KR100745659B1 - Apparatus and manufacture method for transparency RFID tag - Google Patents

Abstract

The present invention provides a transparent RFID tag device and a method for manufacturing the same, RFID chip for storing and managing information used in the RFID technology; By supporting the RFID chip, performing the transmission and reception of the RF signal, and a transparent support formed transparently, by manufacturing a RFID tag that can have transparency in the visible light region by attaching the RFID tag to the product RFID It is possible to manage the distribution system of the product without the tag appearing in the product.

RFID, RFID tag, polymer compound, transparent insulating film, transparent conductive film, surface treatment, plasma cleaning

Description

Transparent RFID tag device and its manufacturing method {Apparatus and manufacture method for transparency RFID tag}

1 is a plan view of a conventional RFID tag.

FIG. 2 is a front view of the RFID tag in FIG. 1.

3 is a block diagram of a conventional RFID tag device.

4 is a plan view of a transparent RFID device according to an embodiment of the present invention.

5 is a cross-sectional view of the transparent RFID device in FIG.

6 is a block diagram of a transparent RFID device according to another embodiment of the present invention.

7 is a flowchart illustrating a method of manufacturing a transparent RFID device according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: Transparent RFID Tag

110: RFID Chip

120: transparent support

121: transparent substrate

122: antenna

130: transparent insulating film

200: reader

300: control unit

The present invention relates to a transparent radio frequency identification (RFID) tag device and a method of manufacturing the same, and in particular, an RFID tag that can have transparency in the visible light region is manufactured so that the RFID tag is not exposed to the product even when the RFID tag is attached to the product. The present invention relates to a transparent RFID tag device suitable for managing a distribution system of a product in a state and a manufacturing method thereof.

In general, USN (Ubiquitous Sensor Network) technology refers to a micro wireless device is embedded in a variety of sensors to configure the network autonomously between the sensors to enable information distribution and advanced services over the air. And RFID technology is a key technology element of ubiquitous computing.In addition to the IT (Information & Communication Technology) industry, public sectors such as defense, procurement, construction, transportation, medical, logistics, distribution, manufacturing, and service It is recognized as an important industry that can change not only the existing industrial structure but also the human way of life by having the greatest influence over the entire industry.

The RFID technology is one of the non-contact recognition technologies that identify objects using RF (Radio Frequency) signals for each frequency band, and can be said to be an advanced recognition system when compared with existing recognition systems such as one-to-many recognition. . Therefore, the RFID tag device reads the data embedded in the RFID chip of the RFID tag at the request of the reader and performs data recognition.

1 is a plan view of a conventional RFID tag, Figure 2 is a front view of the RFID tag in Figure 1, Figure 3 is a block diagram of a conventional RFID tag device.

Where reference numeral 10 is an RFID tag, 11 is an RFID chip, 12 is an opaque support, 13 is an opaque substrate, 14 is an antenna, 15 is an opaque insulating film, 20 is a reader, and 30 is a computer.

The RFID tag 10 is thus composed of an RFID chip 11 and an opaque support 12. The opaque support 12 is composed of an opaque substrate 13 and an antenna 14. In addition, the RFID tag 10 includes an opaque insulating film 15.

And the RFID tag apparatus is comprised from the RFID tag 10, the interrogator 20, and the computer 30 like FIG.

In addition, RFID is a technology for non-contact recognition of people, vehicles, goods, transportation cards, etc. In general, a passive tag system that is widely used, the reader 20 transmits an RF carrier signal to the RFID tag 10 In response to the RF signal, the RFID tag 10 modulates amplitude or phase to return the data stored in the RFID tag 10 to the reader 20 as a carrier frequency signal (backscatter), and the received modulated signal is read back to the reader 20. The basic principle is that the tag information is decrypted at.

The RFID tag 10 is classified into three types of read-only, write once read many (WORM), and read / write tags according to read / write capabilities. Read-only tags are programmed at the factory and cannot be altered. However, it is mainly used in the field of RFID which requires low price due to low price. WORM tags can be programmed by the user and cannot be changed after programming. Read / Write tag is a structure that can change program and data again and again.

