KR101406263B1 - System of RFID incoding and method of issuing RFID tag therethrough - Google Patents

Abstract

The present invention relates to an RFID encoding system and an RFID tag issuing method using the RFID encoding system, in which information is encoded in an RFID tag using a specific encoding frequency channel and a plurality of RFID issuing modules adjacent to each other and issuing RFID tags encoded with the information are installed An RFID issuing device; And controlling the plurality of RFID issuing modules to issue an RFID tag by recognizing an encoding frequency channel being used for each of the plurality of RFID issuing modules and assigning different encoding frequency channels to the RFID issuing device A central server, and a method of issuing an RFID tag using the RFID encoding system. According to the present invention, an RFID issuing device including a plurality of RFID issuing modules and a central server controlling an RFID issuing device And various RFID tags can be simultaneously issued or the same RFID tags can be issued in large quantities.

Description

[0001] The present invention relates to an RFID encoding system and a method of issuing an RFID tag using the same,

The present invention relates to an RFID encoding system and an RFID tag issuing method using the RFID encoding system. More specifically, a plurality of RFID issuing modules are individually or integrally controlled in a central server, And an RFID encoding system capable of issuing an individual RFID tag in each RFID issuing module and a method of separately or integrally issuing an RFID tag using the RFID encoding system.

In recent years, RFID (Radio Frequency Identification) technology has been applied in various fields. RFID is a next generation recognition technology that can manage information of various objects such as foods, animals and objects through IC chip and wireless.

RFID is a technology that enables information on all processes from production to sales to be embedded in a microchip (IC chip) and track it on a radio frequency. It is called 'electronic tag' or 'smart tag', 'electronic label' 'And so on.

RFID is regarded as the next generation recognition technology to replace the barcode used for goods management in the distribution field. The RFID is composed of a reader that reads and decodes and a tag that provides information , Tagging the product with information about the entire process of production, distribution, storage, and consumption, and have the reader read this information via the antenna.

Conventional bar codes have a disadvantage in that the storage capacity is small, real-time information can not be grasped, and information can be read only in a close state (within a few centimeters). On the other hand, RFID is left in a finished product state and is displayed in a supermarket You can track the whole process. When consumers select the tagged items, they will be paid automatically, and inventory and consumer taste management will be comprehensive. In addition, RFID readers can read hundreds of RFID tagged data in a second, so when applied to a large discount store, the price of goods can be counted as soon as they pass through the checkout counter, which can save a lot of time, The viscosity is different from the bar code.

Such RFID tag technology is expected to spread not only in the distribution field but also in various fields such as an animal tracking device, an automobile safety device, a personal access and access permission device, an electronic fare collection device, and a production management.

The general RFID tag issuing device may be constituted of a server 10 for generating data on information to be input to an RFID tag and an RFID issuing printer 20 for issuing an RFID tag in cooperation with the server, The server 10 and the RFID issuing printer 20 may be combined into one RFID tag issuing device.

The RFID tag issuing apparatus includes a server 10 for generating RFID information and an RFID issuing printer 20 for issuing an RFID tag in a one-to-one correspondence manner. Therefore, Since the server 10 is required, an expensive construction cost is required to construct a system for issuing a large amount of RFID tags, and there is also a problem that space limitation is imposed for installing many devices.

Furthermore, when a plurality of RFID issuing printers 20 are installed adjacent to each other to issue a large number of RFID tags, a frequency interference problem may occur between neighboring RFID issuing printers during encoding of the RFID tags, In order to block the interference, a separate shielding film is required, raising the cost of equipment construction.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the conventional art as described above, and it is an object of the present invention to provide a RFID tag, A system capable of issuing a large number of RFID tags from an RFID tag, and a method of issuing an RFID tag.

Especially, it is required to construct a system for issuing a large number of RFID tags, which is expensive to install, and to solve the problem that a space limit is imposed for installing many devices.

Furthermore, when a plurality of RFID-issuing printers are installed adjacent to each other to issue a large number of RFID tags, a frequency interference problem may occur between adjacent RFID-issuing printers during encoding of the RFID tags, resulting in an error in issuing RFID tags, A separate shielding film is required to solve the problem of raising the cost of equipment construction.

According to an aspect of the present invention, there is provided an RFID device including an RFID (Radio Frequency Identification) apparatus including an RFID tag module for encoding information in an RFID tag using a specific encoding frequency channel and an RFID tag module for encoding the RFID tag, And controlling the plurality of RFID issuing modules to issue an RFID tag by recognizing an encoding frequency channel being used for each of the plurality of RFID issuing modules and assigning different encoding frequency channels to the RFID issuing device And a central server.

