SU177487A1 - waveguide coupling - Google Patents

Description

For parallel connection of two waveguides, waveguide tees (splitters) are used as a connecting element. In such devices, the matching is provided by introducing compensation for branching reflected signals. However, the input impedances of the side waveguides in the branching plane are unequal, and thus the mond conductors entering the side waveguides are also unequal. Therefore, the compensation of reflected waves can only be provided in a narrow frequency band.

The proposed device, designed to connect two radio-relay systems to a common antenna-waveguide path, contains a central square or circular waveguide and two side waveguides connected to a central one through a series of communication waveguides, and the lateral waveguides are offset relative to each other along the axis of the central waveguide for a quarter of the wavelength and interconnected via a waveguide bridge, to the fourth leg of which a ballast load is connected.

The drawing shows the proposed device.

It consists of a central waveguide / and two side waveguides 2 connected to the central waveguide via directional couplers 3. The latter are mutually interchangeable, one quarter of the wavelength of the upper of the two combined ranges along the axis of the central waveguide. The side waveguides are connected via a waveguide bridge 4, to one of the arms of which a ballast load is attached.

The device works as follows.

The input of the waveguide bridge 4 is supplied by high-frequency transmitters of the upper frequency range. Divide in half, it enters the side waveguides 2 and from there through the communication waveguides into the central waveguide /. Although the waveguides of the connection of the upper and lower directional couplers are mutually offset by

-, the waves excited by these elements

in the central waveguide, they are added in phase, because the phase shift in the central waveguide due to the displacement of the communication elements is compensated by the phase shift in the side waveguides due to different path lengths from the outputs of the double triplet (D and E to the inputs of the directional couplers (length / i and

Thus, the transfer of energy from the side waveguides to the central drainage is controlled as in a circuit without replacement of directional couplers.

Consider the shadow of what happens to the energy reflected from the directional couplers. Since the reflected waves are shifted 180 ° by the phase due to the displacement of the directional couplers, they do not return to the outputs of the non-transmitters, but go over the fourth shoulder of the double tee (K) to a ballast load, due to which the matching is improved.

According to the principle of reciprocity, the same improvement in coordination at the frequencies of the upper dianazoia also occurs on the side of the antenna.

At lower frequencies, there is also some improvement in the alignment of the central waveguide with the fiber waveguides due to the fact that the sources of reflection in the central waveguide (communication gap) are shifted relative to each other.

Subject invention

A device for connecting to a common antenna-waveguide path two radio-relay systems operating in different frequency ranges, consisting of a central square or circular cross-section waveguide and two side waveguides connected to a central one through a series of communication waveguides, characterized in that In order to ensure high matching, the side waveguides are displaced one relative to the other along the axis of the central waveguide by a quarter of the wavelength and interconnected via a waveguide bridge, to the fourth arm of which

Ballast load is connected.