JP2016111574A - Antenna device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a small planar antenna device that has shorten an antenna element by a coil-shaped portion.SOLUTION: A first antenna device 11 is planar, and includes a ground portion 31, a swirl portion 32, and a radiation portion 33 as antenna components. There are aligned on an FPC board 21 in one direction in this order. An internal end 32b of the swirl portion 32 and the radiation portion 33 are connected at a connection wiring portion 34 on the rear surface of the FPC board 21. An external end 32a of the swirl portion 32 and the ground portion 31 are connected with a communication device to serve as a power supply portion.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an antenna device that is formed in a planar shape and is used, for example, as an in-vehicle antenna.

  Conventionally, for example, a helical antenna is often used as a vehicle-mounted antenna. For example, as disclosed in Patent Document 1, the helical antenna has a cylindrical coil-shaped portion on a ground plate. Such a helical antenna has a coil-shaped portion, so that the length on the outer shape of the antenna element can be shortened and is known to be advantageous for downsizing.

  In addition, as a vehicle-mounted antenna, a planar antenna (planar antenna) is often used due to the design of the automobile, in contrast to the above-described three-dimensional antenna. As a planar antenna, for example, as disclosed in Patent Document 2, a loop antenna formed on a window glass of an automobile is known.

JP 2012-169892 A (published September 6, 2012) JP 2006-270602 A (released on October 05, 2006)

  An antenna having a coil-shaped portion, such as a helical antenna, is advantageous in reducing the size of the antenna element as described above, but has a problem of protruding from the vehicle body when mounted on an automobile. In addition, the helical antenna has not been realized as a planar antenna. On the other hand, the planar antenna disclosed in Patent Document 2 does not protrude from the vehicle body when mounted on an automobile, but requires a large area in the frequency band of FM broadcasting, for example, and is limited in the arrangement position.

  Accordingly, an object of the present invention is to provide an antenna device in which an antenna element can be shortened by a coil-shaped portion and a small planar antenna can be obtained.

In order to solve the above problems, an antenna device according to the present invention is a planar antenna device in which an antenna pattern including a plurality of antenna components is formed on an antenna substrate.
The antenna component includes a ground portion, a spiral portion, and a radiation portion, and the ground portion, the spiral portion, and the radiation portion are arranged in one direction on the antenna substrate in this order.

  According to the above configuration, the antenna component includes the ground portion, the spiral portion (coil shape portion), and the radiation portion, and the antenna component (antenna element) is shortened by the spiral portion (coil shape portion). Can do. Therefore, an antenna having a spiral shape (coil-shaped portion), for example, a helical antenna can be realized as a small planar antenna. In addition, since the ground portion, the spiral portion and the radiating portion are arranged in one order on the antenna substrate in this order, as an antenna placement area, even if only a narrow area such as an automobile pillar can be secured, The antenna device can be appropriately arranged.

  In the antenna device, the antenna component includes a connection wiring portion, the ground portion and the spiral portion are formed on a first surface of the antenna substrate, and an outer end portion of the spiral portion is close to the ground portion. The outer end portion of the spiral portion and the ground portion serve as a feeding portion, and the connection wiring portion is formed on the second surface of the antenna substrate, and the inner end portion of the spiral portion and the radiation portion It is good also as a structure which has connected the part.

  According to said structure, since the antenna component is formed in the 1st surface and 2nd surface of an antenna board, respectively, the antenna apparatus containing a ground part, a spiral part, a radiation | emission part, and a connection wiring part as an antenna component Can be miniaturized.

  In the antenna device, the antenna component includes a connection wiring portion, the ground portion and the spiral portion are formed on a first surface of the antenna substrate, and an outer end portion of the spiral portion is connected to the radiation portion. The connection wiring portion is formed on the second surface of the antenna substrate, one end portion is connected to the inner end portion of the spiral portion, and the other end portion penetrates the antenna substrate and is close to the ground portion. The other end portion of the connection wiring portion and the ground portion may be a power feeding portion.

  According to said structure, since the antenna component is formed in the 1st surface and 2nd surface of an antenna board, respectively, the antenna apparatus containing a ground part, a spiral part, a radiation | emission part, and a connection wiring part as an antenna component Can be miniaturized.

  In the antenna device, the antenna component includes a connection wiring portion, the ground portion and the connection wiring portion are formed on the first surface of the antenna substrate, and the spiral portion is formed on the second surface of the antenna substrate. And the outer end of the spiral portion passes through the antenna substrate and is disposed close to the ground portion, and the outer end portion of the spiral portion and the ground portion serve as a power feeding portion, and the connection The wiring part may be configured to connect the inner end part of the spiral part and the radiation part.

  According to said structure, since the antenna component is formed in the 1st surface and 2nd surface of an antenna board, respectively, the antenna apparatus containing a ground part, a spiral part, a radiation | emission part, and a connection wiring part as an antenna component Can be miniaturized.

  In the antenna device, the antenna component includes a connection wiring portion, the ground portion and the connection wiring portion are formed on the first surface of the antenna substrate, and the spiral portion is formed on the second surface of the antenna substrate. The outer end portion of the spiral portion is connected to the radiating portion, the connection wiring portion has one end portion connected to the inner end portion of the spiral portion and the other end portion disposed close to the ground portion. The other end portion of the connection wiring portion and the ground portion may be a power feeding portion.

