JP2000236210A - Antenna system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To actualize an antenna system which can switch polarized waves under simple control for a small-sized communication antenna which uses a circularly polarized wave as to a small-sized patch antenna used for radio communication. SOLUTION: This antenna system is constituted by putting an annular patch formed on a dielectric substrate 10 and a feed line 7, which has a ground conductor 9 and is formed on the dielectric substrate 10, piled over the other. In this case, an antenna conductor and a ground conductor inside the annular patch are short-circuited at one or two places through a switch circuit inserted in series with the conductors; and the antenna conductor and ground conductor 9 are short-circuited at a position along the internal diameter of the annular patch at about 90 deg. or -90 deg. to the reference line, connecting the center of the annular patch and the center line of the feed line 7 when it is short-circuited at one place and at positions along the internal diameter of the annular patchs at both almost ±90 deg. with respect to the reference line when it is short-circuited at two positions, and a control terminal is connected to the annular patch via a high-frequency cutting coil.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a small patch antenna used for radio communication, and more particularly to a switch circuit arranged on a patch in a small communication antenna using a plane antenna and circularly polarized waves. The present invention relates to an antenna device capable of switching the polarization by simple control using.

[0002]

2. Description of the Related Art FIGS. 3A and 3B are views showing an antenna device for realizing a circularly polarized wave using a conventional annular patch, wherein FIG. 3A is a plan view and FIG. 3B is a side view. In the figure, numeral 1 indicates an annular microstrip antenna, 6 indicates a short-circuited point between the annular microstrip antenna 1 and a ground conductor,
Reference numeral 7 denotes a power supply line, 8 denotes a short-circuit conductor, 9 denotes a ground conductor, and 10 denotes a dielectric substrate.

The antenna device shown in FIG. 1 shows a configuration of a planar antenna that generates circularly polarized waves using a ring patch. This antenna is operated as an antenna by electromagnetically coupling an annular patch from an open stub. Such an antenna device is disclosed in JP-A-8-8638.

The above-described antenna device is fixed to one of a right-handed wave and a left-handed wave, and the direction of the wave cannot be switched.

FIG. 4 is a diagram for explaining the operation of an example of an antenna configuration using an annular patch. C. Chen: "A Broad-BandA
nuclear-Ring Microstrip An
tenna, "IEEE Trans. on Ante
anna and Propagation, V01. AP
-30, No. 5, Sep. 1982, p. 918-
922. ].

In FIG. 1, numeral 1 indicates an annular microstrip antenna. The present antenna is a microstrip antenna using an annular patch, and it can be seen from the figure that a linearly polarized wave can be generated in the microstrip antenna using an annular patch.
In this conventional example, the above document does not show a method for polarization switching.

[0007]

As described above, in a conventional antenna device using a microstrip antenna using an annular patch, a circular polarization can be generated from a linear polarization by a feeding method. I understand.

However, there is disclosed an antenna device which combines the operations to realize the polarization of a plurality of electromagnetic waves with the same antenna element and which can switch the polarization by simple means and simple control. There is no example.

The present invention has been made in view of such conventional problems,
It is an object of the present invention to realize a microstrip antenna using a ring-shaped patch having a simple configuration in which the polarization used can be easily switched by simple control.

[0010]

According to the present invention, the above-mentioned object is solved by the means described in the claims. That is, the invention according to claim 1 includes an annular patch formed on a dielectric substrate and a feed line formed on a dielectric substrate having a ground conductor, wherein at least a part of the feed line is formed with the annular patch. An antenna device that is configured to be overlapped so as to be located between a ground conductor,

At one or two places, the antenna conductor inside the annular patch and the ground conductor are short-circuited at one or two places via a conductor and a switch circuit inserted in series with the conductor,

In addition, the short-circuit point is defined by using a line connecting the center of the annular patch and the center line of the feed line as a reference line.
When the short-circuit point between the antenna conductor and the ground conductor is one point, the position is substantially 90 degrees or approximately -90 with respect to the reference line.
Position along the inner diameter of the annular patch,

When there are two short-circuit points between the antenna conductor and the ground conductor, the short-circuit point is located at a position along the inner diameter of both annular patches of approximately ± 90 degrees with respect to the reference line. This is an antenna device in which a control terminal is connected to an arbitrary position of an annular patch via a high-frequency cut coil.

