RU2295807C1 - Diplexer - Google Patents

Abstract

FIELD: microwave engineering; frequency-division devices.

SUBSTANCE: proposed diplexer has cylindrical waveguide section, input coaxial connector orthogonally mounted relative to this waveguide cylindrical wall, and coupling loops with input cylindrical dielectric cavities of first and second passband filters. Output cylindrical dielectric cavities of first and second passband filters are electromagnetically coupled with output coupling loops connected to respective output coaxial connectors. Metal wall with hole is disposed in cross-sectional area of cylindrical waveguide section. Metal wall hole is disposed at point of installation of input connector whose central conductor is disposed in this hole in parallel with metal wall surface; coupling loops with input cavities of first and second passband filters are connected to input connector conductor and each is disposed in parallel with metal wall surface on its opposite sides. All diplexer connectors are connected to microwave-circuit transmission lines.

EFFECT: reduced loss in frequency-channel passbands.

2 cl, 1 dwg

Description

The invention relates to microwave technology and is intended for use as frequency separation devices based on open disk dielectric resonators mainly in the decimeter and long wavelengths of the centimeter wavelength range.

Known diplexers that contain two segments of the waveguide, transcendent in the operating frequency range of the diplexer, in which there are band-pass filters on dielectric resonators, a Y-circulator, to two of its three outputs are connected the inputs of the band-pass filters, and the third output of which is the outputs bandpass filters form the output connectors of the device.

Basically, such diplexers have additional bandwidth losses introduced by the Y-circulator.

Known diplexers for two fixed frequencies, in which a signal with frequencies f ₁ and f _{2 is} fed to the input coaxial and, with a pin, excites input dielectric resonators of bandpass filters at frequencies f ₁ and f ₂ , each of which is made in a segment of a transverse rectangular waveguide cross sections based on planar dielectric resonators arranged along the longitudinal axis, and signals with frequencies f ₁ and f ₂ , respectively, enter the output lines from the extreme resonators of the band-pass filters.

The disadvantage of such diplexers is the poor selectivity of the band-pass filters relative to the frequencies of adjacent channels in combination with a high level of loss in the pass band, which is associated with insufficient electromagnetic coupling of the excitation pin and input resonators, as well as the inherent disadvantages of the band-pass filters formed by designs with planar placement of dielectric resonators, that is, narrower bandwidths and greater losses than filters with coaxial placement of resonators.

Closest to the proposed are a diplexer (see. Dielectric resonators in microwave microelectronics / Yu.M. Bezborodov, L.G. Gassanov, A.A. Lipatov, etc. - Reviews on Electronic Engineering, Series 1 "Microwave Electronics", vol. 4 (786), Central Research Institute "Electronics" MEP USSR, 1981, p. 56, Fig. 46), containing a segment of a cylindrical waveguide of circular cross-section, which serves as a screen beyond the diplexer in the operating frequency band, in which the Y-circulator is located, the first arm of which connected to an input coaxial connector orthogonal to of the cylindrical waveguide segment, and its second and third shoulders are connected to communication loops with input cylindrical dielectric resonators of the first and second band-pass filters, each formed by cylindrical dielectric resonators, coaxially placed in a segment of a circular cylindrical waveguide on one side and the other side of Y-circulator, and the output cylindrical dielectric resonators of the first and second band-pass filters are electromagnetically coupled with a communication loop connected to the output coaxial connector of the corresponding frequency channel.

However, such diplexers have additional losses associated with the use of the Y-circulator.

The technical task of the invention is to reduce losses in the passband of the frequency channels of the diplexer.

The solution to this problem is achieved by the fact that in the known diplexer containing a segment of a cylindrical waveguide of circular cross section, an input coaxial connector with a central conductor mounted orthogonally relative to the cylindrical wall of a segment of a cylindrical waveguide, a communication loop with input cylindrical dielectric resonators of the first and second band-pass filters formed each with cylindrical dielectric resonators coaxially placed along the axis of a circular cylindrical segment of the waveguide on one and the other sides of the input coaxial connector and mounted therein by axisymmetric holders, and the output cylindrical dielectric resonators of the first and second band-pass filters are electromagnetically connected each to output communication loops connected to the output coaxial connectors of the first and second frequency channels, and a metal wall with a hole orthogonal to the cross section of a section of a cylindrical waveguide, the metal wall is located in a cross section of a segment of an cylindrical waveguide passing through the axis of symmetry of the input coaxial connector, a hole in the metal wall is installed near the cylindrical wall of a segment of the cylindrical waveguide at the installation site of the input coaxial connector, the central conductor of the input coaxial connector is located in the hole in the metal wall parallel to its plane, and communication loops with the input cylindrical dielectric resonators of the first and second bandpass filters are connected to the central conductor of the input first coaxial connector and each placed parallel to the metal plane of the wall on opposite sides thereof.

In addition, the communication loop with the input cylindrical dielectric resonator of the first band-pass filter is made with a length equal to half the wavelength at the resonant frequency of the input cylindrical dielectric resonator of the first band-pass filter, and the communication loop with the input cylindrical dielectric resonator of the second band-pass filter is made with a length equal to half the wavelength at the resonant frequency of the input cylindrical dielectric resonator of the second pass-pass present filter.

