KR20090028268A - Rfid system - Google Patents

Abstract

An RFID system broadening the perceptual domain of an RFID reader is provided to use the signal input output machine and increase a plurality of antennae and number of antenna without the number increment of the RFID reader. A RFID reader(Radio Frequency Identification reader)(130) recognizes the RFID tag. The RFID reader reads the radio frequency signal as the tag information. A plurality of antennae(110) receives the radio frequency signal. A signal input/output unit(120) is installed between the RFID reader and a plurality of antenna. The signal input output machine delivers the radio frequency signal which the RFID reader produces to a plurality of antenna. The signal input output machine delivers the radio frequency signal which a plurality of antenna receives to the RFID reader.

Description

RFID system {RFID SYSTEM}

The present invention relates to an RFID system, and more particularly, to an RFID system that allows an RFID reader to recognize a RFID tag and to recognize an RFID tag in a specific area.

In general, RFID (Radio Frequency Identification) technology is a technology that reads information by wirelessly recognizing objects, and is a core technology that enables silent commerce, which is a key concept of ubiquitous computing, which is recently attracting attention.

In more detail, a variety of information such as production, distribution, price, etc. of a product is stored in a semiconductor tag chip of a size that emits a strong radio frequency, and the information is read through an RFID reader without directly contacting the semiconductor tag chip. RFID technology can store a greater amount of information than barcodes and can penetrate obstacles other than metal.

Due to these many advantages, RFID technology is in the spotlight as the next generation technology that is widely used after the bar code which is widely used, and its application field is also being expanded to various fields such as logistics, distribution, security, and access control.

The RFID system to which the RFID technology is applied has a large reading and decoding function, and generates an RF signal for recognizing an RFID tag and outputs it through an antenna, a transponder chip and an antenna, and stores various information. The RFID tag outputs an RF signal including tag information in response to the RF signal transmitted by the RFID reader, an operating software, and a network.

Referring to the operation of the RFID system configured as described above, the RFID reader outputs an RF signal for recognizing the RFID tag through the antenna, the RFID tag receives the RF signal transmitted by the antenna, and in response to the tag By transmitting the RF signal including the information to the antenna, the RFID reader can receive the tag information of the RFID tag.

The most important factor in such an RFID system is that the RFID reader correctly recognizes the RFID tag.

The total number of antennas used in the RFID system configured as described above is limited to the number of input / output terminals provided in the RFID reader, and the recognition area in which one RFID reader can recognize the RFID tag is limited as the number of antennas is limited. Become limited.

Accordingly, since the RFID tag must be recognized within a limited recognition area, the accuracy of recognition is lowered. In particular, when there is an obstacle in the visible range of the radio wave or when the transmission and reception of the radio wave is difficult, it becomes difficult to recognize the RFID tag.

In order to solve this problem, the number of antennas may be increased by increasing the number of RFID readers, but this causes a big disadvantage of causing a cost increase due to the cost of the RFID reader.

Therefore, in order to solve the above problems, the present invention provides an RFID system that can increase the number of antennas without increasing the number of RFID readers, thereby widening the recognition area for recognizing RFID tags.

 The present invention also provides an RFID system that enables an RFID reader to recognize an RFID tag in a specific area at a specific time.

Accordingly, the RFID system of the present invention comprises: an RFID reader for generating an RF signal for recognizing an RFID tag and reading tag information with an RF signal received from the RFID tag; A plurality of antennas for transmitting an RF signal generated by the RFID reader and receiving an RF signal transmitted by the RFID tag; And a signal input / output device provided between the RFID reader and the plurality of antennas to transmit the RF signals generated by the RFID reader to the plurality of antennas, and to transmit the RF signals received by the plurality of antennas to the RFID reader. It is made, including.

In addition, the signal input and output unit is a distribution combiner for distributing the RF signal generated by the RFID reader to each of the plurality of connected antennas, and transmits the RF signal received by each of the plurality of antennas to the RFID reader. do.

The RFID reader generates a control signal for controlling the operation of the signal input / output unit, and the signal input / output unit transmits an RF signal to a designated antenna among the plurality of connected antennas according to a control signal generated by the RFID reader. And a switch for transmitting the received RF signal to the RFID reader.

In addition, the signal input and output unit is characterized in that a plurality.

