KR100957699B1 - Method and apparatus for removing transmit leakage signal using time period - Google Patents

Abstract

Disclosed are a method and apparatus for removing a transmission leak signal using a time interval. In accordance with another aspect of the present invention, a method for removing a transmission leak signal using a time interval includes detecting and recognizing transmission signal related information from a transmission signal transmitted to a tag; Identifying a time interval in which only the transmission signal exists from the reception signal flowing into the reception path based on the transmission signal related information; And removing the transmission signal present in the identified time period.

RFID, transmit leakage signal cancellation, baseband, equalizer, time interval

Description

METHOD AND APPARATUS FOR REMOVING TRANSMIT LEAKAGE SIGNAL USING TIME PERIOD}

Embodiments of the present invention relate to an RFID reader of an RFID system.

The invention of the Ministry of Knowledge Economy and ICT IT It was derived from research conducted as part of the original technology development project. [Task Management No .: 2008-F-052-01, Title: Next Generation for Individual Unit Unit Application] RFID  Technology development].

In general, an RFID system consists of an RFID tag that stores information and exchanges data with a protocol, and a reader, or RFID reader, that communicates wirelessly with the RFID tag. The RFID tag is classified into an active type requiring power according to the presence or absence of a power supply, and a passive type operated by an electromagnetic field of an RFID reader without supplying power directly from inside or outside.

The RFID tag can be made in various shapes. Thus, the RFID tag can be inserted into a plastic disc, cylinder, card, thin flexible strip or glass bead (with a center hole). In addition, the RFID tag is a read-only tag of 1-bit storage capacity used simply for theft protection, a read-only tag of 32-bit or 64-bit storage capacity having unique data for distinguishing each tag, and a user There are kinds of tags for reading and writing of 512kb that can modify contents arbitrarily. The RFID tag mainly uses the 125.134KHz, 13.56MHz, 433MHz, 860-960MHz or 2.45GHz frequency band.

The RFID reader, also called an interrogator, has an RF frequency unit that enables communication with an RFID tag using radio frequency (RF) energy. The RFID reader receives a signal emitted from an RFID tag in a portable form (portable) or a fixedly installed form (terminal), and reads data included in the input signal.

When the RFID reader is integrated with a transmitting and receiving antenna, the internal transceiver is distinguished by using a circulator or a coupler, and thus the transmission and reception signal is leaked to the receiver due to low transmission and reception isolation rate. Leaks. In particular, in the case of a portable RFID reader, the surrounding environment of the antenna changes a lot. Therefore, when the RFID reader cannot guarantee the matching of the antenna, the transmission signal may be totally reflected and introduced into the reception path to generate more transmission leakage signals.

SUMMARY OF THE INVENTION The present invention has been made to improve the prior art as described above, and an object of the present invention is to provide an apparatus and method capable of removing a transmission leakage signal flowing into a reception path even when the antenna matching of the RFID reader is changed.

Another object of the present invention is to provide an apparatus and method capable of improving the recognition rate of an RFID tag by removing a transmission leakage signal generated internally or externally of the RFID reader.

It is still another object of the present invention to provide an apparatus and method for eliminating the effect of a change in antenna matching on transmission leakage signal cancellation performance by removing a transmission leakage signal using a time interval of a reception signal having only a transmission leakage signal. To provide.

It is still another object of the present invention to provide an apparatus and a method capable of preventing saturation of a reception front end portion by a transmission leakage signal by efficiently removing a transmission leakage signal even when power reception of the reception front end portion is low.

The object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object and to solve the problems of the prior art, the method for removing the transmission leakage signal using the time interval according to an embodiment of the present invention, detecting and recognizing the transmission signal related information from the transmission signal transmitted to the tag ; Identifying a time interval in which only the transmission signal exists from the reception signal flowing into the reception path based on the transmission signal related information; And removing the transmission signal present in the identified time period.

An apparatus for removing a transmission leak signal using a time interval according to an embodiment of the present invention includes an equalizer for detecting and recognizing transmission signal related information from a transmission signal transmitted to a tag; And a transmission leak signal canceller for identifying a time interval in which only the transmission signal exists from the received signal flowing into the reception path based on the transmission signal related information, and removing the transmission signal existing in the identified time interval. Include.

Specific details of other embodiments are included in the detailed description and the accompanying drawings.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and those skilled in the art to which the present invention pertains. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

According to embodiments of the present invention, even if the antenna matching of the RFID reader is changed, it is possible to remove the transmission leakage signal flowing into the reception path.

