CN111178482A - Multilayer component integrated radio frequency electronic tag system - Google Patents

Abstract

The invention discloses a multilayer component integrated radio frequency electronic tag which is characterized by comprising a tag chip, a coupling antenna, a connecting lead and a packaging material, wherein the tag chip is connected with the coupling antenna through the connecting lead, and the tag chip, the coupling antenna and the connecting lead are combined into a flat strip-shaped integrated structure through the packaging material; the RFID tag is characterized in that the RFID tag can be combined with a target object with a multilayer component, the target object with the multilayer component at least has a connecting layer, a through hole is formed in the connecting layer, the RFID tag with the flat strip structure can pass through the through hole, a tag chip is arranged below the connecting layer, and a coupling antenna is arranged above the connecting layer, so that the RFID tag is embedded in the target object with the multilayer component. The electronic tag structure effectively plays a role in preventing tearing and breaking, has a good anti-counterfeiting protection effect on a target object with a multilayer component, and can damage the structure of the tag if the tag is forcibly torn off, so that the tag loses the basic function, and the electronic tag is prevented from being repeatedly used after being torn off.

Description

Multilayer component integrated radio frequency electronic tag system

Technical Field

The invention relates to a radio frequency electronic tag, in particular to a novel anti-dismantling, anti-tearing, anti-breaking and anti-counterfeiting radio frequency electronic tag system which can connect multi-layer components of single products into a whole or can connect a plurality of single products into a combined body.

Background

Common radio frequency electronic tags include RFID and NFC, namely, radio frequency identification, which is a non-contact automatic identification technology, and can automatically identify a target object through a radio frequency signal, so as to quickly perform item tracking and data exchange. The identification work does not need manual intervention and can work in various severe environments. The radio frequency electronic tag technology can identify high-speed moving objects and can identify a plurality of tags simultaneously, and the operation is fast and convenient. RFID and NFC are also known as "electronic tags" or "radio frequency tags".

One, the most basic electronic label system consists of three parts:

label (Tag): the tag comprises a coupling element and a chip, wherein each tag has a unique electronic code and is attached to an object to identify a target object;

reader (Reader): the device for reading (sometimes writing) the label information can be designed to be handheld or fixed;

antenna (Antenna): radio frequency signals are communicated between the tag and the reader.

Secondly, the basic workflow of the electronic tag is introduced as follows:

1. the electronic tag reader transmits the radio carrier signal to the outside through the transmitting antenna.

2. When the electronic tag enters the working area of the transmitting antenna, the electronic tag is activated and transmits the code of the self information out through the antenna.

3. And the antenna of the electronic tag receives the carrier signal sent by the electronic tag and transmits the carrier signal to the electronic tag reader-writer through the regulator of the antenna. The reader demodulates and decodes the received signal and sends the demodulated signal to the background computer control system.

4. The computer control system judges the legality of the electronic tag according to the logic operation, performs corresponding processing and control aiming at different settings, and sends out instruction signals to control the action of the execution mechanism.

5. The execution mechanism acts according to instructions of the computer system.

6. All monitoring points are connected through a computer communication network to form a master control information platform, and different software is designed according to different projects to complete the functions to be realized.

The existing anti-tearing electronic tag is mostly attached to the surface of the outer layer of an article in a flat mode, or is simply internally packaged in an outer layer member, and cannot be bent or a plurality of members are arranged in layers, otherwise, the reading success rate is influenced due to the damage or shielding of an antenna, when an electronic tag system is intact, the electronic tag can be used for identification and marking, but if one product is composed of a plurality of layers of members, the outer layer member attached to the electronic tag can be manually detached, and is reconnected with other members for combination and recycling, so that the electronic tag can be illegally used, and the adverse consequences such as counterfeit goods, disordered data, inaccurate statistical information, ineffective anti-counterfeiting and the like can be caused.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a novel anti-dismantling, anti-tearing, anti-breaking and anti-counterfeiting radio frequency electronic tag system which integrates multiple layers of components.

