JP2518823Y2 - Inverted F printed antenna with integrated main plate - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention relates to an antenna generally used for a transmitter / receiver in wireless transmission, and in particular, an inverted antenna integrated with a main plate formed by a printed wiring method. The present invention relates to an F-shaped printed antenna.

[Conventional technology]

A schematic diagram of this type of device is shown in FIG. In this device, a wireless transmission / reception device is arranged at a feeding point 1, and an antenna 2 having an inverted F shape is an antenna element feeding pattern section.
It is connected to the antenna element horizontal pattern portions 2a and 2b via 2c, and is also grounded via the antenna element ground pattern portion 2d.

This inverted F-shaped antenna has the advantage that the antenna element horizontal pattern portion can be divided into 2a.2b as compared with the inverted L-shaped antenna, so that impedance matching of the wireless transmission / reception device at the feeding point 1 is easy. The tip of the horizontal pattern portion 2a of the antenna element is referred to as an end point, and the point of contact with the ground of the ground pattern portion 2d of the antenna element is referred to as a ground point.

By the way, as a conventional device for producing an antenna by a printed wiring method (hereinafter referred to as a conventional example), a simple antenna shown in Japanese Patent Laid-Open No. 54-139359 shown in FIG. 5 can be seen.

40 shown in FIG. 5 (a) is a double-sided printed circuit board,
An electronic circuit group A such as an oscillating unit and an amplifying unit is wired on the surface,
Through-holes S1, S2, ... Sn, S in the extension coil portion B
Open 1 ', S2' ... Sn 'and print pattern P on the front and back
1, P2, ... Pn are connected in a stepwise manner, and the antenna part C is extended from one end of the extension coil part B to the substrate 40.
FIG. 6B shows another example in which the tuning is corrected by the short-circuit line K.

FIG. 6 is an explanatory diagram of a radio wave receiving device (hereinafter referred to as Japanese Patent Publication No. 61-19179, a conventional example). In the radio wave receiving device shown in the front view of FIG. 6 (a), 51 is a magnetic substrate, which is characterized by the formation of the FM antenna coil 52 and the AM antenna coil 53, and the antenna 54 to the conductor 55.
It reaches the primary side 59 of the FM antenna coil 52 via the, and is further connected to the ground conductor 56, and the secondary side 60 is used for matching.
The secondary output end 58f is connected to the receiving device, the primary side 61 and the secondary side 62 of the AM antenna coil 53 are similarly processed, and the output end 58a is connected to the receiving device.

In this conventional example, the method for producing the FM antenna coil 52 and the AM antenna coil 53 is shown in FIGS. 6 (b) to 6 (d).
Is shown in. The magnetic body 51 shown in FIG. 6 (b)
Print a plurality of conductors 63 that are tilted to the right and are equally spaced, and print P, C
The lower left corner of each is the start Ps on the primary side and the start Cs on the secondary side.
The upper right end is the finish P _{F on} the primary side and the finish C _F on the secondary side.

In addition, FIG. 6 (c) shows a window formed on a magnetic body 64 similar to the magnetic body 51.
66 has been opened, and multiple conductors 65 that are inclined to the left and are evenly spaced 65
, And connect it to the conductor 63 to make a primary coil,
The same operation is performed on the secondary coil shown in FIG. 6D, and the front conductor 68 and the back conductor 69 are printed and connected on the magnetic body 67.

[Problems to be solved by the device]

However, these conventional examples have the following drawbacks.

First, the conventional example is a proposal for reducing the size of an antenna coil portion for a so-called radio receiver, and is not general and not applicable to an inverted F-shaped antenna. Further, the conventional example is also only one invention of the print-printing means for the FM and AM antenna coil parts for the radio receiver, and therefore cannot be adopted for the printed wiring of the inverted F-shaped antenna. Moreover, in order to form the inverted F-shaped antenna, the ground portion of the antenna body and the ground substrate (ground plate) must be connected by some method.
Moreover, the conventional inverted-F antenna requires a certain height (for example, 0.02λ ... λ is a wavelength) between the antenna body and the grounding substrate, and has a three-dimensional structure.

The present invention has been made in view of the above points, and an object thereof is to provide an inverted F-shaped antenna that can be formed by a printed wiring method and is integrated with a ground plane.

[Means for solving the problem]

In order to achieve the above-mentioned object, the present invention provides a relatively long element horizontal pattern portion formed by using a base film forming a thin plate insulating substrate and a copper foil formed on the base film. An inverted F-shaped structure having a vertically shorter element grounding pattern portion at one end of the horizontal pattern portion, and a vertically shorter element feeding pattern portion between one end and the other end of the element horizontal pattern portion; A pattern portion including a ground plate that is a belt-shaped ground substrate that is parallel to the element horizontal pattern portion and has a relatively wide width, and a cover film provided on the pattern portion, integrally with the terminal of the element ground pattern portion. An inverted F-printed antenna with a ground plane is provided.

[Action]

According to the present invention, with the above configuration, the size of the antenna body is appropriately adjusted to cope with various frequencies. The dimensions of the antenna body are adjusted by processing copper foil.

〔Example〕

FIG. 1 is a plan view showing the configuration of an embodiment of the present invention. In FIG. 1, a copper foil is provided by vapor deposition or adhesion on a flexible film that is a substrate, that is, a base film 5. Then, the mask pattern of the copper portion to be left on the base film 5 is arranged, and the unnecessary portion is removed by photo-etching to form the antenna body 2 and the ground plate 3 to be the ground substrate.