According to embodiments of the present invention, the recognition rate of the RFID tag may be improved by removing the transmission leakage signal generated internally or externally of the RFID reader.

According to embodiments of the present invention, by removing the transmission leakage signal by using the time interval of the received signal in which only the transmission leakage signal exists, it is possible to exclude the effect of the change in antenna matching on the transmission leakage signal cancellation performance.

According to the embodiments of the present invention, even when the power handling of the reception front end is low, by effectively removing the transmission leakage signal, it is possible to prevent saturation of the reception front end by the transmission leakage signal.

An apparatus for removing a transmission leak signal according to an embodiment of the present invention may include an equalizer and a transmission leak signal canceller. The equalizer may detect and recognize transmission signal related information (eg, amplitude, phase, frequency, etc.) from a transmission signal transmitted to an RFID tag. The transmission leakage signal canceller may identify a time interval in which only the transmission signal exists from the reception signal flowing into the reception path based on the transmission signal related information. The transmission leak signal canceller may remove the transmission signal present in the identified time interval.

As described above, the apparatus for removing a transmission leakage signal according to an embodiment of the present invention identifies a time interval in which only a transmission signal exists from a received signal, and removes a transmission signal existing in the time interval, thereby surrounding the antenna surrounding the RFID reader system. It is possible to effectively remove the transmission leakage signal, which occurs in accordance with the change of or occurs inside the RFID reader system.

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

1 is a block diagram of an RFID reader system including an apparatus for removing a transmission leak signal according to an embodiment of the present invention.

Referring to FIG. 1, the RFID reader system includes a modulator 101, a frequency uplinker 102, a transmission front end 103, a circulator / coupler 104, an antenna 105, a reception front end 106, Frequency downlinker 107, demodulator 108, equalizer 109, and transmit leakage signal canceller 110.

The modulator 101 may modulate a transmission signal that is a signal to be transmitted to an RFID tag (not shown). The modulator 101 outputs the modulated transmission signal to the frequency uplinker 102.

The frequency uplinker 102 may shift the modulated transmission signal to a desired RF frequency by receiving the modulated transmission signal from the modulator 101 and up-converting the frequency. The frequency uplinker 102 outputs the transmitted signal of the shifted RF frequency and transmits it to the transmission front end 103.

The transmission front end 103 may receive the transmission signal of the RF frequency from the frequency uplinker 102 to power amplify and filter. The transmission front end 103 transmits the power amplified and filtered RF transmission signal to the circulator / coupler 104.

The circulator / coupler 104 receives the power amplified and filtered RF transmission signal from the transmission front end 103 and transmits the signal to the antenna 105, and transmits the signal received from the antenna 105 to the reception front end ( To 106).

The antenna 105 receives the transmitted signal of the transmitted RF frequency from the circulator / coupler 104 and transmits it to the RFID tag. The antenna 105 receives a received signal including a tag response signal from the RFID tag as a response to the transmitted signal and transmits the received signal to the receiving front end 106 through the circulator / coupler 104.

Here, the antenna 105 may be an integrated antenna in which a transmitting antenna and a receiving antenna are integrated. Alternatively, the antenna 105 may be a separate antenna in which a transmitting antenna and a receiving antenna are separated.

The reception front end 106 may receive the received signal from the antenna 105 through the circulator / coupler 104 to perform filtering and low noise amplification. The receiving front end 106 outputs the filtered and low noise amplified received signal and transmits the received signal to the frequency downlinker 107.

The frequency downlinker 107 may receive the filtered and low noise amplified received signal from the reception front end 106 and shift the frequency of the received signal to the baseband through frequency downconversion. The frequency downlinker 107 outputs the received signal of the baseband to the demodulator 108.

The demodulator 108 may recover the baseband received signal to the original signal by receiving and demodulating the baseband received signal from the frequency downlinker 107. The demodulator 108 outputs the restored signal to the equalizer 109.

The equalizer 109 may receive the reconstructed signal from the demodulator 108 and compensate for the distortion so that the amplitude or phase of the reconstructed signal has a uniform characteristic.

The equalizer 109 may detect transmission signal related information from the transmission signal when transmitting the transmission signal to the RFID tag. The equalizer 109 recognizes the detected transmission signal related information and outputs a control signal for the operation of the transmission leakage signal canceller 110 when receiving the restored signal (the restored signal).

