JP7278158B2 - antenna - Google Patents

Description

The present invention relates to an antenna patterned on a substrate, and more particularly to a broadband antenna based on a monopole antenna.

A monopole antenna can be installed in a space-saving manner and is widely used in small-sized communication equipment because a radiating element having a length of 1/4 wavelength of a radiated radio wave can be set up. In order to widen the bandwidth of this monopole antenna, there is an antenna having a complicated shape in which a separate conductor pattern is arranged around the monopole antenna.
For example, in Japanese Unexamined Patent Application Publication No. 2002-100000, a radiation element connected to the ground is arranged around a monopole antenna formed on a substrate to widen the band.

JP 2012-165223 A

The antenna of Patent Literature 1 was able to provide a wider band than a simple monopole antenna. However, in addition to the elements patterned on the substrate, the three-dimensional structure elements are provided, resulting in high cost.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an antenna capable of obtaining broadband characteristics simply by forming a pattern on a substrate.

In order to solve the above-mentioned problems, the invention of claim 1 is provided with a power feeding portion at a boundary portion formed in the horizontal direction of a ground pad formed on a substrate, and a power feeding portion extending vertically away from the ground pad from the power feeding portion. A T-shaped monopole antenna having a linearly formed first radiating element and a second radiating element extending from the tip of the first radiating element so as to be parallel to the boundary of the ground pad; and a parasitic antenna patterned adjacently, wherein the ground pad has a first ground pad formed on the front surface of the substrate and a second ground pad formed on the rear surface of the substrate; Among the pole antenna and the parasitic antenna, at least the monopole antenna is formed on the surface, the second ground pad is formed vertically wider than the first ground pad, and the parasitic antenna is connected to the ground pad to form the second ground pad. It has a grounding element extending to a portion beyond the radiating element and a strip-shaped element extending laterally from the tip of the grounding element, the strip-shaped element extending in one direction having a length covering the upper part of the second radiating element. , the parasitic antenna as a whole is T -shaped and is formed on the back surface of the substrate, and the grounding element is connected to the second ground pad .
According to this configuration, two resonant frequency bands, a low frequency band and a high frequency band, can be generated by the T-shaped monopole antenna and the parasitic antenna patterned on the substrate, making it possible to support a wide frequency band. .
Also, since the parasitic antenna is formed on the back surface of the substrate and the grounding element is connected to the second ground pad, the coupling of the monopole antenna can be reduced and the size of the antenna can be reduced.

According to a second aspect of the invention, in the structure according to the first aspect, the second radiating element has a stub extending parallel to the first radiating element toward the ground pad, and the stub is between the second ground pad and the second radiating element. It is characterized by being capacitively coupled with
With this configuration, there is no need to provide a matching circuit, and a compact and inexpensive configuration can be achieved.

The invention of claim 3 is the configuration of claim 1 or 2 , wherein the ground pad is arranged in the center of the substrate, antenna pattern areas are provided at both ends of the substrate in the vertical direction, and one antenna pattern area has a , a monopole antenna and a parasitic antenna are arranged, and in the position facing the monopole antenna in the other antenna pattern area, a monopole antenna formed by flipping up and down and left and right with the same shape as the monopole antenna is arranged. It is characterized by being made
According to this configuration, by providing a separate T-shaped monopole antenna in addition to the set of the T-shaped monopole antenna and the parasitic antenna, the distortion of the directivity of the T-shaped monopole antenna can be compensated for, resulting in good performance. Transceiver characteristics can be obtained.

According to the present invention, two resonant frequency bands, a low frequency band and a high frequency band, can be generated by a monopole antenna and a parasitic antenna patterned on a substrate, making it possible to handle a wide frequency band.

1 is an explanatory front view showing an example of an antenna according to the present invention, showing a pattern on the back surface of a substrate in addition to a pattern on the surface of the substrate; FIG. It is a front view of a board|substrate. FIG. 3 is a pattern diagram of the rear surface of the substrate as viewed from the front; It is an A section enlarged view. 5 is a VSWR characteristic diagram of a main antenna; FIG. 5 is a VSWR characteristic diagram of a sub-antenna; FIG. The radiation pattern diagram of the antenna is shown, (a) is the characteristic of the main antenna, and (b) is the characteristic of the sub-antenna.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments embodying the present invention will be described in detail with reference to the drawings. 1 to 3 are explanatory diagrams showing an example of an antenna according to the present invention, FIG. 1 is a front explanatory diagram showing an antenna pattern formed on the back surface in addition to the antenna pattern on the surface of the substrate, and FIG. 2 is a substrate. , and FIG. 3 is a pattern diagram from the front to the back of the substrate. 1 is a first monopole antenna (hereinafter referred to as "first antenna"), 2 is a parasitic antenna, 3 is a second monopole antenna (hereinafter referred to as "second antenna"), and 4 is pattern formation. These are ground pads which are patterned with copper foil on the front or back side of a dielectric substrate 5 .