Preferably, the central server includes an encoding frequency channel search unit for searching an idle encoding frequency channel for each of the RFID issuing modules of the RFID issuing device by detecting an encoding frequency channel being used; An encoding frequency channel assigning unit for selecting at least one of a plurality of RFID issuing modules of the RFID issuing device and allocating different idle encoding frequency channels to each of the selected one or more RFID issuing modules; An RFID tag issuing control unit which controls the RFID issuing apparatus to encode information in an RFID tag and issue an RFID tag to which information is input; And a master communication unit for transmitting a control signal to each of the RFID issuing modules of the RFID issuing device through wired / wireless communication, wherein each RFID issuing module of the RFID issuing device transmits RFID tags An RFID encoding unit for encoding information in the RFID tag; And a slave communication unit for receiving a control signal from the central server through wired / wireless communication.

Further, the RFID encoding unit of the RFID issuing module may include an encoding output adjusting unit that adjusts an output signal when the information is encoded in the RFID tag; And an encoding filtering unit for determining whether the encoding of the RFID tag is successful comparing the encoding signal from the RFID tag with the reference value according to the encoding of the information in the RFID tag.

The RFID tag issuing control unit of the central server may include an RFID output control unit for adjusting an output signal of the encoding output adjusting unit and setting a reference value for the encoding signal of the encoding filtering unit.

Further, the present invention provides a method of using an RFID tag, comprising the steps of: using a plurality of RFID issuing modules using an RFID encoding system including an RFID issuing device in which a plurality of RFID issuing modules for issuing RFID tags are arranged adjacent to each other and a central server for controlling the RFID issuing device; A frequency channel determination step of determining an idle encoded frequency channel by searching an encoded frequency channel in which the idle encoded frequency channel is being determined; A frequency channel allocation step of allocating different encoding frequency channels to at least one selected one of the plurality of RFID issuing modules; And an RFID tag issuing step of encoding the information in the RFID tag using the encoding frequency channel allocated by the selected RFID issuing module and issuing the RFID tag to which the information is inputted.

Preferably, the frequency channel determination step may include: an encoding frequency searching step of searching an in-use encoding frequency channel of a plurality of the RFID issuing modules; An encoding frequency channel duplication determining step of determining whether an encoding frequency channel being used by the RFID issuing module is duplicated; And an encoding frequency channel resetting step of resetting an in-use encoding frequency channel of the RFID issuing module according to the determination of whether or not the encoding frequency channel is duplicated.

Further, the RFID tag issuing step includes an encoding output signal adjusting step of adjusting an encoding output signal of the selected RFID issuing module; An information encoding step of encoding information in an RFID tag using an encoding frequency channel allocated by the selected RFID issuing module; And an RFID tag output step of outputting the RFID tag in which the information is encoded.

The RFID tag issuing step may include: an information encoding step of encoding information in an RFID tag using an encoding frequency channel allocated to the selected RFID issuing module; And an encoding success determination step of determining whether the encoding of the RFID tag is successful comparing an encoding signal transmitted from the encoded RFID tag with a reference value.

The encoding success determination step may include setting a power value, a gain value, or a reference value for both of the encoded signal transmitted from the encoded RFID tag and the encoded value; Determining whether an encoding signal transmitted from an RFID tag to be encoded exists against an encoding signal transmitted from an RFID tag to be determined, against the reference value; Determining whether encoding is successful according to whether the encoding signal exists; And displaying an encoding message for the RFID tag according to the encoding success.

Preferably, the method further includes an encoding frequency channel setting step of dividing the pre-allocated frequency band range at predetermined intervals based on the number of the RFID issuing modules and setting each of the divided frequency bands as an encoding frequency channel.

According to the present invention, an RFID encoding system including an RFID issuing device composed of a plurality of RFID issuing modules and a central server controlling the RFID issuing device is proposed, and various RFID tags can be simultaneously issued individually, .

In particular, when a central server allocates different encoding frequency channels to a plurality of RFID issuing modules and performs encoding on the RFID tags using the assigned encoding frequency channels, if a plurality of RFID issuing modules are adjacent to each other, Thereby eliminating the need for a separate frequency shielding device to prevent frequency interference.

Furthermore, it is possible to more clearly determine whether the encoding of the RFID tag is successful by filtering the encoding of the RFID tag, and to improve the reliability of the RFID tag issuance by eliminating the issuing error of the RFID tag.

