JP2022160123A - antenna device - Google Patents

Abstract

To provide an antenna device capable of realizing cost reduction.SOLUTION: An antenna device that handles straight high-frequency radio waves includes a housing configured to include a predetermined wall, a substrate spaced apart from the predetermined wall and arranged facing the predetermined wall, a planar antenna portion arranged on a first surface of the substrate opposite to the predetermined wall, a circuit portion arranged on a second surface of the substrate on the predetermined wall side and electrically connected to the planar antenna portion, and a shielding member arranged at a position facing the circuit portion on a part of the predetermined wall and shielding unwanted waves emitted from the circuit portion.SELECTED DRAWING: Figure 4

Description

The present invention relates to an antenna device.

Conventionally, in a circuit unit provided in an antenna device that handles radio waves in a high frequency band, resonance occurs due to a circuit unit including a high frequency circuit (for example, a matching circuit, etc.) and the wiring length of a wiring pattern for a high frequency band signal. is generated, and there arises a problem that unnecessary radio wave radiation occurs in an unintended frequency band.

Patent Literature 1 discloses a configuration in which an absorbing portion capable of absorbing unnecessary radio waves is provided on the back side of a curved antenna portion arranged to face a circuit portion.

Further, Patent Document 2 discloses a configuration having a box-shaped shield case and a substrate arranged so as to cover the opening of the shield case. In this configuration, the circuit section is provided on the back side of the substrate on which the antenna section is arranged, and a member for shielding unnecessary radio waves from the circuit section is provided on the entire surface inside the shield case.

JP 2018-196052 A JP-A-11-17377

However, the configuration described in Patent Document 1 requires a bendable dielectric material as the antenna section, which causes a problem of high cost.

Moreover, the configuration described in Patent Document 2 requires a dedicated shield case, which may increase the cost. Further, when the size of the substrate increases, it becomes necessary to increase the size of the dedicated shield case accordingly, which may lead to further increase in cost.

An object of the present invention is to provide an antenna device capable of achieving cost reduction.

An antenna device according to the present invention includes:
An antenna device that handles radio waves in a high frequency band having straightness,
a housing configured to include a predetermined wall;
a substrate that is spaced apart from the predetermined wall and arranged to face the predetermined wall;
a planar antenna portion disposed on a first surface of the substrate opposite to the predetermined wall;
a circuit section disposed on a second surface of the substrate on the predetermined wall side and electrically connected to the planar antenna section;
a shield member arranged at a position facing the circuit section on a portion of the predetermined wall and shielding unnecessary waves emitted from the circuit section;
Prepare.

According to the present invention, cost reduction can be realized.

1 is a side sectional view showing an antenna device according to an embodiment of the present invention; FIG. It is the figure which looked at the board|substrate from the 1st surface side. It is the figure which looked at the board|substrate from the 2nd surface side. It is the figure which looked at the housing|casing from the bottom wall side.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a side sectional view showing an antenna device 100 according to an embodiment of the invention.

As shown in FIG. 1, the antenna device 100 is a device capable of transmitting radio waves in a high frequency band toward an object and receiving radio waves reflected from the object. A parking sensor is provided to detect the presence of a vehicle. Radio waves in the high frequency band are, for example, millimeter waves.

An orthogonal coordinate system (X, Y, Z) is used to describe the structure of the antenna device 100 of the present embodiment. A common orthogonal coordinate system (X, Y, Z) is used in the drawings to be described later. The antenna device 100 is mounted so that, for example, the X direction is the left-right direction of a vehicle entering a parking lot, the Y direction is the front-rear direction of the vehicle (corresponding to the entering/exiting direction), and the Z direction is the vertical direction of the vehicle. be.

The antenna device 100 has a housing 110 , a substrate 120 , a planar antenna section 130 , a circuit section 140 and a shield member 150 .

The housing 110 is made of, for example, a box-shaped resin member with the + side in the Z direction open, and has a rectangular bottom wall 111 and four side walls 112 rising from each side of the bottom wall 111 . The bottom wall 111 corresponds to the "predetermined wall" of the present invention.

The substrate 120 is a printed circuit board made of a dielectric, and has a conductor layer 121 inside that is connected to the ground. The substrate 120 is arranged at an arrangement portion (not shown) such as a boss provided on the bottom wall 111 so as to be spaced apart from the bottom wall 111 and to face the bottom wall 111 (specifically, parallel to it). ing. The substrate 120 is fixed in the housing 110 by being fastened to the placement section with screws or the like.

The planar antenna section 130 is an antenna element arranged on the first surface 120A of the substrate 120 opposite to the bottom wall 111, and serves as a component of the microstrip antenna together with the conductor layer 121 of the substrate 120. FIG.

