论文信息 - Non-Foster impedance matching of electrically small antennas

Non-Foster impedance matching of electrically small antennas

When the size of an antenna is electrically small, the antenna is neither efficient nor a good radiator because most of the input power is stored in the reactive near-field region and little power is radiated in the far-field region. As demonstrated in [1]- [2], the radiation quality factor of small antennas is definitely high. In other words, the input impedance of small antennas is considerably reactive. To reduce the radiation quality factor in the whole or partial frequency range of interest, it is important to increase the radiation resistance and/or reduce the reactance of the antenna. Hence, it is necessary to modify the antenna to reduce the reactance of the antenna and/or add impedance matching networks (MNs) to maximize the transfer of power from a resistive source to the highly reactive antenna.

Roberto G. Rojas | Keum-Su Song | Keum-Su Song | R. Rojas

[1] H. Carlin,et al. Theoretical Limitations on the Broad-Band Matching of Arbitrary Impedances , 1961 .

[2] Glen A. Myers,et al. AN INVESTIGATION OF BROADBAND MINIATURE ANTENNAS , 1968 .

[3] S. Sussman-Fort,et al. Non-Foster Impedance Matching of Electrically-Small Antennas , 2009, IEEE Transactions on Antennas and Propagation.

[4] L. J. Chu. Physical Limitations of Omni‐Directional Antennas , 1948 .

[5] Albert Kevin. Perry. Broadband antenna systems realized from active circuit conjugate impedance matching. , 1973 .

[6] H. W. Bode,et al. Network analysis and feedback amplifier design , 1945 .

[7] H.A. Wheeler,et al. Fundamental Limitations of Small Antennas , 1947, Proceedings of the IRE.

[8] R. Fano. Theoretical limitations on the broadband matching of arbitrary impedances , 1950 .