JP2011217111A - Antenna and sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance directivity of an antenna than conventional one.SOLUTION: In an antenna 1, an antenna pattern 20 is formed on a plate-like substrate 10 having such surface as expands in one direction, or length direction, and the other direction, or width direction, among two directions crossing each other. The antenna pattern 20 includes a slit part 23 having an opening 21 looking at one end 11 side in length direction of the substrate 10, a pair of extending parts 25 extending toward one end 11 in length direction of the substrate 10 from two points sandwiching the opening 21 in width direction at the slit part 23, and a protruding part 27 of corrugated structure in which a plurality of projections extending toward a region sandwiched between the pair of extending parts 25 from each of the extending parts 25 are arranged along the length direction.

Description

  The present invention relates to an antenna formed by forming an antenna pattern on a substrate.

  In recent years, as an antenna for transmitting or receiving a radio wave such as a millimeter wave, an antenna has been proposed in which a slot-like antenna pattern having an opening facing a side for transmitting or receiving a radio wave is formed on a substrate (Patent Document). 1).

Japanese Patent No. 3462959

  However, in the above-described antenna, when transmitting or receiving radio waves, the electric field distribution is likely to spread in directions other than the transmission direction or the reception direction, and thus it cannot be said that the directivity as the antenna can be sufficiently improved.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide a technique for improving the directivity as an antenna as compared with the prior art.

  In order to solve the above problems, a first configuration (Claim 1) is configured such that an antenna pattern is formed on a plate-like substrate having a surface that extends in one of the two directions intersecting with each other in the length direction and the other in the width direction. It is an antenna formed. Among these, the antenna pattern includes the slit portion having an opening facing the one end side in the length direction in the substrate and the two portions that sandwich the opening in the width direction in the slit portion. A corrugated structure in which a pair of extending portions extending toward one end in the vertical direction and a plurality of protrusions extending from each of the extending portions toward a region sandwiched between the pair of extending portions are disposed along the length direction. And a projecting portion of the structure.

In principle, the extending portion in this configuration acts so that the directivity as the antenna increases as the length increases, and therefore, the extending portion may be extended by a length that can sufficiently enhance the directivity.
In addition, it is desirable that each protrusion in the protrusion protrudes by a length (= λ / 4) corresponding to the wavelength of a radio wave to be transmitted or received in order to increase directivity.

  Further, the slit portion in the antenna pattern is not particularly limited as long as it has an opening facing one end of the substrate, but the above configuration is the second configuration (Claim 2). Can be considered.

  Specifically, in the antenna pattern, the slit portion is a first portion extending from the other end side in the length direction toward the one end side at least on one end side in the width direction of the substrate. A second line extending from one end of the first line in the length direction to the other end side in the length direction and the direction away from the first line, and the other end side in the width direction of the substrate A third line extending from the other end side in the length direction toward one end side, and a direction away from the other end side in the length direction and the third line from one end in the length direction of the third line. A region surrounded by a fourth line extending toward the substrate, and the extending portion extends from one end of each of the first line and the third line in the slit portion in the length direction of the substrate. Extends toward one end of It is a configuration such as.

Moreover, in this structure, since the extension part becomes a shape extended from each one end of a 1st line and a 3rd line, the shape from a slit part to an extension part can be made integral.
Among the slit portions in this configuration, the other end of the second line and the other end of the fourth line may be directly connected to each other, or may be indirectly connected via another line. .

  Further, the interval between the extending portions in the antenna pattern may be an optimum interval according to the use environment such as the frequency of the radio wave to be transmitted or received, and the specific interval is not particularly limited.

  For example, as in the third configuration (claim 3), in the antenna pattern, the distance between each of the pair of extending portions may be set within a predetermined distance range.

Moreover, in each said structure, it is possible to make each said structure into a 4th structure (Claim 4).
More specifically, in the antenna pattern, the slit portion includes one end in the width direction of the substrate from the other end side in the length direction and one end side in the width direction in the slit portion. A first stub that protrudes toward the substrate, and a second stub that protrudes from the other end in the length direction and the other end in the width direction of the slit portion toward the other end of the substrate in the width direction. , And so on.

