KR101001681B1 - Active ???? Systems and Method for controlling Tag Wake up the same - Google Patents

Abstract

The present invention relates to an active RFID system and a tag wake-up control method for reducing battery consumption of a tag and selectively wake-up only tags of a specific area by waking up tags in a remote area using a low frequency exciter. A RFID reader for transmitting a command to wake up a tag to a specific low frequency exciter in a distant; When receiving the wake up command of the RFID reader low frequency excitation to generate a low frequency to transmit to the tags around It includes; RFID tags to wake up from the sleep mode by the wake-up command of the low frequency exciter to switch to the ready mode.

Active RFID, Wake Up, Low Frequency Exciter, UHF Band, LF Band, Tag

Description

Active RFI Systems and Method for controlling Tag Wake up the same}

The present invention relates to an active RFID system, and more specifically, an active RFID which reduces battery consumption of a tag and selectively wakes up only tags of a specific area by waking up tags in a remote area using a low frequency exciter. A system and its tag wake-up control method.

RFID (Radio Frequency IDentification) is a contactless automatic data recognition technology using wireless radio frequencies. An RFID tag that stores data related to a specific object is attached to the object, and the RFID reader can automatically obtain information about the specific object by reading information from the tag.

Such RFID systems fall into two categories based on whether the tag has its own battery or not. An RFID system that does not have a battery and cannot use its own power source and sends back a response to the reader by back-scattering some of the radio waves received from the reader is called a passive RFID system. An RFID system that has a battery and uses its own power source to send a response to the reader is called an active RFID system.

In active RFID systems, tags are battery-based, so it is important to extend battery life by reducing battery consumption. To do this, the active RFID tag waits in a sleep mode that minimizes power consumption when it is not normally communicating with the reader, then wakes up after receiving a wake-up command from the reader. ) To communicate with the reader.

The active RFID tag minimizes battery consumption by switching back to sleep mode when receiving a sleep command from the reader to sleep mode or receiving a command from the reader for a certain period of time.

In a typical active RFID system, readers and tags perform RF communication over a single frequency channel. The reader sends a wake up command over the frequency channel used, and the tag periodically wakes up from sleep mode to see if the wake up command is sent. ISO / IEC 18000-7, an active RFID system standard, uses a frequency channel in the 433.92 MHz band and defines the reader to send a wake-up signal for at least 2.5 seconds.

Therefore, in an active RFID system that conforms to the ISO / IEC 18000-7 standard, the tag wakes up from sleep mode in approximately 2 seconds and checks the wakeup signal from the reader. Wait for the command and if it is not sending a wake up signal, go back to sleep mode and wait.

The tag operation control method in the active RFID system of the prior art has the following problems.

The way the tag receives and wakes up from the reader in the prior art tag operation mode switching control causes a lot of battery drain on the tag. The tag wakes up from the sleep mode at regular intervals, checks the wake-up command of the reader, and goes back to the sleep mode, which consumes a lot of battery. Therefore, this tag wake up method is very inefficient in terms of tag battery consumption.

In addition, the frequency (UHF) band used for communication in an active RFID system has a communication distance of several tens of meters to hundreds of meters, thereby causing a problem of unnecessarily waking up many tags distributed in a large area. .

In order to solve this problem, a conventional method used in the prior art is to use a low frequency (LF, Low Frequency) to wake up the tag in addition to the frequency channel for RF communication between the reader and the tag.

That is, the reader generates a low frequency by using a low frequency exciter (LF exciter) and transmits it to the tag, and the low frequency receiver (LF receiver) mounted on the tag receives a low frequency from the reader and generates a signal to the tag CPU. To wake up from sleep mode.

By using this method, the tag does not need to wake up periodically to see if a wake-up command from the reader is being sent, which reduces battery consumption. In low frequencies, since the transmission distance is limited to a few meters, only a limited range of tags can be used. It is possible to wake up, but at the same time there is a problem of only waking up tags that are close to the reader.

The present invention is to solve the problems of the tag operation mode switching control and wake-up control of the prior art, and by using the low frequency exciter to wake up the tag in the remote by reducing the battery consumption of the tag and It is an object of the present invention to provide an active RFID system capable of selectively waking up only tags and a tag wake-up control method thereof.

Active RFID system according to the present invention for achieving the above object is an RFID reader for transmitting a command to wake up the tag to a specific low-frequency exciter in the remote; generating a low frequency when receiving the wake-up command of the RFID reader Low frequency exciter to transmit to the tags in the vicinity; RFID tags to wake up from the sleep mode by the wake-up command of the low frequency exciter to switch to the ready mode; characterized in that it comprises a.

