Feng Yuhe, Li Weixiang, Chen Kunyuan. DESIGN AND MANUFACTURE OF 1GHz SPLIT RING RESONATOR[J]. Journal of Electronics & Information Technology, 1986, 8(5): 373-377.
Citation:
Feng Yuhe, Li Weixiang, Chen Kunyuan. DESIGN AND MANUFACTURE OF 1GHz SPLIT RING RESONATOR[J]. Journal of Electronics & Information Technology, 1986, 8(5): 373-377.
Feng Yuhe, Li Weixiang, Chen Kunyuan. DESIGN AND MANUFACTURE OF 1GHz SPLIT RING RESONATOR[J]. Journal of Electronics & Information Technology, 1986, 8(5): 373-377.
Citation:
Feng Yuhe, Li Weixiang, Chen Kunyuan. DESIGN AND MANUFACTURE OF 1GHz SPLIT RING RESONATOR[J]. Journal of Electronics & Information Technology, 1986, 8(5): 373-377.
In this paper, relationship between the Q value and the resonant frequency is derived by means of equivalent circuit method. The parameters are obtained by taking the cavity cylinder as a helical circuit. A series of curves for optimum design is plotted.In our experiment, a high Q value of 900 to 1000 in the frequency range of 1 to 1.4 GHz is easily obtained, the resonator has the merits of small dimension, wide frequency range and simplicity in construction.
M. Giordano. F. Momo and A. Sotgin. J. Phys. E: Scientific Instrumentsm 16(1983), 774.[2]W.N. Hardy and L. A. Whitehead, Rev. Sci. Instrum., 52(1981), 213.[3]P. Momo, A. Sotgin and R. Zonta, J. Phys. E: Scientific Instruments, 16(1983), 43.[4]E. M. Purcell著,南开大学物理系译,伯克利物理教程,第二卷,科学出版社,1979年,第254页.[5]M. Wind and H. Rapart著,吴培享等译,微波测量方法,上海科学出版社,1964,第230页.
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