RU170771U1 - DIRECTED MICROWAVE FILTER - Google Patents

Abstract

Usage: for the development of high-quality generators. The essence of the utility model is that a dielectric resonator made of single-crystal material is located in a metal case, a dielectric substrate with parallel microstrip lines is located on the base of the case, one of the microstrip lines is made in the form of an arc curved in a vertical plane. The technical result is a reduction in the overall dimensions of the device. 3 ill.

Description

Technical field

The utility model relates to the field of electrical engineering, in particular to sources of highly stable oscillations, and can be used in the development of high-quality generators.

State of the art

Known directional microwave filter operating on whispering gallery waves (N. Shtin, J. M. Lopez Romero, and E. Prokhorov. // Novel sapphire directional filters for application to ultra low phase noise oscillators, Proc. ICEEE-CIE 2006, pp. 186-189), which contains a hollow metal casing of a cylindrical shape, a dielectric resonator of single-crystal material, located on a rack inside the casing, four small vertical pins located orthogonally to each other and a 3 dB quadrature-directional coupler outside the casing.

The disadvantages of the known device are that the design is sensitive to the symmetry of the structure, which depends on the location of the pins and the need for an external directional coupler that increases the dimensions of the device.

Utility Model Essence

The utility model is aimed at solving a technical problem related to the possibility of simplifying a design having highly stable microwave oscillations.

The technical result of the proposed solution is to reduce the overall dimensions of the device.

The main technical result is achieved in that a directional microwave filter, comprising a cylindrical hollow metal casing, a single-crystal dielectric resonator located on a rack inside the casing, a dielectric substrate and excitation elements, according to the proposed solution, the excitation elements are made in the form of two parallel microstrip lines, and one of them is made in the form of an arc curved in a vertical plane.

Brief Description of the Drawings

In FIG. 1 - shows a General view of the device, figure 2 - shows a signal distribution diagram, Fig. 3 - shows the frequency characteristics of a directional filter.

Utility Model Implementation

The directional microwave filter contains a metal housing 1 of a cylindrical shape in which a dielectric resonator 2 of single-crystal material is located. On the base of the housing is a dielectric substrate 3 with parallel microstrip lines 4 and 5. The microstrip line 4 is made in the form of a curved arc in a vertical plane.

Excitation occurs through the first port, pickup of the useful signal occurs through the second, third and fourth ports. The field inside the dielectric resonator 2 moves in the direction of signal propagation from the first port to the second port (Fig. 2). A traveling wave in the resonator is excited by a curved microstrip line 4, the signal is removed by a microstrip line 5. The degree of communication with the lines is determined by the distance from the dielectric resonator 2 to the dielectric substrate 3.

The scattering parameters of the proposed device are similar to the parameters of the prototype.

In FIG. 3 shows the frequency characteristics of the proposed device: S1.1 - reflection coefficient from port 1, S2.1, S3.1 and S4.1 - transmission coefficients from port 1 to ports 2, 3 and 4, respectively.

The implementation of the utility model allows to reduce the overall dimensions of the device and to place exciting elements and elements for the implementation of the source of highly stable microwave oscillations inside the housing 1 on the substrate 3.

Claims (1)

A directional microwave filter containing a cylindrical metal housing and a single-crystal dielectric resonator located on a rack inside the housing, a dielectric substrate and excitation elements, characterized in that the excitation elements are made in the form of two parallel microstrip lines, one of which is made in the form of an arc curved in a vertical plane.

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