KR101400273B1 - Planar antennas of hf band - Google Patents

Abstract

The present invention relates to a flat antenna of an HF band that transmits a frequency having a waveform spreading over a wide range horizontally with a clear signal strength although the arrival distance of the radio wave can be relatively short by manipulating and pressing the waveform of the transmitted radio wave, Flat antenna receiving means having a rectangular shape having a height; A loop antenna fixedly arranged on an inner surface of the planar antenna housing means and receiving tag information attached to an object placed on the side of the planar antenna housing means; A tuner connected to the loop antenna for tuning a reception frequency band to receive tag information through the loop antenna; And a first radio wave shielding unit formed on an inner side surface of the plane antenna.

Description

Planar antennas of HF band [

The present invention relates to a flat antenna of the HF band.

More particularly, the present invention relates to a flat antenna of the HF band that transmits a frequency having a waveform spreading over a wide range horizontally with a clear signal strength although the arrival distance of the radio wave can be relatively short by manipulating and pressing the waveform of the transmitted radio wave .

RFID (Radio Frequency Identification) is a technology that collects information stored in a tag chip by recognizing a tag attached to an object by radio, and is one of the technologies that can be replaced with a widely used barcode.

RFID has the advantages of relatively far distance of recognition, simultaneous recognition of a large number of tags at a time, fast recognition speed, and relatively large amount of information can be stored in a tag as compared with a barcode system.

The technology for recognizing such an RFID tag includes a remote recognition technology and a local recognition technology. The remote recognition technology is a technology for recognizing a tag located a long distance, and there is an RFID system using a frequency of 433 MHz and an active tag, It is mainly applied to container management of docks and harbors.

In addition, the active 2.4GHz RFID system is mainly applied to a real-time position tracking system in a limited space, and the passive 900MHz RFID system is generally widely used in various logistics, distribution, and factory automation fields.

While there is an RFID system for each use frequency for the remote recognition as described above, the proximity recognition technology is called a Near Field Communication (NFC) technology for recognizing a tag at a close distance, .

Recently, 125 ~ 135KHz band is used for animal recognition and 13.56MHz band has been used for various applications such as security card, traffic card, credit card, book management, store management, inventory management, and theft prevention system .

The RFID system mainly includes a tag attached to an individual object such as a product or an object to read information, a reader that plays a role of recording or reading information in the tag, And an antenna device for transmission and reception.

The tag can be classified into an active tag or a passive tag according to the presence or absence of a battery mounted on an internal circuit. A passive tag of a type in which a battery is not attached is widely used, Is being used.

Meanwhile, frequencies for communicating with the tag in the RFID system are classified into LF band (125 to 134 KHz), HF band (13.56 MHz), UHF band (860 to 960 MHz), and Microwave (2.45 GHz). The characteristic according to this frequency band is that it has a relatively long recognition distance from a few meters to a few hundred meters by using the frequencies of the LF and HF bands.

And UHF band RFID system can transmit and receive a large amount of data at once because carrier frequency is not high, which is advantageous in that tag recognition speed is faster than LF band and HF band system.

However, despite these technical advantages, the UHF band RFID system has a problem that the recognition performance is remarkably deteriorated due to the relatively high sensitivity to environmental influences of tag attachments and the like.

Especially, when tags attached to adjacent objects such as metal or metal are recognized, tags are overlapped or crowded, there is a problem that the recognition rate is remarkably decreased due to severe distortion due to interference of radio waves transmitted and received.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and it is an object of the present invention to provide a radio communication apparatus and a radio communication method which can operate the wave of a transmitted radio wave, And it is an object of the present invention to provide a HF band planar antenna for transmitting a frequency having a waveform.

As described above, in order to solve the problems of the related art, the embodiment of the present invention as embodied and broadly described is directed to a flat antenna receiving means having a rectangular shape having a predetermined height; A loop antenna fixedly arranged on an inner surface of the planar antenna housing means and receiving tag information attached to an object placed on the side of the planar antenna housing means; A tuner connected to the loop antenna for tuning a reception frequency band to receive tag information through the loop antenna; And a first radio wave shielding unit formed on an inner side surface of the plane antenna.

According to another aspect of the present invention, there is provided a flat antenna including: a plurality of flat antenna receiving means having a rectangular shape having a predetermined height; A loop antenna fixedly arranged on an inner surface of each of the plurality of plane antenna receiving means and receiving tag information attached to an object placed on an upper surface of each of the plane antenna receiving means; A tuner connected to the loop antenna for tuning a reception frequency band to receive tag information through the loop antenna; And first electromagnetic wave shielding means formed on an inner side surface of each of the planar antennas.

And a second radio wave shielding unit formed at an inner lower end of the planar antenna housing unit.

The first radio wave shielding means or the second radio wave shielding means is made of aluminum.