  According to said structure, since the antenna component is formed in the 1st surface and 2nd surface of an antenna board, respectively, the antenna apparatus containing a ground part, a spiral part, a radiation | emission part, and a connection wiring part as an antenna component Can be miniaturized.

  In the antenna device, a plurality of the spiral portions are arranged side by side on the same surface of the antenna substrate, and an outer end portion and an inner end portion, or an inner end portion of the adjacent first spiral portion and second spiral portion. And the outer end portion may be connected.

  According to the above configuration, since a plurality of spiral portions are provided, it is possible to further reduce the size by reducing the area necessary for the arrangement of the antenna device.

  In the antenna device, a plurality of the spiral portions are arranged side by side on the same surface of the antenna substrate, and the outer end portions or the inner end portions of the adjacent first spiral portion and second spiral portion are connected to each other. It is good also as composition which has.

  According to the above configuration, since a plurality of spiral portions are provided, it is possible to further reduce the size by reducing the area necessary for the arrangement of the antenna device.

  In the antenna device described above, the first spiral portion and the second spiral portion may have a configuration in which the turning direction is the same when the direction in which the current flows is the turning direction.

  According to the above configuration, since a plurality of spiral portions are provided, it is possible to further reduce the size by reducing the area necessary for the arrangement of the antenna device.

  In the antenna device described above, the first spiral portion and the second spiral portion may be configured so that the turning directions are different from each other when the direction in which the current flows is the turning direction.

  According to the above configuration, since a plurality of spiral portions are provided, it is possible to further reduce the size by reducing the area necessary for the arrangement of the antenna device.

  In the antenna device, the connection wiring portion has a spiral shape, and the spiral shape and the spiral portion of the connection wiring portion are viewed from the first surface side when a current flow direction is a turning direction. In this case, the turning directions may be the same.

  According to the above configuration, in addition to the spiral portion, the connection wiring portion also has a spiral shape, and the spiral shape and the spiral portion of the connection wiring portion are on the first surface side when the direction of current flow is the swirl direction. The direction of turning when viewed from above is the same. Thereby, the antenna characteristics can be further enhanced by the spiral shape of the connection wiring portion.

  The antenna device may have a configuration in which the antenna substrate on which an antenna pattern including a plurality of antenna components is formed is built in a decorative plate attached to a pillar of an automobile.

  According to said structure, the antenna apparatus reduced in size, such as a helical antenna, can be arrange | positioned appropriately to the pillar of a motor vehicle.

  According to the configuration of the present invention, the antenna element can be shortened by the coil-shaped portion, and a small planar antenna can be provided.

It is a top view which shows the state in which the antenna device of embodiment of this invention is provided in the decorative board. FIG. 2A is a plan view of the antenna device shown in FIG. 1 when viewed from the front surface (front surface). FIG. 2B is a plan view when the antenna device is viewed from the back side. FIG. 3A is a schematic diagram showing the arrangement of the components of the first antenna device shown in FIG. 2A and FIG. 2B, and includes a ground portion, a spiral portion, and a radiating portion. Is disposed on the front surface of the FPC board, and the connection wiring portion is disposed on the back surface of the FPC board. 3B to FIG. 3H are schematic views showing another example of the first antenna device shown in FIG. 3A, and FIG. 3B shows a ground portion. The spiral part and the radiation part are arranged on the surface of the FPC board, and the connection wiring part is arranged on the back surface of the FPC board. In FIG. 3C, the ground part and the spiral part are arranged on the front surface of the FPC board, and the radiation part and the connection wiring part are arranged on the back surface of the FPC board. In FIG. 3D, the ground portion and the spiral portion are arranged on the front surface of the FPC board, and the radiation portion and the connection wiring portion are arranged on the back surface of the FPC board. In FIG. 3E, the ground portion, the radiating portion, and the connection wiring portion are arranged on the front surface of the FPC board, and the spiral portion is arranged on the back surface of the FPC board. (F) of FIG. 3 arrange | positions a ground part, a radiation | emission part, and a connection wiring part on the surface of an FPC board, and arrange | positions a spiral part in the back surface of an FPC board. In FIG. 3G, the ground part and the connection wiring part are arranged on the front surface of the FPC board, and the spiral part and the radiation part are arranged on the back surface of the FPC board. In FIG. 3H, the ground part and the connection wiring part are arranged on the surface of the FPC board, and the spiral part and the radiation part are arranged on the back surface of the FPC board. 4 (a) to 4 (h) are schematic views showing the arrangement of the components of the first antenna device according to another embodiment of the present invention, and FIG. 3 (a) to FIG. The connection wiring part shown in 3 (h) is formed in a spiral shape. FIG. 5A to FIG. 5H are schematic views showing the arrangement of components of the first antenna device according to still another embodiment of the present invention, and include a plurality of spiral portions. An example is shown. In FIG. 5A, the ground part, the first and second spiral parts, and the radiating part are arranged on the front surface of the FPC board, the first and second connection wiring parts are arranged on the back surface of the FPC board, The current direction from the ground portion to the radiation portion in the second spiral portion is a direction from the outer end portion to the inner end portion. In FIG. 5B, the ground portion, the first and second spiral portions, and the radiation portion are arranged on the front surface of the FPC board, the first and second connection wiring portions are arranged on the back surface of the FPC board, and the current direction Is the direction from the inner end to the outer end. FIG. 5C shows that the ground part and the first and second spiral parts are arranged on the front surface of the FPC board, the radiating part and the first and second connection wiring parts are arranged on the back surface of the FPC board, and the current direction Is the direction from the outer end to the inner end. In FIG. 5D, the ground part and the first and second spiral parts are arranged on the front surface of the FPC board, and the radiation part and the first and second connection wiring parts are arranged on the back surface of the FPC board. Is the direction from the inner end to the outer end. FIG. 5E shows that the ground portion, the radiating portion, and the first and second connection wiring portions are arranged on the front surface of the FPC board, and the first and second spiral portions are arranged on the back surface of the FPC board. Is the direction from the outer end to the inner end. (F) of FIG. 5 shows that the ground part, the radiating part, and the first and second connection wiring parts are arranged on the front surface of the FPC board, the first and second spiral parts are arranged on the back surface of the FPC board, and the current direction Is the direction from the inner end to the outer end. In FIG. 5G, the ground part and the first and second connection wiring parts are arranged on the surface of the FPC board, the first and second spiral parts and the radiating part are arranged on the back surface of the FPC board, and the current direction Is the direction from the outer end to the inner end. FIG. 5H shows that the ground portion and the first and second connection wiring portions are arranged on the front surface of the FPC board, the first and second spiral portions and the radiation portion are arranged on the back surface of the FPC board, and the current direction Is the direction from the inner end to the outer end. FIG. 6A to FIG. 6H are schematic views showing the arrangement of the components of the first antenna device according to still another embodiment of the present invention. A direction corresponding to the first antenna device shown in FIG. 5H, in which the current directions between the inner end portion and the outer end portion of the first spiral portion and the second spiral portion are different from each other. It is what has become. FIG. 7A to FIG. 7H are schematic views showing the arrangement of the components of the first antenna device according to still another embodiment of the present invention. In the first antenna device shown in (h) of FIG. 5, the swirl directions are reversed between the first spiral portion and the second spiral portion. FIG. 8A to FIG. 8H are schematic views showing the arrangement of the components of the first antenna device according to still another embodiment of the present invention. In the first antenna device shown in FIG. 6H, the swirl directions are reversed between the first spiral portion and the second spiral portion.