Here, the transmission signal related information may include an amplitude, a phase, or a frequency of the transmission signal.

The transmission leakage signal remover 110 may operate by receiving the control signal from the equalizer 109. The transmission leakage signal remover 110 may identify a time interval in which only the transmission signal exists from the reception signal flowing into the reception path such as the reception front end unit 106 based on the transmission signal related information. The transmission leak signal remover 110 may remove the transmission signal existing in the identified time interval.

That is, when the transmission leakage signal remover 110 receives the control signal from the equalizer 109, the transmission leakage signal remover 110 may extract received signal related information for each time interval from the received signal (the restored signal). The transmission leakage signal remover 110 may identify the time interval including the same information by comparing the extracted received signal related information with the detected transmission signal related information. The transmit leakage signal remover 110 may remove a signal (transmission signal) within the identified time interval.

Here, the received signal related information may include an amplitude, a phase, or a frequency of the received signal.

As such, the transmission leakage signal remover 110 may remove the transmission leakage signal generated internally or externally of the RFID reader system by removing the transmission signal using the time interval of the received signal.

In this embodiment, when only a part of the transmission leakage signal is removed, the transmission leakage signal remover 110 may feed the output signal back to the demodulator 108. That is, in this embodiment, the equalizer 109, the transmission leak signal canceller 110, and the demodulator 108 can be repeatedly removed while gradually removing the transmission leakage signal from the received signal. Accordingly, only the tag response signal remains in the received signal, and the RFID reader system may improve the recognition rate of the tag by processing only the tag response signal without a transmission leakage signal.

2 and 3 illustrate a received signal before and after a transmission leakage signal is removed according to an embodiment of the present invention.

2 and 3, a signal (receive signal) flowing into a reception path of the RFID reader system includes a time interval 201 in which only a transmission signal (transmission leakage signal) 203 of the RFID reader system exists; The transmission leakage signal 203 of the RFID reader system and the tag response signal 204 of the RFID tag may be divided into a time interval 202.

An apparatus for removing a transmission leakage signal according to an embodiment of the present invention identifies a time interval 201 in which only a transmission leakage signal 203 exists from the received signal, and uses the identified time interval to transmit a transmission leakage signal ( 203) can be removed. That is, the apparatus for removing the transmission leakage signal may improve the recognition rate of the RFID tag by removing the transmission leakage signal 203 existing in the identified time interval.

In this case, when the equalizer and the transmission leakage signal canceller are operated once, the transmission leakage signal removal apparatus may not completely remove the transmission leakage signal from the received signal. Therefore, the transmission leak signal canceller can repeatedly operate the equalizer and the transmission leak signal canceller.

As a result, as shown in FIG. 3, the apparatus for removing the transmission leakage signal may gradually reduce the transmission leakage signal 203 present in the reception signal, and after repeating for a predetermined time 301, the transmission leakage signal 203 can be completely removed from the received signal. Accordingly, the RFID reader system of FIG. 1 may improve the recognition rate of the RFID tag by processing the tag response signal 204 from which the transmission leakage signal 203 is removed.

When the transmission signal is no longer detected from the received signal corresponding to the time interval 201 in which only the transmission leakage signal 203 is present, the transmission leakage signal removal apparatus performs operations of the equalizer and the transmission leakage signal canceller. You can stop it.

4 is a block diagram of an RFID reader system including an apparatus for removing a transmission leak signal according to another exemplary embodiment of the present invention.

Referring to FIG. 4, the RFID reader system includes a modulator 401, a frequency uplinker 402, a transmission front end 403, a circulator / coupler 404, an antenna 405, a reception front end 406, It may include a frequency downlinker 407, a demodulator 408, an equalizer 409, a transmit leakage signal canceller 410, and a frequency uplinker 411.

The modulator 401 may modulate a transmission signal that is a signal to be transmitted to an RFID tag (not shown). The modulator 401 outputs the modulated transmission signal to the frequency uplinker 402.

The frequency uplinker 402 may receive the modulated transmission signal from the modulator 401 and upconvert the frequency to thereby shift the modulated transmission signal to a desired RF frequency. The frequency uplinker 402 outputs the transmitted signal of the shifted RF frequency and transmits it to the transmission front end 403.