The tuner is a near field communication antenna tuner.

The planar antenna housing means may be formed of wood or may be made of wood with an ABS resin (acrylonitrile-butadiene-styrene resin) covering the top.

Holes are formed on the side surfaces of the plurality of planar antenna receiving means and holes formed in the adjacent planar antenna receiving means are formed at the same positions and are connected to each other through the holes.

The multiplexer may further include a multiplexer to which a tuner included in the plurality of flattened antenna receiving units is connected, and selects one of the plurality of tuners connected through the multiplexer.

The tuner changes the mutual inductance value, simulates the effective transmission / reception ratio with the tags located at a specific position, automatically derives the transmission / reception environment, recognizes the change depending on the transmission / reception reach distance and area, And automatically receives the information stored in the tag through the loop antenna, and outputs the information.

The present invention having the above-described configuration and operation and the preferred embodiment of the present invention is capable of suppressing a frequency having a waveform having a clear signal strength and spreading horizontally over a wide range by pressing the wave of a transmitted radio wave, It is possible to recognize the object without any error even if the object to be managed such as the noble metal to which the tag is attached is located adjacent to the object.

1 is a view for explaining a planar antenna of an HF band according to the present invention.
2 is a cross-sectional view of Fig.
3 and 4 are views for explaining a HF band planar antenna system to which the present invention is applied.
5 is a cross-sectional view of FIG. 3 and FIG. 4. FIG.

FIG. 1 is a view for explaining a planar antenna of the HF band according to the present invention, and FIG. 2 is a sectional view of FIG.

The configuration of the HF band planar antenna according to the present invention will now be described.

(Flat antenna of HF band)

1 and 2, the planar antenna 100 of the HF band according to the present invention includes a planar antenna housing 110 having a rectangular shape having a predetermined height, A loop antenna 130 fixedly disposed on an inner side of the flat antenna housing part 110 for receiving tag information attached to an object placed on the side of the plane antenna housing part 110 and the loop antenna 130, A tuner 140 for tuning a reception frequency band to receive tag information through the antenna 130, a first radio wave shielding part 120 formed on an inner side surface of the plane antenna 110, And a second radio wave shielding portion (150 in Fig. 2) formed on the inner lower end surface of the second radio wave shielding portion 110. [

The reader 200 is connected to the tuner 140. The reader 200 reads the tag information transmitted through the tuner 140 and outputs the tag information to the outside.

The second radio wave shielding portion (150 in Fig. 2)) is a selectively configurable means.

The first electromagnetic wave shielding part 130 or the second electromagnetic wave shielding part 150 is made of aluminum.

The tuner 140 is a near field communication antenna tuner.

That is, the field-coupling-type near-field antenna applied to the present invention may have a large mutual inductance or a small mutual inductance caused by a change in direction of current. In other words, the amount of coupling generated between the loop antenna 130 and the tag included in the HF band plane antenna 100 can be changed, and the magnetic field range communicating with the conductor (tag, Tag) So that the recognition distance of the tag can be adjusted.

Accordingly, the tuner 140 changes the mutual inductance value, simulates the effective transmission / reception ratio with the tags located at a specific position, automatically derives the transmission / reception environment, and recognizes the change depending on the transmission / reception reach distance and area And automatically receives the information stored in the tag through the loop antenna 130 and outputs the information to the reader 200. [

The planar antenna housing 110 may be formed of wood or may be made of wood having an upper portion of ABS (acrylonitrile-butadiene-styrene resin) resin.

Hereinafter, the operation of the HF band planar antenna will be described.

As shown in FIGS. 1 and 2, a planar antenna receiving portion 110 made of wood or a planar antenna receiving portion 110 made of wood, A first radio wave shielding part 130 for blocking radio waves may be formed inside the side surface inside the side surface 110 or a second radio wave shielding part 150 may be formed on the bottom side surface as well as inside the side surface, Is formed along the inner surface of the planar antenna housing part 110 so that a rectangular loop antenna 130 is formed inside the planar antenna housing part 110.

The rectangular loop antenna 130 is connected to the tuner 140 and the tuner 140 is connected to the reader 200 again.

When the RFID tag is mounted on the upper surface of the flat antenna housing part 110, the loop antenna 130 reads the information stored in the tag and outputs it to the reader 200 through the tuner 140 , And the reader 200 outputs the tag information to the outside so that the user and its surrounding people can know it.

(HF band plane antenna system)

Another embodiment of the present invention relates to a HF band planar antenna system in which a plurality of the above-described planar antennas 100 can be used, and the HF band planar antenna system includes, as shown in FIGS. 3 to 5, A multiplexer 220 connected to the plurality of planar antennas 100 and the plurality of planar antennas 100 for selectively outputting signals output from the plurality of planar antennas, And a reader 200 for allowing the user or its surrounding people to know.

