SU1157600A1 - Radiator-phase shifter of reflector phased array - Google Patents

Abstract

TAKE OFF THE STEEL-PHASE-CONTAINER OF A REFLECTIVE PHASED ANTENNA GRID containing a multiple spiral, a dielectric substrate, a screen parallel to the plane of the horizontal spiral, and a control device that, in order to increase the allowable impulse power, reduce the size of the spectrum, reduce the size of the phase, a ferroelectric film is applied between the dielectric substrate and the multiple helix, with the outermost end of each of the odd branches of the multiple helix connecting En with the positive terminal of the control device, the inner end of each odd branch of the multiple helix is connected to the screen with a gap, the inner end of each even branch of the multiple helix is connected to the screen that is connected to the negative terminal of the control device.

Description

The invention relates to the field of antenna technology and can be used as an element of a reflective phased array antenna with circular polarization in the centimeter and decimeter wavelengths.

The aim of the invention is to increase the allowable pulse modality, reduce the discretization of the phasing Yu and simplify the design.

Figure 1 shows the proposed device, plan; figure 2 is the same side view.

The emitter-phase shifter of the reflective phased antenna array has a two-way (multi-way) spiral 1 on a ferroelectric film 2; applied to the dielectric substrate 3, the screen 4, arranged parallel to the plane of the two-way spiral 1, two-wire line 5, at one end of which the first of its wires is connected to the inner end of the odd branch 25 of the two-way spiral 1, and the second to the inner end of a clear branch two-way spiral 1, at the other end of the two-wire line 5, the first of its wires is connected to the screen 4 with a gap, and the second is connected to the screen 4, the outer end of the odd branch of the two-way spiral 1 is connected to the positive terminal of the control device -keeping (not shown), the negative terminal of which is connected with the screen 4.

The proposed device operates as follows.

A circular polarization feed wave from the reflective phased array irradiator excites a traveling current wave propagating in the line formed by the branches of the two input spirals 1 in the direction of the center of the spiral and then along the two-wire line 5. In the active region of the two-way spiral 5. Moreover, the gap between the first wire of the two-wire line 5 and shield 4 provides capacitive contact for microwave current and DC isolation. Reflected from the end of the two-wire line 5, which is short-circuited in the microwave current, the current wave propagates in the opposite direction and is emitted by the active region of the two-way spiral Г with a phase delay proportional to the doubled distance between the active region of the two-way spiral 1 and the short-circuited end of the two-wire line 5, taking into account the deceleration, introduced by the dielectric substrate 3 and the ferroelectric film 2.

By smoothly changing the magnitude of the control voltage, it is possible to obtain a change in the dielectric constant of the ferroelectric film 2, and due to this, a smooth change in the phase of the emitted wave without a significant change in the wave 'resistance and dimensions of the active region of the double-helix 1.

FIG. 2

ВНИИПИ Order 3384/50 Circulation 638 Subscription

Branch PIP Patent, Uzhgorod, Project 4,

Claims (1)

REFLECTOR PHASED RADIATOR RADIATOR PHASED ANTENNA ARRAY, comprising a multi-helix, a dielectric substrate, a screen parallel to the plane of the multi-helix, and a control device, in order to increase the permissible pulse power, reduce the phasing discrete and simplify the design , a ferroelectric film is deposited between the dielectric substrate and the multi-helix, the outer end of each of the odd branches of the multi-helix connected to positive terminal of the control device, the inner end of each odd branch of the multi-helix is connected to the screen with a gap, the inner end of each even branch of the multi-helix is connected to the screen, which is connected to the negative terminal of the control device. Fig. 1) J 57600