JP3411223B2 - Antenna device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna device used in a radio communication system using circularly polarized waves, and more particularly to an antenna device for adjusting elliptically polarized waves radiated or transmitted with shifted axial ratios to circularly polarized waves. .

[0002]

2. Description of the Related Art As a conventional planar antenna device, for example, there is one described in Japanese Patent Laid-Open No. 7-193420.
As shown in FIG. 5, this is a substrate 1 that extends in the XY direction.
8, a circular polarization element 15 and a linear polarization element 13 arranged on the substrate 18, and a feeder line 5 for feeding the circular polarization element 15 and the linear polarization element 13,
Electric power is supplied to the circular polarization element 15 and the linear polarization element 13 by the power supply line 5 to generate a circular polarization and a linear polarization in each of them, and at the azimuth angle on the XY coordinate plane, In addition, a circularly polarized wave having a good axial ratio, which is a combination of the circularly polarized wave component and the linearly polarized wave component, is emitted in a direction inclined by the beam tilt angle with respect to the normal line (Z direction) of the substrate 18. Is. Here, 6 is the feeding point of the linear polarization element 13, 16 and 17 are the first feeding point and the second feeding point of the circular polarization element 15, and 14 and 19 are the first feeding points of the feeding line 5. It is a branch point to a point 16 and a second feeding point 17.

[0003]

However, in such a conventional antenna device, the axial ratio for a certain fixed angle (beam tilt angle) is improved, that is, for the angle determined at the manufacturing stage of the antenna device. Only the axial ratio is improved, and there is the inconvenience that the axial ratio cannot be arbitrarily adjusted during use, and it is necessary to separately prepare the linear polarization element 13 for adjusting the single polarization component.
As a result, there is a problem that the antenna device is inevitably increased in size.

The present invention has been made to solve the above-mentioned problems, and makes it possible to arbitrarily adjust the power levels of the horizontal polarization component and the vertical polarization component to be equal, thereby converting the elliptical polarization into the circular polarization. Therefore, it is an object of the present invention to provide an antenna device which can suppress the level fluctuation due to the elliptical deviated portion and can stably perform wireless communication with a small and good polarization characteristic.

[0005]

In order to achieve the above-mentioned object, an antenna device according to the invention of claim 1 is provided with an element antenna which generates a horizontal polarization and an element antenna which generates a vertical polarization, or horizontal and vertical. The element antenna for generating two polarized waves, two independent power supply terminals for horizontal polarization generation and vertical polarization generation, the polarization component adjusting means is connected to one or both of the power supply terminals, By adjusting the gain amount or attenuation amount of the horizontal polarization component or the vertical polarization component, or the distribution ratio, the horizontal combiner obtained by the power combiner with or without the polarization component adjusting means. The electric power of the polarized component and the electric power of the vertically polarized component are combined.

In the antenna device according to the second aspect of the present invention, a phase shifter is provided to adjust the phase difference between the horizontal polarized wave and the vertical polarized wave output from the feed terminal to about 90 degrees. It was done like this.

Further, in the antenna device according to the invention of claim 3, a transmission / reception shared amplifier is connected to one or both of the power feeding terminals, and the weighting at the time of transmission is performed by using the reverse polarity of the weighting at the time of reception. Is performed to amplify the horizontal polarization component and the vertical polarization component.

Further, in the antenna device according to the invention of claim 4, the polarization component adjusting means is a distributor capable of changing the distribution ratio of the horizontal polarization component and the vertical polarization component,
The distributor has two input terminals and two output terminals, and has a first 90-degree hybrid circuit or directional coupler and a second 90-degree hybrid circuit or directional coupler connected in series with each other. And these first 90 degree hybrid circuits or directional couplers,
A variable phase shifter is provided between the second 90-degree hybrid circuit or the directional coupler.

