RU2787256C1 - Sealed waveguide-microstrip junction - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: sealed waveguide-microstrip junction contains a piece of rectangular waveguide shorted at one end with an end wall, having a possibility to connect to the sealed volume and having a rectangular slot and a double-sided PCB with an end metallization. One side of the PCB has a terminating element, and the other side has a terminating element and a microstrip line. A cavity with a rectangular slot is made in the wall of the sealed volume, into which a PCB is sealed by soldering through a plate having a rectangular slot, so that part of each of the matching elements and the microstrip line are located in the sealed volume, in turn, the PCB is installed in the rectangular slot of the end wall, so that another part of each of the matching elements is located in a segment of the rectangular waveguide

EFFECT: invention disclose reduction of the overall height dimensions of the microwave module or unit in which the claimed sealed waveguide-microstrip junction is used.

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Description

The invention relates to the field of microwave radio engineering and can be used in receiving and transmitting modules and microwave units for connection to a waveguide path.

A waveguide-microstrip junction is known, containing a waveguide segment shorted by an end wall, on the outer wide side of one wall of which a dielectric substrate is placed, on which a conductor in the form of a microstrip line is located, connected to it through a slot made in a wide wall. A quarter-wave conductor is located in the slot, to which a metal pin is connected, located perpendicular to the dielectric substrate (see SU 1735945, H01R 5/107, publ. 23.05.1992).

The disadvantage of the known waveguide-microstrip junction is a significant increase in overall dimensions along the height of the module or microwave unit, which uses this waveguide-microstrip junction to connect to the waveguide path of the microstrip line, which is justified by the fact that this type of waveguide-microstrip junction is connected perpendicular to the plane, in which the microstrip line of the module or microwave unit is located, to which it is necessary to connect the waveguide path.

The technical problem solved by the present invention is the creation of a hermetically sealed waveguide-microstrip transition, devoid of this disadvantage.

As a result, a technical result is achieved, which consists in reducing the overall dimensions along the height of the module or microwave unit, which uses the claimed sealed waveguide-microstrip junction.

The specified technical result is achieved by creating a sealed waveguide-microstrip junction, which contains a segment of a rectangular waveguide, shorted at one end by an end wall, capable of being connected to a sealed volume and having a rectangular slot and a double-sided printed circuit board with end metallization. A matching element is made on one side of the printed circuit board, and a matching element and a microstrip line are made on the other. A cavity with a rectangular slot is made in the wall of the sealed volume, into which a printed circuit board is hermetically installed by soldering through a plate having a rectangular slot so that a part of each of the matching elements and the microstrip line are located in the sealed volume, in turn, the printed circuit board is installed in a rectangular end wall slot so that the other part of each of the matching elements is located in a segment of a rectangular waveguide.

In FIG. 1 shows a schematic representation of a hermetically sealed waveguide-microstrip junction connected to a hermetic volume in a particular embodiment, and in Fig. 2 and 3 show sections of this sealed waveguide-microstrip junction.

In FIG. Figure 4 shows a double-sided printed circuit board with end metallization for a sealed waveguide-microstrip junction.

The sealed waveguide-microstrip junction shown in Fig. 1, contains a section of a rectangular waveguide (1), shorted at one end by an end wall having a rectangular slot (2), connected to the containment (3).

The sealed waveguide-microstrip junction contains a double-sided printed circuit board (4) having an end metallization (5) (see Fig. 4). On one side of the double-sided printed circuit board (4), a matching element (6) is made, and on the other side, a matching element (7) is connected to the microstrip line (8).

A cavity (9) with a rectangular slot (10) is made in the wall of the sealed volume, into which, by soldering, a double-sided printed circuit board (4) is hermetically installed through a plate (11) with a rectangular slot (12) (see Fig. 2, 3). The double-sided printed circuit board (4) is installed so that part of each of the matching elements (6, 7) and the microstrip line (8) are located in the containment (3), and the other part of the matching elements (6, 7) is located in a section of a rectangular waveguide ( 1). The hermetic volume (3) is sealed by forming two brazed seams. The first solder seam is formed between the double-sided printed circuit board (4) and the rectangular slot (12) of the plate (11). The second brazed seam is formed between the cavity (9) of the hermetic volume (3) and the end surface of the plate (11).

Sealed waveguide-microstrip transition works as follows.

In the segment of the waveguide 1 is excited high-frequency signal from the source. Matching elements 6 and 7, located in a section of rectangular waveguide 1, convert the fundamental mode TE _{10 of} waveguide 1 incident on them into the fundamental mode TE _{10 of} waveguide 13 integrated into the dielectric substrate of the printed circuit board. The electric field in the transition region is concentrated in the dielectric between the matching elements 6, 7 and rotates ninety degrees until the high-frequency signal passes from the waveguide section 1 to the waveguide 13 integrated into the printed circuit board substrate. After that, the matching element 7 converts the TE ₁₀ mode of the waveguide 13 incident on it into the quasi-TEM mode of the microstrip line 8. The smooth conversion of the field mode allows the transition to operate in a wide frequency band.

The application of the claimed design makes it possible to manufacture a sealed waveguide-microstrip junction, which reduces the overall dimensions of the microwave modules and blocks in which it is used.

Claims (1)

Sealed waveguide-microstrip junction containing a section of a rectangular waveguide, shorted at one end by an end wall, which is configured to be connected to a sealed volume and has a rectangular slot, and a double-sided printed circuit board with end metallization, on one side of which a matching element is made, and on the other - a matching element connected to the microstrip line, a cavity with a rectangular slot is made in the wall of the sealed volume, into which a printed circuit board is hermetically installed by soldering through a plate having a rectangular slot, so that a part of each of the matching elements and the microstrip line are located in the sealed volume, the printed circuit board is inserted into a rectangular slot of the end wall, so that the other part of each of the matching elements is located in a segment of the rectangular waveguide.

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