The invention relates to a multilayer component integrated radio frequency electronic tag system, which is provided with a tag chip, a coupling antenna, a connecting lead and a packaging material, wherein the tag chip is connected with the coupling antenna through the connecting lead, and the tag chip, the coupling antenna and the connecting lead are combined into a flat strip-shaped integrated structure through the packaging material; the RFID tag is characterized in that the RFID tag can be combined with a target object with a multilayer component, the target object with the multilayer component at least has a connecting layer, the multilayer components are mutually attached, the attaching surface is plane or arc, a through hole is formed in the connecting layer, the RFID tag with the flat strip-shaped structure can pass through the through hole, a tag chip is arranged below the connecting layer, and a coupling antenna is arranged above the connecting layer, so that the RFID tag is embedded in the target object with the multilayer component.

Furthermore, the tag chip of the radio frequency electronic tag is located in the center of the bar-shaped structure, the antennas are distributed at two ends of the bar-shaped structure, two through grooves are formed in the connecting layer, and the radio frequency electronic tag penetrates through one through groove and penetrates out of the other through groove.

Further, the multilayer component of the target object comprises a connecting layer, a protective layer located above the connecting layer and a bottom located below the connecting layer, a tag chip of the radio frequency electronic tag is located between the connecting layer and the bottom, the coupling antenna is located between the protective layer and the connecting layer, and a connecting lead penetrates through a through groove of the connecting layer to be connected with the coupling antenna and the tag chip respectively.

Furthermore, the connecting lead is made of a tough conductive wire which is not easy to break, so that the multilayer component integrated radio frequency electronic tag can be bent at the part of the connecting lead, the scanning and reading success rate of the tag is not influenced, the packaging material is a double-sided adhesive tape packaging material, and the upper surface and the lower surface of the double-sided adhesive tape packaging material are covered with films and protected by the protective film before the radio frequency electronic tag is embedded with the multilayer component.

Further, the through groove may be vertical or inclined with respect to the upper and lower surfaces of the connection layer, so that the rf electronic tag may be in a shape of a Chinese character ' ao ', a dovetail ', or a trapezoid when viewed from the side after mounting.

Furthermore, the connecting wire and the coupling antenna are integrated, so that the connecting wire has the functions of both the wire and the antenna, and the receiving range of the antenna is expanded.

Further, the connection layer itself may have a plurality of layers, and the through grooves of the respective layers are communicated as a straight line.

Furthermore, the connecting layer can be provided with a plurality of layers, and the through grooves of the layers are mutually staggered and communicated to form a fold line groove, so that the connecting lead is of a multi-layer fold line structure.

Further, for a target product with a plurality of separated parts, a channel for the radio frequency electronic tag to pass through is arranged on one or more parts serving as a connecting layer, and the parts of the target product can be adhered to form a disassembly-preventing body by using one radio frequency electronic tag.

Furthermore, the component can be a component in a single product, or a single product can be used as a single-layer component, a through groove is processed on the product or an outer package of the product, and then a plurality of products are connected into a disassembly-proof body in a multi-layer component form by using the radio frequency electronic tag.

Further, the outer protective layer that antenna reading can not be influenced in the outer subsides antenna part of connecting layer, and waterproof, dampproofing, abrasionproof damage, the anti-aging protection paster of adopting the thin matter material of ya keli as electronic tags is preferred to the adoption of protective layer, radio frequency electronic tags will destroy electronic tags inner structure under the condition of demolishd protective layer or connecting layer, leads to radio frequency electronic tags can not be used repeatedly by removing on other article, has anti-fake security.

The radio frequency electronic tag of the invention is improved by the structure:

the appearance and the structure of the electronic tag are similar to those of a medical band-aid, and the electronic tag can be bent or folded at a certain angle at a lead part of the tag without influencing the scanning and reading success rate of the tag;

due to the characteristics of tearing resistance and flexibility, a plurality of parts of the anti-counterfeiting target product can be connected into an anti-dismantling body by one label through double-sided adhesive;

the intermediate parts of the target product require through grooves to be machined so that the label passes through these grooves to adhere the outer and middle parts together.

The multi-layer member integrated radio frequency electronic tag effectively plays a role in preventing tearing and breaking, and if the tag is forcibly torn off, the structure of the tag is necessarily damaged, so that the tag loses the basic function, and the hidden danger caused by repeated utilization of the electronic tag after being torn off is avoided.

