JP2006140667A - Antenna system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a short-height antenna system for vertical polarized waves. <P>SOLUTION: An antenna element 20 has both ends vertically stood at edges of one side 22a of a substrate 22 and also has the one end connected to a feed point and the other grounded, and the antenna effective length is set to 1/2 time as long as the wavelength at an object frequency. The antenna element 20 has a top surface portion formed by bending vertical portions 20a and 20a at right angles to a plane containing the two vertical portions 20a and 20a at specified height so that the two vertical portions 20a and 20b are both in parallel to the substrate 22 in the same direction. The top surface portion is formed in a channel shape when viewed at right angles to the substrate 22. The substrate 22 has two adjacent sides 22b and 22b on both sides of the one side 22a formed in a rectangular shape orthogonal to the one side 22a. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a low-profile antenna device for transmitting and receiving vertically polarized waves.

  An antenna device having a structure shown in FIG. 8 is known as an example of an antenna device for transmitting and receiving vertically polarized waves. FIG. 8 is an external perspective view of an antenna device as an example of a conventional structure. In FIG. 8, both ends of the antenna element 10 are erected perpendicularly to the edge of one side 12a of the substrate 12, one end of which is connected to the feeding point and the other end is connected to the ground. The antenna element 10 is formed in a U shape having an opening on the side of the substrate 12 when viewed from a direction perpendicular to the plane including the two vertical portions 10a and 10a with both ends erected. The length is set to ½ wavelength of the frequency to be transmitted / received. In the antenna device having such a configuration, vertically polarized waves can be transmitted and received by the vertical portions 10 a and 10 a of the antenna element 10.

  In the antenna device having the conventional structure shown in FIG. 8, strong vertical polarization can be transmitted and received by the vertical portions 10a and 10a of the antenna element 10, and at the same time, it flows through two adjacent sides 12b and 12b on both sides of one side 12a of the substrate 12. Horizontally polarized waves can be transmitted and received strongly by current. Therefore, when only vertical polarization is to be transmitted / received, the vertical polarization component is easily masked by the horizontal polarization component, and the antenna efficiency is deteriorated by transmission / reception of the horizontal polarization component.

  By the way, although game devices using wireless communication that transmits and receives vertically polarized waves have become widespread in recent years, miniaturization of at least an operation-side device is desired in any device. Therefore, even in an antenna device that transmits and receives a vertically polarized signal, it is a matter of course that a downsizing and a low profile are required. However, in the antenna device having the conventional structure shown in FIG. 8, the vertical dimension 10a, 10a of the antenna element 10 has a large height dimension and is not suitable for a low profile type.

  The present invention has been made to improve the problems of the conventional structure as described above, and an object of the present invention is to provide a low-profile antenna device for vertically polarized waves.

  In order to achieve such an object, the antenna device of the present invention has both ends perpendicular to the substrate, one end thereof is connected to the feeding point, the other end is grounded, and the antenna effective length is targeted. The antenna element is set to a half wavelength of the frequency to be transmitted, and the two vertical portions are in the same direction with respect to the plane including the two vertical portions with the vertical portions at both ends at a predetermined height. The top surface portion is formed by being bent so as to be parallel.

  Then, both ends of the antenna element are erected on the edge of one side of the substrate, the substrate is formed so that two adjacent sides on both sides of the one side are perpendicular to the one side, and the antenna element is The portion may be configured to be bent at a predetermined height at a right angle with respect to the plane including the two vertical portions.

  Further, the top surface portion of the antenna element may be formed in a U shape when viewed from the direction perpendicular to the substrate.

  Furthermore, all or part of the top surface portion of the antenna element may be formed in a meander shape or a zigzag shape.

  Further, all or part of the antenna element can be arranged on the surface of the dielectric.

  Further, the vertical portion of the antenna element may be disposed on the surface of the dielectric without arranging the vertical portion on the surface of the dielectric, instead of being disposed on the surface of the dielectric.

  In the antenna device according to claim 1, both ends of the antenna element are erected vertically to the substrate, and the vertical portion is bent at a predetermined height so as to be parallel to the substrate, thereby forming the top surface portion. A low-profile antenna device can be configured. In addition, vertical polarization can be transmitted and received at the vertical portions at both ends, and it can function as an antenna for vertical polarization.

  3. The antenna device according to claim 2, wherein a current flowing in a portion in which the vertical portions of both ends of the antenna element are bent at right angles to a plane including the two vertical portions and parallel to the substrate, and both sides of the substrate The currents flowing through the edges of the two adjacent sides are in opposite directions, and the horizontally polarized waves transmitted and received in the respective parts cancel each other. Therefore, the vertical polarization component appears relatively large.

  In the antenna device according to the third aspect, since the top surface portion of the antenna element is U-shaped when viewed from the direction perpendicular to the substrate, the structure is simple. In addition, if the part where the vertical part is bent is parallel to the edge part of the adjacent side on both sides of the substrate, the directions of the currents flowing to each other are opposite, which is effective in suppressing horizontal polarization.

