JPH02155301A - Microwave circuit device - Google Patents

Abstract

PURPOSE:To avoid an undesired transmission line and to minimize the number of discontinuous parts by constituting the subject device such that a metallic chassis mounted with a dielectric board formed with a microstrip line or a cover of the metallic chassis and a part of a flange of a waveguide are united integrally. CONSTITUTION:A dielectric board 4 formed with a microstrip line 3 is mounted onto a metallic chassis 2 and closed hermetically with a cover 1. In this case, a part of a flange 8 of a waveguide 7 is integrated to cover 1. Moreover, a part of the flange 8 of the waveguide 7 is integrated to the metallic chassis 10. Furthermore, the inner conductor 20 of a coaxial line 5 formed to the metallic chassis 2 or 10 is projected to both sides, one end is connected to the microstrip line 3 and the other end is inserted to the waveguide 7 composed of the metallic chassis 2, or 10 and 6. Thus, the inner conductor 20 of the coaxial line 5 is inserted directly to the waveguide 7.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a microwave circuit device used in microwave band or millimeter wave band communication equipment, radar, and the like.

BACKGROUND OF THE INVENTION In recent years, research and development of new wireless communication systems such as satellite broadcasting and satellite communications have been actively conducted. Many of these new wireless communication systems use microwaves. Research and development of microwave integrated circuits, which play a central role in microwave equipment, is also actively conducted.

An example of a conventional microwave circuit device will be described below with reference to the drawings.

FIG. 3 shows a cross-sectional view of the configuration of a conventional microwave circuit device. In FIG. 3, a dielectric substrate 14 on which a microstrip line 13 is formed is attached to a metal chassis 1.
2 and is sealed with a lid 11. The inner conductor 21 of the coaxial line 15 formed on the metal chassis 12
protrudes from both sides, one end is connected to the microstrip line 13, and the other end is connected to the metal line 16.
The waveguide 17 is inserted through a hole 19 provided in the waveguide 17 . In this way, the electromagnetic waves of the microstrip line 13 and the electromagnetic waves of the waveguide 17 are coupled. The flange 18 is used to connect the waveguide 17 to another waveguide.

Problems to be Solved by the Invention However, in the configuration as described above, since the inner conductor 21 of the coaxial line 15 is inserted into the waveguide 17 through the hole 19, there are many unlucky points in this part. In addition, the transmission path becomes longer, which has a negative impact on electrical characteristics. In view of the above problems, the present invention provides a microwave circuit device in which the inner conductor of a coaxial line can be inserted directly into a waveguide.

Means for Solving the Problems In order to solve the above problems, the microwave circuit bag T of the first configuration includes a coaxial line with inner conductors protruding on both sides, and a microstrip line connected to one end of the inner conductor. and,
a waveguide into which the other end of the inner conductor is inserted, a lid of a metal yam mounting a dielectric substrate forming the microstrip line, and a portion of the flange of the waveguide; It has an integrated configuration.

Further, the microwave circuit device having the second configuration includes a coaxial line with an inner conductor protruding on both sides, a microstrip connected to one end of the inner conductor, a line, and a conductor into which the other end of the inner conductor is inserted. A waveguide is provided, and a metal chassis on which a dielectric substrate forming the microstrip line is mounted is integrated with a part of the flange of the waveguide.

Effect of the Invention The present invention uses the first and second configurations described above to minimize unnecessary transmission paths and discontinuous points when coupling the electric 4ft wave of the microstrip line and the electromagnetic wave of the waveguide via the coaxial line. can be limited.

EXAMPLE Hereinafter, a microwave circuit device which is an example of the present invention will be described with reference to the drawings. FIG. 1 is a sectional view of the configuration of a microwave circuit device according to a first embodiment of the present invention. In FIG. 1, a dielectric substrate 4 on which a microstrip line 3 is formed is mounted on a metal chassis 2 and sealed with a lid l. Here, a portion of the flange 8 of the waveguide 7 is integrated into the lid l.