As shown in FIG. 2, the planar antenna section 130 includes an antenna element 131 for wave transmission and an antenna element 132 for wave reception. The wave-transmitting antenna element 131 is arranged at a position near the negative end of the substrate 120 in the Y direction, and the wave-receiving antenna element 132 is arranged at a position near the positive end of the substrate 120 in the Y direction. are placed in

Two transmitting antenna elements 131 and two receiving antenna elements 132 are provided. Each of the transmitting antenna element 131 and the receiving antenna element 132 is connected to vias 122 arranged in different via holes formed in the substrate 120 .

Returning to FIG. 1 , circuit section 140 is arranged on second surface 120</b>B of substrate 120 on the bottom wall 111 side and electrically connected to planar antenna section 130 . As shown in FIG. 3, the circuit section 140 has, for example, a wiring section 141, a matching circuit section 142, and a high frequency circuit section 143. As shown in FIG.

The wiring portion 141 is a wiring pattern that electrically connects the planar antenna portion 130 arranged on the first surface 120</b>A, the matching circuit portion 142 and the high-frequency circuit portion 143 . The wiring portion 141 has one connecting the transmitting antenna element 131 and the high-frequency circuit portion 143 and one connecting the receiving antenna element 132 and the high-frequency circuit portion 143 .

One end of the wiring portion 141 is connected to the planar antenna portion 130 on the first surface 120A via the via 122, and the other end of the wiring portion 141 is connected to the high frequency circuit portion 143. there is

The matching circuit section 142 is, for example, a circuit that matches the impedance between the planar antenna section 130 and the high frequency circuit section 143 , and is provided between the via 122 and the high frequency circuit section 143 in the wiring section 141 . The matching circuit portion 142 is formed in a square shape having a wider width than the wiring portion 141 .

The high-frequency circuit section 143 includes a high-frequency integrated circuit that performs signal processing such as oscillation, amplification, modulation, and frequency conversion of high-frequency signals. The high-frequency circuit section 143 is arranged substantially at the center of the substrate 120 .

Returning to FIG. 1 , the shield member 150 is a conductive sheet member such as a copper tape, and shields unnecessary radio waves (unnecessary waves) emitted from the circuit section 140 .

In the circuit section 140, for example, due to the wiring lengths of the matching circuit section 142 and the wiring section 141, resonance may occur at an unintended frequency and unnecessary radio wave radiation may occur. For example, a case where unnecessary radio waves are radiated in the matching circuit section 142 will be described.

When the length in the Y direction of the matching circuit unit 142 is W, and the length in the X direction is L, the matching circuit unit 142 resonates at the frequencies in the following equations (1) and (2), and the matching circuit unit 142 acts like an antenna element. and emit unnecessary radio waves.

f=c/(2W√(εr)) (1)
f=c/(2L√(εr)) (2)

f is the resonant frequency, c is the speed of light, and εr is the dielectric constant of the substrate 120 .

When dealing with a signal frequency in a high frequency band such as a millimeter wave as in this embodiment, the matching circuit unit 142 may act like an antenna element when n-fold higher harmonics than the signal frequency are generated. . n is any natural number.

For example, if the signal frequency is 24 GHz, W of the matching circuit section 142 is 800 μm, and εr is 3.7, the resonance frequency is about 97 GHz according to Equation (1). In this case, when a signal of 96 GHz, which is four times the harmonic of 24 GHz, is generated, there is a high possibility that the matching circuit section 142 will act like an antenna element.

The shield member 150 is arranged at a position facing the circuit section 140 on a portion of the bottom wall 111 . In the case of a high-frequency band frequency such as a millimeter wave, radio waves have a property of being highly straight and difficult to wrap around. Because of the arrangement, unnecessary radio waves are shielded by the shield member 150. - 特許庁

By doing so, it is possible to attenuate unnecessary radio waves and, in turn, reduce the radiation of unnecessary radio waves from the housing 110 .

Moreover, as shown in FIG. 4, the shield member 150 is arranged so as to cover the portion of the bottom wall 111 facing the circuit section 140 . FIG. 4 is a view of the housing 110 viewed from the bottom wall 111 side. A portion of the bottom wall 111 facing the circuit portion 140 is a portion that overlaps with the entire circuit portion 140 when viewed from the direction perpendicular to the substrate 120 (the Z direction).

By doing so, even if radio waves in a high frequency band with high straightness are radiated from the circuit section 140, since the portion of the bottom wall 111 facing the circuit section 140 is covered with the shield member 150, unnecessary radio waves are can be reliably shielded by the shield member 150 .

In addition, since the shield member 150 is provided only on a part of the bottom wall 111, the shield member 150 can be adjusted to the size of the housing 110 compared to a structure in which the shield member is provided on the entire inside of the housing. no need to prepare.