The pattern is a relatively long antenna element horizontal pattern portion 2a, 2b, and a short antenna element ground pattern portion 2d which is vertical to one end of the antenna element horizontal pattern portion 2a, and further from one end of the antenna element horizontal pattern portion 2b to the antenna element horizontal pattern portion 2a. The antenna element feeding pattern portion 2c that is vertical and shorter than the end point 2f, which is the other end of the
To form an inverted F-shaped structure composed of and to integrally form a base plate 3 which is parallel to the antenna element horizontal pattern portions 2a and 2b and is a relatively wide strip-shaped ground substrate to the terminal 2d of the antenna element ground pattern portion. It has a shape.

In addition, a cover film is coated to protect the copper film on the pattern from corrosion and to prevent short circuits. Next, the patterns are slightly trimmed. The extra portion of the base film 5 may be cut and removed, or may be left without being removed.

As a result, an inverted F-print antenna integrated with a ground plane is formed, and a feeding point 1 for supplying a transmission signal or receiving a reception signal is provided below the antenna element feeding pattern section 2c, and the ground plane 3 is grounded. Mounted on the device.

FIG. 2 shows a second embodiment of the present invention as a plan view. In this second embodiment, a ground plate similar to that of the lower portion is provided on the upper portion of the first embodiment shown in FIG. That is, on the terminal of the antenna element horizontal pattern part 2b, parallel to the antenna element ground pattern portion 2d1 and 2d2 distract from respective terminals, i.e. the ground point 2e _1, 2e ₂ under the antenna element horizontal pattern part 2a, and 2b The first ground plate 3a and the second ground plate 3b having a relatively wide width are integrally formed. Either of the base plates 3a and 3b may be used.

FIG. 3 is a plan view showing a third embodiment of the present invention.
Reference numerals 6a and 6b in FIG. 3 are so-called loading coils. The loading coil 6b is formed on the front surface of the base film 5 and the loading coil 6a is formed on the back surface of the base film 5 by the above-described method.
2g is also an antenna element horizontal pattern portion connecting both loading coils 6a and 6b, and the shape of the coil is determined by the reception frequency band and the cutoff frequency band.

Further, 50 is a parting line of the base film 5,
4a and 4b are window cutouts. The windows 7a and 7b may be left, and the parting line 50 may not necessarily be cut.

After each part is configured in this way, a connector or a cable is directly connected to the feeding point 1. This allows
An inverted F-shaped antenna is constructed in a plane.

And, by changing the length of the antenna body, it is possible to support all frequencies. Also, the length of the connection pattern between the ground of the antenna body and the grounding substrate (ground plate) corresponds to the height h of the inverted F-shaped antenna, and by changing this length,
The antenna gain can be determined.

Also in this third embodiment, the ground substrate (ground plate) may be formed on one side or both sides of the antenna body.

In each of the above-described embodiments, the antenna main body, the ground substrate (ground plate), and the connection pattern between the ground of the antenna body and the ground substrate (ground plate) can be created by one patterning (etching), and the manufacturing efficiency is good.

[Effect of device]

As described above, the present invention is configured in a plane and requires no connection between the ground of the antenna body and the ground substrate (ground plate), that is, the antenna body and the ground substrate (ground plate) are on the same plane with a certain distance. Created on the printed circuit board of
The ground of the antenna body and the grounding board (ground plane) are connected securely and simultaneously in the same process by patterning.
The grounding at the grounding point of the antenna body is surely done. Therefore, the reliability of the gain of the antenna can be improved, it is suitable for mass production, and the manufacturing efficiency is significantly improved.

[Brief description of drawings]

FIG. 1 is a plan view of a flat plate of the first embodiment of the present invention, and FIG.
FIG. 3 is a plan view showing the flat plate shape of the second embodiment of the present invention, and FIG.
FIG. 4 is a plan view showing the flat plate shape of the third embodiment of the present invention, and FIG.
The figure is a schematic diagram of an inverted F-shaped antenna, and FIGS. 5 and 6 are explanatory diagrams of a conventional example. 1 ... Feeding point 2 ... Antenna main body 2a, 2b ... Horizontal pattern part of antenna element 2c ... Feed pattern part of antenna element 2d ... Ground pattern part of antenna element 3 ... Main plate (copper) that forms the grounding substrate 3a, 3b …… Base plates on the right and left of the antenna 5 …… Base film 6a, 6b …… Loading coils 6c, 6d, 31 to 38 …… Plating through holes 7a, 7b …… Window 50 …… Separation line.

Claims (3)

(57) [Scope of utility model registration request] 1. A relatively long element horizontal pattern portion formed by using a base film forming a thin plate-shaped insulating substrate and a copper foil formed on the base film, and being perpendicular to one end of the element horizontal pattern portion. And a short element ground pattern part, and an inverted F-shaped structure having a vertically short element feed pattern part between one end and the other end of the element horizontal pattern part, and a terminal of the element ground pattern part. A ground plate integrated reverse F having a pattern part including a ground plate that is a belt-shaped grounding substrate that is parallel to the element horizontal pattern part and has a relatively wide width, and a cover film provided on the pattern part. Printed antenna. 2. The ground plane integrated F-print antenna according to claim 1, wherein the element ground pattern portion extends vertically from one end of the element horizontal pattern portion by the same length, and the terminal of the element ground pattern portion of both antennas. An inverted-F printed antenna integrated with a ground plane, which is formed by integrally forming both ground planes that are parallel to the element horizontal pattern portion and have a relatively wide strip-shaped ground board. 3. The base plate-integrated inverted F-printed antenna according to claim 1, wherein an element and a loading coil are formed from an element feeding pattern portion to an end point on the film on the front side of the copper foil, and the back side of the copper foil is formed. An inverted F-print antenna integrated with a main plate, which has through holes penetrating both the front and back surfaces of a loading coil and an insulating substrate on the coating, and both loading coils formed on the front and back surfaces are connected through the through holes.