Further, in the antenna device according to the invention of claim 5, the element antenna is a microstrip antenna constructed by printing metal on a dielectric substrate, and the first 90-degree hybrid circuit or directional coupling is used. The antenna and the second 90-degree hybrid circuit or the directional coupler have a planar structure of a branch line type hybrid circuit or a rat race circuit, and the antenna radiating portion and the feeding circuit are configured by a planar metal pattern.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an antenna device of the present invention. In FIG. 1, reference numeral 1 denotes an element antenna or an antenna array (hereinafter referred to as an element antenna) as a microstrip antenna patch that generates horizontal polarization and vertical polarization. This has the power supply terminals 6a and 6b for horizontal polarization generation and vertical polarization generation respectively, and the respective power values of the horizontal polarization component and the vertical polarization component are substantially equal to these power supply terminals 6a and 6b. The amplifiers 2a and 2b as the polarization component adjusting means for adjusting the gain are connected to each other. Further, 3 is each amplifier 2a, 2
It is a power combiner that combines the output powers of b and outputs to the input / output terminal 4.

In the antenna device having such a configuration, the amplifiers 2a and 2b arbitrarily gain the power values of the horizontal polarization component and the vertical polarization component output from the power supply terminals 6a and 6b to be substantially the same. It can be tuned, which allows you to convert an elliptical polarization to a circular polarization, resulting in
It is possible to suppress level fluctuation due to elliptically polarized waves and perform stable wireless communication. Also, in the communication performed using linearly polarized waves, even if the plane of polarization shifts, this shift is corrected,
Good polarization characteristics can be secured. In order to perform the gain adjustment as described above, an attenuator is provided in place of the amplifiers 2a and 2b, and a distributor for adjusting the distribution ratio of the horizontal polarization component and the vertical wave component from the power supply terminals 6a and 6b is used. By providing them, gain adjustment or polarization component adjustment can be performed as in the case of using the amplifiers 2a and 2b. In addition, these amplifiers, attenuators or distributors are connected to power supply terminals 6a and 6b.
It is optional to provide either of them.

FIG. 2 shows another embodiment of the present invention. This is because the amplifiers 2a and 2b are connected to the power supply terminals 6a and 6b.
And a phase shifter 7 that shifts the horizontal polarization by approximately 90 degrees with respect to the vertical polarization, between one of the power supply terminals 6a and 6b, for example, between the power supply terminal 6a and the amplifier 2a. is there. Therefore, according to this, even when the axial ratio of the circularly polarized wave is deviated, a good axial ratio characteristic can be secured by the phase correction by the phase shifter 7. Also in this embodiment, one of the amplifiers 2a and 2b may be omitted, or an attenuator or a distributor may be used instead of the amplifiers 2a and 2b.

FIG. 3 shows still another embodiment of the present invention. Instead of the amplifiers 2a and 2b shown in FIG.
A common transmission / reception amplifier 8a, 8b is provided. In this embodiment, similarly to the above, the phase shifter 7 gives a phase difference of approximately 90 degrees to the horizontal polarization component and the vertical polarization component, and makes the power values of these polarization components approximately the same. While adjusting the gain as described above, the transmission / reception shared amplifiers 9a, 8b
Thus, at the time of transmission, the weighting is performed using the inverse characteristic of the weighting of the amplifier at the time of reception, whereby the polarization plane that deteriorates during the propagation of each polarization component can be corrected and transmitted in advance. . As a result, the polarization adjusting function can be achieved only by one of the antenna devices, and transmission based on good polarization characteristics can be performed. Even in this embodiment, the transmission / reception common amplifiers 8a and 8b are connected to the power supply terminals 6a and 6b.
It may be provided only on one side, and the same effect can be obtained by using a transmission / reception common attenuator instead of these transmission / reception common amplifiers 8a and 8b.