[Embodiment 1]
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a plan view showing a state in which an antenna device according to an embodiment of the present invention is provided on a decorative board. FIG. 2A is a plan view of the antenna device shown in FIG. 1 when viewed from the front surface (front surface). FIG. 2B is a plan view when the antenna device is viewed from the back side.

(Arrangement of antenna device on decorative plate of B pillar)
A decorative board 1 shown in FIG. 1 is provided in a B-pillar of an automobile in the present embodiment, and is elongated and has a lower width slightly wider than an upper width so as to correspond to the shape of the B-pillar. It is plate-shaped. The decorative board 1 is made of, for example, ABS resin.

  A first antenna device 11 and a second antenna device 12 are embedded (embedded) in the decorative plate 1 in a state of being arranged in the vertical direction. In the present embodiment, the first antenna device 11 is a helical antenna, and the second antenna is a horn antenna.

(Configuration of first antenna device)
As shown to (a) and (b) of FIG. 2, the 1st antenna apparatus 11 has the antenna pattern formed in the FPC (Flexible printed circuits) board | substrate 21 as an antenna board | substrate. In the example of FIG. 2, as the antenna pattern, the ground portion 31, the spiral portion 32, and the radiating portion 33 are sequentially formed from the bottom to the top surface shown in FIG. 2A, and the back surface shown in FIG. In addition, a connection wiring portion 34 is formed.

  The spiral part 32 has a spiral shape, and has an outer end part 32a which is an outer end part of the spiral and an inner end part 32b which is an inner end part of the spiral. Further, the spiral portion 32 has short-circuit portions 32 c and 32 d for adjusting the line length of the spiral portion 32. The short-circuit portions 32c and 32d are effective when, for example, the spiral portion 32 is formed in a common pattern in a predetermined frequency band, and the line length of the first antenna device 11 is adjusted to finely adjust the resonance frequency.

  The ground portion 31 has a concave portion 31 a having a shape recessed downward at an upper edge portion facing the spiral portion 32. In the recess 31 a, the outer end portion 32 a of the spiral portion 32 is disposed in a non-conductive state with the ground portion 31. That is, the outer end portion 32 a of the spiral portion 32 is disposed in the vicinity of the ground portion 31.

  The upper end portion (one end portion) of the connection wiring portion 34 is connected to the lower portion of the radiating portion 33 through a through hole (not shown) formed in the FPC board 21. The other end portion (lower end portion) of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32 through a through hole (not shown) formed in the FPC board 21. As a result, the first antenna device 11 shown in FIGS. 2A and 2B is in a state in which the ground portion 31, the spiral portion 32, the connection wiring portion 34, and the radiation portion 33 are connected in this order. Yes.

  In each of the following examples, the connection between the antenna component formed on the front surface of the FPC board 21 and the antenna component formed on the back surface of the FPC board 21 is basically a through-hole formed in the FPC board 21. Is done through. Therefore, the description of the connection through the through hole of the FPC board 21 is omitted.