Drawings

FIGS. 1 and 2 are top views of radio frequency tags;

FIG. 3 is an exploded view of the integrated RF tag system;

FIG. 4 is a schematic diagram of an electronic tag in a multi-layer integrated RF electronic tag system;

FIG. 5 is a top view of a connection layer of the multi-layer integrated RF electronic tag;

FIG. 6 is a schematic view of an integrated RF electronic alternative for a multi-layer structure;

fig. 7 and 8 show other modified embodiments of the multilayer component integrated rf electronic tag structure shown in fig. 1.

FIG. 9 is a schematic view of another embodiment of a multi-layer integrated RF electronic tag;

fig. 10 is a schematic structural diagram of another embodiment of the multilayer component integrated radio frequency electronic tag.

Description of reference numerals:

100. a radio frequency electronic tag; 200. a target item; 1. a coupled antenna; 2. a tag chip; 3. connecting a lead; 4. packaging materials; 5. a connecting layer; 6. a protective layer; 7. a bottom; 8. and a through groove.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

For ease of description, spatially relative terms, such as "upper," "lower," "left," "right," and the like, may be used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatial terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "lower" can encompass both an upper and a lower orientation. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Fig. 1 to 5 show a mounting structure according to a first preferred embodiment of the present application, a multi-layer integrated rf electronic tag system according to the present invention, wherein the rf electronic tag 100 is constructed as shown in fig. 1, and includes a tag chip 2, a coupling antenna 1, a flexible connecting wire 3, and a double-sided tape packaging material 4, the tag chip 2 and the coupling antenna 1 are connected by the connecting wire 3, and the connecting wire 3 is made of a flexible conductive wire that is not easily broken. The chip 2, the antenna 1 and the connecting lead 3 are packaged into a flat strip-shaped structure by the double-sided adhesive tape packaging material 4, the packaged radio frequency electronic tag is similar to a band-aid, the double-sided adhesive tape packaging material 4 is a flexible film with double-sided adhesive tapes, can be a plastic film, and can also be made of other materials such as fiber materials or textile materials.

Similar to the adhesive layer design of the band-aid, the upper and lower surfaces of the double-sided adhesive packaging material are covered with protective films, and when the double-sided adhesive packaging material is used, the protective films on the upper and lower surfaces are torn off to leak out of the adhesive layer, so that the double-sided adhesive packaging material can be bonded with a target object of the multilayer component.

As a novel anti-tearing and anti-breaking radio frequency electronic tag, a tag IC chip is arranged in the radio frequency electronic tag, a unique identification code is stored in the IC chip, and a coupling antenna is connected with the IC chip in the radio frequency electronic tag. When the reader reads the electronic tag, the reader sends electromagnetic waves to the electronic tag, and the electromagnetic waves also contain a command for requiring the electronic tag to send back the stored codes. The coil of the antenna in the electronic tag converts electromagnetic waves into voltage for the IC chip to work, and after the IC chip receives the command, the code is sent to the reader through the antenna coil.

The chip of the radio frequency electronic tag with the flat strip structure is arranged in the middle, the antennas are arranged at two ends, and the antennas at the left end and the right end are respectively connected with the chip in the middle through the connecting wires at the left side and the right side. Since the connecting wires are made of flexible and bendable materials, the rf electronic tag of the present invention can be bent according to the structure of the target object (the bending form of the rf electronic tag is shown in fig. 2).

The coupling antenna 1 and the connecting wire 3 can be made of the same material and be integrated, so that the connecting wire 3 has the functions of both the wire and the antenna. The coupling antenna 1 may be formed as a coil, a metal film or a metal thin plate, and the connecting wire 3 may be formed as a common wire or a metal film or a metal thin plate having the same structure as the coupling antenna 1. When the connection lead 3 has the same structure as the coupling antenna, it has both functions of a lead and an antenna, and the coupling antenna has a higher receiving capability.