The invention is illustrated by drawings, where figure 1 shows the diplexer on dielectric resonators, and figure 2 - its frequency response.

The diplexer comprises a segment of a circular cylindrical waveguide 1, an input coaxial connector 2 mounted orthogonally relative to a cylindrical wall 3 of a segment of a cylindrical waveguide 1, communication loops 4 and 5 with input cylindrical dielectric resonators 6 and 7 of the first 8 and second 9 band-pass filters formed by each cylindrical dielectric resonators 10 and 11, coaxially located along the axis of a segment of a circular cylindrical waveguide 1 on one and the other sides of the input coaxial connector 2 and reinforced in it by axisymmetric holders 12, the output cylindrical dielectric resonators 10 and 11 of the first 8 and second 9 band-pass filters are electromagnetically connected each to output communication loops 13 and 14 connected to the output coaxial connectors 15 and 16 of the first 8 and second 9 band-pass filters, and a metal wall 17 having an aperture 18 orthogonal to the cross section of a section of a cylindrical waveguide 1. A metal wall 17 is mounted in a cross section of a section of a cylindrical wave and 1, passing through the axis of symmetry of the input coaxial connector 2. The hole 18 in the metal wall 17 is located near the cylindrical wall 3 of the segment of the cylindrical waveguide 1 at the installation location of the input coaxial connector 2, the central conductor 19 of the input coaxial connector 2 is located in the hole 18 in the metal wall 17 parallel to its plane, and the communication loops 4 and 5 with the input cylindrical dielectric resonators 6 and 7 of the first 8 and second 9 band-pass filters are connected to the central conductor 19 of the input coaxial connector 2 and are each parallel to the plane of the metal wall 17 on its opposite sides.

Diplexer works as follows.

Coaxial input connector 2 and coaxial connectors 15 and 16 are connected to microwave transmission lines. In the presence of a multi-frequency electromagnetic wave in the line connected to the input coaxial connector 2, the communication loops 4 and 5 with the input cylindrical dielectric resonators 6 and 7 of the first 8 and second 9 band-pass filters excite electromagnetic waves at the resonant frequencies of the corresponding dielectric resonators 6 and 7, which transmit electromagnetic energy at appropriate frequencies through the output cylindrical resonators 10 and 11 and the output communication loops 14 and 13 to the output connectors 16 and 15, respectively.

It was experimentally established that if the communication loop 4 with the input cylindrical dielectric resonator 6 of the first 8 bandpass filter is made with a length equal to half the wavelength at the resonant frequency of the input cylindrical dielectric resonator 6 of the first 8 bandpass filter, and the communication loop 5 is with the input a cylindrical dielectric resonator 7 of the second 9 band-pass filter is made with a length equal to half the wavelength at the resonant frequency of the input cylindrical dielectric resonator 7 of the second 9 bandpass filter, the loss in the passband of the passband filter 8 and 9 is reduced, and the isolation between the passband of the filters 8 and 9 increases.

Using the invention, it was possible to create diplexers with nine-link bandpass filters in the frequency range 4-5 GHz with the parameters: passband of the first and second filters ~ 3%, loss in the band no worse than 1.3 dB, intermediate frequency band between filters ~ 3% s attenuation level - more than 80 dB.

Claims (2)

1. A diplexer containing a segment of a cylindrical waveguide of circular cross section, an input coaxial connector with a central conductor, mounted orthogonally relative to the cylindrical wall of a segment of a cylindrical waveguide, communication loops with input cylindrical dielectric resonators of the first and second band-pass filters, each formed by cylindrical dielectric resonators, coaxially placed along the axis of a segment of a circular cylindrical waveguide on one and the other sides of the input the axial connector and axially symmetric holders mounted in it, and the output cylindrical dielectric resonators of the first and second bandpass filters are electromagnetically connected each to output communication loops connected to the output coaxial connectors of the first and second frequency channels, and a metal wall with a hole orthogonal to the cross section of the segment a cylindrical waveguide, characterized in that the metal wall is located in a cross section of a segment of a cylindrical waveguide, going through the axis of symmetry of the input coaxial connector, the hole in the metal wall is located near the cylindrical wall of a segment of the cylindrical waveguide at the installation location of the input coaxial connector, the central conductor of the input coaxial connector is located in the hole in the metal wall parallel to its plane, and the communication loops with the input cylindrical dielectric resonators of the first and a second bandpass filter attached to the center conductor of the input coaxial connector and size scheny each plane parallel to the metal wall on opposite sides thereof. 2. The diplexer according to claim 1, characterized in that the communication loop with the input cylindrical dielectric resonator of the first band-pass filter is made with a length equal to half the wavelength at the resonant frequency of the input cylindrical dielectric resonator of the first band-pass filter, and the communication loop with the input cylindrical the dielectric resonator of the second band-pass filter is made with a length equal to half the wavelength at the resonant frequency of the input cylindrical dielectric resonator a second bandpass filter.

Images