  The antenna device according to claim 4, wherein all or part of the top surface portion of the antenna element is formed in a meander shape or a zigzag shape, so that the arrangement space of the antenna element viewed from the direction perpendicular to the substrate is small. It is suitable for miniaturization.

  In the antenna device according to the fifth aspect, the antenna element can be reduced in size due to the wavelength shortening effect by disposing all or part of the antenna element on the surface of the dielectric.

  In the antenna device according to claim 6, the vertical portions at both ends of the antenna element are not disposed on the surface of the dielectric, and the whole or part of the top surface portion is disposed on the surface of the dielectric so that the wavelength is increased. Due to the shortening effect, the antenna element can be miniaturized at the portion disposed on the surface of the dielectric, and the vertical portion where the high voltage is superimposed is not disposed on the surface of the dielectric, so that no dielectric loss occurs. The vertical polarization can be efficiently transmitted and received.

  Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an external perspective view of an antenna apparatus according to a first embodiment of the present invention. FIG. 2 is a diagram showing the directivity characteristics of the antenna apparatus of FIG.

  In FIG. 1, the antenna element 20 has its both ends vertically erected on the edge of one side 22a of the substrate 22, one end connected to a feeding point and the other end connected to the ground. In addition, the antenna element 20 has two vertical portions 20a, 20a in the same direction at right angles to a plane including the two vertical portions 20a, 20a at a predetermined height of, for example, 4 mm. The top surface portion is formed by being bent on the substrate 22 side so as to be parallel to the substrate 22. Moreover, the top surface portion of the antenna element 22 is formed in a U shape when viewed from the direction perpendicular to the substrate 22. The substrate 22 is viewed from a direction perpendicular to the substrate 22 in which the two adjacent sides 22b and 22b on both sides of the one side 22a where both ends of the antenna element 20 are disposed at the edges are perpendicular to the one side 22a. As an example, it is formed in a rectangular shape.

  In the antenna apparatus according to the first embodiment having such a configuration, vertical polarizations can be transmitted and received by the vertical portions 20a and 20a of the antenna element 20. The portions 20b and 20b bent from the vertical portions 20a and 20a are parallel to the two sides 22b and 22b on both sides of the substrate 22, and are bent at the edges of the bent portions 20b and 20b and the two sides 22b and 22b. The directions of the flowing currents are opposite to each other. Therefore, the horizontal polarization transmitted and received in that portion is canceled and suppressed. Note that the U-shaped central portion 20c of the antenna element 20 viewed from the vertical direction with respect to the substrate 22 has no effect of transmitting and receiving horizontal polarization. Therefore, in the antenna apparatus of the first embodiment, the horizontal polarization component is suppressed, and the vertical polarization component appears relatively large correspondingly.

  And as for the directional characteristic of the antenna apparatus of 1st Example, as shown by the continuous line in FIG. 2, the vertically polarized wave has shown omnidirectionality. As shown by a dotted line in FIG. 2, the horizontal polarization is suppressed on the substrate 22 side, and the bent portions 20 b and 20 b of the antenna element 20 and the two sides 22 b and 22 b of the substrate 22 are parallel to each other. By doing so, it is shown that horizontal polarization is suppressed.

  Next, a second embodiment and a third embodiment of the present invention will be described with reference to FIGS. FIG. 3 is an external perspective view of the antenna device according to the second embodiment of the present invention. FIG. 4 is an external perspective view of the antenna device according to the third embodiment of the present invention.

  In the second embodiment shown in FIG. 3, the portions 30b and 30b bent so that the vertical portions 30a and 30a of the antenna element 30 are parallel to the substrate 22 at a predetermined height are formed in a meander shape. The central part 30c is a straight line. In the configuration of the second embodiment, the arrangement space of the antenna element 30 viewed from the direction perpendicular to the substrate 22 can be reduced. Further, in the third embodiment shown in FIG. 4, the portions 40b and 40b bent so that the vertical portions 40a and 40a of the antenna element 40 are parallel to the substrate 22 at a predetermined height are formed in a meander shape, The central portion 40c is also formed in a meander shape. That is, the top surface portion of the antenna element 40 is all formed in a meander shape. In the configuration of the third embodiment, the arrangement space of the antenna element 40 viewed from the direction perpendicular to the substrate 22 can be further reduced.

  The fourth, fifth, and sixth embodiments of the present invention will be described with reference to FIGS. 5, 6, and 7, respectively. FIG. 5 is an external perspective view of the antenna device according to the fourth embodiment of the present invention. FIG. 6 is an external perspective view of an antenna apparatus according to a fifth embodiment of the present invention. FIG. 7 is an external perspective view of the antenna device according to the sixth embodiment of the present invention.