Active RFID system according to the present invention for achieving another object is an RFID reader for transmitting a command to wake up the tag to a set master low-frequency exciter in a remote; slave low-frequency exciter when receiving the wake-up command of the RFID reader A master low frequency exciter for transmitting a tag wake-up command to the slave low frequency exciters for receiving a tag wake-up command from the master low frequency exciter, generating a low frequency, and transmitting the tag wake-up command to nearby tags A RFID tag that wakes up from a sleep mode and switches to a ready mode by a wake-up command of the master low-frequency exciter or slave low-frequency exciters.

Tag wake-up control method of an active RFID system according to the present invention for achieving another object comprises the steps of the RFID reader to collect information of all the low frequency exciter in the communication range; Transmitting a tag wake-up command to a specific low-frequency exciter in the; The low-frequency exciter receiving the command to generate a low frequency to transmit to the tags around the wake-up; characterized in that it comprises a.

According to another aspect of the present invention, there is provided a method of controlling a tag wake-up of an active RFID system, the method comprising: transmitting, by an RFID reader, a tag wake-up command to a preset master low-frequency exciter; The device transmits the command to the slave low-frequency exciters grouped together; The master low-frequency exciter receiving the command, the slave low-frequency exciter generates a low frequency and transmits to the tags around it to wake up; It is characterized by including.

Such an active RFID system and a tag wake-up control method according to the present invention have the following effects.

First, a low frequency exciter may be used to wake up active RFID tags within a few meters of its own by receiving commands from active RFID readers that are remotely remoted through RF communication in the UHF band.

Second, in the active RFID system, it is possible for the reader to selectively tag up only the tags in a specific area at a remote location to collect tag information.

Third, since the tag is woken up using the low frequency, the battery consumed by the tag to periodically check the wake-up command from the reader can be reduced.

Fourth, it is possible to effectively extend the narrow tag wake-up range within a few meters limited to the low-frequency propagation range by using several low-frequency exciter in the form of a master / slave.

Hereinafter, a preferred embodiment of an active RFID system and a tag wake-up control method according to the present invention will be described in detail.

Features and advantages of the active RFID system and its tag wake-up control method according to the present invention will become apparent from the detailed description of each embodiment below.

1 is a block diagram illustrating a selective tag wake-up process using a low frequency according to a first embodiment of the present invention.

The present invention uses a low frequency exciter that can receive a command from an active RFID reader through RF communication to wake up the tags in the distance to reduce battery consumption of the tag and selectively wake up only the tags in a specific area. It is.

The low frequency exciter according to the present invention is a separate device separate from the reader and operates similar to a general active RFID tag, and receives a command from a remote active RFID reader remotely via RF communication in the UHF band and tags within a few meters of its own. Wake them up.

According to the present invention, it is possible to collect information by selectively waking up only the tags of a desired area in a long distance by appropriately installing the low frequency exciter for each region around the tag, and by using the low frequency to wake up the tag. It is to reduce the consumption.

1 illustrates an operation process of waking up a tag and collecting information in an active RFID system.

The configuration collects the information of all low frequency exciters within the communication range by sending commands through the UHF band communication channel, and wakes up the tag to a specific low frequency exciter at a distance using the collected low frequency exciter information and ID. When receiving the wake-up command of the RFID reader 10 and the RFID reader 10 which transmits a command to the user through RF communication, a low frequency excitation is generated by generating a low frequency and transmitting the tags to the neighboring tags. And the RFID tags 12 which wake up from the sleep mode by the wake-up command of the low frequency exciter 11, switch to the ready mode, and provide information through the UHF band communication channel according to the command from the reader. Include.

In the active RFID system, the operation of waking up the tag and collecting information is as follows.

First, the RFID reader 10 transmits a command through the UHF band communication channel to collect information of all the low frequency exciters 11 within the communication range. (①)

This process is similar to the process in which the RFID reader 10 collects information from multiple tags in a general active RFID system, and the low frequency exciters 11 operate similarly to the tags. In addition, the information collected from the low frequency exciters 11 includes unique ID information that can distinguish each low frequency exciter 11.

In addition, the RFID reader 10 transmits a command to wake up the tag to a specific low frequency exciter 11 at a distance through RF communication using the collected information and ID of the low frequency exciter 11. )

The low frequency exciter 11 receiving the command generates a low frequency and transmits the generated low frequency to the tags 12 around it. The received tags 12 wake up from the sleep mode, switch to the ready mode, and receive from the reader. Wait for the command (③)

Thereafter, the RFID reader 10 may collect information of tags through the UHF band communication channel.

In the above process, since the communication between the RFID reader 10 and the low frequency exciter 11 and the communication between the RFID reader 10 and the tag 12 are performed through a communication channel of the UHF band, long range communication is possible, and low frequency excitation Communication between the device 11 and the tag 12 is made only in a narrow area because it uses a low frequency.

By using this method, the reader can remotely control a specific low frequency exciter to selectively wake up only the tags in the vicinity and collect information.

The tag wakeup range is limited because the low frequency exciter to wake up the tag can only wake tags within a few meters, which is the reach of the low frequency.