1 shows an RFID issuing system according to the prior art,
Figure 2 shows an embodiment of an RFID encoding system according to the present invention,
3 shows a schematic configuration diagram of an RFID encoding system according to the present invention,
4 is a block diagram of an embodiment of an RFID tag issuing control unit and an RFID encoding unit in an RFID encoding system according to the present invention,
5 shows a flowchart of an embodiment of a method of issuing an RFID tag according to the present invention,
FIG. 6 is a graph of an encoding frequency channel in the RFID encoding system according to the present invention shown in FIG. 2,
FIG. 7 shows a flowchart of an embodiment for processing an overlap of an encoded frequency channel when the RFID tag issuing method according to the present invention issues it,
8 shows a flowchart of an embodiment of encoding filtering of an RFID tag in the RFID tag issuing method according to the present invention,
FIG. 9 shows a graph of the encoded signal of the RFID tag filtered in the embodiment of FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

First, the terminology used in the present application is used only to describe a specific embodiment, and is not intended to limit the present invention, and the singular expressions may include plural expressions unless the context clearly indicates otherwise. Also, in this application, the terms "comprise", "having", and the like are intended to specify that there are stated features, integers, steps, operations, elements, parts or combinations thereof, But do not preclude the presence or addition of features, numbers, steps, operations, components, parts, or combinations thereof.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The present invention can be applied to a system in which a plurality of RFID issuing modules and a central server for controlling the RFID issuing modules are configured to individually or integrally control the plurality of RFID issuing modules in the central server to selectively issue various RFID tags or a large number of RFID tags We propose a RFID encoding system and a method of issuing an RFID tag using it.

2 shows an embodiment of an RFID encoding system according to the present invention.

In the embodiment of FIG. 2, the RFID issuing module 200a is composed of two layers and is composed of three layers, and a total of six RFID issuing modules is shown. Each of the modules is connected to the central server 100 in a wired or wireless manner so that the central server 100 integrally or individually controls the six RFID issuing modules to selectively issue a large number of RFID tags or various RFID tags.

Here, one RFID-issuing module 200a is provided with an RFID encoding part 210a for encoding information in the RFID tag, a first roller 250a wound around the unused RFID tag on the sheet, and a sheet of the encoded RFID tag are wound A second roller 260a, a slave communication unit 230a for wired / wireless communication with the central server 100, and a transfer line means for transferring the sheet to which the RFID tag is attached. Since the general configurations are well known, the description thereof will be omitted.

In addition, the controller 300 may be further configured to monitor and adjust the status of six RFID-issuing modules. In this case, the central server 100 may not be installed in the remote place, A server 100, and the like.

The central server 100 and the RFID issuing module 200a may transmit signals through various known communication methods such as wire or wireless. Preferably, the central server 100 considers the distance between the RFID issuing device and the RFID issuing device It is preferable to use a wireless communication method such as Bluetooth, Wi-Fi, or ZigBee. In some situations, the central server 100 and the RFID issuing device may be configured as a wired communication method such as a wired LAN.

Particularly, in the present invention, since a plurality of RFID issuing modules are installed close to each other, an error occurs in the encoding of an RFID tag due to interference of an encoded output signal between adjacent RFID issuing modules at the time of encoding of the RFID tag In the central server 100, the encoding frequency bands used by the plurality of RFID issuing modules are set differently to solve the encoding frequency interference problem between the RFID issuing modules. Preferably, a certain range of encoding frequency bands is divided at predetermined intervals Each of the divided encoding frequency bands can be used as one encoding frequency channel.

Hereinafter, the configuration of the central server 200 and the RFID issuing module 200a according to the present invention will be described in more detail.

3 shows a schematic configuration diagram of an RFID encoding system according to the present invention.

The central server 100 may include an encoding frequency channel searching unit 110, an encoding frequency channel allocating unit 130, an RFID tag issuing control unit 150 and a master communication unit 170, The RFID encoding units 210a, 210b, ... 210n and the slave communication units 200a, 200b, ..., 200n are constituted by N RFID issuing modules 200a, 200b, ..., 200n, (230a, 230b, ... 230n). Here, each of the RFID issuing modules 200a, 200b, ..., 200n may include known general components for issuing RFID tags, which are not characteristic features of the present invention, and will not be described herein.

First, the encoding frequency channel searching unit 110 searches for an encoding frequency channel used by each of the N RFID issuing modules 200a, 200b, ..., 200n to determine an idle encoding frequency channel that is not being used .