  The first antenna device 11 is connected via a coaxial cable 41 to a communication device (not shown) that is a transmission device, a reception device, or a transmission / reception device. In this case, the outer end portion 32 a and the ground portion 31 of the spiral portion 32 serve as a power feeding portion, the inner conductor of the coaxial cable 41 is connected to the outer end portion 32 a of the spiral portion 32, and the outer conductor is connected to the ground portion 31.

  In said structure, the 1st antenna apparatus 11 can implement | achieve a three-dimensional helical antenna as a planar antenna by having the spiral part 32 as a coil-shaped part. Moreover, the 1st antenna apparatus 11 can shorten the antenna component (antenna element) by having the spiral part 32, and can reduce the 1st antenna apparatus 11 in size.

  In addition, since the ground portion 31, the spiral portion 32, and the radiation portion 33 are arranged in this order on the FPC board 21 in one direction, the first antenna device 11 can be disposed only in an elongated region such as an automobile pillar. Even if it is a case where it cannot ensure, the 1st antenna apparatus 11 can be arrange | positioned appropriately. Moreover, in the decorative board 1 which is provided in the B pillar of an automobile and has a limited area, the first antenna device 11 and the second antenna device 12 can be provided.

  As a result, even if the first antenna device 11 is for FM broadcast frequency bands, which generally require a relatively large arrangement area, the first antenna device 11 is reduced in size and mounted on, for example, a pillar of an automobile as described above. be able to.

(An example of another configuration of the first antenna device)
(A) of FIG. 3 is a schematic diagram showing an arrangement form of components of the first antenna device 11 shown in (a) and (b) of FIG. In the first antenna device 11 shown in FIG. 3A, the ground part 31, the spiral part 32, and the radiating part 33 are arranged on the surface of the FPC board 21 and the connection wiring part 34 is connected to the FPC board 21 as described above. Located on the back side. The outer end portion 32 a of the spiral portion 32 is disposed in the concave portion 31 a of the ground portion 31. One end of the connection wiring part 34 is connected to the radiation part 33. The other end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32.

  In the first antenna device 11 shown in FIG. 3A, the direction in which the current flowing from the ground portion 31 toward the radiating portion 33 flows through the spiral portion 32 is the direction from the outer end portion 32a toward the inner end portion 32b.

  The ground portion 31, the spiral portion 32, the radiating portion 33, and the ground portion 31 constituting the first antenna device 11 with respect to the front surface (first surface or second surface) and back surface (second surface or first surface) of the FPC board 21 The arrangement form of the connection wiring part 34 may be as shown in FIG. 3B to FIG. 3H in addition to that shown in FIG.

  In the first antenna device 11 shown in FIG. 3B, the ground part 31, the spiral part 32 and the radiating part 33 are arranged on the surface of the FPC board 21, and the connection wiring part 34 is arranged on the back surface of the FPC board 21. Yes. The outer end portion 32 a of the spiral portion 32 is connected to the radiating portion 33. One end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32. The other end portion of the connection wiring portion 34 is disposed in the concave portion 31 a of the ground portion 31. For example, the other end portion of the connection wiring portion 34 to the recess 31a is arranged in the recess 31a by the conductor portion 34c connected to the other end portion of the connection wiring portion 34 through a through hole formed in the FPC board 21. It is done by doing. Hereinafter, such an arrangement form of the end portion of the connection wiring portion 34 in the recess 31a is referred to as an arrangement configuration of the end portion of the connection wiring portion with respect to the concave portion.

  In the first antenna device 11 shown in FIG. 3B, the direction in which the current flowing from the ground portion 31 to the radiating portion 33 flows through the spiral portion 32 is the direction from the inner end portion 32b to the outer end portion 32a.

  In the first antenna device 11 shown in FIG. 3C, the ground part 31 and the spiral part 32 are arranged on the surface of the FPC board 21, and the radiating part 33 and the connection wiring part 34 are arranged on the back surface of the FPC board 21. Yes. The outer end portion 32 a of the spiral portion 32 is disposed in the concave portion 31 a of the ground portion 31. One end of the connection wiring part 34 is connected to the radiation part 33. The other end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32.

  In the first antenna device 11 shown in FIG. 3C, the direction in which the current flowing from the ground portion 31 toward the radiating portion 33 flows through the spiral portion 32 is the direction from the outer end portion 32a toward the inner end portion 32b.

  In the first antenna device 11 shown in FIG. 3D, the ground portion 31 and the spiral portion 32 are arranged on the surface of the FPC board 21, and the radiation portion 33 and the connection wiring portion 34 are arranged on the back surface of the FPC board 21. Yes. The outer end portion 32 a of the spiral portion 32 is connected to the radiating portion 33. One end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32. The other end portion of the connection wiring portion 34 is disposed in the concave portion 31 a of the ground portion 31. The arrangement of the other end of the connection wiring portion 34 in the recess 31a is performed according to the above-described arrangement form of the connection wiring portion with respect to the recess.

  In the first antenna device 11 shown in FIG. 3D, the direction in which the current flowing from the ground portion 31 to the radiating portion 33 flows through the spiral portion 32 is the direction from the inner end portion 32b to the outer end portion 32a.