According to the RFID system including the multi-antenna of the present invention, the number of antennas can be increased without increasing the number of RFID readers, thereby increasing the recognition area in which the RFID reader can recognize the RFID tag at a low cost.

In addition, since the signal input / output unit may be controlled to select a specific antenna to transmit / receive an RF signal, the RFID reader may recognize the RFID tag of the specific region at a specific time.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

However, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a configuration diagram briefly showing an RFID system according to the present invention.

Referring to FIG. 1, an RFID system includes a plurality of antennas 110, a plurality of signal input / output devices 120, and an RFID reader 130.

The antenna 110 is installed in a predetermined area and transmits and receives an RF signal to and from an RFID tag (not shown) within an area covered by the antenna itself, that is, an antenna transmits and receives a signal.

The signal input / output unit 120 is connected to a plurality of antennas and the RFID reader 130, and thus transmits an RF signal of the RFID reader 130 to the antenna or an RF signal of the antenna to the RFID reader.

The RFID reader 130 is connected to the signal input / output unit 120 to transmit the RF signals to the plurality of antennas 110 through the signal input / output unit 120 to widen the recognition distance of the RFID tag.

The RFID reader 130 generates an RF signal for recognizing the RFID tag, and the generated RF signal is a signal for requesting tag information with the RFID tag, or supplies power to transmit the tag information. It is a signal. This is because there are two types of active RFID tags that operate with their own power and passive RFID tags that receive power from an external source.

In addition, the RFID reader 130 may preset a time for outputting the RF signal and store the setting in an internal memory to control the time for outputting the RF signal.

In other words, the RFID reader 130 transmits an RF signal for recognizing an RFID tag to the plurality of signal input / output units 120 to connect the plurality of antennas 110, 122, 123, and 124 to the plurality of antennas 110. ) Or to one signal input / output unit, for example, signal input / output unit # 2 (122) and transmitted to a plurality of antennas 112 connected to the signal input / output unit # 2 (122). The RFID reader 130 reads at least one RF signal received through the signal input / output unit 120 or the signal input / output unit # 2 122 to obtain tag information of at least one RFID tag.

2 and 3, the present invention will be described in more detail.

2 is a view showing an embodiment of an RFID system according to the present invention, showing an RFID system to which a distribution combiner is applied as a signal input / output unit.

Accordingly, referring to the RFID system, the RFID reader 200 includes four input / output terminals 202, and the distribution combiner # 1 210 is connected to the input / output terminal # 1, and the distribution combiner # 2 is connected to the input / output terminal # 2. 230 is connected, the distribution combiner # 3 (250) is connected to the input and output terminal # 3, the distribution combiner # 4 (270) is connected to the input and output terminal # 4. In addition, six antennas 220 are connected to the distribution combiner # 1 (210), two antennas 240 are connected to the distribution combiner # 2 (230), and three antennas (3) of the distribution combiner # 3 (250). 260 is connected, and four antennas 240 are connected to the distribution combiner # 4 270. That is, a plurality of distribution combiners 210, 230, 250, 270 are connected to one RFID reader 200, and a plurality of antennas 220, 240, respectively, for each of the distribution combiners 210, 230, 250, 270. 260 and 280).

Each distribution combiner (210, 230, 250, 270) can be applied to the n-path distribution combiner, n-path distribution combiner to distribute the same RF signal applied from the RFID reader 300 to each of the plurality of connected antennas The RF signal transmitted by each of the plurality of antennas is transmitted to the RFID reader 300. Here, "n" means the number of antennas to be connected. For example, in the case of a three-path distribution combiner, three antennas are connected. That is, the type of the n-path distribution combiner is determined according to the number of antennas to be connected, which will be described later.

Hereinafter, the operation of the RFID system according to FIG. 2 will be described in detail.

Each of the distribution combiners 210, 230, 250, and 270 distributes the received RF signal to each of the connected antennas 220, 240, 260, and 280 when receiving the RF signal from the connected RFID reader 200. Output For example, as shown in FIG. 2, when receiving the RF signal from the RFID reader 200 in the distribution combiner # 1 210 connected to six antennas 220, the received RF signal is P. Assuming that it has a power of (W), the distribution combiner # 1 210 divides the power P (W) of the received RF signal by 6 when receiving the RF signal from the RFID reader 200 by P / 6 (W). The RF signal having power is transmitted to each of the six connected antennas 221, 222, 223, 224, 225, and 226.

