rahman M.A., Delwar H.Q., Hossain M.A., Haque M.M., ToyodaI., “Design of a dual circular polarization microstrip patch array antenna,” 2014 9th International Forum on IFOST, PP 187-190, 2014.

Ushijima Y., Nishiyama E., Toyoda I., Aikawa M., Circular polarization switchable single layer microstrip array antenna,2012 IEEE Antennas and Propagation Society International Symposium, PP 1-12, 2012.

Genc A., Caglar M.F., Senel B., “Comparison of design parameters of corporate feed 10GHz rectangular microstrip array antennas,”

22nd Signal Processing and Communications Applications Conference, PP 1786-1789, 2014.

Rahmat-Samii Y., Kona K.S., Manteghi M., Hunter D., “A novel lightweight dual-frequency dual-polarized sixteen-element stacked

patch microstrip array antenna for soil-moisture and sea-surface salinity missions,” IEEE Antennas and Propagation Magazine,

Vol. 48, No.6, pp. 33-46, 2006.

Xiaobo Xuan, Min Guo, Zuoxing Dai, Xiaoqing Tian, Jijun Yan, Shunshi Zhong, “Dual-polarization and dual-frequency microstrip

array antenna wirh high isolation,” 2014 IEEE Antennas and Propagation Society International Symposium, PP 1085-1086, 2014.

V.K. Singh, M. Singh, A. Kumar, A.K. Shukla, “Design of K-band printed array antenna for SATCOM applications,” IEEE proceedings of ICM, 2008, PP 702-704.

Xingjin Liu, Ming Luo, Yang Yang, Huang K., “High-gain aperture-coupled microstrip array antenna,” 2012 International Conference on Microwave and Millimeter Wave Technology, PP 1-4, 2012.

Karnfelt C., Hallbjorner P., Zirath H., Alping A., “High gain active microstrip antenna for 60-GHz WLAN/WPAN applications,” IEEE

Trans. on Microwave Theory and Techniques, Vol. 54, No.6, pp. 2593-2603, 2006.

Jiang Xing, Lu Yinming, “A 128-element microstrip array antenna at Ku-band for satellite communication,” 2013 8th International

ICST Conference on CHINACOM, PP 266-270, 2013.

Zhong-xiang Zhang, Ming-gang Fu, Chang Chen, “A 24GHz microstrip array antenna,” 2011 International Conference on Computer Science and Network Technology, PP 214-217, 2011.

Fengwei Yao, Xiaobo Xuan, Yuanyun Liu, “A novel monopulse edge-fed microstrip array antenna,” 2013 IEEE 5th International

symposium on MAPE, PP 475-477, 2013.

K Algorithm for Microstrip Peocessor Design

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Published

2021-06-26

How to Cite

[1]
Z. Zhang, C. Fan, L. Zhang, and M. Kong, “K Algorithm for Microstrip Peocessor Design”, ASP trans.neural inf. comput., vol. 1, no. 1, pp. 18–21, Jun. 2021.

Issue

Section

Regular Paper