As shown in fig. 3, fig. 3 is an exploded view illustrating the electronic tag 100 mounted on the target article 200. The target object 200 is a structure having layered components, and has at least a connection layer 5, a protection layer 6, and a bottom 7, which are mutually fitted with the radio frequency electronic tag 100. The protective layer 6 is located above the connection layer 5 and the bottom 7 is located below the connection layer 5. Two through grooves 8 are formed in the connecting layer 5, when the radio frequency electronic tag is installed, after upper and lower protective films on the double-sided adhesive tape packaging material are torn off, one end of the electronic tag penetrates through one through groove 8 and then penetrates out of the other through groove 8, so that the part of the chip 2 located at the center of the electronic tag strip-shaped structure is arranged in the middle of the two through grooves 8 in the lower surface of the connecting layer 5 and is fixedly bonded, the parts of the antennas 1 at the two ends respectively extend out of the through grooves 8 and are laid on the upper surface of the connecting layer 5, and the radio frequency electronic tag 100 and the connecting layer 5 of the target object 200 are integrally embedded through the double-sided adhesive tape packaging material 4. The target article 200 is any article that needs to be provided with an anti-counterfeit electronic tag, and the target article 200 is a layered component at least having a connecting layer 5. The target article 200 is preferably a multi-layer member.

After the electronic tag 100 is combined with the target article 200, the electronic tag is adhesively connected with the connecting layer 5, the protective layer 6 and the bottom 7 through the double-sided adhesive tape sealing material 4. The connecting layer 5 is used for forming a mosaic structure with the electronic tag 100, the protective layer 6 is used for protecting the antenna 1 exposed on the upper surface of the connecting layer 5, the outer attaching antenna part of the connecting layer can cover the protective layer which does not influence the reading of the antenna, and the protective layer preferably adopts thin materials such as acrylic and the like as waterproof, damp-proof, wear-resistant and anti-aging protective patches of the electronic tag. The protective layer may also be made of other materials that do not affect the receiving function of the antenna. The bottom 7 mainly serves to form a space for accommodating the chip 2 of the electronic tag 100 with the connection layer 5, and the bottom 7 may be a layered component or any part of the target article 200. After the electronic tag 100 is mounted, the electronic tag 100 and the target article 200 are embedded into a non-detachable integral structure due to the adhesive effect of the double-sided adhesive tape sealing material 4, and once the connecting layer 5 and the target article 200 are separated, the electronic tag is damaged and cannot be used, so that the electronic tag with the structure cannot be moved to other articles to be reused, and the anti-counterfeiting effect is very high.

Of course, besides the double-sided tape sealing material 4 of the electronic tag 100 itself, the multi-layer member of the target object may be reinforced by other connecting and fixing methods, for example, the connecting layer 5 and the bottom 7 may be connected and fixed by other general technical means such as adhesion, screw connection, and the like.

Fig. 4 shows a state in which the electronic tag 100 is attached to a target article 200 having a multilayer structure, and the electronic tag 100 has a bent shape at a connecting wire position, and antennas at both ends extend in the left-right direction, respectively, so that the antenna receiving range is expanded as much as possible. The electronic tag 100 is recessed downward in the position of the central chip 2 as viewed from the side, so that the chip 2 and the antenna 1 are located on different layers.

Fig. 5 shows a configuration of the connection layer 5 of the target article 200, which has two through grooves 8 parallel to each other for passing and fitting the flat strip-shaped electronic tag 100. The passage direction of the through groove 8 is perpendicular to the upper and lower surfaces of the connection layer. The length of the electronic tag 100 may be adjusted to fit the layered structure of the target article 200 according to the thickness of the connection layer 5 of the target article 200 or the distance between the two through-grooves 8.

As various alternatives, as shown in fig. 6 to 10, the through slot 8 has an inclination angle with respect to the upper and lower surfaces of the connection layer 5 as viewed in the side view direction, and may be inclined at an acute angle, so that the electronic tag as a whole has a dovetail shape, and the inclination angle is 30 to 60 degrees, and preferably 45 degrees.

Or may be inclined at an obtuse angle, so that the electronic tag 100 is overall trapezoidal, and the inclined angle is 120-150 degrees, preferably 135 degrees.