  In the first antenna device 11 shown in FIG. 3E, the ground part 31, the radiating part 33, and the connection wiring part 34 are arranged on the surface of the FPC board 21, and the spiral part 32 is arranged on the back surface of the FPC board 21. Yes. The outer end portion 32 a of the spiral portion 32 is disposed in the concave portion 31 a of the ground portion 31. The arrangement of the outer end portion 32a of the spiral portion 32 in the concave portion 31a of the ground portion 31 is performed by, for example, connecting the conductor portion 32c connected to the outer end portion 32a of the spiral portion 32 through a through hole formed in the FPC board 21. This is done by placing it in the recess 31a. Hereinafter, such an arrangement form of the outer end part 32a of the spiral part 32 to the concave part 31a of the ground part 31 is referred to as an arrangement form of the outer end part of the spiral part with respect to the concave part.

  One end of the connection wiring part 34 is connected to the radiation part 33. The other end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32.

  In the first antenna device 11 shown in FIG. 3E, the direction of the current flowing from the ground portion 31 to the radiating portion 33 through the spiral portion 32 is the direction from the outer end portion 32a toward the inner end portion 32b.

  In the first antenna device 11 shown in FIG. 3F, the ground part 31, the radiating part 33, and the connection wiring part 34 are arranged on the surface of the FPC board 21, and the spiral part 32 is arranged on the back surface of the FPC board 21. Yes. The outer end portion 32 a of the spiral portion 32 is connected to the radiating portion 33. One end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32. The other end portion of the connection wiring portion 34 is disposed in the concave portion 31 a of the ground portion 31.

  In the first antenna device 11 shown in FIG. 3F, the direction in which the current flowing from the ground portion 31 to the radiating portion 33 flows through the spiral portion 32 is the direction from the inner end portion 32b to the outer end portion 32a.

  In the first antenna device 11 shown in FIG. 3G, the ground part 31 and the connection wiring part 34 are arranged on the surface of the FPC board 21, and the spiral part 32 and the radiating part 33 are arranged on the back surface of the FPC board 21. Yes. The outer end portion 32 a of the spiral portion 32 is disposed in the concave portion 31 a of the ground portion 31. The arrangement of the outer end 32a of the spiral portion 32 in the recess 31a is performed according to the above-described configuration of the outer end portion of the spiral portion with respect to the recess. One end of the connection wiring part 34 is connected to the radiation part 33. The other end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32.

  In the first antenna device 11 shown in FIG. 3G, the direction in which the current flowing from the ground portion 31 toward the radiating portion 33 flows through the spiral portion 32 is the direction from the outer end portion 32a toward the inner end portion 32b.

  In the first antenna device 11 shown in FIG. 3H, the ground part 31 and the connection wiring part 34 are arranged on the surface of the FPC board 21, and the spiral part 32 and the radiating part 33 are arranged on the back surface of the FPC board 21. Yes. The outer end portion 32 a of the spiral portion 32 is connected to the radiating portion 33. One end portion of the connection wiring portion 34 is connected to the inner end portion 32 b of the spiral portion 32. The other end portion of the connection wiring portion 34 is disposed in the concave portion 31 a of the ground portion 31.

  In the first antenna device 11 shown in FIG. 3H, the direction of the current flowing from the ground portion 31 toward the radiating portion 33 through the spiral portion 32 is the direction from the inner end portion 32b toward the outer end portion 32a.

[Embodiment 2]
Another embodiment of the present invention will be described below with reference to the drawings.

(Example of a configuration in which the connection wiring part has a spiral shape)
In the example of the first antenna device 11 shown in FIGS. 3A to 3H, the connection wiring portion 34 has a linear shape. On the other hand, the connection wiring part 34 may have a spiral shape as shown in FIGS. 4A to 4H. The first antenna device 11 shown in FIGS. 4A to 4H corresponds to the first antenna device 11 shown in FIGS. 3A to 3H, respectively. 3 (a) to the first antenna device 11 shown in FIG. 3 (h), only the shape of the connection wiring portion 34 is different.

  The spiral shape of the connection wiring part 34 and the spiral part 32 have the same turning direction when viewed from the front surface (first surface) side, for example, when the direction of current flow is the turning direction. The size of the spiral and the number of turns of the spiral in the spiral shape of the connection wiring portion 34 may be the same as or different from the size of the spiral and the number of turns of the spiral, respectively.

  As described above, in the configuration in which the connection wiring portion 34 has a spiral shape, the first antenna device 11 can further enhance the antenna characteristics by including the spiral shape of the connection wiring portion 34 in addition to the spiral portion 32. it can.

  Further, since the connection wiring portion 34 has a spiral shape, the antenna component (antenna element) can be further shortened, and the first antenna device 11 can be further downsized.

  Further, since the capacitance increases due to the spiral shape of the connection wiring portion 34, the resonance frequency can be easily shifted to the lower frequency band side.

[Embodiment 3]
Still another embodiment of the present invention will be described below with reference to the drawings.

(Example of a configuration having a plurality of spiral portions having the same current direction)
In the example of the first antenna device 11 shown in FIGS. 3A to 3H, one spiral portion 32 is provided. However, the first antenna device 11 may include a plurality of spiral portions 32. FIGS. 5A to 5H show an example in which the first antenna device 11 includes first and second spiral portions 51 and 52 which are two spiral portions.

