SU1665422A1 - Sheet radiating element of phase array - Google Patents

Abstract

The invention relates to antenna technology and can be used as a phased antenna array element (PAR). The purpose of the invention is to improve the consistency in the scanning sector. The plate emitter of the HEADLAMP contains a metal plate (MP) 1, a dielectric support 2, a metal screen (ME) 3, a coaxial cable 4, the outer conductor 5 of which is connected to the ME 3, and the inner 6 through a metal pin 7 passing through the hole 3 in ME connected to MP 1. Improved matching in the scanning sector is provided by performing dielectric support 2 in the form of dielectric bars placed along the edges of MP 1 and forming a frame with a width of (0.04-0.07) λ, where λ is the average wavelength of the working frequency band . The outer side surface of each dielectric bar and the corresponding edge of the MP 1 are located in the same plane. 1 il.

Description

The invention relates to antenna technology and can be used as an element of a phased antenna array (PAR).

The purpose of the invention is to improve coordination in the scanning sector.

The drawing shows a structural diagram of a plate radiator PAR.

The lamellar radiator PAR contains a metal plate (MP) 1 of a rectangular shape placed on a dielectric support 2 mounted on the surface of a flat metal screen (ME) 3, a coaxial cable 4, the outer conductor 5 of which is connected to the ME 3, and the inner 6 through a metal pin 7 passing through the hole in the ME 3 is connected to the MP 1. The dielectric support 2 is made in the form of electric bars placed along the edges of the MP 1, with the outer side surface of each of the dielectric bars and the corresponding th MP Region 1 are located in one plane. The dielectric bars form a frame whose width is (0.04-0.07) L, where L is the average wavelength of the working frequency band.

A plate emitter of a phased antenna array operates as follows. 3

The electromagnetic field excited by the microwave generator in the coaxial cable 4, induces electric currents in the MP 1, ME 3 and the metal pin 7, and also excites polarization currents in the volume of the dielectric support 2. The listed currents emit electromagnetic energy through the end slots between the MP 1 and ME 3 into the outer space. The choice of dielectric support 2 in the form of a frame with a thickness of (0.04-0.07) 4 λ is optimal for achieving the best matching of the emitter (MP 1) with coaxial cable 4 in a wide frequency band and in a wide scanning sector. By reducing the width of the dielectric support 2, the characteristics of the emitter are close to the characteristics of the emitter without a dielectric support, i.e. the matching with coaxial cable 5 in the scanning area of the HEADLAMP will deteriorate, with increasing width, matching with the transmission line in the H-plane of the scanning sector will deteriorate.

О Using the proposed plate-type radiator as part of the HEADLIGHTER allows simplifying the power supply circuit and increasing the energy potential of the receiving-transmitting complex, in which the HEADLIGHT operates.

Claims (1)

Claim A phased array phased array antenna emitter containing a metal plate, rectangular, 0 placed on a dielectric support • mounted on the surface of a flat metal shield, a coaxial cable, the outer conductor of which is connected to the metal shield, and the inner one — by a metal pin passing through the hole in a metal screen connected to a metal plate. wherein the dielectric support is made in the form of a first pair of dielectric 0 bars placed along opposite edges of the metal plate, the outer side surface of each of the dielectric bars and the corresponding edge of the metal plate 5 being in the same plane, characterized in that, in order to improve coordination in the sector scan, a second pair of dielectric bars is introduced, located along the free edges of the metal plate identical to the first pair of dielectric bars and the image a frame with it, the width of which is (0.04-0.07) λ, where λ is the average wavelength of the working frequency band. _ζ Compiled by Yu.Volkov