The encoding frequency channel assigning unit 130 selects an RFID issuing module for issuing an RFID tag among the N RFID issuing modules 200a, 200b, ..., 200n and allocates an idle encoding frequency channel that is not used to the selected RFID issuing module, When various RFID tags are to be individually issued, the respective RFID issuing modules for issuing the individual RFID tags are selected to allocate different encoding frequency channels to the N RFID issuing modules 200a, 200b, ..., 200n, When a large number of tags are to be issued, a required number of RFID issuing modules among the N RFID issuing modules 200a, 200b,... 200n are selected and different encoding frequency channels are allocated to the selected RFID issuing modules.

The RFID tag issuing control unit 150 controls driving of the RFID issuing modules 200a, 200b, ..., 200n so that the RFID issuing modules 200a, 200b, ... 200n encode information in the RFID tags to perform issuance of the RFID tags do.

The master communication unit 170 transmits an encoding frequency channel allocation signal and other control signals to the RFID issuing modules 200a, 200b, ..., 200n through wired / wireless communication. The wired / wireless communication method includes various known communication methods Method can be applied.

The RFID encoding units 210a, 210b, ..., 210n encode information in the RFID tag using the encoding frequency channel allocated from the central server 100, And the slave communication units 230a, 230b,... 230n receive signals for encoding frequency channel allocation and other control signals through the wired / wireless communication with the central server 100.

As described above, according to the present invention, the central server allocates different encoding frequency channels to a plurality of RFID issuing modules, and encodes the RFID tags using the assigned encoding frequency channels, so that a plurality of RFID issuing modules are adjacent to each other It is possible to eliminate the interference between the encoding frequencies that are generated in the case of the first embodiment, and further, there is no need of a separate frequency shielding device to prevent the frequency interference.

4 is a block diagram illustrating an RFID encoding system according to an embodiment of the present invention. Referring to FIG. 4, a central server 100 according to an embodiment of the present invention includes a RFID tag issuing controller Fig. 2 is a block diagram of an embodiment of the present invention.

The RFID tag issue control unit 150 of the central server 100 may include an RFID issuing apparatus control unit 151 and an RFID output control unit 155. [ The RFID issuing device control unit 151 can transmit a basic control signal for controlling the general configuration included in each RFID issuing module of the RFID issuing device 200. The RFID output controlling unit 155 controls the RFID- And a reference value for determining whether the encoding of the RFID tag is successful based on the encoding signal transmitted from the RFID tag to which the encoding is performed.

The RFID encoding unit 210 of each of the RFID issuing modules may include an encoding output adjusting unit 211 and an encoding filtering unit 215. The RFID encoding output adjusting unit 211 may receive the RFID output from the RFID output controlling unit 211 of the central server 100, The encoding and filtering unit 215 controls the output of the encoding signal output through the assigned encoding frequency channel under the control of the control unit 155. The encoding filtering unit 215 performs encoding according to the control of the RFID output control unit 155 of the central server 100 And determines whether the encoding of the RFID tag is successful based on the encoded signal transmitted from the RFID tag.

The output adjustment for the encoding of the RFID tag and the determination of whether or not the encoding is successful will be described in more detail in the following embodiments of the RFID tag issuing method according to the present invention.

Also, the present invention proposes an RFID tag issuing method capable of simultaneously issuing various RFID tags or issuing the same RFID tags in large quantities by using the RFID encoding system according to the present invention, Hereinafter, a method will be described.

FIG. 5 is a flowchart illustrating an RFID tag issuing method according to an embodiment of the present invention. The RFID tag issuing method according to the present invention uses the RFID encoding system according to the present invention, See also.

The encoding frequency channel searching unit 110 of the central server 100 searches for an encoding frequency channel being used by a plurality of RFID issuing modules 200a, 200b, ... 200n (S110) and determines an idle encoding frequency channel that is not being used In this case, a process of dividing a certain range of frequency bands at regular intervals and setting each of the divided frequency bands as an encoding frequency channel may be preceded by dividing the number of divided frequency bands into RFID broadcasting modules 200a , 200b, ..., 200n).

When the central server 100 needs information on the encoding frequency channel being used and the idle encoding frequency channel in association with the encoding frequency channel, if the RFID tag needs to be issued, the encoding frequency of the central server 100 The channel assigning unit 130 selects a required RFID issuing module from the plurality of RFID issuing modules 200a, 200b, ..., 200n according to the issue type and quantity of the RFID tag (S210) And assigns an encoding frequency channel (S230).