  The first and second stubs in this configuration are projected by a length (= λ / 4) corresponding to the wavelength of a radio wave to be transmitted or received, respectively. It is desirable to prevent wraparound and increase directivity.

  Further, in each of the above configurations, each projection of the projection portion may be arranged only in a partial region in the extension portion, or in the antenna pattern as in the fifth configuration (Claim 5), The protrusion may be arranged such that the protrusion extends over at least a region of the substrate that reaches one end in the length direction of the substrate.

  In addition, the slit portion in each of the above configurations may be formed only on the front surface or the back surface of the substrate, but may be formed on each of the front surface and the back surface separately in this case. It is conceivable to use the configuration of No. 6 (Claim 6).

  Specifically showing the sixth configuration, in the antenna pattern, one slit portion obtained by dividing the width direction of the slit portion into two at a predetermined ratio, and the extending portion extending from the slit portion, The other slit portion divided into two and the extending portion extending from the slit portion is formed on the back surface of the substrate, and the slit portion is formed on the surface of the substrate. A configuration in which when the other slit portion is projected or when one slit portion is projected on the back surface of the substrate, a shape having an opening facing one end side in the length direction of the substrate is formed. It is.

  In this configuration, the slit portion may be divided into two in the width direction at a predetermined ratio, and the specific ratio and shape are not particularly limited. For example, if the region surrounded by the first line to the fourth line is a slit portion as in the second configuration, the region surrounded by the first line and the second line, and the third line It can be considered that the region surrounded by the line and the fourth line is divided into two.

  In order to solve the above-mentioned problem, the seventh configuration (Claim 7) is that the antenna according to any one of the first to sixth configurations is arranged in m × n (2 ≦ m, 1 ≦ n). It is a sensor characterized by this.

  According to the antenna according to the first configuration, the extending portion extends from each of the two portions sandwiching the opening in the width direction in the slit portion toward one end in the length direction of the substrate. A corrugated protrusion is provided. These extending portions and projecting portions suppress the spread of the electric field distribution outside the transmission or reception direction during transmission or reception of radio waves, so that the directivity as an antenna can be improved.

  In addition, it is also assumed that the antenna described above is used as a sensor by arranging the antennas in one or a plurality of rows and receiving radio waves radiated from the objects, and in this case, the detection range of each antenna is It is necessary to arrange them at intervals so as not to overlap. However, as in the above configuration, if the directivity as an antenna is high, the detection range can be narrowed by each antenna, so that the distance between the antennas can be narrowed, resulting in the entire sensor as a result. Can be reduced in size.

  Further, in the above configuration, since the protrusion provided on the extension part projects the protrusion toward the area sandwiched between the pair of extension parts, the protrusion is separated from the area sandwiched between the pair of extension parts. Compared with the case where the protrusion protrudes in the direction, there is no protrusion to the outside, which contributes not only to the miniaturization of the antenna element but also to the miniaturization of the entire sensor when used as a sensor. Yes.

If it is the 2nd composition, a slit part can be formed by the field surrounded by the 1st line-the 4th line.
If it is the 3rd composition, the performance suitable for the use environment can be exhibited by setting the interval of each extension part as the optimal interval according to the use environment, such as the frequency of the electric wave transmitted or received. .

  In the case of the fourth configuration, the electric field distribution is expanded outside the transmission or reception direction when the radio wave is transmitted or received by the first and second stubs protruding in the width direction from the other end side in the length direction of the slit portion. Therefore, the directivity as an antenna can be further improved.

  In the fifth configuration, the electric field distribution is transmitted or received when the radio wave is transmitted or received by the protrusion disposed over the region of the extending portion extending to one end side in the length direction of the substrate. It is possible to suppress the spread outside the reception direction.

If it is the 6th structure, the freedom degree of pattern formation can be raised by forming an antenna pattern in both the front and back of a substrate.
If it is a sensor which concerns on a 7th structure, the effect | action and effect similar to said each structure can be acquired.