  The first and second spiral portions 51 and 52 shown in FIG. 5A to FIG. 5H are arranged in the arrangement direction of the ground portion 31 and the radiating portion 33 on the same surface of the front surface or the back surface of the FPC board 21. They are arranged in one direction without overlapping. Further, the direction of current flowing from the ground part 31 to the radiation part 33 through the first and second spiral parts 51 and 52 (current direction in the first and second spiral parts 51 and 52) is the first and second spiral parts. 51, 52 are the same, and the direction from the outer ends 51a, 52a to the inner ends 51b, 52b of the first and second spiral portions 51, 52, or from the inner ends 51b, 52b to the outer ends 51a, This is the direction toward 52a. Reference numeral 51c denotes a conductor portion corresponding to the conductor portion 32c, and reference numeral 53c denotes a conductor portion corresponding to the conductor portion 34c.

  In the first antenna device 11 shown in FIG. 5A, the ground part 31, the first and second spiral parts 51 and 52, and the radiation part 33 are arranged on the surface of the FPC board 21, and the first and second connection wirings are arranged. The parts 53 and 54 are arranged on the back surface of the FPC board 21. The current direction from the ground part 31 to the radiation part 33 in the first and second spiral parts 51 and 52 is a direction from the outer end parts 51a and 52a to the inner end parts 51b and 52b.

  In FIG. 5A, the outer end portion 51 a of the first spiral portion 51 is disposed in the concave portion 31 a of the ground portion 31. The first connection wiring part 53 connects the inner end part 51 b of the first spiral part 51 and the outer end part 52 a of the second spiral part 52. The second connection wiring part 54 connects the inner end part 52 b of the second spiral part 52 and the radiation part 33.

  In the first antenna device 11 shown in FIG. 5B, the ground part 31, the first and second spiral parts 51 and 52, and the radiation part 33 are arranged on the surface of the FPC board 21, and the first and second connection wirings are arranged. The parts 53 and 54 are arranged on the back surface of the FPC board 21. The current direction from the ground portion 31 to the radiating portion 33 in the first and second spiral portions 51 and 52 is a direction from the inner end portions 51b and 52b to the outer end portions 51a and 52a.

  In FIG. 5B, one end portion of the first connection wiring portion 53 is connected to the inner end portion 51 b of the first spiral portion 51. The other end of the first connection wiring portion 53 is disposed in the recess 31 a of the ground portion 31. The arrangement of the other end of the first connection wiring portion 53 in the recess 31a is performed according to the arrangement of the outer end of the spiral portion with respect to the recess.

  The second connection wiring portion 54 connects the outer end portion 51 a of the first spiral portion 51 and the inner end portion 52 b of the second spiral portion 52. The outer end portion 52 a of the second spiral portion 52 is connected to the radiating portion 33.

  In the first antenna device 11 shown in FIG. 5C, the ground part 31 and the first and second spiral parts 51 and 52 are arranged on the surface of the FPC board 21, and the radiation part 33 and the first and second connection wirings are arranged. The parts 53 and 54 are arranged on the back surface of the FPC board 21. The current direction from the ground part 31 to the radiation part 33 in the first and second spiral parts 51 and 52 is a direction from the outer end parts 51a and 52a to the inner end parts 51b and 52b.

  In FIG. 5C, the outer end portion 51 a of the first spiral portion 51 is disposed in the concave portion 31 a of the ground portion 31. The first connection wiring part 53 connects the inner end part 51 b of the first spiral part 51 and the outer end part 52 a of the second spiral part 52. The second connection wiring part 54 connects the inner end part 52 b of the second spiral part 52 and the radiation part 33.

  In the first antenna device 11 shown in FIG. 5D, the ground part 31 and the first and second spiral parts 51 and 52 are arranged on the surface of the FPC board 21, and the radiation part 33 and the first and second connection wirings are arranged. The parts 53 and 54 are arranged on the back surface of the FPC board 21. The current direction from the ground portion 31 to the radiating portion 33 in the first and second spiral portions 51 and 52 is a direction from the inner end portions 51b and 52b to the outer end portions 51a and 52a.

  In FIG. 5D, one end portion of the first connection wiring portion 53 is connected to the inner end portion 51 b of the first spiral portion 51. The other end of the first connection wiring portion 53 is disposed in the recess 31 a of the ground portion 31. The arrangement of the other end of the first connection wiring portion 53 in the recess 31a is performed by the above-described configuration of the end of the connection wiring portion with respect to the recess.

  The second connection wiring portion 54 connects the outer end portion 51 a of the first spiral portion 51 and the inner end portion 52 b of the second spiral portion 52. The outer end portion 52 a of the second spiral portion 52 is connected to the radiating portion 33.

  In the first antenna device 11 shown in FIG. 5E, the ground portion 31, the radiating portion 33, and the first and second connection wiring portions 53 and 54 are arranged on the surface of the FPC board 21, and the first and second spirals are arranged. The parts 51 and 52 are arranged on the back surface of the FPC board 21. The current direction from the ground part 31 to the radiation part 33 in the first and second spiral parts 51 and 52 is a direction from the outer end parts 51a and 52a to the inner end parts 51b and 52b.

  In FIG. 5E, the outer end portion 51 a of the first spiral portion 51 is disposed in the concave portion 31 a of the ground portion 31. The arrangement of the outer end portion 51a of the first spiral portion 51 in the recess 31a is performed according to the above-described arrangement of the outer end portion of the spiral portion with respect to the recess. The first connection wiring part 53 connects the inner end part 51 b of the first spiral part 51 and the outer end part 52 a of the second spiral part 52. The second connection wiring part 54 connects the inner end part 52 b of the second spiral part 52 and the radiation part 33.

