KR20140007604A - Radio frequency identification system - Google Patents

Abstract

The present invention relates to an RFID system and especially to an ultra high frequency (UHF) radio frequency identification (RFID) reader in an RFID system. The RFID system of the present invention includes: an RFID reader which connects at least one RFID reader, generates data to transmit to an RFID tag, outputs data received from the RFID tag to an embedded PC, and receives a control signal received from the embedded PC; and an embedded PC which is connected to the RFID reader, stores at least one RFID tag information received from the RFID reader, and generates a control signal for the RFID tag and then outputs the control signal to the RFID reader. [Reference numerals] (111) Reader receiving unit; (112,152) Control unit; (113) Data generation unit; (114) Data transmission unit; (115) Control signal receiving unit; (116) Reader transmitting unit; (117) Reader interface unit; (151) Data collection unit; (153) Memory unit; (154) Control signal output unit; (155) External device interface unit

Description

RFID System {Radio Frequency Identification System}

The present invention relates to an RFID system, and more particularly, to an Ultra High Frequency (UHF) Radio Frequency Identification (RFDI) reader in an RFID system.

RFID (Radio Frequency Identification) is a type of automatic recognition and data acquisition technology that uses a radio frequency to read data stored in a tag with a microchip.

RFID can be classified according to criteria such as power supply, frequency band and communication connection. For example, it can be divided into active type and passive type according to power supply, and can be classified into high frequency and low frequency according to frequency band.

The low frequency tag using 30 to 500KHz among the classification according to frequency band is applied to security, asset management and genuine identification due to the short read distance, and the high frequency of 860 to 960 MHz or 2.45 GHz is applied to railway, logistics and It can be applied in distribution and the like.

In the classification according to the frequency bands, five frequency bands are generally used. Depending on the nature of the frequency can be a variety of applications.

125 to 135KH is used for livestock distribution or access cards, 13.56MHz is used for credit cards and transportation cards, etc., and active tags can be applied from 433.92MHz, it is usually applicable to containers and the like. In addition, 860 to 960MHz is currently used as a frequency applied to logistics distribution.

In particular, the passive tag adopting the frequency of the UHF band is used as a communication module for logistics and distribution replacing barcodes.

In the conventional UHF RFID system, when RFID reader manufacturers provide readers, a company operating an RFID system uses a structure of configuring a PC for each project. The RFID reader and the PC are connected by using a communication such as RS-232, USB, or Ethernet. In addition, the reader equipped with its own Linux-based OS has a structure in which a Microsoft-based PC, which is familiar to use, is connected and used separately.

1 is a block diagram showing a connection configuration of a conventional UHF RFID system.

Referring to Figure 1, (a) showing the configuration of a conventional UHF RFID system is used in conjunction with a PC directly without an OS in the RFID reader or (b) is mounted on the OS based on Linux as shown in (b) linked to the PC It has a structure used.

The conventional system described above has a cost loss and a system configuration complicated by connecting a PC to an RFID reader. In the case of readers with their own Linux-based operating system, commercial PCs can be additionally connected for the convenience of RFID system operators and various conditions.

Due to this, the RFID system is complicated, and the RFID system developers may separately develop a commercial PC-based program, thereby causing additional cost and time loss of interfacing the RFID reader.

The present invention provides an RFID system in the form of an embedded system incorporating a commercially available OS-based PC and an RFID reader to improve the conventional inefficient and inconvenient RFID system.

In addition, the present invention provides a simple RFID system capable of interworking with a plurality of communication devices by connecting various external devices and a plurality of RFID readers.

According to an embodiment of the present invention, an RFID reader connects at least one RFID reader, generates data to be transmitted to an RFID tag, outputs data received from the RFID tag to an embedded PC, and is received from the embedded PC. An RFID reader for receiving a control signal; And an embedded PC connected to the RFID reader, storing at least one RFID tag information received from the RFID reader, generating a control signal for the RFID tag, and outputting the control signal to the RFID reader.

In addition, the RFID system according to an embodiment of the present invention includes an RFID tag including information of a tag object; And an RFID reader including an embedded PC for transmitting and receiving data according to the tag and a specific frequency, generating and transmitting a response signal corresponding to the data, and storing or controlling data received from the RFID tag.