In addition, according to the presence of the signal oscillator on the RFID tag is classified into an active type or a passive type, but the classification method of the negotiation is classified into an active type that requires a power source and a passive type that does not require a power source according to whether there is a power source of the tag. Therefore, the passive type that does not generally use a power source is capable of short range communication of around 1m, but recently, the introduction of the UHF (Ultra High Frequency) band enables 5 to 8m depending on the output. In addition, its price is low and its lifetime is semipermanent (about 10 years or more), so it is used a lot. The active method using the power source has the disadvantage of remote communication of several meters, but the tag price is high and the service life is limited depending on the power supply life.

The reader 20 is usually connected to and operated by the computer 30, and controls the RFID tag 10 by operating software mounted on the computer 30 according to an application purpose.

In addition, the RFID tag 10 includes an opaque support part 12 including an opaque substrate 13 and an antenna 14 and an opaque insulating film 15. The opaque support part 12 is attached to a product or the like to form an RFID chip ( 11) RFID technology can be used together.

However, the conventional technology is that the RFID tag is made of an opaque material, so that when the RFID tag is attached to the product, the user stands out. Accordingly, the product cannot be properly used in a product such as glass or where security is required. There was a problem that hurts.

That is, conventionally, when forming an antenna, a thin copper film lead is used, and an insulating film is coated on the thin copper film lead to be made in a sticker-like form so as to be easily attached to a product. At this time, the copper and the insulating film itself, which is a conductor, are opaque, which makes it impossible to use the product for the purpose of transparency or glass.

In addition, most of the bulky products have a unique color, and attaching an opaque RFID tag to each product impairs the aesthetics of the product and increases the probability of damage by allowing the user to know the position of the RFID tag clearly. do.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to manufacture an RFID tag which can have transparency in the visible light region and to attach the RFID tag to a product. The present invention provides a transparent RFID tag device and a method of manufacturing the same, which can manage a distribution system of a product without being revealed.

In order to achieve the above object, a transparent RFID tag device according to an embodiment of the present invention,

An RFID chip for storing and managing information used for RFID technology; It is characterized in that the technical configuration, including; the RFID chip, to perform the transmission and reception of the RF signal, and a transparent support formed to be transparent.

In order to achieve the above object, a manufacturing method of a transparent RFID tag device according to an embodiment of the present invention,

Forming a transparent support by forming an antenna pattern on the transparent substrate; And a second step of coupling the transparent support to the RFID chip by performing a heat treatment after the first step.

Hereinafter, an embodiment according to the present invention as described above, a transparent RFID tag device and a manufacturing method thereof will be described with reference to the accompanying drawings.

4 is a plan view of a transparent RFID device according to an embodiment of the present invention, Figure 5 is a cross-sectional view of the transparent RFID device in Figure 4, Figure 6 is a block diagram of a transparent RFID device according to another embodiment of the present invention. .

As shown therein, an RFID chip 110 for storing and managing information used in RFID technology; The transparent RFID tag 100 may be configured to support the RFID chip 110, to transmit and receive an RF signal, and to form a transparent support 120 formed to be transparent.

The transparent support part 120 may include: a transparent substrate 121 supporting the RFID chip 110 and made of a transparent material; And an antenna 122 connected to the RFID chip 110 to transmit and receive an RF signal.

The transparent substrate 121 is characterized in that at least one of a polymer, glass, plastic, ceramic.

The antenna 122 is characterized in that the antenna pattern is formed by coating a transparent conductive film to transmit and receive the RF signal.

In the transparent conductive film, at least one of indium tin oxide (ITO) and zinc oxide (ZnO) is used.

The transparent RFID tag 100 may further include a transparent insulating film 130 having a transparent insulating film formed thereon to protect the RFID chip 110.

The transparent insulating layer 130 may include alumina (Al ₂ O ₃ ), titanium dioxide (TiO ₂ ), silicon dioxide (SiO ₂ ), strontium titanate (SrTiO ₃ , STO), parylene, and teflon. It is characterized by using one or more of the.