Then, the RFID tag issue control unit 150 of the central server 100 controls the operation of the selected RFID issue module (S310) and encodes the RFID tag using the assigned encoding frequency channel, (S330).

FIG. 6 is a graph of an encoding frequency channel in the RFID encoding system according to the present invention shown in FIG. 2. As shown in FIG. 6, six RFID issuing modules An encoding frequency channel having different frequency bands may be allocated to each of them.

As described above, according to the RFID tag issuing method according to the present invention, it is possible to simultaneously issue different RFID tags that encode various information or to mass-produce RFID tags that encode the same information.

In addition, in the present invention, when using a plurality of encoded frequency channels, an error that may occur when a plurality of RFID issuing modules use the same encoded frequency channel redundantly is eliminated. As an example of this, A flowchart of an embodiment for processing an overlap of an encoded frequency channel occurs in a tag issuing method.

The flowchart of FIG. 7 is performed during a process of searching an encoded frequency channel and determining an idle encoded frequency channel on the flowchart of FIG. 5, and the same process as in the embodiment of FIG. 5 is omitted I will explain.

The plurality of RFID issuing modules 200a, 200b,... 200n search for an encoding frequency channel in use (S110) and determine whether two or more RFID issuing modules are using the same encoding frequency channel (S120) If two or more RFID-issuing modules use the channel, the RFID tag may be interfered with due to the interference of the encoding frequency, thereby causing an error in the encoding of the RFID tag. Therefore, in order to prevent redundant use of the encoding frequency channel, And resets the assigned encoding frequency channel for the module (S125).

Then, the idle encoding frequency channel which is not in use is determined (S130), the two or more RFID issuing modules which are using the duplicated encoding frequency channel are selected (S210) and different idle encoding frequency panels are allocated again (S230) And reassigns the encoding frequency channel to the RFID issuing modules that are using the frequency channel.

Here, the determination of the redundant channel according to the encoding frequency channel search (S110) (S120) may be performed in real time or periodically with a predetermined time interval, and reallocation of the encoding frequency channel The encoding error of the RFID tag can be eliminated.

8 is a flow chart of an embodiment of encoding filtering of an RFID tag in the RFID tag issuing method according to an embodiment of the present invention. Respectively.

Since the embodiment of FIG. 8 is performed in step S310 of controlling the issuance of the RFID tag in the embodiment of FIG. 5 based on the embodiment of FIG. 5, it is repeated as in the embodiment of FIG. A description of the process will be omitted.

In the encoding of the RFID tag using the encoding frequency channel allocated by the selected RFID issuing module, a default of the RFID issuing module is set (S311). The default of the RFID issuing module is an output value of the encoded signal output to the RFID tag , An output time interval, and the like.

In step S313, the RFID-tag issuing module performs encoding of the RFID tag according to the set default, and determines whether the encoding is successful based on the encoded signal transmitted from the RFID tag. The plurality of RFID issuing modules are simultaneously driven The determination of the success or failure of the encoding of the RFID tag to be actually determined may not be accurately performed due to the encoding signal from the RFID tag encoded in the adjacent RFID issuing module. In order to solve such a problem, in the present invention, the RFID issuing module judges whether the encoding is successful by selecting an encoded signal of only an RFID tag to be actually judged in comparison with a reference value of an encoded signal received from the RFID tag. The issuing module compares the power value of the encoded signal transmitted from the encoded RFID tag with the reference value at step S315 and compares the gain value with the reference value at step S317 so that only the encoded signal when both the power value and the gain value become equal to or more than the reference value And determines whether or not the encoding is successful. If any one of the power value and the gain value does not reach the reference value, it is determined that the RFID tag is not the encoded signal to be actually judged. Also, among the plurality of received encoded signals, the power value and the gain value exceed the reference value. If there is no signal, it is determined that encoding failed and an encoding failure message (S319) is displayed.

9 shows a graph of an encoded signal transmitted from an RFID tag in which information is encoded according to an encoding process. When the RFID issuing module transmits an encoded signal transmitted from the RFID tag shown in FIG. 9 as a power value, a gain value Or both of them are compared with a reference value of a predetermined range to determine whether or not the encoding is successful.

In this manner, the reliability of the RFID tag issuance can be further improved by detecting the defective RFID tag and the RFID tag that generated the error through the encoding determination of the RFID tag.