Diagram showing the whole antenna The figure which shows the slit part in an antenna Diagram showing the front and back of the antenna Diagram showing specific example of antenna dimensions The figure which shows the slit part in another embodiment The figure which shows the slit part in another embodiment The figure which shows the antenna in another embodiment The figure which shows the projection part in another embodiment

Embodiments of the present invention will be described below with reference to the drawings.
(1) Overall Configuration As shown in FIG. 1, the antenna 1 is obtained by forming an antenna pattern 20 on a plate-like substrate 10, and the antenna 1 is mxn (2 ≦ m, 1 ≦ n). By disposing, the sensor 2 can be configured.

  The substrate 10 is a plate-like member having a surface that extends in one of the two directions intersecting each other in the length direction (left-right direction in FIG. 1) and the other in the width direction (up-down direction in FIG. 1). In the embodiment, it is a rectangle extending in the length direction. The substrate 10 is preferably made of a material having a high dielectric constant from the viewpoint of downsizing the entire antenna 1.

  The antenna pattern 20 includes a slit portion 23 having an opening 21 facing the one end 11 side in the length direction of the substrate 10 and two positions sandwiching the opening 21 in the width direction of the slit portion 23 in the length direction of the substrate 10. A corrugated structure in which a pair of extending portions 25 extending toward one end 11 and a plurality of protrusions extending from each of the extending portions 25 toward a region sandwiched between the pair of extending portions 25 are arranged along the length direction. And a protrusion 27.

  Among these, as shown in FIG. 2, the slit portion 23 includes at least a first line 31 extending from the other end 15 side in the length direction toward the one end 11 side on the one end 13 side in the width direction of the substrate 10; The first wire 31 extends from one end in the length direction to the other end side in the length direction and the second wire 33 extending in the direction away from the first wire 31, and the length direction on the other end 17 side in the width direction of the substrate 10. A third line 35 extending from the other end 15 side toward the one end 11 side, and a third line 35 extending from one end in the length direction toward the other end side in the length direction and the direction away from the third line 35. A region surrounded by four lines 37 is formed. In the present embodiment, all of the first line 31 to the fourth line 37 are straight lines, but these may be lines other than the straight lines.

  The extending portion 25 extends from one end of each of the first line 31 and the third line 35 in the slit portion 23 toward one end 11 in the length direction of the substrate 10. In principle, these extending portions 25 act so that the directivity as an antenna increases as the length increases, and thus the extended portions 25 extend by a length that can sufficiently increase the directivity. If the distance between the extension portions 25 is a case where importance is placed on matching with the spatial impedance, it is arranged so that one end side is wider than the other end side, and if importance is placed on narrowing the directivity, They are arranged in a positional relationship such that one end to the other end extends in parallel.

In the present embodiment, the extending portion 25 is disposed at a position shifted from the respective end portions 13 and 17 in the width direction of the substrate 10 to the center side in the width direction by a predetermined distance.
Further, the interval between the pair of extending portions 25 is set within a predetermined distance range. This predetermined range is determined in advance as an optimum interval according to the use environment such as the frequency of radio waves to be transmitted or received.

  Further, the protrusion 27 has a configuration in which the protrusion is arranged over the extended portion 25 up to the region reaching the one end 11 in the length direction of the substrate 10. Each of these protrusions protrudes by a length (= λ / 4) corresponding to the wavelength of a radio wave to be transmitted or received.

  Further, the slit portion 23 includes a first stub 41 projecting from the other end side in the length direction of the slit portion 23 and one end side in the width direction toward the one end 13 in the width direction of the substrate 10, And a second stub 43 that protrudes from the other end in the length direction and the other end in the width direction toward the other end 15 in the width direction of the substrate 10. The first and second stubs 41 and 43 are projected by a length (= λ / 4) corresponding to the wavelength of a radio wave to be transmitted or received.

  By the way, as shown in FIG. 3, the antenna pattern 20 in the present embodiment includes one slit portion 23a obtained by dividing the width direction of the slit portion 23 into two at a predetermined ratio, and an extending portion 25a extending from the slit portion 23a. The other slit portion 23b divided into two and the extending portion 25b extending from the slit portion 23b are formed on the back surface of the substrate 10. Here, the slit portion 23 is divided into a region surrounded by the first line 31 and the second line 33 and a region surrounded by the third line 35 and the fourth line 37.