In the transparent RFID device, the transparent RFID tag 100 further comprises a reader 200 for performing wireless communication with the.

The transparent RFID device further includes a control unit 300 connected to the reading unit 200 to control the RFID tag 100.

7 is a flowchart illustrating a method of manufacturing a transparent RFID device according to an embodiment of the present invention.

As shown therein, a first step (ST10 to ST30) of forming the transparent support 120 by forming an antenna pattern on a transparent substrate; A second step (ST40, ST50) of coupling the transparent support part 120 with the RFID chip 110 by performing heat treatment after the first step; To perform, including.

The first step may include performing surface modification using a plasma or an electron beam on the transparent substrate 121 constituting the transparent support 120 in a vacuum chamber (ST10); Coating a transparent conductive film on the transparent substrate (121) (ST20); And forming an antenna pattern on the transparent substrate 121 (ST30).

In the first step, the transparent substrate 121 is characterized by using at least one of polymer, glass, plastic, ceramic.

In the first step, the transparent conductive film is characterized in that at least one of indium tin oxide and zinc oxide is used.

The method of manufacturing the transparent RFID device may further include a third step ST60 of forming the transparent insulating layer 130 after the second step.

In the third step, the transparent insulating layer 130 is characterized by using at least one of alumina, titanium dioxide, silicon dioxide, strontium titanate, parylene, and teflon.

The manufacturing method of the transparent RFID device further includes a fourth step (ST70) of performing a post-heat treatment after the third step.

The operation of the transparent RFID tag device and its manufacturing method according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, the present invention is to provide a transparent RFID tag and its manufacturing method. Thus, unlike the conventional RFID tag, except for the minute RFID chip portion, the present invention forms an antenna pattern made of a material that can transmit visible light, so that even if the transparent RFID tag 100 is attached or not at all, the producer It is intended to be easy to use by integrating the product into the product so that it is not exposed to the product, so that the supply chain management (SCM) of the product can be managed.

In the present invention, physically making the RFID tag completely transparent is difficult due to the RFID chip, but the visible portion of the RFID tag through the transparent conductive film and the transparent insulating film processing using the thin film coating technology supports the majority of the area. We want to have transparency in the area.

This invention will be described in detail with reference to FIGS. 4 to 6.

Therefore, the transparent RFID tag 100 is composed of the RFID chip 110 and the transparent support 120.

The RFID chip 110 stores and manages information used for RFID technology, and records the unique information of the tag.

The transparent support unit 120 supports the RFID chip 110, transmits and receives an RF signal, and is formed to be transparent.

The transparent support part 120 may be configured of a transparent substrate 121 and an antenna 122.

The transparent substrate 121 is made of a transparent material such as polymer, glass, plastic, or ceramic.

In addition, the antenna 122 is connected to the RFID chip 110 to perform the transmission and reception of the RF signal, such an antenna 122 to form an antenna pattern by coating a transparent conductive film to perform the transmission and reception of the RF signal. . In this case, indium tin oxide, zinc oxide, or the like may be used as the transparent conductive film. The antenna 122 may be configured using a transparent material. Alternatively, an opaque material such as a thin copper film conductor may be used.

The transparent support 120 may include a transparent substrate 121 and an antenna 122, or may be configured to be connected to the RFID chip 110 by forming a transparent support 120 only by the antenna itself. have.

As described above, the transparent RFID chip 100 may include only the RFID chip 110 and the transparent support part 120. In addition, the transparent RFID chip 100 may include the transparent insulating film 130.

The transparent insulating film 130 is to form a transparent insulating film to protect the RFID chip 110, which may be used a material such as alumina, titanium dioxide, silicon dioxide, strontium titanate, paraline, Teflon.

Therefore, the transparent support part 120 and the transparent insulating film 130 are thin-filmed, so that even a product such as glass or a place where security is required can be easily used without harming the aesthetics of the product.