The first antenna 1 and the parasitic antenna 2 constitute a main antenna, and the second antenna 3 constitutes a sub-antenna. Hereinafter, the vertical direction and the horizontal direction of the drawing will be described as the vertical direction and the horizontal direction (horizontal direction) of the substrate 5 .

The ground pads 4 are formed on both front and back surfaces of the substrate 5, with a first ground pad 4a formed on the front surface and a second ground pad 4b formed on the rear surface. Both of the ground pads 4a and 4b are formed so that substantially the entire area of the pattern overlaps with each other, and the appropriate portions are connected.
Specifically, the ground pad 4 is formed over the entire central portion of the substrate 5 and has a width extending to the left and right end portions of the substrate 5 in a strip shape. Both ends (upper and lower portions) of the substrate 5 in the vertical direction are formed to have a certain space, and antenna pattern regions P having no ground pattern are provided on both upper and lower surfaces.

A boundary portion between the first ground pad 4a and the antenna pattern region P is formed to have a boundary line formed straight in the horizontal direction. In addition, the second ground pad 4b is formed wider than the first ground pad 4a.

The first antenna 1 is formed on the surface of the substrate 5 and formed in the antenna pattern area P on the upper side. A first radiation element 11 having a feeding portion 6 on the boundary of the upper side of the first ground pad 4a and extending upward in a bar shape, and a second radiation element 12 extending in the left-right direction at the upper end of the radiation element 11. and is formed as a T-shaped antenna.

However, in the vicinity of the left side of the first radiation element 11 , a stub 13 is formed to hang from the second radiation element 12 toward the ground pad 4 in parallel with the first radiation element 11 . The lower end of the stub 13 is formed so as to slightly overlap the second ground pad 4b formed on the back surface of the substrate 5. As shown in FIG.

FIG. 4 is an enlarged view of the portion A, showing an overlapping portion D between the stub 13 and the second ground pad 4b. As shown in FIG. 4, the stub 13 is formed so as to overlap by 0.5 mm, and the stub 13 and the second ground pad 4b are capacitively coupled.

The parasitic antenna 2 is formed on the back surface of the substrate 5, is connected to the second ground pad 4b, and has an earth element 21 bent in the middle in a meander shape, and a band-like shape extending in the left-right direction from the tip of the earth element 21. It is a T-shaped antenna composed of elements 22 and forming a T-shape as a whole.
In addition, this parasitic antenna 2 is arranged so as to be adjacent to the left side of the first antenna 1 when viewed from the front surface (surface), and the grounding element 21 extends above the first radiation element 11 formed on the surface. One strip-shaped element 22 a extending toward the first antenna 1 among the strip-shaped elements 22 extends so as to cover the upper portion of the second radiation element 12 of the first antenna 1 .
On the other hand, the belt-shaped element 22b extending to the other side extends to the edge of the substrate 5, and the tip thereof is bent downward to form a U-shape.

The second antenna 3 is formed in the antenna pattern region P under the surface of the substrate 5 and is formed so as to face the first antenna 1 . Specifically, it is formed in the same shape as the first antenna 1, has a first radiating element 11a, a second radiating element 12a, and a stub 13a, and has a feeding portion 6a at the boundary with the first ground pad 4a, It is a T-shaped antenna formed by reversing left and right and up and down, and having a point-symmetrical shape with the first antenna 1 .

The main dimensions of the antenna are, as shown in FIG. The length is 10mm.
In addition, the ground element 21 of the parasitic antenna 2 has a length of 50 mm or more when the meander portion is extended, the length of the belt-shaped element 22 on the side of the first antenna 1 is 44 mm, and the length of the straight portion on the opposite side is 33 mm. and is bent at its tip.
The substrate 5 uses FR4 (glass epoxy substrate), which is a dielectric substrate having a thickness of 0.8 mm.