  In the fourth embodiment shown in FIG. 5, the central portion 50c of the portion where the vertical portions 50a, 50a of the antenna element 50 are bent at a predetermined height and parallel to the substrate 52 is disposed on the surface of the dielectric 54. The dielectric 54 is disposed on the substrate 52. Note that the vertical portions 50a and 50a are not provided on the surface of the dielectric 54 but are provided separately. In the configuration of the fourth embodiment, the central portion 50c of the antenna element 50 is disposed on the surface of the dielectric 54, whereby a wavelength shortening effect can be obtained at this portion, and the antenna element 50 can be made small. A high voltage is superimposed on the vertical portions 50a and 50a, but the vertical portions 50a and 50a are arranged away from the dielectric 54 so that dielectric loss does not occur and vertical polarization can be efficiently transmitted and received.

  In the fifth embodiment shown in FIG. 6, the central portion 60 c of the portion where the vertical portions 60 a and 60 a of the antenna element 60 are bent at a predetermined height so as to be parallel to the substrate 52 is formed on the surface of the dielectric 54. Since both are disposed in a meander shape, the antenna element 60 can be made smaller by the wavelength shortening effect by the dielectric 54 and the meander configuration, and the antenna element 60 can be arranged as viewed from the direction perpendicular to the substrate 52. The installation space can be further reduced. In the sixth embodiment shown in FIG. 7, the vertical portions 70a and 70a of the antenna element 70, the portion bent at a predetermined height, and the central portion 70c are all disposed on the surface of the dielectric 54. In addition, since the central portion 70c is formed in a meander shape, the antenna element 70 can be further reduced.

  In the second embodiment, the third embodiment, the fifth embodiment, and the sixth embodiment described above, a zigzag shape may be used instead of the meander shape, and the shape may be a combination of the meander shape and the zigzag shape. May be. Further, the antenna elements 20, 30, and 40 of the first embodiment, the second embodiment, and the third embodiment may be formed of a metal rod or the like and can be self-supporting themselves, and have a low dielectric constant. It may be appropriately supported and fixed by a support member made of a material. In the antenna elements 50, 60, and 70 of the fourth embodiment, the fifth embodiment, and the sixth embodiment, the portion disposed on the surface of the dielectric 54 is a conductive thin film on the surface of the dielectric 54. May be provided by vapor deposition, plating, or the like, but may also be provided with a metal plate appropriately cut out. Further, in the antenna element 20 of the first embodiment, the portion bent in parallel with the substrate 22 does not necessarily have a U-shape when viewed from the direction perpendicular to the substrate 22. It may be a letter shape or a U-shape. Further, the end of the antenna element 20, 30, 40, 50, 60, 70 connected to the ground is connected to the ground through a capacitance or an inductance in series or a circuit formed by the capacitance and the inductance as appropriate. And impedance matching may be achieved.

1 is an external perspective view of an antenna device according to a first embodiment of the present invention. It is a figure which shows the directivity of the antenna apparatus of FIG. It is an external appearance perspective view of the antenna apparatus of 2nd Example of this invention. It is an external appearance perspective view of the antenna apparatus of 3rd Example of this invention. It is an external appearance perspective view of the antenna apparatus of 4th Example of this invention. It is an external appearance perspective view of the antenna apparatus of 5th Example of this invention. It is an external appearance perspective view of the antenna apparatus of 6th Example of this invention. It is an external appearance perspective view of the antenna apparatus of an example of the conventional structure.

Explanation of symbols

10, 20, 30, 40, 50, 60, 70 Antenna element 10a, 20a, 30a, 40a, 50a, 60a, 70a Vertical part 10b, 20c, 30c, 40c, 50c, 60c, 70c Center part 12, 22, 52 Substrate 12a, 22a One side 12b, 22b Adjacent side 20b, 30b, 40b Part bent from vertical part 54 Dielectric

Claims (6)

An antenna element in which both ends are erected vertically with respect to the substrate, one end thereof is connected to a feeding point, the other end is grounded, and the antenna effective length is set to ½ wavelength of the target frequency, The vertical portions at both ends are formed at a predetermined height by bending the two vertical portions so as to be parallel to the substrate in the same direction with respect to the surface including the two vertical portions. An antenna device characterized by that. 2. The antenna device according to claim 1, wherein both ends of the antenna element are erected on an edge of one side of the substrate, and two adjacent sides on both sides of the one side are formed at right angles to the one side. The antenna element is configured by bending the vertical portion at a predetermined height at a right angle with respect to a plane including the two vertical portions. The antenna device according to claim 1, wherein the top surface portion of the antenna element is formed in a U shape when viewed from a direction perpendicular to the substrate. 2. The antenna device according to claim 1, wherein all or part of the top surface portion of the antenna element is formed in a meander shape or a zigzag shape. 2. The antenna device according to claim 1, wherein all or part of the antenna element is disposed on a surface of a dielectric. 2. The antenna device according to claim 1, wherein the vertical portion of the antenna element is not disposed on the surface of the dielectric, but all or part of the top surface portion is disposed on the surface of the dielectric. A feature antenna device.