  That is, the slit portion 23 faces the one end 11 side in the length direction of the substrate 10 when the other slit portion 23b is projected on the front surface of the substrate 10 or when one slit portion 23a is projected on the rear surface of the substrate 10. A shape having the opening 21 is formed. In the present embodiment, since a transparent material is used for the substrate 10, a shape having an opening 21 facing the one end 11 side in the length direction of the substrate 10 is formed.

  In addition, a power supply line 52 extending linearly from the other end of the slit portion 23a to the other end of the substrate 10 is connected to the slit portion 23a, and the slit portion 23b is connected to the slit of the substrate 10 from the other end of the slit portion 23b. A grounding portion 54 extending in a planar shape to the other end is connected.

  The antenna 1 is used in a state where the grounding portion 54 is connected to the ground surface on the receiver side or the transmitter side, and the feeder line 52 is connected to the amplifier on the receiver side or the transmitter side. As a more specific example, when used in a transceiver, the grounding unit 54 and the power supply line 52 are connected to a circulator or a switching circuit.

  In the antenna 1 having the above configuration, the frequency of the radio wave transmitted or received by the antenna 1 is 75 GHz, and the distance from the tip of the antenna 1 (one end 11 in the length direction of the substrate 10) to the object is 2λ. In this case, as shown in FIG. 4, it is conceivable that the following values are selected as the dimensions of each component. In addition, the dimension of each of the following constituent elements can change an optimum value depending on the use environment, and does not mean that the dimensions of the constituent elements of the present invention are limited to the following values.

  First, the substrate 10 may be 38 mm in length, 4 mm in width, and 0.05 mm in plate thickness. In addition, it is conceivable that the slit portion 23 has a length of 8.5 mm. In addition, the extending portion 25 is selected to have a length of 16.5 mm, and the distance between the extending portions 25 is selected to be 2.85 mm or 2.65 mm, and the distance from the end portions 13 and 17 of the substrate 10. It can be considered that 0.6 mm is selected.

In the use environment described above, (a) the conventional antenna, (b) 2.85 mm is selected as the interval between the extending portions 25 in the antenna 1 of the above embodiment, and the first and second stubs 41, 43 is not provided, (c) when 2.85 mm is selected as the interval between the extending portions 25 in the antenna 1, (d) 2.65 mm is set as the interval between the extending portions 25 in the antenna 1. When selected, the VSWR is (a) 3.34, (b) 2.79, (c) 2.61, and (d) 1.36, and the configurations of the above embodiments are all conventional antennas. It shows an improvement trend compared to.
(2) Action and Effect According to the antenna 1 of the above-described embodiment, the extending portion 25 extends from the two portions of the slit portion 23 that sandwich the opening 21 in the width direction toward one end 11 in the length direction of the substrate 10. Furthermore, a corrugated protrusion 27 is provided on the extension 25.

  The extension part 25 and the protrusion part 27 suppress the spread of the electric field distribution outside the transmission or reception direction during transmission or reception of radio waves, so that the directivity as the antenna 1 can be enhanced.

  In addition, this type of antenna is also assumed to be used as the sensor 2 by arranging the antennas in one or a plurality of rows and receiving radio waves radiated from the objects, and in this case, detection by each antenna is assumed. It is necessary to arrange them so that the ranges do not overlap. However, as in the above-described embodiment, if the directivity as an antenna is high, the detection range can be narrowed by each antenna 1, so that the antennas 1 can be arranged with the interval between them narrowed. Miniaturization of the sensor 2 as a whole can be realized.

  Furthermore, in the above-described embodiment, since the protrusions 27 provided on the extension portions 25 project the protrusions toward the region sandwiched between the pair of extension portions 25, the protrusions 27 are sandwiched between the pair of extension portions 25. Compared with the case where the protrusion is protruded in the direction away from the region, there is no protrusion to the outside, so that not only the antenna element can be miniaturized, but also the sensor 2 as a whole can be miniaturized. Has also contributed.

