부산대학교 도서관

The Kharkiv V. N. Karazin National University MF radar has been widely employed to study mesospheric electrodynamics in the altitude range from 60 to 70 km where the electron density values remain below 100 cm −3 . On the other hand, the technique developed at the University for investigating mesospheric electrodynamics demands signal-to-noise ratios greater than five. In addition, a major contribution to signal degradations makes radio interference, and consequently the radar has to operate in a frequency range at the upper end of the medium frequency band, and the antenna array cannot be designed to be resonant. The purpose of this paper is to report the upgrades to the MF radar antenna array to achieve maximum signal-to-noise ratio values. First, the replacement of a point resistive load by a resistor-capacitor load has provided the improvement in the impedance match of the existing antenna to the feeder. The voltage standing wave ratio in the 1.9–3 MHz frequency band could reach 3 before the replacement and does not exceed a value of 1.75 thereafter. Further, the upgrades put forward to the individual antenna arrangement resulted in converting three-lobe antenna pattern only into one-lobe symmetric antenna pattern and low levels of sidelobes over the entire 1.5–3.5 MHz frequency band.