FIG. 4 shows another embodiment of the present invention.
This is the two inputs of the branch line hybrid circuit 9a as the first 90-degree hybrid circuit, which is used as a distributor for varying the distribution ratio of each polarization component to each of the two feeding terminals of the element antenna 1. Terminal AI1,
AI2 is connected, and the two output terminals AO1 and AO2 of the branch line hybrid circuit 9a are connected to the two input terminals BI1 and BI2 of the branch line hybrid circuit 9b as the second 90-degree hybrid circuit, and the output terminals The phase shifter 7 is connected between AO2 and the input terminal BI2. The two output terminals BO1 and BO2 of the branch line hybrid circuit 9b are connected to the transmission terminal 10 and the reception terminal 11, respectively.

In the antenna device having such a configuration, the phase value is adjusted by the phase shifter 7, so that the two output terminals BO1 and BO1 of the branch line hybrid circuit 9b are adjusted.
The power value of BO2 can be made variable, and each input terminal A
I1 and AI2, BI1 and BI2, output terminals AO1 and AO2, BO1 and BO2 are separated, and input terminals BI1 and BI2 and output terminals BO1 and BO are separated.
Since 2 has an antiphase characteristic, two characteristics having different polarization planes can be selectively used by using the output terminal BO1 as a transmission terminal and the output terminal BO2 as a reception terminal.

In addition, the branch line hybrid circuits 9a and 9b and the feed line 5 are added to the antenna device of the present invention.
By adopting a planar circuit structure such as a microstrip line and a microstrip antenna such as
Mass production of antenna devices by photolithography becomes possible.

[0017]

As described above, according to the first aspect of the invention, an element antenna that generates a horizontal polarization and an element antenna that generates a vertical polarization, or two horizontal and vertical polarizations are generated. The element antenna is provided with two independent power supply terminals for horizontal polarization generation and vertical polarization generation, and a polarization component adjusting means is connected to one or both of the power supply terminals,
By adjusting the gain amount or attenuation amount of the horizontal polarization component or the vertical polarization component, or the distribution ratio, the horizontal combiner obtained by the power combiner with or without the polarization component adjusting means. Since the powers of the polarization component and the vertical polarization component are combined, it is possible to arbitrarily adjust the power levels of the horizontal polarization component and the vertical polarization component so that the elliptical polarization is circularly polarized. Waves can be converted into waves, level fluctuations due to elliptical polarization can be suppressed, and the inclination of linear polarization can be changed, so that the plane of polarization of linear polarization can be adjusted. Therefore, it is possible to obtain an effect that the wireless communication can be stably performed with a small size and good polarization characteristics.

According to the second aspect of the present invention, a phase shifter is provided to adjust the phase difference between the horizontal polarized wave and the vertical polarized wave output from the power feeding terminal to about 90 degrees. Since it is configured, the power values of the horizontal polarization component and the vertical polarization component can be made approximately equal, and even if the axial ratio of the circular polarization is deviated, it must be corrected to ensure good axial ratio characteristics. The effect of being able to do is obtained.

According to the third aspect of the present invention, a transmission / reception shared amplifier is connected to one or both of the power supply terminals, and the transmission weighting is performed using the reverse polarity of the reception weighting. In addition, since the horizontal polarization component and the vertical polarization component are configured to be amplified, at the time of reception, weighting at the time of transmission is performed to correct the deterioration of polarization, and the antenna that initially becomes the receiving side. It is possible to correct the polarization deterioration characteristic only on the side, and it is possible to obtain the effect that wireless communication can be performed with good polarization characteristics even when transmission / reception is switched.

Further, according to the invention of claim 4, the polarization component adjusting means is a distributor capable of changing the distribution ratio of the horizontal polarization component and the vertical polarization component, and the distributor is two. A first 90-degree hybrid circuit or directional coupler having an input terminal and two output terminals and connected in series with each other, and a second 90-degree hybrid circuit or directional coupler; Since the variable phase shifter is provided between the 90 degree hybrid circuit or the directional coupler and the second 90 degree hybrid circuit or the directional coupler, the power levels of the signals of the two polarization components are By adjusting and synthesizing, the axial ratio can be adjusted arbitrarily, and good polarization characteristics can be obtained. Also, since the input and output terminals of the two polarization components are separated and have opposite phase characteristics, if one is used as the transmission terminal and the other is used as the reception terminal, two characteristics with different polarization planes can be used separately. It will be possible.