Accordingly, each of the six antennas 221, 222, 223, 224, 225, and 226 receives an RF signal having P / 6 (W) power and outputs the received RF signal. Then, the RF signals output from each of the antennas 221, 222, 223, 224, 225, and 226 are received by RFID tags in a recognition area capable of receiving the signals. The RFID tags receiving the RF signal output RF signals including tag information of the RFID tag itself in response to the received RF signal, and the output RF signals are antennas 221 and 222 within a recognition distance. , 223, 224, 225, and 226 receive.

Then, the distribution combiner # 1 transmits the RF signals transmitted to the antennas 221, 222, 223, 224, 225, and 226 to the RFID reader 200.

Accordingly, the RFID reader 200 receives the RF signals received by the antennas 221, 222, 223, 224, 225, and 226 through the distribution combiner 210 connected to the antennas, and receives the received RF signals. Read the RFID tag information contained in the.

3 is a view showing another embodiment of an RFID system according to the present invention, showing a RFID system to which a switch is applied as a signal input / output unit.

Accordingly, referring to the RFID system, one RFID reader 300 is connected to a plurality of switches 310, 330, 350, and 370 through a plurality of input / output terminals 302, and each of the switches 310, 330, 350 and 370 are connected to a plurality of antennas 320, 340, 360 and 380.

Each switch 310, 330, 350, 370 may be applied with a single-pole throw (SPnT) switch, and the SPnT switch controls the RF reader 300 to generate an RF signal applied from the RFID reader 300. It transmits to a designated antenna among a plurality of antennas connected according to the signal, and transmits an RF signal transmitted by the designated antenna to the RFID reader 300. In addition, "n" in the SPnT switch determines the number of antennas to be connected. For example, in case of SP4T switch, it is connected with 4 antennas. That is, the type of the SPnT switch is determined according to the number of antennas to be connected, which will be described later.

Hereinafter, the operation of the RFID system according to FIG. 3 will be described in detail.

The switches 310, 330, 350, and 370 input and output RF signals of the plurality of antennas 320, 340, 360, and 380 or the RFID reader 300, according to a control signal received from the RFID reader 300. Control the input and output of the RF signal. That is, each of the switches 310, 330, 350, and 370 receives the plurality of antennas 320 and 340 according to a control signal received from the RFID reader 300 when the RFID reader 300 receives the RF signal. , And transmit the received RF signal to the RFID reader 300 when receiving an RF signal from the designated antenna.

Accordingly, the RFID reader 300 further includes a plurality of control terminals 301 connecting the plurality of switches 310, 330, 350, and 370 to signal the switches 310, 330, 350, and 370. Control signals for controlling input and output are transmitted to the respective switches 310, 330, 350, and 370 through the plurality of control terminals 301. Accordingly, the RFID reader 300 is preferably a device that supports a General Purpose Input Output (GPIO).

In addition, the RFID reader 300 sets a control signal for controlling the antennas connected to the switches 310, 330, 350, and 370 and an order of outputting the control signals in advance, and stores them in the internal memory. By controlling the switch or each switch of the RF signal can be transmitted to any one of the plurality of antennas connected to the switch. Alternatively, the RFID reader may receive a command for controlling the switches 310, 330, 350, and 370 from an external central controller (not shown) and output a control signal accordingly.

For example, if the antenna "ANT2" of reference numeral 342 wants to recognize an RFID tag within a range capable of transmitting and receiving a signal, the RFID reader 300 may include a switch # 2 (connected to the input / output terminal 302 # 2 ( 330 transmits an RF signal, and transmits a control signal through the control terminal 301 # 2 to transmit an RF signal to the antenna "ANT2" 342 to which the switch # 2 330 is connected.

In conclusion, when the RFID reader 300 needs to recognize an RFID tag in a specific area at a specific time, the RFID reader 300 transmits an RF signal (RF signal to be transmitted by an RFID tag) to a switch connected to an antenna installed in the specific area in accordance with the specific time. By transmitting a control signal to the switch so that the switch outputs the RF signal to a corresponding antenna, the RFID tag of a specific region can be recognized at a specific time.