According to a second aspect of the present invention, an annular patch formed on a dielectric substrate and a feed line formed on a dielectric substrate having a ground conductor, wherein at least a part of the feed line is formed by the annular patch. And an antenna device configured to be overlapped so as to be located between the ground conductor and

The antenna conductor and the ground conductor are short-circuited by a conductor at a location inside the annular patch facing the feeder line, while the antenna conductor and the ground conductor are located inside the annular patch. Is short-circuited at one or two places via a conductor and a switch circuit inserted in series with the conductor,

In addition, the short-circuit point is defined by using a line connecting the center of the annular patch and the center line of the feed line as a reference line.
When the short-circuit point between the antenna conductor and the ground conductor is one point, the position is substantially 90 degrees or approximately -90 with respect to the reference line.
Position along the inner diameter of the annular patch,

When there are two short-circuit points between the antenna conductor and the ground conductor, the short-circuit points are located along the inner diameters of both of the annular patches at approximately ± 90 degrees with respect to the reference line. This is an antenna device in which a control terminal is connected to an arbitrary position of an annular patch via a high-frequency cut coil.

[0018]

FIG. 1 is a view showing a first embodiment of the present invention, wherein (a) is a plan view and (b) is a side view. In the figure, numeral 1 is an annular patch, 2 is a yoke coil, 3 is a control terminal, 4a and 4b are diode switches, 5 is a ground, 6 is a short-circuited portion, 7 is a feed line, 8 is a short-circuit conductor, and 9 is a ground. Reference numeral 10 denotes a conductor, and reference numeral 10 denotes a dielectric substrate.

Excitation to the antenna is performed by electromagnetically coupling a feed line 7 disposed between the annular patch 1 and the ground conductor 9 to the annular patch 1. In the antenna device of the present invention, a position substantially 90 degrees with respect to a position on a line connecting the feeder line 7 and the center of the annular patch 1 (this angle is indicated by φ in the drawing, which is another drawing described below). The diode switches 4a and 4b are arranged at positions substantially along -90 degrees along the inner diameter of the annular patch 1 in opposite directions, and one end is grounded. The configuration connected to the conductor 9 is adopted.

Although an example in which a diode switch is used in the switch circuit is shown here, other switch circuits may be used. In addition, a control terminal 3 to which a yoke coil 2 for high-frequency cut is connected is prepared for the annular patch 1.

By applying a positive bias to the control terminal, only one of the diode switches is short-circuited,
Conversely, by applying a negative bias to the control terminal, the diode switch that has operated previously is disconnected, and at the same time, only the other diode switch operates.

When a zero bias is applied to the control terminal, neither diode switch operates.
As described above, in the same antenna element, a plurality of short-circuit states can be created by the control signal, and the polarization can be switched.

According to the present invention, for example, when used in a wireless communication system using circularly polarized waves, it is assumed that switching between direct waves uses homo-rotational waves and communication using reflection waves uses reverse rotations. This makes it possible to design the system easily and easily.

FIGS. 2A and 2B show a second embodiment of the present invention, wherein FIG. 2A is a plan view and FIG. 2B is a side view. In the figure, numeral 1 is an annular patch, 2 is a yoke coil, 3 is a control terminal, 4a and 4b are diode switches, 5 is ground, 6 is a short-circuit point, 7 is a feed line,
Reference numeral 8 denotes a short-circuit conductor, 9 denotes a ground conductor, and 10 denotes a dielectric substrate.

Excitation to the antenna is performed by electromagnetically coupling a feed line 7 disposed between the annular patch 1 and the ground conductor 9 to the annular patch 1. In the antenna device of the present invention, first, the annular patch 1 is short-circuited to the ground conductor 9 at a position along the inside of the annular patch 1 on a line connecting the feed line 7 and the center of the inter-circular patch 1.