According to a fifth aspect of the present invention, the element antenna is a microstrip antenna formed by printing metal on a dielectric substrate, and the first 90-degree hybrid circuit or directional coupler is used. And the second 90-degree hybrid circuit or the directional coupler has a plane structure of a branch line type hybrid circuit or a rat race circuit, and the antenna radiation unit and the power feeding circuit are configured by a flat metal pattern, so that the power feeding circuit is formed together with the antenna device. The effect is that it can be configured in a plane, and therefore mass production and cost reduction of the antenna device can be realized by using the photolithography technique.

[Brief description of drawings]

FIG. 1 is a block diagram showing an antenna device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing an antenna device according to another embodiment of the present invention.

FIG. 3 is a block diagram showing an antenna device according to another embodiment of the present invention.

FIG. 4 is a block diagram showing an antenna device according to another embodiment of the present invention.

FIG. 5 is a plan view showing a conventional antenna device.

[Explanation of symbols]

1 Microstrip Antenna Patch (Element Antenna) 2a, 2b Amplifier (Polarization Component Adjusting Means) 3 Power Combiner 6a, 6b Feeding Terminal 7 Phase Shifter 8a, 8b Shared Amplifier 9a Branch Line Hybrid Circuit (First 90 ° Hybrid circuit.Distributor) 9b Branch line hybrid circuit (second 90-degree hybrid circuit.Distributor) 10 Transmission terminal 11 Reception terminal

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshikazu Hori 3-19-2 Nishishinjuku, Shinjuku-ku, Tokyo Nihon Telegraph and Telephone Corporation (56) References JP 61-1102 (JP, A) Special features Kaihei 3-196705 (JP, A) JP 63-31302 (JP, A) JP 10-142926 (JP, A) Actual Kai 5-18110 (JP, U) (58) Fields investigated ( Int.Cl. ⁷ , DB name) H01Q 21/24 H01Q 13/08

Claims (5)

(57) [Claims] 1. A horizontal polarization generating element and a vertical polarization generating element antenna that generate horizontal polarization and a vertical polarization element, or an element antenna that generates two horizontal and vertical polarization elements. In an antenna device having two independent power supply terminals for use or an array antenna device using a plurality of the element antennas, the gain of the horizontal polarization component or the vertical polarization component is connected to one or both of the power supply terminals. Amount or attenuation, or a polarization component adjusting means for adjusting the distribution ratio, and each power of the horizontal polarization component and the vertical polarization component obtained through or without the polarization component adjusting means. An antenna device comprising a power combiner for combining. 2. The antenna according to claim 1, further comprising a phase shifter that adjusts a phase difference between the horizontally polarized wave and the vertically polarized wave output from the power feeding terminal to approximately 90 degrees. apparatus. 3. Amplification of the horizontal polarization component and the vertical polarization component is performed by connecting to one or both of the power supply terminals and performing weighting at the time of transmission by using a reverse polarity of weighting at the time of reception. An antenna device according to claim 1 or 2, further comprising a shared transmission / reception amplifier. 4. The polarization component adjusting means is a distributor capable of changing a distribution ratio of the horizontal polarization component and the vertical polarization component, and the distributor has two input terminals and two output terminals. A first 90 degree hybrid circuit or directional coupler, and a second 9
There is a 0 degree hybrid circuit or directional coupler, and a variable phase shifter is provided between the first 90 degree hybrid circuit or directional coupler and the second 90 degree hybrid circuit or directional coupler. The antenna device according to claim 1, wherein the antenna device is provided. 5. The element antenna is a microstrip antenna configured by printing a metal on a dielectric substrate, and the first 90-degree hybrid circuit or directional coupler and the second 90-degree hybrid circuit. Alternatively, the directional coupler has a planar structure of a branch line hybrid circuit or a rat race circuit, and the antenna radiating part and the feeding circuit are composed of a planar metal pattern.