Title :
Quality factor of an electrically small antenna radiating close to a conducting plane
Author :
Sten, Johan C E ; Hujanen, Arto ; Koivisto, Päivi K.
Author_Institution :
Tech. Res. Centre of Finland, VTT Inf. Technol., Espoo, Finland
fDate :
5/1/2001 12:00:00 AM
Abstract :
Expressions are derived for the smallest achievable radiation quality factor (Q) of an electrically small antenna in front of a conducting plane. Applying the low-frequency approximation to the source region involving an electric or a magnetic point dipole plus their images behind the plane, an expression is formed for the field in the radiation zone. The contribution of non-propagating energy in the near field is obtained explicitly using a spherical harmonics decomposition. The radiation Q is found to depend on the radius (relative to wavelength) of the smallest sphere that encloses the antenna and its image, the ratio of the vertical and horizontal dipole moments, as well as the positions of the dipoles relative to each other and to the plane. A number of simple wire structures are analysed with NEC (based on the method of moments), and the approximate Q obtained from their fractional bandwidth are compared to the corresponding theoretical minima
Keywords :
Q-factor; antenna radiation patterns; approximation theory; dipole antennas; method of moments; wire antennas; MoM; NEC; Q factor; conducting plane; electric point dipole; electrically small antenna; fractional bandwidth; low-frequency approximation; magnetic point dipole; method of moments; near field; nonpropagating energy; radiation Q; radiation quality factor; radiation zone field; source region; spherical harmonics decomposition; wire structures; Antenna theory; Bandwidth; Dipole antennas; Magnetic moments; Moment methods; National electric code; Polarization; Q factor; Tellurium; Wire;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
