DocumentCode
1004725
Title
Further comments on the design of log-periodic dipole antennas
Author
De Vito, Giuseppe ; Stracca, Giovanni B.
Author_Institution
Complementi Elettronici, Milan Italy
Volume
22
Issue
5
fYear
1974
fDate
9/1/1974 12:00:00 AM
Firstpage
714
Lastpage
718
Abstract
The design procedure for the log-periodic dipole (LPD) antenna is discussed, by extending the results presented in a previous paper by the authors. The results of gain calculations, already published, are summarized and extended to cases of very thick dipoles. The gain analysis is completed with a discussion of the optimum antenna input feed line
the achievable VSWR, the voltage gradient, and the effects of the presence of the ground. All the results of calculations given here are presented as a function of
(the characteristic impedance of the transmission line feeder),
(the ratio between the half-length and the radius of the dipoles),
(the logarithmic decrement of the geometrical configuration), and
(the spacing ratio of dipoles), i.e., the parameters, which usually describe the geometry of an LPD array. The results of calculations are presented in many diagrams, for different values of
and
, which can be useful for accurate design of LPD antennas including those for high-power applications. Measurements of VSWR performed on antenna models have confirmed the computed results.
the achievable VSWR, the voltage gradient, and the effects of the presence of the ground. All the results of calculations given here are presented as a function of
(the characteristic impedance of the transmission line feeder),
(the ratio between the half-length and the radius of the dipoles),
(the logarithmic decrement of the geometrical configuration), and
(the spacing ratio of dipoles), i.e., the parameters, which usually describe the geometry of an LPD array. The results of calculations are presented in many diagrams, for different values of
and
, which can be useful for accurate design of LPD antennas including those for high-power applications. Measurements of VSWR performed on antenna models have confirmed the computed results.Keywords
Log-periodic antennas; Antenna feeds; Antenna measurements; Bandwidth; Current distribution; Dipole antennas; Geometry; Impedance; Integral equations; Log-periodic dipole antennas; Voltage;
fLanguage
English
Journal_Title
Antennas and Propagation, IEEE Transactions on
Publisher
ieee
ISSN
0018-926X
Type
jour
DOI
10.1109/TAP.1974.1140881
Filename
1140881
Link To Document