In the above embodiment, the slit portion 23 can be formed by a region surrounded by the first line 31 to the fourth line 37.
Moreover, since the extension part 25 becomes a shape extended from each one end of the 1st line 31 and the 3rd line 35, the shape from the slit part 23 to the extension part 25 can be made integral.

  Moreover, in the said embodiment, by setting the space | interval of each extension part 25 as an optimal space | interval according to use environments, such as the frequency of the radio wave to transmit or receive, the performance suitable for a use environment can be exhibited. it can.

  In the above embodiment, the electric field distribution is transmitted or received in the transmission or reception direction when the radio wave is transmitted or received by the first and second stubs 41 and 43 protruding in the width direction from the other end in the length direction of the slit portion 23. Since it is suppressed that it spreads to other than, the directivity as the antenna 1 can be improved more.

  Further, in the above-described embodiment, the projection 27 disposed over the region of the extending portion 25 reaching the one end 11 side in the length direction of the substrate 10 causes an electric field to be transmitted or received when transmitting or receiving radio waves. It is possible to suppress the distribution from spreading outside the transmission or reception direction.

Moreover, in the said embodiment, the freedom degree of pattern formation can be raised by forming the antenna pattern 20 in the front and back both surfaces of the board | substrate 10. FIG.
(3) Modifications Embodiments of the present invention have been described above, but the present invention is not limited to the above-described embodiments, and can take various forms as long as they belong to the technical scope of the present invention. Needless to say.

  For example, in the said embodiment, although the board | substrate 10 illustrated the structure which becomes the rectangle extended in a length direction, about the board | substrate 10, what is necessary is just a plate-shaped member which has the surface expanded to two directions which cross | intersect, respectively. The shape may be other than a rectangle.

  Moreover, in the said embodiment, although the other end of the 2nd line 33 in the slit part 23 and the other end of the 4th line 37 were each directly connected, it illustrated indirectly through another line. It is good also as the structure connected in general.

  Moreover, in the said embodiment, although the structure which formed the slit part 23a, 23b divided into 2 on each surface of the front and back in the board | substrate 10 was illustrated, the slit part 23 is suitable for the one end 11 side of the length direction in the board | substrate 10. As long as the shape having the opening 21 is formed, a structure formed only on the surface of the substrate 10 may be used, or a structure divided into three or more parts may be formed on the front and back surfaces.

  Moreover, in the said embodiment, the protrusion part 27 should just be arrange | positioned over the area | region which reaches the end 11 of the length direction in the board | substrate 10 among the extension parts 25, and the extension part 25 and the slit part 23 are sufficient as it. The projection may be arranged from the contact with the projection, or the projection may be arranged from a location away from the contact by a predetermined distance toward the one end 11 of the substrate.

  Moreover, in the said embodiment, the 1st, 2nd stub 41, 43 provided in the slit part 23 is what is comprised so that it may protrude toward the one end 13 or the other end 17 of the width direction in the board | substrate 10. Although illustrated, it is only necessary to prevent the high-frequency current flowing around the outer peripheral surface of the slit portion 23 from flowing around, and other configurations are also conceivable.

  As a specific example, as shown in FIG. 5 (a), stubs 45a and 45b configured to protrude in the length direction from the other ends of the slit portions 23a and 23b, and as shown in FIG. 5 (b) The slits 49a and 49b formed in an oblique direction from the other end side of the portion 23 can be considered.

  Moreover, in the said embodiment, although each protrusion of the protrusion part 27 illustrated the structure extended straight along the width direction of the board | substrate 10 from the extension part 25, it is a grade which can narrow down directivity enough, for example. In addition, it may be configured to extend obliquely or curvedly with respect to the width direction of the substrate 10.

  Moreover, in the said embodiment, although the slit part 23 opened to the substantially V shape and illustrated the structure which the other end side becomes diagonal with respect to the width direction of the board | substrate 10, opening of this slit part 23 is as follows. As shown in FIG. 6, the other end side may be a planar end wall 23 c extending in the width direction of the substrate 10.