As described above with reference to FIGS. 2 and 3, when applying a split combiner as a signal input / output unit, a specific split combiner can be selected to recognize an RFID tag in an area covered by antennas connected to the selected split combiner. When the switch is applied as an input / output unit, a specific antenna can be selected from a plurality of antennas connected to the switch to recognize an RFID tag in an area covered by the selected antenna.

In addition, the distribution combiner distributes the RF signal transmitted by the RFID reader and outputs each of the plurality of antennas connected to the distribution combiner itself, and accordingly transmits the RF signal received from each antenna to the RFID reader, the RFID reader is the distribution combiner Even if the RF signal is transmitted, the received RF signal does not know from which antenna the received signal. This is because the distribution combiner only transmits the RF signal received from the antenna to the RFID reader. That is, the RF signal does not contain identification information.

On the other hand, the switch transmits the RF signal transmitted by the RFID reader to a designated antenna among a plurality of antennas according to the control signal generated by the RFID reader, and accordingly transmits the RF signal received from the antenna to the RFID reader, It is possible to know which antenna the RF signal transmitted by the switch is a signal received from.

Accordingly, the distribution combiner as a signal input / output device is applied when only the tag information of the RFID tag is needed at random without the need to recognize the RFID tag of the specific area, and the switch needs to recognize the RFID tag of the specific area at a specific time. Is preferably applied to.

In addition, the type and number of distribution couplers and switches in the RFID system of the present invention is the recognition distance that the RFID reader should recognize the RFID tag, the number of antennas to be used according to the regional characteristics within the recognition distance, and the performance index of the RFID system. It depends on. In addition, the number of recognition areas to which the RFID reader should recognize the RFID tag and the number of antennas to be used by the RFID reader to recognize the RFID tag in each recognition area are also determined. For example, if the area to recognize the RFID tag is an area where it is difficult to transmit or receive radio waves or there are many obstacles, the number of antennas to be installed increases. If 6 antennas are to be installed, 6 antennas can be connected. If a six-terminal switch will be used, and if the region to recognize the RFID tag is divided in several places, the number of switches will be determined by connecting a plurality of antennas and switches required for each region accordingly. Here, it is obvious that the distribution coupler or switch may be configured in multiple stages.

As a result, the present invention can widen the recognition distance for recognizing an RFID tag with a single RFID reader, thereby constructing an RFID system capable of multi-input / output (Multi Input Multi Output) at a low cost.

On the other hand, while the invention has been shown and described with respect to specific preferred embodiments, those skilled in the art to which the present invention pertains without departing from the scope of the present invention with respect to the above-described embodiment It will be readily appreciated that various modifications and variations can be made. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

1 is a configuration diagram briefly showing the configuration of an RFID system according to the present invention;

2 is a view showing an embodiment of an RFID system according to the present invention, and

3 is a view showing another embodiment of an RFID system according to the present invention.

* Description of the main symbols in the drawing

Multiple antennas: 110, 220, 240, 260, 280, 320, 340, 360, 380

120: signal input and output

210, 230, 250, 270: Distribution combiner

310, 330, 350, 370: switch

130, 200, 300: RFID Reader

301: control terminal

202, 302: I / O terminal

Claims (4)

An RFID reader for generating an RF signal for recognizing an RFID tag and reading tag information with an RF signal received from the RFID tag; A plurality of antennas for transmitting an RF signal generated by the RFID reader and receiving an RF signal transmitted by the RFID tag; And A signal input / output device provided between the RFID reader and the plurality of antennas to transfer the RF signals generated by the RFID reader to the plurality of antennas, and to transmit the RF signals received by the plurality of antennas to the RFID reader. RFID system consisting of. The method of claim 1, The signal input and output unit And a distribution combiner for distributing the RF signal generated by the RFID reader to each of the plurality of connected antennas and transmitting the RF signal received by each of the plurality of antennas to the RFID reader. The method of claim 1, The RFID reader Generating a control signal for controlling the operation of the signal input / output unit, The signal input and output unit And a switch which transmits an RF signal to a designated antenna among the plurality of connected antennas according to a control signal generated by the RFID reader and transmits an RF signal received by the designated antenna to the RFID reader. The method of claim 1, RFID signal, characterized in that the plurality of signal input and output.

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