FIG. 5 shows the VSWR characteristics of a set of the first antenna 1, which is the main antenna, and the parasitic antenna 2. In FIG. As shown in Fig. 5, there are two frequency areas where the VSWR is less than 3.0: the low frequency band from 0.688 GHz to 1.029 GHz and the high frequency band from 1.667 GHz to 2.778 GHz. is shown.
Also, FIG. 6 shows the VSWR characteristic of the second antenna 3, which is a sub-antenna. As shown in FIG. 6, the frequency area in which the VSWR is less than 3.0 is 1.214 GHz to 2.890 GHz, and the VSWR exhibits good characteristics in the band including the above-mentioned high frequency band of the main antenna.

FIG. 7 shows radiation pattern diagrams of the antenna, where (a) is the characteristic of the main antenna and (b) is the characteristic of the sub-antenna. It should be noted that this characteristic is the characteristic for the surface direction orthogonal to the substrate 5. FIG.
As shown in FIG. 7, the radiation pattern of the second antenna 3, which is a sub-antenna, differs greatly from that of the main antenna at 2.7 GHz, but exhibits characteristics that complement the radiation pattern of the main antenna. Therefore, by combining the first antenna 1, the parasitic antenna 2, and the second antenna 3, it is possible to obtain good radiation characteristics.

In this way, the first antenna 1, which is a T-shaped monopole antenna, and the parasitic antenna 2 patterned on the substrate 5 can generate two resonance frequency bands, a low frequency band and a high frequency band, and a wide frequency band. can be handled.
In addition, since the stub 13 is provided, it is possible to reduce the number of matching circuits, and the configuration can be made inexpensive. In particular, by capacitively coupling the stub 13 and the ground pad 4, there is no need to provide a matching circuit, and the size and cost can be reduced.
Further, by forming the parasitic antenna 2 on the back surface of the substrate 5 different from the first antenna 1, the coupling of the first antenna can be reduced and the size of the antenna can be reduced.
In addition, in addition to the set of the first antenna 1 and the parasitic antenna 2, which are T-shaped monopole antennas, the second antenna 3, which is a T-shaped monopole antenna, is separately provided, thereby forming a T-shaped monopole antenna. Directivity distortion can be compensated, and good transmission/reception characteristics can be obtained.

In the above embodiment, the second antenna 3 is provided as a sub-antenna, but as can be seen from the VSWR characteristics of FIG. can be obtained.
Also, although the parasitic antenna 2 is arranged on the left side of the first antenna 1 when viewed from the front, it may be horizontally reversed. In this case, the second antenna 3 should also be moved to the left along with the first antenna 1 .

1 First antenna (first monopole antenna) 2 Parasitic antenna 3 Second antenna (second monopole antenna) 4 Ground pad 4a First ground pad 4b 2nd ground pad 5 substrate 6, 6a feeder 11 first radiation element 12 second radiation element 13 stub 21 grounding element 22 Strip element, P... Antenna pattern area.

Claims (3)

a first radiating element having a feeding section at a boundary formed in a horizontal direction of a ground pad formed on a substrate, and formed in a straight line in a vertical direction away from the ground pad from the feeding section; a T-shaped monopole antenna having a second radiating element extending parallel to the boundary of the ground pad from the tip of the element; and a parasitic antenna pattern-formed adjacent to the monopole antenna. An antenna having
The ground pad has a first ground pad formed on the surface of the substrate and a second ground pad formed on the back surface,
At least the monopole antenna of the monopole antenna and the parasitic antenna is formed on the surface, and the second ground pad is formed vertically wider than the first ground pad,
The parasitic antenna has a ground element connected to the ground pad and extending to a position exceeding the second radiation element, and a strip-shaped element extending laterally from a tip of the ground element, and extending in one direction. the strip-shaped element has a length that covers the top of the second radiating element;
An antenna according to claim 1, wherein said parasitic antenna as a whole is T -shaped and is formed on the back surface of said substrate, and said grounding element is connected to said second ground pad. A stub extending parallel to the first radiation element from the second radiation element toward the ground pad is provided, and the stub is capacitively coupled to the second ground pad. The antenna according to claim 1, wherein: The ground pad is arranged in the center of the substrate, and antenna pattern areas are provided at both ends of the substrate in the vertical direction,
The monopole antenna and the parasitic antenna are arranged in one of the antenna pattern regions,
A monopole antenna having the same shape as the monopole antenna and having the same shape as the monopole antenna but inverted vertically and horizontally is disposed at a position facing the monopole antenna in the other antenna pattern area. Item 3. An antenna according to item 1 or 2 .

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