In addition, the present invention may be configured such that the reader 200 is connected to the transparent RFID tag 100. The reading unit 200 performs wireless communication with the transparent RFID tag 100.

Thus, in the transparent support unit 120, the antenna 122 supplies power to the RFID chip 110 in a back scattering method in which an electric field is applied from the readout unit 200, and the information from the RFID chip 110 is again provided. It will be delivered to the reading unit 200.

In addition, the present invention may be configured to further include a control unit 300, the control unit 300 is connected to the reading unit 200 to control the RFID tag 100, it is possible to use a device such as a computer have.

7 is a flowchart illustrating a method of manufacturing a transparent RFID device according to an embodiment of the present invention.

First, in the first step, an antenna pattern is formed on a transparent substrate to form the transparent support part 120.

In this case, the transparent support part 120 may include the transparent substrate 121 and the antenna 122 together, or may constitute the transparent support part 120 only by the antenna 122.

Therefore, when the transparent support unit 120 including the transparent substrate 121 and the antenna 122 is configured, first, surface modification using a plasma or an electron beam is performed on the transparent substrate 121. In this case, the surface modification using the plasma or the electron beam is for removing foreign substances and improving adhesion to the transparent substrate 121, and it is preferable to perform the surface modification in a vacuum chamber. At this time, the surface modification process conditions vary depending on the material of the transparent substrate 121 (ST10).

Then, a transparent conductive film is coated on the transparent substrate 121 made of a material such as polymer, glass, plastic, ceramic, which has been surface modified. In this case, indium tin oxide, zinc oxide, or the like may be used as the transparent conductive film (ST20).

Then, an antenna pattern to be placed on the RFID chip 110 is formed through a photo-lithography process and an etching process (ST30).

In addition, in the second step, the heat treatment is performed to couple the transparent support 120 and the RFID chip 110.

Here, annealing is performed to improve physical properties of the patterned conductive film. This heat treatment is performed at a temperature of 300 degrees or more in a suitable gas condition in the vacuum chamber (ST40).

In addition, a die-bonding operation between the transparent support 120 including the antenna 122 and the RFID chip 110 is performed (ST50).

Through this process, the transparent RFID chip 100 can be configured.

In addition, the transparent RFID chip 100 including the transparent insulating layer 130 may be formed by performing the third and fourth steps of performing the post-heat treatment after forming the transparent insulating layer 130. The transparent insulating layer 130 serves as a capping layer for protecting the RFID chip 100, which may be made of alumina, titanium dioxide, silicon dioxide, strontium titanate, paraline, or teflon.

Therefore, surface modification using plasma or electron beam is performed in the vacuum chamber to remove foreign substances and improve adhesion, and then a transparent insulating layer 130 is formed on the transparent support 110 (ST60).

In addition, the post-annealing process is performed in the vacuum chamber to improve the physical properties of the transparent insulating film 130 to complete the manufacture of the transparent RFID tag 100 (ST70).

At this time, the post-heat treatment of the fourth step may be omitted depending on the insulating material.

In addition, it is also possible to produce a uniform transparent color such as yellow, red, etc. to the completed transparent RFID (100).

When the completed transparent RFID tag 100 is used, the transparent RFID tag 100 can be suitably used for distribution management of a product that needs to maintain transparency or its own color, such as glass furniture. In addition, it can be used for vehicle glass, and can be used for parking lot (parking management), and can be used even where security is required such as glass windows.

As described above, the present invention manages the distribution system of the product in a state in which the RFID tag is manufactured to have transparency in the visible light region and the RFID tag is not exposed to the product even when the RFID tag is attached to the product.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Therefore, the above description does not limit the scope of the invention defined by the limitations of the following claims.

As described above, the transparent RFID tag device and the method of manufacturing the same according to the present invention manufacture an RFID tag which can have transparency in the visible light region, and the RFID tag is not exposed to the product even when the RFID tag is attached to the product. It will be effective to manage the distribution system of the product.