  In the first antenna device 11 shown in FIG. 5F, the ground part 31, the radiating part 33, and the first and second connection wiring parts 53 and 54 are arranged on the surface of the FPC board 21, and the first and second spirals are arranged. The parts 51 and 52 are arranged on the back surface of the FPC board 21. The current direction from the ground portion 31 to the radiating portion 33 in the first and second spiral portions 51 and 52 is a direction from the inner end portions 51b and 52b to the outer end portions 51a and 52a.

  In FIG. 5F, one end portion of the first connection wiring portion 53 is connected to the inner end portion 51 b of the first spiral portion 51. The other end of the first connection wiring portion 53 is disposed in the recess 31 a of the ground portion 31. The second connection wiring portion 54 connects the outer end portion 51 a of the first spiral portion 51 and the inner end portion 52 b of the second spiral portion 52. The outer end portion 52 a of the second spiral portion 52 is connected to the radiating portion 33.

  In the first antenna device 11 shown in FIG. 5G, the ground part 31 and the first and second connection wiring parts 53 and 54 are arranged on the surface of the FPC board 21, and the first and second spiral parts 51 and 52. In addition, the radiation part 33 is arranged on the back surface of the FPC board 21. The current direction from the ground part 31 to the radiation part 33 in the first and second spiral parts 51 and 52 is a direction from the outer end parts 51a and 52a to the inner end parts 51b and 52b.

  In FIG. 5G, the outer end portion 51 a of the first spiral portion 51 is disposed in the concave portion 31 a of the ground portion 31. The arrangement of the outer end portion 51a of the first spiral portion 51 in the recess 31a is performed according to the above-described arrangement of the outer end portion of the spiral portion with respect to the recess. The first connection wiring part 53 connects the inner end part 51 b of the first spiral part 51 and the outer end part 52 a of the second spiral part 52. The second connection wiring part 54 connects the inner end part 52 b of the second spiral part 52 and the radiation part 33.

  In the first antenna device 11 shown in (h) of FIG. 5, the ground portion 31 and the first and second connection wiring portions 53 and 54 are arranged on the surface of the FPC board 21, and the first and second spiral portions 51 and 52 are arranged. In addition, the radiation part 33 is arranged on the back surface of the FPC board 21. The current direction from the ground portion 31 to the radiating portion 33 in the first and second spiral portions 51 and 52 is a direction from the inner end portions 51b and 52b to the outer end portions 51a and 52a.

  In FIG. 5H, one end portion of the first connection wiring portion 53 is connected to the inner end portion 51 b of the first spiral portion 51. The other end of the first connection wiring portion 53 is disposed in the recess 31 a of the ground portion 31. The second connection wiring portion 54 connects the outer end portion 51 a of the first spiral portion 51 and the inner end portion 52 b of the second spiral portion 52. The outer end portion 52 a of the second spiral portion 52 is connected to the radiating portion 33.

  In the first antenna device 11 of the present embodiment, since the first and second spiral portions 51 and 52 are provided, the antenna component (antenna element) can be further shortened and further miniaturized. Yes.

[Embodiment 4]
Still another embodiment of the present invention will be described below with reference to the drawings.

(Example of a configuration having a plurality of spiral portions with different current directions)
In the first antenna device 11 shown in FIG. 5A to FIG. 5H, the plurality of spiral portions, that is, the first and second spiral portions 51 and 52 are currents from the ground portion 31 to the radiation portion 33. The directions are the same, both of which are directions from the outer ends 51a, 52a of the first and second spiral portions 51, 52 to the inner ends 51b, 52b, or from the inner ends 51b, 52b to the outer ends 51a, The direction was toward 52a.

  However, the current directions from the ground portion 31 to the radiating portion 33 in the plurality of spiral portions, that is, the first and second spiral portions 51 and 52, are the same as shown in FIGS. 6A to 6H. Instead, one may be a direction from the outer end to the inner end, and the other may be a direction from the inner end to the outer end.

  The first antenna device 11 shown in FIGS. 6A to 6H corresponds to the first antenna device 11 shown in FIGS. 5A to 5H, and FIG. The first antenna unit 11 shown in (a) to (h) of FIG. 5 differs only in the direction of current from the ground part 31 to the radiating part 33 in the first spiral part 51 and the second spiral part 52. It is. The other structure of the 1st antenna apparatus 11 is the same as the 1st antenna apparatus 11 shown to (h) of Fig.5 (a)-FIG.5.

  In the first antenna device 11 of the present embodiment, since the first and second spiral portions 51 and 52 are provided, the antenna component (antenna element) can be further shortened and further miniaturized. Yes.

[Embodiment 5]
Still another embodiment of the present invention will be described below with reference to the drawings.

(Example of a configuration having a plurality of spiral portions with different turning directions)
FIG. 7A to FIG. 7H are schematic views showing arrangements of components of the first antenna device according to still another embodiment of the present invention.

  In the first antenna device 11 shown in FIGS. 5A to 5H, the first spiral portion 51 and the second spiral portion 52 have the same turning direction (the direction in which current flows). . On the other hand, in the first antenna device 11 shown in FIGS. 7A to 7H, the swirl direction (the direction in which the current flows) is mutually different between the first spiral part 51 and the second spiral part 52. Unlike, it is the opposite direction. Other configurations are the same as those of the first antenna device 11 shown in FIGS. 5A to 5H.