The transmission front end 403 may receive the transmission signal of the RF frequency from the frequency uplinker 402 to power amplify and filter. The transmit front end 403 transmits the power amplified and filtered RF transmission signal to the circulator / coupler 404.

The circulator / coupler 404 may receive the power amplified and filtered RF transmission signal from the transmission front end 403 and transmit it to the antenna 405.

The antenna 405 receives the transmitted RF signal from the circulator / coupler 404 and transmits the received signal to the RFID tag, and transmits the signal received from the antenna 405 to the reception front end 406. The antenna 405 receives a received signal including a tag response signal from the RFID tag as a response to the transmitted signal and transmits the received signal to the receiving front end 406 through the circulator / coupler 404.

Here, the antenna 405 may be an integrated antenna in which a transmitting antenna and a receiving antenna are integrated. Alternatively, the antenna 405 may be a separate antenna in which a transmitting antenna and a receiving antenna are separated.

The reception front end 406 may receive the received signal from the antenna 405 through the circulator / coupler 404 to perform filtering and low noise amplification. The receiving front end 406 outputs the filtered and low noise amplified received signal and transmits the received signal to the frequency downlinker 407.

The frequency downlinker 407 may receive the filtered and low noise amplified received signal from the reception front end 406 and shift the frequency of the received signal to the baseband through frequency downconversion. The frequency downlinker 407 outputs the baseband received signal and transmits it to the demodulator 408.

The demodulator 408 receives and demodulates the baseband received signal from the frequency downlinker 407, thereby restoring the baseband received signal to the original signal. The demodulator 408 may output the restored signal to the equalizer 409.

The equalizer 409 may receive the reconstructed signal from the demodulator 408 to compensate for the distortion so that the amplitude or phase of the reconstructed signal may have a uniform characteristic.

The equalizer 409 may detect transmission signal related information from the transmission signal when transmitting the transmission signal to the RFID tag. The equalizer 409 recognizes the detected transmission signal related information and outputs a control signal for the operation of the transmission leakage signal canceller 410 when receiving the restored signal (the restored signal).

Here, the transmission signal related information may include an amplitude, a phase, or a frequency of the transmission signal.

The transmission leakage signal remover 410 may operate by receiving the control signal from the equalizer 409. The transmission leakage signal remover 410 may identify a time interval in which only the transmission signal exists from the reception signal flowing into the reception path such as the reception front end 406 based on the transmission signal related information. The transmit leak signal canceller 410 removes the transmit signal present in the identified time interval.

That is, when the control signal is received from the equalizer 409, the transmission leakage signal remover 410 may extract the received signal related information for each time interval from the received signal (the restored signal). The transmission leakage signal remover 410 may compare the extracted received signal related information with the detected transmission signal related information to identify a time interval including the same information. The transmit leakage signal canceller 410 may remove a signal (transmission signal) within the identified time interval.

Here, the received signal related information may include an amplitude, a phase, or a frequency of the received signal.

As such, the transmission leakage signal remover 410 may remove the transmission leakage signal generated internally or externally of the RFID reader system by removing the transmission signal using the time interval of the received signal.

Meanwhile, when only part of the transmission leakage signal is removed, the frequency uplinker 411 may up-convert the output signal of the transmission leakage signal remover 410 to feed back to the reception front end 406. Accordingly, the reception front end 406 may remove the transmission leakage signal from the reception signal by using the output signal of the feedback transmission leakage signal canceller 410. At this time, the transmission leakage signal removing apparatus feeds up the frequency of the output signal of the transmission leakage signal canceller 410 until the transmission leakage signal is completely removed and feeds it back to the reception front end 406.

Accordingly, the RFID reader system can effectively eliminate the transmission leakage signal even when the power reception capability of the reception front end 406 is low, thereby preventing saturation of the reception front end 406 due to the transmission leakage signal.

5 is a flowchart illustrating a method for removing a transmission leak signal according to an exemplary embodiment of the present invention. The transmission leakage signal removal method may be implemented by the transmission leakage signal removal apparatus described above.

Referring to FIG. 5, in operation S510, the apparatus for removing a transmission leak signal may detect transmission signal related information from a transmission signal transmitted to an RFID tag. Accordingly, the transmission leakage signal removal apparatus may be aware of the detected transmission signal related information. Here, the transmission signal related information may include an amplitude, a phase, or a frequency of the transmission signal.