Therefore, the present invention constitutes an antenna pattern made of a material that can transmit visible light, except for a minute RFID chip portion, and is integrated in a product so that the transparent RFID tag 100 is not noticeable or the producer is not exposed to the product at all. In this way, the distribution system of the product can be managed to facilitate the use.

In addition, the present invention can be appropriately used for the distribution management of products that need to maintain transparency or its own color, such as glass furniture, using the transparent RFID tag 100. In addition, it can be used for vehicle glass, and can be used for parking lot (parking management), and can be used even where security is required such as glass windows.

In addition, the present invention can be used to maintain the color of the product as it is using the transparent RFID tag 100, less noticeable damage is less likely to be more effectively carried out the distribution and management of the product.

For example, if the transparent RFID tag 100 is attached to the front and rear glass of the car or integrated in the production of the front and rear glass of the car, it may be applied to not only the distribution management of the product but also the parking control. When the 900MHz RFID tag is inside the car, it is not easily recognized because it is covered by automobile parts such as steel, and when the transparent RFID tag 100 is attached to the glass on the front or the rear, the recognition rate is greatly improved, thereby managing the car commuter pass or parking. It can also be used for induction control.

In addition, by attaching or integrating the transparent RFID tag 100 on a glass window of a home or office, the distribution management of the product becomes smooth, and it can be seen that the chip is a thief when constructing a security system using the reading unit 200. It also works.

It can also be used for distribution management and A / S management of refrigerators, TVs, furniture, and the like.

Claims (16)

An RFID chip for storing and managing information used for RFID technology; A transparent support for supporting the RFID chip, transmitting and receiving RF signals, and transparently formed; Transparent RFID tag device comprising a transparent insulating film having a transparent insulating film is formed to protect the RFID chip. The method according to claim 1, wherein the transparent support portion, A transparent substrate supporting the RFID chip and made of a transparent material; And an antenna connected to the RFID chip to transmit and receive an RF signal. The method according to claim 2, wherein the transparent substrate, Transparent RFID tag device, characterized in that using at least one of polymer, glass, plastic, ceramic. The method according to claim 2, wherein the antenna, Transparent RFID tag device, characterized in that to form an antenna pattern by coating a transparent conductive film to transmit and receive the RF signal. The method according to claim 4, wherein the transparent conductive film, A transparent RFID tag device, wherein at least one of indium tin oxide and zinc oxide is used. delete The method according to claim 1, wherein the transparent insulating film, A transparent RFID tag device using at least one of alumina, titanium dioxide, silicon dioxide, strontium titanate, parylene, and teflon. The transparent RFID device according to any one of claims 1, 2, 3, 4, 5, and 7, And a reader configured to perform wireless communication with the transparent RFID tag. The method according to claim 8, wherein the transparent RFID device, And a control unit connected to the reading unit to control the RFID tag. In order to form an antenna pattern on the transparent substrate to form a transparent support, a process of performing a surface modification using a plasma or an electron beam on the transparent substrate constituting the transparent support in a vacuum chamber, and coating a transparent conductive film on the transparent substrate And a step of forming an antenna pattern on the transparent substrate; A second step of coupling the transparent support and the RFID chip by performing a heat treatment after the first step; Method of manufacturing a transparent RFID tag device, characterized in that performed. delete The method of claim 10, wherein the transparent substrate in the first step, A method of manufacturing a transparent RFID tag device, characterized in that at least one of polymer, glass, plastic, and ceramic is used. The method of claim 10, wherein the transparent conductive film in the first step, A method for manufacturing a transparent RFID tag device, characterized in that at least one of indium tin oxide and zinc oxide is used. The method of manufacturing the transparent RFID device according to any one of claims 10, 12, and 13, And a third step of forming a transparent insulating film after the second step. The method according to claim 14, wherein the transparent insulating film in the third step, A method for manufacturing a transparent RFID tag device, characterized in that at least one of alumina, titanium dioxide, silicon dioxide, strontium titanate, parylene, and teflon is used. The method according to claim 14, The manufacturing method of the transparent RFID device, And a fourth step of performing post-heat treatment after the third step.

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