4) are formed on the side surfaces of the plurality of planar antennas 100 and holes (160 of FIG. 4) formed in adjacent planar antennas 100 are formed at the same positions, 160 of FIG. 4).

The planar antenna 100 includes a planar antenna housing part 110 having a rectangular shape having a predetermined height and a planar antenna housing part 110 fixedly disposed on an inner surface of the planar antenna housing part 110, A loop antenna 130 for receiving tag information attached to an object placed on an upper side of the loop antenna 130 and a loop antenna 130 for receiving tag information through the loop antenna 130, A first radio wave shielding part 120 formed on an inner side surface part of the plane antenna 110 and a second radio wave shielding part 130 formed on an inner lower end surface of the plane antenna 110 2 < / RTI > 150).

The reader 200 is connected to the tuner 140. The reader 200 reads the tag information transmitted through the tuner 140 and outputs the tag information to the outside.

The second radio wave shielding portion (150 in Fig. 2)) is a selectively configurable means.

The first electromagnetic wave shielding part 130 or the second electromagnetic wave shielding part 150 is made of aluminum.

The tuner 140 is a near field communication antenna tuner.

That is, the field-coupling-type near-field antenna applied to the present invention may have a large mutual inductance or a small mutual inductance caused by a change in direction of current. In other words, the amount of coupling generated between the loop antenna 130 and the tag included in the HF band plane antenna 100 can be changed, and the magnetic field range communicating with the conductor (tag, Tag) So that the recognition distance of the tag can be adjusted.

Accordingly, the tuner 140 changes the mutual inductance value, simulates the effective transmission / reception ratio with the tags located at a specific position, automatically derives the transmission / reception environment, and recognizes the change depending on the transmission / reception reach distance and area And automatically receives the information stored in the tag through the loop antenna 130 and outputs the information to the reader 200. [

The planar antenna housing 110 may be formed of wood or may be made of wood having an upper portion of ABS (acrylonitrile-butadiene-styrene resin) resin.

The operation of the HF band planar antenna system will be described below.

3 to 5, a planar antenna system of the HF band includes a plurality of planar antennas 100, a wire connected to the tuner 140 (FIG. 4) provided on the planar antenna 100, (160 in FIG. 5) to a multiplexer (220), and a multiplexer (220) is connected to a reader (200).

If the user selects any plane antenna 100 among the plurality of plane antennas 100 through the reader 200, the multiplexer 220 transmits only the wire connected to the tuner 140 of the corresponding plane antenna 100 to the reader 200, And receives the tag information input from the tuner 140 of the corresponding plane antenna 100 and outputs the tag information.

The same description as the above-described plane antenna of the RF band will be omitted here.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the exemplary embodiments are defined by the appended claims rather than by the foregoing description. But may be embodied in the spirit and scope of the present invention as embodied in the appended claims.

100: Flat antenna in HF band
110: plane antenna receiving portion
120: first radio wave shielding part
130: loop antenna
140: tuner
150: second radio wave shielding part
160: hole
200: reader
300: multiplexer

Claims (9)

delete A plurality of flat antenna receiving means having a rectangular shape having a predetermined height;
A loop antenna fixedly arranged on an inner surface of each of the plurality of plane antenna receiving means and receiving tag information attached to an object placed on an upper surface of each of the plane antenna receiving means;
A tuner connected to the loop antenna for tuning a reception frequency band to receive tag information through the loop antenna;
A first electromagnetic wave shielding means formed on an inner side surface portion of each of the planar antenna housing means; And
And second radio wave shielding means formed at an inner lower end of the planar antenna housing means,
Holes are formed in the side surfaces of the plurality of planar antenna receiving means and holes formed in adjacent planar antenna receiving means are formed at the same positions and are interconnected through the holes. delete 3. The method of claim 2,
Wherein the first radio wave shielding means or the second radio wave shielding means comprises:
A flat antenna in an HF band characterized by comprising an aluminum material. 3. The method of claim 2,
Wherein the tuner is a near field communication antenna tuner. 3. The method of claim 2,
Wherein the planar antenna housing means comprises:
Wherein the flat antenna is made of wood, or is made of wood covered with ABS (acrylonitrile-butadiene-styrene resin) resin. delete 3. The method of claim 2,
Further comprising a multiplexer to which a tuner provided in the plurality of flat plate antenna receiving means is connected,
And selects one of a plurality of tuners connected through the multiplexer. 3. The method of claim 2,
The tuner includes:
The effective transmission / reception ratio with tags located at a specific position is automatically changed by deriving the mutual inductance value, automatically recognizing the change depending on the transmission / reception reach distance and area, and automatically And the information stored in the tag is received and output through the loop antenna.

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