Next, in step S520, the apparatus for removing a leakage signal transmits a baseband by down-converting a received signal flowing into a reception path such as a reception front end portion ("106" in FIG. 1 or "406" in FIG. 4). It can output the received signal of.

Next, in operation S530, the apparatus for removing a leakage signal may compare the baseband reception signal with the transmission signal related information. That is, the apparatus for removing a leakage signal may compare the information related to the received signal of the base band, for example, amplitude, phase, frequency, etc. by dividing and comparing the amplitude, phase, frequency, etc. of the transmission signal for each time period.

Next, in operation S540, the apparatus for removing a leakage signal may identify a time interval in which only a transmission signal exists from the baseband received signal through a comparison process of operation 530. That is, the apparatus for removing a transmission leakage signal may identify a time interval in which the amplitude, phase, frequency, etc. of the transmission signal and the amplitude, phase, frequency, etc. of the baseband received signal are identical through the comparison process of step 530. Can be.

Next, in operation S550, the apparatus for removing a leakage signal may remove a transmission signal existing in the identified time interval. As a result, the apparatus for removing a transmission leakage signal may remove a transmission leakage signal generated internally or externally of the RFID reader system, thereby improving the recognition rate of the RFID tag.

On the other hand, the apparatus for removing a transmission leak signal may sequentially repeat steps S510 to S550 until the transmission leakage signal is completely removed.

Embodiments of the present invention include computer readable media including program instructions for performing various computer implemented operations. The computer readable medium may include program instructions, local data files, local data structures, or the like, alone or in combination. The media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical recording media such as CD-ROMs, DVDs, magnetic-optical media such as floppy disks, and ROM, RAM, flash memory, and the like. Hardware devices specifically configured to store and execute the same program instructions are included. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like.

While specific embodiments of the present invention have been described so far, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below, but also by the equivalents of the claims.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

1 is a block diagram of an RFID reader system including an apparatus for removing a transmission leak signal according to an embodiment of the present invention.

2 and 3 illustrate a received signal before and after a transmission leakage signal is removed according to an embodiment of the present invention.

4 is a block diagram of an RFID reader system including an apparatus for removing a transmission leak signal according to another exemplary embodiment of the present invention.

5 is a flowchart illustrating a method for removing a transmission leak signal according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

101, 401: modulator

102, 402, 411: frequency uplinker

103, 403: transmission front end

104, 404: Circulator / Couple

105, 405: antenna

106, 406: receiving front end

107, 407: frequency downlinker

108, 408: demodulator

109, 409: equalizer

110, 410: transmit leakage signal canceller

Claims (8)

Detecting and recognizing transmission signal related information from a transmission signal transmitted to a tag; Identifying a time interval in which only the transmission signal exists from the reception signal flowing into the reception path based on the transmission signal related information; And Removing the transmission signal present in the identified time interval Transmission leakage signal removal method using a time interval, characterized in that it comprises a. The method of claim 1, On the basis of the transmission signal related information, identifying a time interval in which only the transmission signal is present from the received signal flowing into the receiving path, Extracting received signal related information for each time interval from the received signal; And Comparing the received signal related information with the transmitted signal related information to identify a time interval including the same information from the received signal; Transmission leakage signal removal method using a time interval, characterized in that it comprises a. The method of claim 1, Frequency-down converting the received signal to output a baseband received signal Transmission leakage signal removal method using a time interval characterized in that it further comprises. The method of claim 1, The transmission signal related information, And transmitting at least one of an amplitude, a phase, and a frequency of the transmission signal. An equalizer for detecting and recognizing transmission signal related information from a transmission signal transmitted to a tag; And A transmission leak signal canceller for identifying a time interval in which only the transmission signal exists from the received signal flowing into the reception path based on the transmission signal related information, and removing the transmission signal existing in the identified time interval Transmission leakage signal removal apparatus using a time interval, characterized in that it comprises a. The method of claim 5, The transmission leak signal canceller, Extracting the received signal related information for each time interval from the received signal; And comparing the received signal related information with the transmitted signal related information to identify a time section including the same information from the received signal. The method of claim 5, The transmission leak signal canceller, And transmitting the received signal from which the transmission signal has been removed to a demodulator or a reception front end of an RFID reader, thereby repeatedly removing the transmission leakage signal. The method of claim 5, The transmission signal related information, Transmission leakage signal removal apparatus using a time interval, characterized in that it comprises at least one of the amplitude, phase, or frequency of the transmission signal.

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