Gao Tie, Li Jianxin, Guo Yanchang. DESIGN AND ANALYSIS OF MULTI-STEP AMPLITUDE QUANTIZATION WEIGHTED 2-D SOLID-STATE ACTIVE PHASED ARRAY ANTENNAS[J]. Journal of Electronics & Information Technology, 1994, 16(4): 373-379.
Citation:
Gao Tie, Li Jianxin, Guo Yanchang. DESIGN AND ANALYSIS OF MULTI-STEP AMPLITUDE QUANTIZATION WEIGHTED 2-D SOLID-STATE ACTIVE PHASED ARRAY ANTENNAS[J]. Journal of Electronics & Information Technology, 1994, 16(4): 373-379.
Gao Tie, Li Jianxin, Guo Yanchang. DESIGN AND ANALYSIS OF MULTI-STEP AMPLITUDE QUANTIZATION WEIGHTED 2-D SOLID-STATE ACTIVE PHASED ARRAY ANTENNAS[J]. Journal of Electronics & Information Technology, 1994, 16(4): 373-379.
Citation:
Gao Tie, Li Jianxin, Guo Yanchang. DESIGN AND ANALYSIS OF MULTI-STEP AMPLITUDE QUANTIZATION WEIGHTED 2-D SOLID-STATE ACTIVE PHASED ARRAY ANTENNAS[J]. Journal of Electronics & Information Technology, 1994, 16(4): 373-379.
An aperture design technique using multi-step amplitude quantization for two-dimensional solid-state active phased arrays to achieve low sidelobe is described. It can be applied to antennas with the arbitrary complex aperture. Also, the gain drop and the sidelobe degradation due to random amplitude and phase errors and element (or T/R module) failures are investigated.
Slcolnik M I,et al. IEEE Trans. on AP, 1964, AP-12(6): 408-417.[2]Halford G J, et al. Proc. Radar82 Conf., London: 1982, 360-364.[3]Guo Y C. On Antennas and EM Theory. Proc. of 1985 Int. Symp. Bcijing: 1985, 667-671.[4]Guo Y C, et al.CIE 1986 Int. Conf. on Radar, Nanjiug:1986, 551-555.[5]Cheng H, et al. CIE 1991 Int. Conf. on Radar, Beijing: 1991,207-210.[6]Xue F Z, et al. 1992 IEEE AP-S Int. Symp., Session MP04, Chicago: 1992, 454-457.[7]Lee J J. IEEE Trans. on AP, 1988, AP-36(3): 339-344.[8]Heiao J K. Radio Science, 1984, 19(1):292-303.
DownLoad: