SU1040557A1 - Magnetic dipole over conductive screen - Google Patents

Description

The invention relates to radio engineering, mainly to magnetic vibration antennas of various types and can be used both as a single radiator and as a radiating element of an antenna array. The known frame antenna is located above the screen and creating a cosecant diagram of the direction of the E3. The drawbacks of the antenna are low efficiency and a narrow band of transmitted frequencies. The closest in technical essence to the present invention is a magnetic vibrator over a conductive screen, containing two annular frames made of a conductive and located in 2J orthogonal planes. The well-known magnetic vibrator has a low efficiency and a narrow band of operating frequencies. The purpose of the invention is to increase the broadband and efficiency. This goal is achieved by the fact that, in a magnetic vibrator above a conductive screen containing two ring-shaped frames made of VODNIKS and located in orthogonal planes, the ring-shaped frames are placed in an additionally installed spherical dielectric shell with a diameter of 6 0.5 / 1, where 7 is the average wavelength of the working range, on the outer and inner surfaces of which there are plates made of an electrically conductive material with linear dimensions of 6–0.1 Å, while the plates are placed on the opposite side GOVERNMENTAL spherical sides in the dielectric. Richch shell overlap. Figure 1 shows schematically the proposed magnetic vibrator; in FIG. Z, the computed radiation patterns of a low-frequency vibrator over a conducting screen (0.05 /) are curve 0, curve 2; 0 / 15D-curve 3; 0, curve Q, curve 5); n fig. 3 - the calculated magnitude of the ellipticity when feeding ring-shaped frames with a phase shift of 90. The magnetic vibrator contains a spherical dielectric sheath 1, plates 2 made of an electrically conductive material, a ring-shaped frame 3 first power cable, screen 5 and the second power cable is not shown). The plates 2 on the outer surface of the spherical dielectric shell 1 are separated from each other by slit gaps, the electrical capacitances between which compensate the inductance of the shell. To obtain the required capacitance values, very narrow gap gaps are needed. This is not always acceptable for technological reasons. Therefore, the inner surface of the spherical dielectric shell 1 also has plates 2 placed overlapped with respect to the plates 2 on the outer surface of the spherical dielectric shell. The plates form the capacitances necessary for resonance of the spherical dielectric shell at the operating frequency. The results of experimental studies show that the proposed magnetic vibrator has an efficiency 2.5 times higher than the prototype, and the operating frequency ranges are three times larger. 0.v

/20

ffO

0l / 2.J

Claims (1)

A MAGNETIC VIBRATOR OVER THE CONDUCTING SCREEN, containing two ring-shaped frames made of conductors and located in orthogonal planes, characterized in that, in order to increase broadband and efficiency, the ring-shaped frames are placed in an additionally installed spherical dielectric shell with a diameter of έ0.5J, where the average wavelength of the working range, on the outer and inner surfaces of which are applied plates made of an electrically conductive material with linear dimensions έ · 0.19, while the plates are ra overlapped on opposite sides of the spherical dielectric sheath.