  In this case, as shown in FIGS. 7A and 7B, the slit portion 23 is formed only on the front surface of the substrate 10 and the probe 62 not electrically connected to the slit portion 23 is formed on the back surface. This is preferable in terms of improving cross polarization characteristics. If the substrate 10 is a multilayer substrate, the surface on which the probe 62 is formed may be provided as the surface of the layer on which the slit portion 23 is not formed.

  Moreover, in the said embodiment, although all the protrusion parts 27 illustrated the structure which became the length according to the wavelength in one type of electromagnetic wave to transmit or receive, this protrusion part 27 is shown to Fig.8 (a). It is good also as what was comprised from the several area | region which becomes the length according to each of the electromagnetic wave in multiple types of electromagnetic waves, as shown to-(c). However, when the protrusion 27 is configured by a plurality of regions, the region located at one end of the extension 25 is set to a length corresponding to the lowest frequency radio wave (specifically, the longest). It is desirable.

  DESCRIPTION OF SYMBOLS 1 ... Antenna, 2 ... Sensor, 10 ... Board | substrate, 11 ... One end of length direction, 13 ... One end of width direction, 15 ... Other end of length direction, 17 ... Other end of width direction, 20 ... Antenna pattern, 21 ... Opening, 23 ... Slit, 25 ... Extension, 27 ... Protrusion, 31 ... First line, 33 ... Second line, 35 ... Third line, 37 ... Fourth line, 41 ... First stub, 43 2nd stub, 45a ... stub, 47a ... slit, 49a ... slit, 52 ... feed line, 54 ... grounding part, 62 ... probe.

Claims (7)

An antenna formed by forming an antenna pattern on a plate-like substrate having a surface that expands with one of the two directions intersecting as the length direction and the other as the width direction,
The antenna pattern is
A slit portion having an opening facing one end side in the length direction of the substrate;
A pair of extending portions extending from each of the two portions sandwiching the opening in the width direction in the slit portion toward one end in the length direction of the substrate,
A protrusion having a corrugated structure in which a plurality of protrusions extending from each of the extending portions toward a region sandwiched between the pair of extending portions are disposed along the length direction. antenna. In the antenna pattern,
The slit portion includes at least a first line extending from the other end side in the length direction toward the one end side on the one end side in the width direction of the substrate, and from the one end in the length direction on the first line. A second line extending toward the direction away from the other end side in the length direction and the first line, and the other end side in the width direction of the substrate extend from the other end side in the length direction toward the one end side. A region surrounded by a third line and a fourth line extending from one end in the length direction of the third line toward the other end side in the length direction and the direction away from the third line; And
2. The extension part according to claim 1, wherein the extension part extends from one end of each of the first line and the third line in the slit part toward one end in the length direction of the substrate. antenna. In the antenna pattern,
The antenna according to claim 2, wherein a distance between each of the pair of extending portions is set within a predetermined distance range. In the antenna pattern,
The slit portion includes a first stub protruding from the other end side in the length direction of the slit portion and one end side in the width direction toward the one end in the width direction of the substrate, and the length in the slit portion. 4. A second stub that protrudes from the other end in the width direction and the other end in the width direction toward the other end in the width direction of the substrate. 5. The antenna according to any one of the above. In the antenna pattern,
The antenna according to any one of claims 1 to 4, wherein the protrusion is disposed so as to extend to at least a region of the substrate that reaches one end in the length direction of the extended portion. . In the antenna pattern,
One slit part obtained by dividing the width direction of the slit part into two at a predetermined ratio, and the extending part extending from the slit part are formed on the surface of the substrate, and the other slit part divided into two parts. And the extending part extending from the slit part is formed on the back surface of the substrate,
The slit portion is an opening facing one end side in the length direction of the substrate when the other slit portion is projected on the front surface of the substrate or when one slit portion is projected on the back surface of the substrate. The antenna according to any one of claims 1 to 5, wherein a shape having the following is formed. The sensor according to claim 1, wherein the antenna according to claim 1 is arranged in m × n (2 ≦ m, 1 ≦ n).