The tag chip 2, the coupling antenna 1 and the connecting wire 3 of the electronic tag 100 are fixedly connected with the article, so that the electronic tag and the article form an integral structure which is mutually embedded, once the electronic tag is installed and fixed, the electronic tag is difficult to separate from the article, and the purpose of safe use is achieved. Even if someone tries to tear or tear the protective layer of article down and carry out the transfer of electronic tags, also can be because the setting of label chip is unable to follow the removal together in the below of articulamentum 5 and destroyed electronic tags's overall structure, fundamentally has stopped the electronic tags security problem who has multilayer structure article.

Due to the structure, even if the multilayer article is a flexible article, the connecting lead 3 of the electronic tag is made of a tough conductive wire which is not easy to break, has certain flexibility and can move along, and therefore, the electronic tag has the function of preventing breakage.

Further, selection of each layer and angle setting of the connecting wire may be made according to the configuration and characteristics of the target commodity, and the connecting wire 3 may have various modified embodiments of the inclination direction. In addition, the connecting wire 3 may have a straight structure, a thin plate structure, an arc structure, a spiral structure, or other structures.

Fig. 9 shows a schematic diagram of a target article 200 having a multilayer structure with more than 3 layers, in which the multilayer structure in this embodiment has five layers, in order to improve the security of the electronic tag, in this case, the outermost layer is used as a protective layer 6, the innermost layer is used as a bottom layer 7, all the intermediate layers 5.1,5.2 and 5.3 can be used as a connecting layer 5, through grooves 8 are formed in all the intermediate layers 5.1,5.2 and 5.3, the through grooves 8 of each layer can be formed in a straight line shape by penetrating, or can be staggered from each other so that the electronic tag mounted inside is in a multilayer zigzag shape (as shown in fig. 10) or in a multilayer step shape, which is advantageous in that the adhesive effect of the double-sided adhesive sealing material of the electronic tag can be fully utilized to achieve the adhesive effect between the layers. The design is suitable for a more complex multi-layer product structure, and the use safety of the design is stronger.

In the case of a connecting layer having a plurality of layer elements (e.g. 5.1,5.2, 5.3), it is preferable that the through-slots of the respective layer elements are offset from each other, or the through-slots of the respective layer elements are offset from each other and inclined, so that the electronic tag to be internally mounted is formed into a multi-layer broken line or step shape, and the double-sided adhesive tape sealing material of the broken line or step portion bonds the respective adjacent layer elements into a whole, which has the technical effects that the connecting layer as a whole can have a more firm connecting structure, and the more complicated the multi-layer structure of the internal electronic tag is, the less easily detachable and reusable, and the higher the anti-counterfeit effect thereof.

In order to increase the signal receiving capability of the antenna, a part of the antenna 1 can be used as the connecting wire 3, that is, a part of the antenna 1 is extended to be used as the connecting wire 3, and the area of the surface part of the antenna 1 on the article is increased, so that the antenna 1 on the surface part can meet the basic function of transmitting radio frequency signals between the tag and the reader.

In addition, because the radio frequency identification electronic tag has the characteristics of tearing resistance and bending, the radio frequency identification electronic tag can be used for adhering a plurality of parts of an anti-counterfeiting target product into an anti-dismantling body by using one electronic tag or in the process of combining and selling a plurality of similar commodities; in this case, similarly to the structure shown in fig. 9, the layered structure portions of the plurality of parts or articles are arranged in layers (for example, the sealed portion of the packaging bag can be used as the layered structure for the similar products sold in combination, or the hole can be directly used as the through groove if the hole is provided in the packaging bag), the through holes or the through grooves are provided in the whole portion thereof as the connecting layer 5, the flat strip-shaped electronic tag sequentially passes through the through holes or the through grooves, and the adhesion of the plurality of parts in the target product to one anti-detachment body can be realized by the double-sided adhesive tape packaging material.

According to the radio frequency electronic tag, through the improvement of the structure, one part of the electronic tag is embedded and fixed with an article and is embedded in the article, and the tag body is arranged at the lower part of the article, so that the radio frequency electronic tag has good protection effect, and can effectively prevent the tag body from being damaged. Through embedded form, can prevent that electronic tags from being torn and used repeatedly, if tear the label by force, must destroy the structure of label to make the label lose its essential function, and then avoided the installation after by the potential safety hazard that recycles and cause.