Therefore, the overall configuration of the antenna device 100 can be simplified, which can contribute to cost reduction.

By the way, if a dedicated shield case is provided as in Patent Document 2, it is necessary to separately prepare a shield case that matches the size of the substrate, which increases the cost.

On the other hand, in the present embodiment, the shield member 150 is provided only on the part of the bottom wall 111 that faces the circuit section 140. Such an antenna device 100 can be configured. That is, in the present embodiment, since it is not necessary to prepare a dedicated shield case, it is possible to realize cost reduction.

Further, since the planar antenna section 130 arranged on the substrate 120 is used as the antenna element, there is no need to use a special material such as a bendable dielectric material in the antenna section described in Patent Document 1, for example. As a result, the configuration can be simplified as a whole, and cost reduction can be realized.

Further, since the opposite side of the bottom wall 111 of the housing 110 with the substrate 120 interposed therebetween is open, there is nothing that blocks the radio waves radiated from the planar antenna section 130 . In other words, in the present embodiment, unnecessary radio wave radiation from the circuit section 140 can be reduced without affecting the radiation characteristics of the antenna device 100 . In addition, since the opposite side of the bottom wall 111 of the housing 110 with the substrate 120 interposed therebetween is open, for example, when the existing housing 110 has a lid member, the substrate 120 is put inside and the lid is opened. The member can be attached to the housing 110 and used as an antenna device. In other words, in the present embodiment, an existing housing can be applied to the antenna device, so cost reduction can be achieved.

In the above embodiment, the shield member is made of a conductive material, but the present invention is not limited to this, and may be a magnetic sheet member or a radio wave absorbing sheet.

Further, in the above embodiment, the shield member is formed in a sheet shape, but the present invention is not limited to this, and the shield member may not be formed in a sheet shape such as a plate shape.

In addition, in the above-described embodiment, the configuration has a transmitting antenna element and a receiving antenna element, but the present invention is not limited to this. Any one of the antenna elements may be used.

Further, in the above embodiments, the circuit section includes the matching circuit section, but the present invention is not limited to this, and the circuit section may include the phase adjustment circuit section.

In addition, in the above-described embodiments, millimeter waves are used as radio waves in the high frequency band, but the present invention is not limited to this, and other radio waves than millimeter waves may be used as long as they have rectilinear properties.

Further, although the antenna device is provided in the parking sensor in the above embodiment, the present invention is not limited to this, and may be provided in a device other than the parking sensor.

In addition, each of the above-described embodiments is merely an example of specific implementation of the present invention, and the technical scope of the present invention should not be construed to be limited by these. Thus, the invention may be embodied in various forms without departing from its spirit or essential characteristics. For example, the shape, size, number, and material of each part described in the above embodiment are merely examples, and can be implemented with appropriate changes.

INDUSTRIAL APPLICABILITY The antenna device according to the present invention is useful as an antenna device capable of achieving cost reduction.

REFERENCE SIGNS LIST 100 antenna device 110 housing 111 bottom wall 112 side wall 120 substrate 120A first surface 120B second surface 121 conductor layer 122 via 130 flat antenna section 131 antenna element for wave transmission 132 antenna element for wave reception 140 circuit section 141 wiring section 142 matching circuit section 143 high frequency circuit section 150 shield member

Claims (8)

An antenna device that handles radio waves in a high frequency band having straightness,
a housing configured to include a predetermined wall;
a substrate that is spaced apart from the predetermined wall and arranged to face the predetermined wall;
a planar antenna portion disposed on a first surface of the substrate opposite to the predetermined wall;
a circuit section disposed on a second surface of the substrate on the predetermined wall side and electrically connected to the planar antenna section;
a shield member arranged at a position facing the circuit section on a portion of the predetermined wall and shielding unnecessary waves emitted from the circuit section;
An antenna device comprising: The shield member is arranged to cover a portion of the predetermined wall facing the circuit unit,
The antenna device according to claim 1. The shield member is configured in a sheet shape,
The antenna device according to claim 1 or 2. The substrate has therein a conductor layer connected to the ground,
An antenna device according to any one of claims 1 to 3. The planar antenna section includes a plurality of antenna elements,
An antenna device according to any one of claims 1 to 4. The circuit section includes a high frequency circuit section, a wiring section connecting the planar antenna section and the high frequency circuit section, and a matching circuit section provided in the wiring section.
An antenna device according to any one of claims 1 to 5. A side of the housing opposite to the predetermined wall with the substrate interposed therebetween is open.
The antenna device according to any one of claims 1-6. The radio waves are millimeter waves,
The antenna device according to any one of claims 1-7.

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