  In the first antenna device 11 of the present embodiment, since the first and second spiral portions 51 and 52 are provided, the antenna component (antenna element) can be further shortened and further miniaturized. Yes.

[Embodiment 6]
Still another embodiment of the present invention will be described below with reference to the drawings.

(Another example of a configuration having a plurality of spiral portions with different turning directions)
FIG. 8A to FIG. 8H are schematic views showing arrangements of components of the first antenna device according to still another embodiment of the present invention.

  In the first antenna device 11 shown in FIGS. 6A to 6H, the first spiral portion 51 and the second spiral portion 52 have the same turning direction (the direction in which the current flows). . On the other hand, in the 1st antenna apparatus 11 shown to (h) of FIG. 8 (a)-FIG. 8 (h), in the 1st spiral part 51 and the 2nd spiral part 52, a turning direction (direction where an electric current flows) mutually. Unlike, it is the opposite direction. Other configurations are the same as those of the first antenna device 11 shown in FIGS. 6A to 6H.

  In the first antenna device 11 of the present embodiment, since the first and second spiral portions 51 and 52 are provided, the antenna component (antenna element) can be further shortened and further miniaturized. Yes.

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

  INDUSTRIAL APPLICABILITY The present invention can be used as an in-vehicle planar antenna device that is limited to an area where the arrangement space is narrow, such as an automobile pillar.

DESCRIPTION OF SYMBOLS 1 Decorative board 11 1st antenna apparatus 12 2nd antenna apparatus 21 FPC board 31 Ground part 31a Recessed part 32 Swirl part 32a Outer end part 32b Inner end part 32c Conductor part 33 Radiation part 34 Connection wiring part 34c Conductor part 41 Coaxial cable 51 First 1 spiral part 51a outer end part 51b inner end part 52 second spiral part 52a outer end part 52b inner end part 53 first connection wiring part 53c conductor part 54 second connection wiring part

Claims (11)

In a planar antenna device in which an antenna pattern composed of a plurality of antenna components is formed on an antenna substrate,
The antenna component includes a ground portion, a spiral portion, and a radiation portion, and the ground portion, the spiral portion, and the radiation portion are arranged in one direction on the antenna substrate in this order. . The antenna component includes a connection wiring portion,
The ground part and the spiral part are formed on the first surface of the antenna substrate,
The outer end portion of the spiral portion is disposed close to the ground portion,
The outer end of the spiral part and the ground part are power supply parts,
The antenna device according to claim 1, wherein the connection wiring portion is formed on a second surface of the antenna substrate, and connects an inner end portion of the spiral portion and the radiation portion. The antenna component includes a connection wiring portion,
The ground part and the spiral part are formed on the first surface of the antenna substrate,
The outer end portion of the spiral portion is connected to the radiating portion,
The connection wiring portion is formed on the second surface of the antenna substrate, one end portion is connected to the inner end portion of the spiral portion, and the other end portion penetrates the antenna substrate and is close to the ground portion. Arranged,
The antenna device according to claim 1, wherein the other end portion and the ground portion of the connection wiring portion are power supply portions. The antenna component includes a connection wiring portion,
The ground portion and the connection wiring portion are formed on the first surface of the antenna substrate,
The spiral portion is formed on the second surface of the antenna substrate;
An outer end portion of the spiral portion passes through the antenna substrate and is disposed close to the ground portion,
The outer end of the spiral part and the ground part are power supply parts,
The antenna device according to claim 1, wherein the connection wiring portion connects an inner end portion of the spiral portion and the radiating portion. The antenna component includes a connection wiring portion,
The ground portion and the connection wiring portion are formed on the first surface of the antenna substrate,
The spiral portion is formed on the second surface of the antenna substrate;
The outer end portion of the spiral portion is connected to the radiating portion,
One end of the connection wiring portion is connected to the inner end of the spiral portion, and the other end is disposed close to the ground portion.
The antenna device according to claim 1, wherein the other end portion and the ground portion of the connection wiring portion are power supply portions. A plurality of the spiral portions are arranged side by side on the same surface of the antenna substrate,
6. The outer end portion and the inner end portion or the inner end portion and the outer end portion of the adjacent first spiral portion and second spiral portion are connected to each other. The antenna device according to 1. A plurality of the spiral portions are arranged side by side on the same surface of the antenna substrate,
6. The antenna device according to claim 2, wherein outer ends or inner ends of adjacent first spiral portions and second spiral portions are connected to each other.   8. The antenna device according to claim 6, wherein the first spiral part and the second spiral part have the same turning direction when the direction of current flow is the turning direction.   8. The antenna device according to claim 6, wherein the first spiral part and the second spiral part have different turning directions when the direction of current flow is the turning direction.   The connection wiring portion has a spiral shape, and the swirl shape of the connection wiring portion and the spiral portion have a swirl direction when viewed from the first surface side when a current flow direction is a swirl direction. The antenna device according to any one of claims 2 to 5, wherein the antenna devices are the same.   11. The antenna board according to claim 1, wherein the antenna substrate on which an antenna pattern composed of a plurality of antenna components is formed is built in a decorative plate attached to a pillar of an automobile. Antenna device.

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