Claims (10)

1. A multilayer component integrated radio frequency electronic tag system is provided with a tag chip, a coupling antenna, a connecting lead and packaging materials, wherein the tag chip is connected with the coupling antenna through the connecting lead, and the tag chip, the coupling antenna and the connecting lead are combined into a flat strip-shaped integrated structure through the packaging materials; the RFID tag is characterized in that the RFID tag can be combined with a target object with a multilayer component, the target object with the multilayer component at least has a connecting layer, adjacent layers of the multilayer component are mutually attached, the attaching surface is plane or arc, a through hole is formed in the connecting layer, the RFID tag with the flat strip-shaped structure can pass through the through hole, a tag chip is arranged below the connecting layer, and a coupling antenna is arranged above the connecting layer, so that the RFID tag is embedded in the target object with the multilayer component.

2. The multi-layer integrated rf electronic tag system of claim 1, wherein the tag chip of the rf electronic tag is located in the center of the bar structure, the antenna is distributed at two ends of the bar structure, two through slots are disposed on the connection layer, and the rf electronic tag is inserted into one through slot and inserted out of the other through slot.

3. The multilayer component integrated radio frequency electronic tag system as claimed in claim 1 or 2, wherein the multilayer component of the target object comprises a connection layer, a protection layer located above the connection layer and a bottom located below the connection layer, the tag chip of the radio frequency electronic tag is located between the connection layer and the bottom, the coupling antenna is located between the protection layer and the connection layer, and the connection lead passes through the through slot of the connection layer to connect the coupling antenna and the tag chip respectively.

4. The multilayer-component-integrated radio-frequency electronic tag system according to claim 1 or 2, wherein the connecting wires are made of tough conductive wires which are not easily broken, so that the multilayer-component-integrated radio-frequency electronic tag can be bent at the connecting wires without affecting the scanning and reading success rate of the tag, and the packaging material is a double-sided adhesive tape packaging material, and the radio-frequency electronic tag is coated with protective films to protect the upper and lower surfaces of the double-sided adhesive tape packaging material before being embedded with the multilayer component.

5. The multi-layer component integrated radio frequency electronic tag system as claimed in claim 1 or 2, wherein the through slot is vertical or inclined with respect to the upper and lower surfaces of the connection layer, so that the radio frequency electronic tag can be in a shape of a Chinese character ' ao ', a dovetail ' or a trapezoid when viewed from the side after installation.

6. The multilayer-component-integrated radio-frequency electronic tag system as claimed in claim 1 or 2, wherein the connecting wire and the coupling antenna are integrally constructed, so that the connecting wire has functions of both the wire and the antenna, and the receiving range of the antenna is expanded.

7. The multilayer component integrated radio frequency electronic label system according to claim 1 or 2, characterized in that the connection layer itself has multiple layers, the through grooves of each layer are communicated into a straight line, or the through grooves of each layer are communicated into a folding line groove in a staggered manner, so that the connection lead is of a multilayer folding line structure or a step-shaped structure after installation.

8. The multilayer-component-integrated radio frequency electronic tag system according to claim 1 or 2, wherein, for a target product having a plurality of separate components, a passage for passing the radio frequency electronic tag is provided in one or more components as a connection layer, and the components of the target product are bonded to form a tamper-proof body by using one radio frequency electronic tag.

9. The multilayer-component-integrated radio frequency electronic tag system according to claim 1 or 2, wherein a single product is used as a single layer component, a through groove is formed in the product or an outer package thereof, and then a plurality of products are connected into a tamper-proof body in the form of a multilayer component by using the radio frequency electronic tag.

10. The integrated multi-layer radio frequency electronic tag system as claimed in claim 1 or 2, wherein the antenna part outside the connection layer is covered with a protection layer which does not affect the reading of the antenna, the protection layer is made of acrylic thin material and is used as a waterproof, moisture-proof, abrasion-proof and aging-proof protection patch of the electronic tag, and the internal structure of the electronic tag is damaged when the protection layer or the connection layer is removed, so that the radio frequency electronic tag cannot be moved to other articles for repeated use, and has anti-counterfeiting security.

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