The inner conductor 20 of the coaxial line 5 formed on the metal chassis 2 protrudes from both sides, one end of which is connected to the microstrip line 3, and the other end of which is connected to the conductor formed by the metal chassis 2 and 6. It is inserted into the wave tube 7. In this way, the electromagnetic waves of the microstrip line 3 and the electromagnetic waves of the waveguide 7 are coupled. And flange 8
is used to connect the waveguide 7 to other waveguides.

As described above, according to this embodiment, the flange 8
By integrating a part of the coaxial line 5,
The inner conductor 20 of the waveguide 7 can be inserted directly into the waveguide 7.

A second embodiment of the present invention will be described below with reference to the drawings. FIG. 2 is a sectional view of the configuration of a microwave circuit device showing a second embodiment of the present invention. In Figure 2,
The dielectric substrate 4 on which the microstrip line 3 is formed is
It is mounted on a metal shear IO and sealed with a lid 9. Here, the metal chassis 10 has a flange 8 of the waveguide 7.
It is constructed by integrating a part of it. The inner conductor 20 of the coaxial line 5 formed on the metal chassis 10 protrudes from both sides, one end of which is connected to the microstrip line 3, and the other end of which is connected to the conductor formed by the metal chassis 10 and 6. It is inserted into the wave tube 7. In this way, the electromagnetic waves of the microstrip line 3 and the electromagnetic waves of the waveguide 7 are coupled. And the flange 8 is the waveguide 7
and used for connection with other waveguides.

As described above, according to this embodiment, by integrating a portion of the metal shear 10 and the flange 8,
The inner conductor 20 of the coaxial line 5 can be inserted directly into the waveguide 7.

Effects of the Invention As described above, the present invention provides a metal chassis on which a dielectric substrate on which a microstrip line is formed, or a lid of the metal chassis and a part of the flange of a waveguide.
By integrating the structure, the inner conductor of the coaxial line can be inserted directly into the waveguide when coupling the electric 411 waves of the microstrip line and the electromagnetic waves of the waveguide via the coaxial line. Therefore, unnecessary transmission paths and discontinuous points can be minimized, and good electrical characteristics can be stably maintained.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of the configuration of a microwave circuit device according to a first embodiment of the present invention, FIG. 2 is a cross-sectional view of the configuration of a microwave circuit device according to a second embodiment of the present invention, and FIG. FIG. 1 is a cross-sectional view of the configuration of a conventional microphone 1゛] wave circuit device. 1.9...Lid, 2. IO...Metal yarn, 3...Microstrip line, 4.
... Dielectric substrate, 5 ... Coaxial line, 6.
...Metal chassis, 7...Waveguide, 8.
...Flange, 20...Inner conductor, 11.
...Lid, 12...Metal chassis, 13
...Microstrip line, 14...
・Dielectric substrate, 15... Coaxial line, 16...
...Metal Shaan, 17...Waveguide, 18.
...Flange, 19 ... Hole, 21 ...
...Inner conductor. Agent's name Patent attorney Awano type car Haka 1 person 1 ”-J
, Fig. 3 H---Po\r; 12, /1. ”-Metal Seat I3°-Microstop 7'; $! l-Dielectric/Base Omata 15-Coaxial #17--Driller 1B-'Flange 19-621---Inner Groove Diagram q −, x, r=

Claims (2)

[Claims] (1) A coaxial line with an inner conductor protruding on both sides, a microstrip line connected to one end of the inner conductor, and a waveguide into which the other end of the inner conductor is inserted; A microwave circuit device characterized in that a lid of a metal chassis on which a dielectric substrate forming a line is mounted is integrated with a part of the flange of the waveguide. (2) A coaxial line with an inner conductor protruding on both sides, a microstrip line connected to one end of the inner conductor, and a waveguide into which the other end of the inner conductor is inserted; A microwave circuit device characterized in that a metal chassis on which a dielectric substrate forming a line is mounted and a part of the flange of the waveguide are integrated.