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 of the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: central server,
110: encoding frequency channel searching unit, 130: encoding frequency channel allocating unit,
150: RFID tag issuance control section, 151: RFID issuance device control section,
155: RFID output control unit, 170: master communication unit,
200: RFID issuing device,
200a, 200b, ... 200n: RFID issuing module,
210, 210a, 210b, ... 210n: RFID encoding section,
211: encoding output adjustment unit, 215: encoding filtering unit,
230a, 230b, ... 230n: a slave communication unit,

Claims (10)

An RFID issuing device in which information is encoded in an RFID tag using a specific encoding frequency channel and a plurality of RFID issuing modules adjacent to each other to issue the RFID tag encoded with the information are provided in succession; And
A plurality of RFID issuing modules connected to the RFID issuing device by wired / wireless lines, each of the plurality of RFID issuing modules recognizing an encoding frequency channel being used and assigning different encoding frequency channels to each other, And a server. The method according to claim 1,
The central server comprises:
An encoding frequency channel search unit for searching for an idle encoding frequency channel by identifying an encoding frequency channel being used for each RFID issuing module of the RFID issuing device;
An encoding frequency channel assigning unit for selecting at least one of a plurality of RFID issuing modules of the RFID issuing device and allocating different idle encoding frequency channels to each of the selected one or more RFID issuing modules;
An RFID tag issuing control unit which controls the RFID issuing apparatus to encode information in an RFID tag and issue an RFID tag to which information is input; And
And a master communication unit for transmitting a control signal to each RFID issuing module of the RFID issuing device via wired / wireless communication,
Each of the RFID issuing modules of the RFID issuing device,
An RFID encoding unit encoding information in an RFID tag using an assigned encoding frequency channel; And
And a slave communication unit for receiving a control signal from the central server via wired / wireless communication. 3. The method of claim 2,
The RFID encoding unit of the RFID issue module,
An encoding output adjuster for adjusting an output signal when encoding the information in the RFID tag; And
And an encoding filtering unit for determining whether encoding of the RFID tag is successful comparing the encoding signal from the RFID tag according to the encoding of information to the RFID tag with a reference value. The method of claim 3,
The RFID tag issue control unit of the central server,
And an RFID output control unit for adjusting an output signal of the encoding output adjusting unit and setting a reference value for the encoding signal of the encoding filtering unit. Using an RFID encoding system including an RFID issuing device provided with a plurality of RFID issuing modules adjacent to each other for issuing RFID tags and a central server controlling the RFID issuing device,
A frequency channel determination step of determining an idle encoding frequency channel by searching an in-use encoding frequency channel of a plurality of RFID issuing modules;
A frequency channel allocation step of allocating different encoding frequency channels to at least one selected one of the plurality of RFID issuing modules; And
And an RFID tag issuing step of encoding the information in the RFID tag using the encoded frequency channel to which the selected RFID issuing module is assigned and issuing the RFID tag to which the information is inputted. 6. The method of claim 5,
Wherein the frequency channel determination step comprises:
An encoding frequency searching step of searching an in-use encoding frequency channel of the plurality of RFID issuing modules;
An encoding frequency channel duplication determining step of determining whether an encoding frequency channel being used by the RFID issuing module is duplicated; And
And an encoding frequency channel resetting step of resetting an in-use encoding frequency channel of the RFID issuing module according to the determination of whether the encoding frequency channel is duplicated. 6. The method of claim 5,
The RFID tag issuing step includes:
An encoding output signal adjusting step of adjusting an encoding output signal of the selected RFID issuing module;
An information encoding step of encoding information in an RFID tag using an encoding frequency channel allocated by the selected RFID issuing module; And
And outputting an RFID tag having information encoded therein. 6. The method of claim 5,
The RFID tag issuing step includes:
An information encoding step of encoding information in an RFID tag using an encoding frequency channel allocated by the selected RFID issuing module; And
Further comprising an encoding success determination step of determining whether encoding of the RFID tag is successful comparing an encoding signal transmitted from the encoded RFID tag with a reference value. 9. The method of claim 8,
In the encoding success determination step,
Setting a power value, a gain value, or a reference value for both of the encoded signals transmitted from the RFID tag to be encoded;
Determining whether an encoding signal transmitted from an RFID tag to be encoded exists against an encoding signal transmitted from an RFID tag to be determined, against the reference value;
Determining whether encoding is successful according to whether the encoding signal exists; And
And displaying an encoding message for the RFID tag according to whether the encoding is successful or not. 10. The method according to any one of claims 5 to 9,
Further comprising an encoding frequency channel setting step of setting each of the divided frequency bands as an encoding frequency channel by dividing the pre-allocated frequency band range at a predetermined interval based on the number of the RFID issuing modules .

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