The present invention discloses a method of extending the tag wake-up range by grouping a plurality of low frequency exciters in a master / slave form as shown in FIG. 2.

2 is a block diagram illustrating a selective tag wake-up process using a low frequency according to a second embodiment of the present invention.

Its configuration is an RFID reader 20 which transmits a command to wake up a tag to a set master low-frequency exciter at a distance through RF communication, and slave low-frequency exciters when receiving a wake-up command of the RFID reader 20 ( 21b) (21c) from the master low-frequency exciter (21a) and the master low-frequency exciter (21a) for transmitting a tag wake-up command, generating a low frequency and transmitting the tag wake-up tags to the surrounding tags Slave low-frequency exciters 21b and 21c that receive a tag wake-up command and generate low frequencies and transmit them to the tags around them, and master low-frequency exciters 21a or slave low-frequency exciters. Wake up from sleep mode by wake-up command of (21b) (21c), switch to ready mode and follow UHF according to command from reader Include RFID tags (22a) (22b) (22c) for providing information via a reverse communication channel.

In the active RFID system, the operation of waking up the tag and collecting information is as follows.

Among the low frequency exciters, only the low frequency exciter set as the master performs RF communication with the RFID reader and receives a tag wake-up command.

The RFID reader 20 transmits a command to wake up the tag to the set master low-frequency exciter 21a at a long distance through RF communication. (①)

The master low frequency exciter 21a which receives the tag wake-up command from the RFID reader 20 through RF communication transmits the command to the slave low frequency exciters 21b and 21c which are grouped together.

At this time, the master low frequency exciter 21a may use wired communication or wireless communication to transmit a tag wake-up command.

Through this, all the low frequency exciters 21a, 21b, and 21c may wake up the tags 22a, 22b, and 22c in a relatively wide area by transmitting a low frequency for waking up the tag.

In addition, the tag wakeup range can be easily extended by adding slave low-frequency exciters.

Such an active RFID system and a tag wake-up control method according to the present invention reduce the battery consumption of the tag by waking up the tags at a long distance by using a low frequency exciter and selectively wake up only the tags in a specific area. Can be.

In addition, it is possible to effectively extend the narrow tag wake-up range within a few meters limited to the low frequency propagation range by using several low frequency exciters in the form of master / slave.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

1 is a block diagram showing a selective tag wake-up process using a low frequency according to a first embodiment of the present invention

2 is a block diagram illustrating a selective tag wake-up process using a low frequency according to a second embodiment of the present invention.

Explanation of symbols for the main parts of the drawings

10.20. RFID reader 11.21a.21b.21c. Low frequency exciter

12.22a.22b.22c. RFID tag

Claims (6)

Send commands through the UHF band communication channel to collect information of all low frequency exciters within the communication range and use the collected low frequency exciter information and IDs to wake up the tag to a specific low frequency An RFID reader for transmitting a command; A low frequency exciter for generating a low frequency when receiving the wake-up command of the RFID reader and transmitting the generated low frequency to tags in the vicinity of the RFID reader; And RFID tags that wake up from a sleep mode by a wake-up command of the low frequency exciter and switch to a ready mode. delete An RFID reader for transmitting a command to wake up the tag to a set master low-frequency exciter at a distance; A master low frequency exciter for transmitting a tag wake up command to slave low frequency exciters when receiving the wake up command of the RFID reader; Slave low-frequency exciters receiving a tag wake-up command from the master low-frequency exciter and generating a low frequency to transmit tags to neighboring tags; And an RFID tag that wakes up from a sleep mode and switches to a ready mode by a wake-up command of the master low frequency exciter or the slave low frequency exciters. The RFID reader sending a command through the UHF band communication channel to collect information of all low frequency exciters within communication range; Transmitting, by the RFID reader, a tag wake-up command to a specific low-frequency exciter at a distance using information and ID of the collected low-frequency exciter; The low frequency exciter receiving the tag wake-up command generates a low frequency and transmits the generated low frequency to the tags in its vicinity; Selectively waking from the sleep mode by the wake-up command of the low-frequency exciter and switching to the ready mode only the RFID tags in the low-frequency communication range generated by the low-frequency exciter; Up control method. Transmitting, by the RFID reader, a tag wake-up command to a preset master low frequency exciter; Receiving, by the master low-frequency exciter receiving the tag wake-up command, the command to the slave low-frequency exciters grouped together; The master low-frequency exciter receiving the command, the slave low-frequency exciter generates a low frequency and transmits to the tags in the vicinity of the wake-up; tag wake-up control method of an active RFID system comprising a . The communication method of claim 5, wherein the communication between the RFID reader and the low frequency exciter and the communication between the RFID reader and the tag are performed through a communication channel in a UHF band. The tag wake-up control method of an active RFID system, characterized in that the communication between the low frequency excitation and the tag uses a low frequency (LF).

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