An RFID system according to an embodiment of the present invention has an effect of simplifying a connection structure with a PC including an OS that corresponds to an RFID reader and improving an inefficient RFID system.

In addition, the RFID system according to an embodiment of the present invention provides an RFID system adopting a commercial OS that can be easily used by a user, and has an effect of increasing user convenience without requiring additional configuration.

1 is a block diagram showing a connection configuration of a conventional UHF RFID system.
2 is a block diagram of an RFID system according to an embodiment of the present invention.
3 is a block diagram of an RFID reader system according to an embodiment of the present invention.
4 is an operation flowchart of an RFID reader system according to an embodiment of the present invention.

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

2 is a block diagram of an RFID system according to an embodiment of the present invention.

2, an RFID system according to an embodiment of the present invention includes an RFID reader system 100 and an RFID tag 200. In addition, the RFID reader system 100 and the RFID tag 200 of the RFID system according to an embodiment of the present invention uses a UHF band of about 900MHz that is mainly applied to the logistics and distribution fields.

The RFID reader system 100 may typically generate continuous radio waves using an antenna. Radio waves emitted from the RFID reader system 100 are transmitted to at least one RFID tag 200 within an emission range.

The RFID system 100 according to an embodiment of the present invention may generate data including instructions for controlling the RFI tag 200 and transmit a control signal requested from a PC to the RFID tag 200. The RFID reader system 100 will be described in detail later with reference to FIG. 3.

The RFID tag 200 may be mounted on various types of objects, and its position may be moved at any time. When the RFID tag 200 is located in a radio wave emission range emitted from the RFID reader system 100, the RFID tag 200 may receive radio wave emitted from the RFID reader system 100.

3 is a block diagram of an RFID reader system according to an embodiment of the present invention.

Referring to FIG. 3, the RFID reader system 100 according to the embodiment of the present invention may include an RFID reader 110 and an embedded PC 150.

The RFID reader 110 may detect a signal received from the RFID tag 200 and transmit a response signal or transmit the response signal to the embedded PC 150. In addition, the RFID reader 110 may receive a control signal of the RFID tag 200 received from the embedded PC 150 and transmit the received control signal to the corresponding RFID tag 200.

The embedded PC 150 may collect and manage information on the RFID tag 200 which is embedded in the RFID reader 110 and the RFID reader system 100 and collected by the RFID reader 100. Also, the embedded PC 150 may generate a response signal and corresponding data corresponding to the collected RFID tag 200 and transmit the generated response signal to the corresponding RFID tag 200 through the RFID reader 110.

The RFID reader 110 includes a reader receiver 111, a controller 112, a data generator 113, a data transmitter 114, a control signal receiver 115, a reader transmitter 116, and a reader interface unit 117. ) May be included.

The reader receiver 111 receives data transmitted from the RFID tag 200. The reader receiver 111 according to an exemplary embodiment of the present invention may receive response data transmitted from the RFID tag 200.

The controller 112 may control the overall operation of the RFID reader 110. In addition, the controller 1120 controls the data generator 113 to generate a control signal for controlling the RFID tag 200 or detects a control signal received from the embedded PC 150 and outputs the control signal to the reader transmitter 116. can do. In addition, the controller 112 may detect a signal received from the RFID tag 200, and may control to transmit the information about the detected signal and data to the embedded PC 150 through the data transmitter 114.

The data generator 113 may generate a response signal for data or authentication information received from the RFID tag 200.

The data transmitter 114 may transmit the information and the signal received from the RFID tag 200 to the data collector 151 of the embedded PC 150. The data transmitter 114 is connected to the embedded PC 150 according to an embodiment of the present invention, and transmits the information and control signals of the RFID reader 110 or the RFID tag 200 to the embedded PC 150. Can be.

The control signal receiver 115 may transmit a control signal or a response signal for controlling the RFID reader 110 or the RFDI tag 200 from the embedded PC 150.

The reader transmitter 116 may transmit the response signal generated by the data generator 113 to the corresponding RFID tag 200 with respect to the signal received from the RFID tag 200. In addition, the reader transmitter 116 may transmit a control signal of the RFID tag 220 received from the embedded PC 150.

The reader interface unit 117 may connect at least one RFID reader to the RFID reader 110 of the RFID reader system 100 according to an embodiment of the present invention.

In addition, the embedded PC 150 may include a data collector 151, a controller 152, a memory 153, a control signal output unit 154, and an external device interface unit 155.

The data collector 151 may receive a signal received from the RFID reader 110 and data received from the RFID tag 200 and output the received data to the controller 152 and the memory unit 153.

The controller 152 may check the signals and data received by the data collector 151 and store the same in the memory unit 153. In addition, the controller 152 may generate a response signal or a control signal for data and signals received from the RFID tag 200. The generated response signal or control signal may be output to the RFID reader 110 through the control signal output unit 154.

The memory unit 153 may store data and information about the RFID reader 110 and the RFID tag 200 received through the data collection unit 151. In addition, the memory unit 153 may store response signals and control signals for data and signals received from the RFID reader 110 and the RFID tag 200.

The control signal output unit 154 may transmit a control signal of the RFID reader 110 or the RFID tag 200 generated by the controller 152 to the RFID reader 110.

The external device interface unit 155 may connect a keyboard, a display device, an external memory, or the like to the embedded PC 150 by wire or wirelessly. The external device interface unit 155 may include a short range wireless communication module such as Wi-fi or Bluetooth, and may be connected to the external devices. In addition, the external device interface unit 155 may receive user input signals input from the external devices and transmit the received user input signals to the controller 152.

The transmitted user input signal may be generated as a control signal of the RFID reader 110 or the RFID tag 200 by the controller 152.

4 is an operation flowchart of an RFID reader according to an embodiment of the present invention.

Referring to FIG. 4, the RFID reader 110 of the RFID reader system 100 generates and propagates a control signal for controlling the RFID tag 200 in the control unit 112 (step 405).

When the RFID reader 110 detects an ID search event of the RFID tag 200 (step 410), the RFID reader 110 may emit a radio wave including an ID search signal of the RFID tag 200 for searching the RFID tag (step 415).

The RFID reader 110 checks whether the response signal is received from the RFID tag 200 within the time limit (step 420), and receives the response signal including the ID from the RFDI tag 200 (step 425). Information and ID of the 200 may be collected (step 430).

The RFID reader 110 may output the collected information of the RFID tag 200 to the embedded PC 150. The embedded PC 150 determines whether to transmit a control signal corresponding to the received RFID tag 200 (step 435) and transmits a control signal corresponding to the corresponding RFID tag 200 through the RFID reader 110. Can transmit

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: RFID reader system
110: RFID reader 150: embedded PC
200: RFID tag

Claims (6)

An RFID reader for connecting at least one RFID reader, generating data to be transmitted to the RFID tag, outputting data received from the RFID tag to an embedded PC, and receiving a control signal received from the embedded PC;
An embedded PC connected to the RFID reader, storing at least one RFID tag information received from the RFID reader, and generating a control signal for the RFID tag and outputting the control signal to the RFID reader.
RFID system. The method of claim 1,
The RFID reader is
A data generator for generating data to be transmitted to the RFID tag;
A control signal receiving unit for receiving a control signal for controlling the RFID tag from an embedded PC;
A data transmitter for outputting data received from the RFID tag to the embedded PC;
A reader interface unit for connecting at least one RFID reader;
And a controller which senses data received from an RFID tag and controls the data to be output to an embedded PC.
RFID system. The method of claim 1,
The embedded PC
A memory unit for storing RFID tag data received from the RFID reader;
A controller configured to generate a response signal to the RFID tag data received from the RFID reader;
A control signal output unit for outputting a response signal to the RFID tag data generated by the controller to the RFID reader;
And an external device interface unit for connecting an apparatus for receiving a control signal for the RFID tag or an external device for outputting information and data on the RFID tag.
RFID system. The method of claim 3,
The external device interface unit
Short range wireless communication module for performing Wi-Fi or Bluetooth communication
RFID system. An RFID tag including information of a tag object;
And an RFID reader including an embedded PC for transmitting and receiving data according to the tag and a specific frequency, generating and transmitting a response signal corresponding to the data, and storing or controlling data received from the RFID tag.
RFID system. The method of claim 5,
The RFID reader is
Connecting at least one RFID reader, and generates and outputs an RFID tag control signal according to a user input signal input to the embedded PC
RFID system.

Images