JPH0265506A - Microstrip slot antenna - Google Patents

Abstract

PURPOSE:To form a coaxial-microstrip converter with a low VSWR and mechanical strength by forming a microstrip line reverse to a slot face in the vicinity of the said converter in a microstrip slot antenna. CONSTITUTION:An electromagnetic wave is converted from a coaxial line 6 first perpendicularly to a microstrip line 3 formed to a slot face and the microstrip line is reversed to a face opposite to the slot face at a part B this side reaching a slot 4 by a throughhole plating 7. Then the slot 4 is excited by the wave propagated through the reversed line 3 and a cavity 5 and the electromagnetic wave is radiated into the upper part of a dielectric base. Since the microstrip line 3 is formed on the slot face in the coaxial-microstrip conversion section, a ground pattern is able to be formed on a connecting face of the coaxial line 6 and a flanged connector 8 or the like is able to be fitted to the connection part. Thus, the radiation from the slot is not hindered and the electrically and mechanically stable antenna is formed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a microstrip slot antenna, and particularly to the structure of its coaxial-to-microstrip conversion section.

[Conventional technology]

Figure 2 (al is a plan view of a conventional microstrip slot antenna with a cavity, (bl is (a1). , 3 is a microstrip line, 4 is a slot from which a part of the W4 foil of the dielectric substrate 1 is removed, and 5 is a microstrip line.
is a cavity, 6 is a coaxial line, 9 is a conductor plate that short-circuits the outer conductor of the coaxial line 6 and the ground, and lO is an insulator.

Next, the operation will be explained. Microstrip line 3
is vertically converted by the coaxial line 6, and excites the slot 4 by the microstrip line 3 and cavity 5. The excited slot 4 emits electromagnetic waves above the dielectric substrate 1. In order to connect this antenna and the transmitter/receiver without interfering with the radiation of electromagnetic waves, it is necessary to feed power from the coaxial line 6 to the microstrip line 3 from the side opposite to the slot. Therefore, in the conventional structure, the microstrip line 3 is on the opposite side of the slot, so it is necessary to insert an insulator 10 between the outer conductor of the coaxial line 6 and the microstrip line 3 to prevent short circuits, as shown in the middle part of the figure. The outer conductor was grounded by adding a conductor plate 9.

Problems to be Solved by the Invention] Since the conventional microstrip slot antenna is configured as described above, it is not possible to use a commercially available flange type connector in the coaxial-microstrip conversion section. It is necessary to add an insulator and a conductive plate, and there are also problems in that the added insulator is discontinuous, easily causing reflection, and is mechanically weak.

This invention was made to solve the above-mentioned problems, and the coaxial-to-microstrip converter has a low VSW.
The objective is to obtain a microstrip slot antenna with a mechanically strong structure.

[Means to solve the problem]

The microstrip slot antenna according to the present invention is formed by inverting the microstrip line to the slot surface side near the coaxial-microstrip conversion section.

[Effect]

In this invention, since the microstrip line is reversed to the slot surface side near the conversion part, a ground pattern can be formed on the connection surface with the coaxial line, and by using a flange type connector etc. VSW
A mechanically strong coaxial microstrip transducer can be constructed with R.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 (al is a plan view of a microstrip slot antenna with a cavity according to an embodiment of the present invention,
Mountain) is (a) in figure 0 showing the cross-sectional view of A-A in the figure,
1 is a dielectric substrate, 2 is a dielectric, 3 is a microstrip line, 4 is a slot from which a part of the copper foil of the dielectric substrate 1 is removed, 5 is a cavity, 6 is a coaxial line, 7 is a dielectric 2 The provided through-hole plating 8 is a flange type connector.

Next, the operation will be explained.

In this embodiment as well, the microstrip line 3 is vertically converted from the coaxial line 6, and the structure in which the slot 4 is excited by the microstrip line 3 and the cavity 5 is the same as the conventional one. First, it is vertically converted to the microstrip line 3 formed on the slot surface, and then reversed to the surface opposite to the slot surface by the through-hole plating 7 at the front B part leading to the slot 4.Then, the inverted microstrip line 3 and Cavity 5
The slot 4 is excited and emits electromagnetic waves above the dielectric substrate 1.

In the coaxial-microstrip conversion section, since the microstrip line 3 is formed on the slot surface, a ground pattern can be formed on the connection surface of the coaxial line 6.
A flange type connector 8 or the like can be attached to the connecting portion.

In the above embodiment, a microstrip/slot antenna with a cavity was described, but as shown in another embodiment of the present invention in FIG. 3, a microstrip/slot antenna with a reflector may also be used. Reference numeral 10 in FIG. 1 is a reflecting plate that has the same effect as the example.

Further, the through-hole reinforcement 7 shown in part B of FIG. 1 may be a conductor rod that short-circuits the slot surface and the microstrip line on the opposite surface, and the same effect as in the above embodiment is achieved.

〔Effect of the invention〕

As described above, according to the present invention, since the microstrip line is provided inverted on the slot surface near the coaxial-microstrip conversion section, radiation from the slot is not obstructed and electrically A microstrip slot antenna with a mechanically stable coaxial microstrip transducer can be obtained.

[Brief explanation of the drawing]

FIGS. 1(a) and (b) are a plan view and a sectional view of a microstrip slot antenna with a cavity according to an embodiment of the present invention, and FIGS. 3(a) and 3(b) are a plan view and a sectional view of a microstrip slot antenna with a reflector according to another embodiment of the present invention. 1 is a dielectric substrate; 2 is a dielectric substrate; is a dielectric, 3 is a microstrip line, 4 is a slot, 5 is a cavity, 6 is a coaxial line,
7 is through hole plating, 8 is flange type connector, 9
10 is a conductive plate, 10 is an insulator, and 11 is a reflective plate. Note that the same reference numerals in the figures indicate the same or equivalent parts.

Claims (1)

[Claims] (1) In a microstrip-slot antenna in which a slot is excited by a microstrip line and power is vertically fed to the line from the opposite side of the slot by a coaxial line, the microstrip line is connected to the slot near the coaxial-to-microstrip converter. A microstrip slot antenna characterized by being formed inverted on the surface side.