Further, with reference to a position on a line connecting the feeding line 7 and the center of the annular patch 1, two positions along the inside of the annular patch 1 at a position of approximately 90 degrees and a position of approximately -90 degrees. In this configuration, the diode switches 4a and 4b are arranged in opposite directions, and one end is connected to the ground conductor 9.

Although an example in which a diode switch is used in the switch circuit is shown here, other switch circuits may be used. In addition, a control terminal 3 to which a yoke coil 2 for high-frequency cut is connected is prepared for the annular patch 1.

By applying a positive bias to the control terminal, only one of the diode switches is short-circuited,
Conversely, by applying a negative bias to the control terminal, the diode switch that has operated previously is disconnected, and at the same time, only the other diode switch operates.

When a zero bias is applied to the control terminal, neither diode switch operates. As described above, in the same antenna element, a plurality of short-circuit states can be created by the control signal, and the polarization can be switched.

According to the present invention, for example, when used in a wireless communication system using circularly polarized waves, it is assumed that switching between direct waves uses homo-rotational waves and communication using reflection waves uses reverse rotations. System design becomes possible,
The switching can be easily performed.

[0031]

As described above, according to the present invention,
It is possible to easily realize a microstrip antenna using an annular patch having a simple configuration that can easily switch the polarization to be used with simple control.

[Brief description of the drawings]

FIG. 1 is a diagram showing a first example of an embodiment of the present invention.

FIG. 2 is a diagram showing a second example of the embodiment of the present invention.

FIG. 3 is a diagram illustrating an example of a microstrip antenna for circular polarization using a conventional annular patch.

FIG. 4 is a diagram illustrating the operation of a microstrip antenna using a conventional annular patch.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 annular microstrip antenna 2 chi-yoke coil 3 control terminal 4 a, 4 b diode switch 5 ground 6 short-circuit location 7 feed line 8 short-circuit conductor 9 ground conductor 10 dielectric substrate

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Toshikazu Hori 3-19-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo F-Term within Nippon Telegraph and Telephone Corporation (reference) 5J045 AA12 AB05 CA02 CA03 DA10 EA07 FA02 HA03 LA01 MA07 NA01 5J046 AA04 AB13 PA07 SA07

Claims (2)

[Claims] An annular patch formed on a dielectric substrate;
A feed line formed on a dielectric substrate having a ground conductor,
An antenna device configured by overlapping at least a part of the feed line so as to be located between the annular patch and a ground conductor, wherein the antenna conductor and the ground conductor at an inner portion of the annular patch are arranged. At one or two locations, the conductor is short-circuited via a conductor and a switch circuit inserted in series with the conductor, and the short-circuit location is a line connecting the center of the annular patch and the center line of the feed line. If there is only one short-circuit point between the antenna conductor and the ground conductor with respect to the reference line, a position along the inner diameter of the annular patch at approximately 90 degrees or approximately -90 degrees with respect to the reference line. When there are two short-circuit points between the antenna conductor and the ground conductor, the positions are substantially ± 90 degrees with respect to the reference line along the inner diameter of both annular patches. At any position on the patch, place a high-frequency cut coil Antenna apparatus characterized by connecting the control terminal via. 2. An annular patch formed on a dielectric substrate,
A feed line formed on a dielectric substrate having a ground conductor,
An antenna device configured by overlapping at least a part of the feed line so as to be located between the annular patch and a ground conductor, wherein a portion of the inner side of the annular patch facing the feed line, A switch circuit in which the antenna conductor and the ground conductor are short-circuited by the conductor, and on the other hand, the antenna conductor and the ground conductor inside the annular patch are inserted at one or two places in series with the conductor and the conductor; And the short-circuited portion is a short-circuited portion between the antenna conductor and the ground conductor with a line connecting the center of the annular patch and the center line of the feed line as a reference line. In some cases, the position should be approximately 90 degrees or approximately -90 degrees along the inner diameter of the annular patch with respect to the reference line, and if there are two short-circuit points between the antenna conductor and the ground conductor, , The group A position along the inner diameter of both annular patches of approximately ± 90 degrees with respect to the reference line, and a control terminal was connected to an arbitrary position of the annular patch via a high-frequency cut coil. An antenna device, comprising: