阅读说明：本技术 具有用于封装产品的射频验证系统的封装 (Package with radio frequency authentication system for packaging products ) 是由 M·T·乌耶达 K·O·克拉耶夫斯基 于 2020-02-28 设计创作，主要内容包括：本发明公开了一种具有封装的产品,该产品包括具有腔体的封套。NFC芯片可嵌入该封装中。该NFC芯片可以是无源的,并且可连接到特定用户的电子设备,并且一旦连接就可发起或实施验证过程或激活过程。(A product with a package includes an envelope having a cavity. An NFC chip may be embedded in the package. The NFC chip may be passive and connectable to the electronic device of a particular user and once connected may initiate or implement an authentication process or an activation process.)

1. A packaged product comprising:

a product that requires authentication or activation to be used as intended; and

a finished package, the finished package comprising:

a receiving portion;

a passive data chip, wherein the passive data chip includes data uniquely associated with the product and a target user account;

wherein the passive data chip is configured to initiate a verification or activation process by transmitting the data to a personal mobile device associated with the target user account when the data chip is brought within range of a data reader of the personal mobile device.

2. The packaged product of claim 1, wherein the data chip is an NFC chip, and wherein the data reader is an NFC reader.

3. The packaged product of claim 1, wherein the data chip is laminated between layers of the finished package and is not visible.

4. A system, comprising:

a packaged product according to claim 1; and

the remote server is provided with a remote server,

wherein the remote server is configured to receive second data from the personal mobile device, the second data based on the first data,

wherein the remote server is configured to determine whether to validate or activate the product based on the second data, and

wherein the remote server is configured to transmit third data to the personal mobile device, the third data indicating whether the product is verified or activated.

5. A package, comprising:

a receiving portion configured to receive a product; and

a passive data chip, a data chip,

wherein when the package is brought within range of a personal electronic device of a target user, the data chip automatically communicates with the personal electronic device of the target user to initiate an authentication process or an activation process, and

wherein when the package is brought into proximity with a personal electronic device of a non-target user, the data chip automatically communicates with the personal electronic device of the non-target user but does not initiate an authentication process or an activation process.

6. The package of claim 5, wherein the data chip is pre-programmed to begin a verification or activation process only when communicating with an electronic device associated with a single target user account.

7. The package of claim 5, wherein the data chip is preprogrammed to begin the activation process on any electronic device that has ordered a defined category of products.

8. The package of claim 5, wherein the passive NFC chip is powered by the personal electronic device.

9. The package of claim 5, wherein the passive data chip is configured as only a transmitter.

10. A package, comprising:

a first panel;

a second panel attached to the first panel; and

a passive data chip laminated between the first panel and the second panel, wherein when the package is brought within range of a user's personal electronic device, the data chip automatically communicates with the user's personal electronic device to initiate an authentication process or an activation process.

11. The package of claim 10, further comprising a third panel disposed between the first panel and the second panel, wherein the third panel includes an opening surrounding the data chip to provide space for the data chip between the top panel and the bottom panel.

12. The package of claim 11, wherein the third panel includes an opening shaped to receive a product,

wherein the first panel comprises a second opening shaped to receive the product, the second opening overlapping the first opening, and

wherein the first panel comprises a rim strip extending over the first opening, the rim strip configured to hold the product.

13. The package of claim 10, wherein the first panel and the second panel are part of a finished package, the package further comprising a separate shipping envelope having internal dimensions that match external dimensions of a closed finished package in which the finished package is received for shipping.

14. The package of claim 13, wherein the shipping package prevents the data chip from communicating with an electronic device.

15. The package of claim 10, wherein a first second panel extends from a front of the first panel and is folded to conceal a product contained within the package from an exterior perspective.

16. The package of claim 10, wherein the first panel includes a raised edge disposed about a product receiving portion of the package, the raised edge defining a retention element configured to retain a product within the package.

17. The package of claim 16, wherein the retaining element is partially bounded by a coined edge defining an aperture, and wherein a surface of the second panel is disposed below the retaining element such that the product is retained between the surface of the second panel and the retaining element.

18. A packaging system, comprising:

the package of claim 10; and

a server configured to communicate with the user's personal electronic device and determine whether to verify or activate a product contained or once contained within the package based on whether the user's personal electronic device is associated with a target user account.

19. The packaging system of claim 18, wherein the server is further configured to direct the user's personal device to disable activation or authentication if the user's personal electronic device is not associated with a target user account.

20. The packaging system of claim 18, wherein in response to determining that the user's personal electronic device is associated with a target user account, the server is further configured to transmit an indication of account authorization to the user's personal electronic device, and

wherein the personal electronic device initiates a graphical user interface authentication process.

21. The packaging system of claim 18, wherein the server takes no action in response to determining that the user's personal electronic device is not associated with a target user account.

Technical Field

The described embodiments relate generally to retail packaging. More particularly, the present embodiments relate to "smart" packaging using a communication system, such as near field communication ("NFC"), to provide automatic activation, authentication, etc., when a user opens the packaging.

Background

The connectivity package or "smart" package may include specific sensors or communication tools to track the package in transit, or to provide additional information about the product to the consumer (e.g., through a digital application or visual display). Such tools only provide information. Such tools do not participate in activation, authentication, etc. of a product when a user opens or admits (receive) packages.

Disclosure of Invention

Some embodiments include a package, such as an envelope or box.

As an envelope, the package may include an opening or cavity that may receive (content) a product (e.g., a gift card, credit card, loyalty card, or other suitable product) that requires or benefits from activation prior to use. A data chip (e.g., an RFID chip, which may be an NFC chip, etc.) may be embedded within the package, or attached to a surface (internal or external) of the package, and may be used in conjunction with a user's personal electronic device to activate the product contained in the package.

In the case of a passive data chip (e.g., a chip temporarily wirelessly powered on demand by another device in the vicinity of the chip), such as a passive NFC chip, for example, if a user's personal electronic device (such as a mobile phone with an NFC transceiver) is within range, the electronic device may recognize the NFC chip and automatically initiate authentication or activation of the product via the electronic device. Advantageously, no outward search function (e.g., of an active NFC chip) is required.

The package may be formed of a different material than the product (e.g., the package may be formed of a cellulose-based material, while the product may be formed of or include a plastic and/or metal material). For example, the package may be made entirely of recyclable materials, such as paper, molded fiber, corrugated board, and the like. In some embodiments, all or part of the package may be made of a polymeric material. In any case, the package may be formed of a radio transmission material. The package may include additional space for receiving a second product that does not require authentication or activation.

In some embodiments, the package may take the form of an envelope, in particular consisting of a layered panel. Within the stacked structure of the layered panel, a receiving channel may be formed such that the data chip is flatly hidden within the panel of the package. This provides protection for the chip, aesthetic relief for the panel, and, for example, in the case of card products, smooth insertion of the product along the flat plane of the envelope. Additional shipping packages (such as corrugated paper sleeves with tear strips) may be provided to ship the finished package (e.g., sleeve) to the end user to protect the finished package.

Advantageously, this improves on existing systems with manual verification or activation, which may provide, for example, a more difficult customer experience. By eliminating these barriers to authentication or activation, the customer experience is improved over existing systems that require the user to manually dial activation hotlining or manually navigate to a website. By designing intelligent, connected packages that automatically verify or activate packaged products, the impact on the user is minimized, resulting in improved efficiency and user experience.

Drawings

The present disclosure will be readily understood by the following detailed description in conjunction with the accompanying drawings, wherein like reference numerals designate like structural elements, and in which:

figure 1 shows a packaging system with a card product.

Fig. 2 shows the finished package in the form of an envelope as shown in fig. 1.

Fig. 3A shows an exploded view of the finished package shown in fig. 2.

FIG. 3B shows a cross-sectional schematic view taken along line 3B-3B of FIG. 2.

Figure 4A illustrates an open configuration of the packaging system with the sleeve placed in the shipping package.

Fig. 4B shows a closed configuration of the shipping package shown closed.

Fig. 5 shows a schematic view of a package and an electronic device shown, the package being opened and a data chip communicating with the electronic device.

Fig. 6 shows a schematic view of a package and an electronic device shown, the package being opened and the data chip communicating with the electronic device, and the electronic device communicating with a server.

Detailed Description

Reference will now be made in detail to the exemplary embodiments illustrated in the accompanying drawings. It should be understood that the following description is not intended to limit the embodiments to one preferred embodiment. On the contrary, it is intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the embodiments as defined by the appended claims.

Product packaging is an integral part of the customer experience. It introduces customers into their products and can affect the customers' perception of the products and the companies that created the products. Seamless packaging that allows individuals to automatically authenticate or activate products (eliminating any barriers to their use) may be particularly desirable.

Also, companies may be sensitive to packaging costs and may wish to promote environmentally friendly packaging. Some packaging materials are costly due to their processing, and while engineers may be able to design single component packages, the cost of some materials may be prohibitive. Optimizing packaging in terms of material usage may help to keep costs low and, if progress is made smoothly, may not hinder and may promote a positive user experience. Packaging made from recyclable and/or biodegradable materials, such as paper or other cellulose-based products, can reduce environmental impact. Packaging that is entertaining literally and enhances the user's initial experience with the product it contains may promote the reputation of the product or brand, thereby attracting new customers and retaining old customers.

The package described in this document achieves these and other beneficial properties by balancing intelligent connectivity and efficiency, structural robustness, environmentally friendly materials, and aesthetic elements.

The package may be a retail package that one may desire to find on the shelf of a retail store and may open after purchase to use their product directly (i.e., a finished package that is used to contain and deliver the product to a user, such as may be used in a retail environment, or a finished package that may be shipped to a customer within an external shipping package). The product contained by the package may be, for example, a credit card, gift card, loyalty card, or the like; or an electronic device such as, for example, a laptop, tablet, or smartphone.

The packaged product may require authentication or may require activation (e.g., a credit card or gift card). Authentication or activation may be initiated by an authorized user. The package may include electronics, such as an NFC chip, that may communicate with a user's electronic device to perform authentication or activation functions. For example, some of the required electronics that communicate with the electronic device for verification or activation may be housed within the package rather than the product. Advantageously, this allows for increased space and efficiency within the product, such that electronics used only for authentication are not housed within the product. This is particularly beneficial for products having a small design footprint, or if the product only needs to be activated or verified once.

These and other embodiments are discussed below with reference to the figures. However, those skilled in the art will readily appreciate that the detailed description given herein with respect to these figures is for explanatory purposes only and should not be construed as limiting.

Fig. 1 shows a schematic diagram of a packaging system 10 including a product 100, a finished package 200, and a shipping package 300. In fig. 1 and 2, package 200 is shown in a double-folded envelope configuration and includes verification electronics, such as a data chip 214 (shown in exploded view in fig. 3A), for example a passive data chip 214. The data chip 214 may be a data tag that includes a chip portion and an antenna portion. The product 100 may be a card product such as a credit card. The product 100 may include a longitudinal surface 104 and a transverse surface 103 that define the approximate perimeter of the planar surface of the card product. The product 100 may include an additional chip 102 that is not used for authentication or activation of the product-rather, it may be bound to an account such that the card product may be used to withdraw credit against the user's account, for example, in a credit and/or banking system.

As will be appreciated with reference to the figures, the product 100 may be inserted into the receiving portion 206 of the package 200. The retention panel 208 may extend above the product 100 receiving portion 206 to help retain the product 100 when the product 100 is disposed within the pocket formed by the lower surface of the receiving portion 206. The embossed edge 210 may similarly engage the product 100 when the product 100 is disposed in the package 200. For example, as shown in fig. 2, the package 200 may generally have a bi-folded configuration having a first panel 204 that retains the product 100 therein. The package 200 may be folded about the fold portion 212 to be closed by the opposing second panel 202.

In turn, the shipping package 300 may receive the package 200 in a receiving portion 306 that is sized to tightly hold the package 200 therein (see, e.g., fig. 4A and 4B). The panel 302 of the shipping package 300 may be folded and closed over the panel 304 of the shipping package 300 and attached by an adhesive 308, such as an adhesive strip, hot melt adhesive, or the like. When closed, tear strip 310 may be removed by a user to open panel 302 and remove package 200.

Returning to fig. 3A, an exploded view of the package 200 is shown. In some embodiments, package 200 includes multiple layers laminated together (e.g., using high frequency welding of a coating between paper panels). As shown in fig. 3A and 3B, the package 200 may be configured as an upper panel including opposing surfaces of a second panel 202, a first panel 204, and a retaining panel 208. The frame panel 216 may "sandwich" at least a portion of the data chip 214 between opposing surfaces of the frame panel 216 and the first panel 204 (e.g., the antenna 215 of the chip 214 may be so sandwiched). In turn, the frame panel 216 is "sandwiched" between the opposing surface of the first panel 204 and the panel that constitutes the lower surface of the receiving portion 206. As such, panel 204 and portion 206 may be bonded to panel 216. In addition, the panel 202 and the panel 220 are also bonded together. The inner perimeter 218 may define an opening and cooperate with the lower panel to serve as a receiving portion. The placement of the data chip 214 shown in the figures is not limiting and may be placed in various acceptable locations, for example, toward the center, upper portion of the enclosure, or other suitable space for its placement.

In some embodiments, a pocket, slot, opening, or other protruding feature 226 may receive at least a portion of data chip 214 between panel 204 and portion 206. This achieves two goals: protects data chip 214 and also maintains a flat configuration such that neither panel 204 nor portion 206 includes any bumps or protrusions that reveal underlying data chip 214. In some embodiments, the raised features 226 may be located in one or more of the panels, and the location of the panels is flexible. The thickness of the chip portion 217 of the data chip 214 may be greater than the thickness of the antenna 215, and the antenna 215 may be substantially flat so that it may be laminated directly between two adjacent panels. The data chip 214 may be attached to one or more of the panels by, for example, an adhesive, a polyethylene backing, or other securing method. In some embodiments, the antenna 215 may be, for example, a conductive metal trace, such as copper, aluminum, silver, or the like. In some embodiments, the data chip 214 (e.g., NFC chip) or its antenna may be printed directly on paper or other cellulosic substrate, such as one of the panels (e.g., in copper, silver, aluminum, or other metal traces as ink).

In some embodiments, the data chip 214 is passive (e.g., a passive NFC chip) and does not need to receive data to operate as intended. It may be powered (e.g., powered) wirelessly from a device in proximity to it (e.g., a personal electronic device with an NFC reader) and may then receive data from the data chip 214. In addition, other modes of powering and activating the data chip 214 are contemplated, such as interacting with particular features of the package. While a relationship with NFC technology is generally discussed, other modes of data and energy transfer are also contemplated, such as different Radio Frequency (RF) schemes, such as RFID, bluetooth, voice, Wi-Fi, or other data and energy transfer modes. In some embodiments, data/energy transfer may not require a power source. In other embodiments, the package may include an active data chip (e.g., an active NFC chip) that includes a data chip and a power source (e.g., a battery, such as a micro battery). When the package is opened, the data chip may be powered and begin searching for electronic devices to perform authentication functions, activation functions, and the like. Additional details of such a system can be found in co-pending U.S. patent application No. 62/732,740, filed 2018, 9, 18, which is incorporated by reference herein in its entirety for all purposes.

The package 200 or shipping package 300 may be made of radio transmission materials, such as cellulose-based materials, wood materials, non-metallic polymer materials, and the like. By using radio transmission material for the package 200, communication from the data chip 214 is made easier (especially, for example, if the product 100 is made of a metal material, such as a metal card-shaped product, such as a credit card). In some embodiments (e.g., where package 200 may include relatively little radio transmission material or non-radio transmission material), package 200 may be provided with Radio Frequency (RF) transparent features, such as holes or antenna windows, so that data chip 214 may communicate through package 200.

As previously described, the containment component may be composed of recyclable materials (e.g., biodegradable or compostable materials). If and when the customer chooses to handle the packaging, because the packaging is recyclable or cellulose-based, the packaging can simply be recycled without material separation (e.g., in a single stream recycling procedure). In some embodiments, any electronics associated with the packaging system 10 may be removed from the package prior to recycling.

Returning to the automatic activation and verification feature, in some embodiments, the data chip 214 may be preprogrammed to allow the activation verification process to be initiated (e.g., triggered by a particular target user) only when certain criteria are met.

For example, a user may order a new credit card from a company. The company may prepare a credit card for that particular user (product 100; see, e.g., fig. 5). The credit card may be packaged in a package 200 that includes a data chip 214. At this point, the credit card is inactive and cannot be used. The data chip 214 may be preprogrammed with data representing at least the identification information of the particular card contained within the package that is destined for a particular user. The data on the data chip 214 may be encrypted or otherwise protected so that its information is not discoverable by unauthorized users.

The user's personal electronic device 40 may have been associated with the user's unique account (e.g., from an account that the user previously used or accessed using their personal electronic device). When a user accepts a credit card enclosed within the package 200, the user may bring their personal electronic device 40 within range of the data chip reader of their personal electronic device. When the data chip 214 is within such range, it may send data representing the identification information of the particular card to the personal electronic device 40. The personal electronic device may communicate with a company's remote server to determine if the unique account on the user's personal electronic device 40 matches the account of the intended recipient of the credit card. If there is a match, the server may activate the credit card (or send a signal to the personal electronic device to initiate the activation process on the device). Otherwise, activation of the credit card will not occur and the activation process will not be initiated.

In some embodiments, the data chip 214 may be preprogrammed with data representing at least two pieces of information: (1) identification information of a particular card contained within the package, the particular card being destined for a particular user; and (2) identification information of an account of the specific user. The latter information may be used to provide gateway functionality, for example, a user interface that causes another step to be triggered on the device 40, such as displaying options for authentication and activation. In some embodiments, a visual indicator, such as an icon, may be present on the package 200 to indicate active package functionality. In some embodiments, the visual indicator may include instructions, such as "activate, wake up device and remain below". The visual indicator may be near the location of the data chip 214 or above the location of the data chip 214, which will prompt the user to bring the package near the electronic device. When the data chip 214 is brought within range of the personal electronic device 40, the data chip 214 may only send identification information of the account of the particular user to the electronic device 40. If the account information does not match or otherwise acceptably corresponds to the account information associated with the electronic device 40 (as determined by the data chip 214 or by the electronic device 40 itself), activation of the credit card will not occur and the activation process will not be initiated. In some embodiments, it may be desirable to perform the second verification before, after, or in parallel with the first verification using the data chip. For example, a biometric step may be required as a second verification, e.g., a fingerprint verification, facial recognition verification, voice verification, or other biometric verification may be required in order to activate or verify the product.

More specifically, in passive systems, the NFC chip acts as a signal sign type, so that no active reception or signal search is required; it is only broadcast out to electronic devices with NFC receivers. Thus, when the data chip 214 is associated with a particular target user account, if a device not associated with a particular user is brought into proximity of a receiver not belonging to the particular user, no action is taken, or a general action is taken (e.g., opening a general product website, for example, or alerting a company or individual non-target user that the data chip 214 has been brought within range of a non-target receiver).

Turning to fig. 5 and 6, in some embodiments, the data chip 214 may be preprogrammed to begin the activation or authentication process on any electronic device associated with a user account that is in turn associated with the purchase of a particular type of product (which product 100 may be awaiting activation or authentication) contained within the package 200. If the product is replaceable but still requires activation, for example in the case of a cash card, this allows the data chip 214 to identify the corresponding electronic device 40 belonging to the individual having the validated order for the replaceable product. As such, the electronic device 40 may interact with a logistics platform of a company (e.g., a vendor of a product) such that information about the product 100 may be shared with the appropriate electronic device 40. Once the product 100 is verified or activated, the electronic device 40 may communicate with the logistics platform to notify the company that the order is complete. Similarly, in an active chip configuration, the electronic device 40 may communicate with the active data chip 214 and disable any further activation or authentication attempts.

In the case of non-replaceable products, such as, for example, a credit card for a particular target user that requires activation, the data chip 214 may, for example, broadcast a signal specific to the account associated with the card or the user associated with the card. As such, the electronic device 40 receiving the signal may communicate or interact with a logistics platform of the company (e.g., the vendor of the product), such that information about the product 100 may be shared only with the appropriate electronic device 40 of the target user bound to the card. Once the product 100 is verified or activated, the electronic device 40 may communicate with the logistics platform to notify the company that the order is complete. If the data chip is active rather than passive, the electronic device 40 may communicate with the data chip 214 and disable any further activation or verification attempts.

The electronic device 40 (e.g., a user's mobile phone, tablet, smart watch, laptop, desktop computer, etc.) includes a body 400 that may house the electronics of the electronic device 40, and may generally include a screen 402, such as a touch screen (or other user interface). For certain products, such as credit cards, activation and verification may previously be accomplished by manually dialing a phone number, manually navigating to a website and typing information on the website, or via an application-based process in which the user manually verifies himself in some way and then confirms that he has held the card. The user may be prompted to begin the process following instructions affixed to the sticker of the credit card. While a manual authentication option (such as one of the options that would allow other activation or authentication modes) may be useful and may be included in some embodiments as a fallback option, fig. 5 and 6 illustrate examples of how this manual process is initially avoided.

In some embodiments, if the packaging system 10 or package 200 is in an unopened state, then automatic activation or verification may or will not be made unexecuted with respect to any product contained within the packaging system 10 (e.g., by disabling the data chip 214). However, where the passive data chip is configured to produce at least two functions at different electronic devices (i.e., a target device and a non-target device), such disabling is not required because the chip has been effectively disabled when brought into proximity with the non-target electronic device.

Fig. 5 shows a schematic view of the package 200 (with the product 100) and the electronic device 40. The data chip 214 of the package 200 is shown in communication with the electronic device 40, for example, through an NFC transceiver 410 in the electronic device 40, the NFC transceiver 410 being operable as a reader and transmitter. This communication may be bidirectional, as indicated by the arrow shown between the package 200 and the electronic device 40, or may be in a single direction from the data chip 214 to the transceiver 410. Referring to package 200, with the sleeve flap panel 202 open, the product 100 may be revealed within the cavity (e.g., receiving portion 206) of the sleeve. As depicted, the product 100 may be a type of card, such as a credit card, debit card, gift card, loyalty card, and the like. The product 100 may then be removed from the package 200 by the intended user, such as a purchaser of the product 100.

As shown in fig. 5, when the data chip 214 communicates with the electronic device 40 through the NFC transceiver 410, the screen 402 of the electronic device 40 may display the graphical user interface 406. The graphical user interface 406 may include, for example, textual information about the product 100, such as a description of the product, a serial number or identification number, or other information useful to the user. In some embodiments, as shown in FIG. 5, the graphical user interface 406 may include an image 408 representing a product. The user may interact with the graphical user interface 406 by touching, tapping, sliding, etc. on the screen 402. The screen 402 may display other images or information about the product 100, or may virtually zoom in, zoom out, pan, or rotate the image 408 of the product in three dimensions as displayed on the screen 402. The graphical user interface 406 may also include user interface activation elements 404, such as on-screen buttons with which a user may interact.

User interface activation element 404 may perform a function, such as initiating activation or verification of product 100 via electronic device 40. In some embodiments, no further interaction by the user is required to activate their product. From the user's perspective, activation can be accomplished by simply opening the package and tapping the activation button on their smartphone. In the event that a non-target user device interacts with the enclosure 200, the activation element 404 may become grayed out or unavailable for selection. In some embodiments, the graphical user interface 406 may be different or completely absent if a non-targeted user device attempts to activate the product 100.

While the figures generally show package 200 as a sleeve configuration with activation data chip 214 embedded between the panels of the sleeve, the configuration may take different forms, for example, a tab, tear strip, cover, or other removable or breakable component attached to the exterior of package 200, or embedded in or attached to package 200. In any case, the data chip 214 may be powered on (such as by a miniature battery 224, which may be excluded from a passive chip) or may be activated by the electromagnetic field of the electronic device 40 or its NFC transceiver 410. In this manner, for example, by housing the power and data chips within the package 200 or utilizing the power of an external electronic device to power the data chip, rather than integrating a separate power or data chip on the card product, the difficulties of constructing additional electronics within the card, including the increased size and weight of the additional electronics, etc., can be avoided. In some embodiments, if a separate power source is included, such as a miniature battery, it may contain sufficient energy (i.e., battery life) to maintain a desired duration of time for the package 200 to open and complete the activation process from the time the package 200 containing the product 100 is transported to the intended end user. This is advantageous because it reduces power supply complexity and moves relatively large NFC electronics out of small volume tolerances in a particular product 100 (such as a card product) and into a larger allowable volume within the package.

Turning to fig. 6, a schematic diagram of the enclosure 200 and the electronic device 40 is shown, wherein the enclosure 200 is opened and the electronic device 40 is in communication with a server 50, such as an external device or network that may include a logistics platform. In some embodiments, the electronic device 40 may communicate with the server 50 in order to implement authentication, activation, or other intelligent packaging features. The server 50 may include one or more of a database, a server, the internet, a network, or a cloud-based server feature so that the product 100 may be authenticated or activated.

As described above, the data chip 214 broadcasts a signal to the electronic device 40, for example, via the transmitter 222. The data chip 214 may be pre-programmed to initiate the activation or authentication process only upon establishing communication with the electronic device of a particular user. In some embodiments, this may be accomplished by programming information into the data chip 214, which data chip 214 may identify electronic information stored in the electronic device 40 associated with the identity of the user. This helps prevent the data chip 214 from initiating the activation process by devices that do not belong to its intended particular user. For example, the data chip 214 may include a user ID of an authorized user and may only communicate with electronic devices 40 having a matching user ID (e.g., within an operating system of the electronic devices 40). Other software, firmware, hardware, etc. may be used. In some embodiments, the device or user identity may be provided by a third party source, such as a web-based application accessed on the electronic device 40. In this regard, in order for the data chip 214 to initiate an authentication or activation function, a user may be required to access such an application in order to proceed with device or user identification.

The package is configured to provide a clean, unitary appearance. This helps to enhance the quality and robustness characteristics of the package and product 100. To achieve this appearance, seams, gaps, and shape distortions are minimized. The packaging may be a particular color, for example, a brand identifier color. In some implementations, the visible surface of the package can be predominantly white.

The encapsulated components may be formed from one or more blanks. In some embodiments, the blank is formed from a single continuous substrate, such as, for example, a cellulose-based material, such as cardboard or paperboard. In some embodiments, the interior surface of the package may be surface treated or coated, for example with a coating, to protect the finished product. The tabs, pads, and areas are formed without the adhesive of the blank so that the adhesive is not visible in the finished package. In some embodiments, the adhesive may be omitted and the various flaps and tabs attached in another suitable manner (e.g., by mechanical interlocking or press-fitting). The fold line may be formed by weakening the substrate, for example, along a line, such as by perforation, material crushing, scoring, mitering, and the like.

In some embodiments, any surface finishing may be performed after the part is cut from the blank, or alternatively before the blank is cut into individual sheets, in order to assemble into a final package. Further, some operations may be performed concurrently.

Alternatively, some or all of the components described as being formed of cellulose-based materials (such as cellulosic fibrous materials, e.g., paper) may instead be formed of polymeric materials, or coated in materials such that they may be laminated together or otherwise adhered to one another. Suitable polymeric materials include, but are not limited to, polyethylene, polypropylene, polyurethane, polystyrene, polymer blends comprising one or more of these polymers, or copolymers comprising one or more of these polymers. All or a portion of the surface of the package may be coated or laminated, which may improve structural strength properties such as stiffness, and may protect the product within the package or avoid scratching.

In addition, the package can be manufactured in a cost-effective and environmentally friendly manner. In some embodiments, the package component may be constructed from a single integrally formed piece of material. The single integrally formed piece of material may be a foldable material folded into a configuration to hold and secure the product, either alone or within a cavity of the packaging container. In some embodiments, the foldable material may be a single piece of material that is cut by a single operation (e.g., a single die-cutting operation). In some embodiments, the foldable material may be die cut from a raw material (e.g., a sheet or roll of material). A single integrally formed piece of material cut by a single cutting operation may facilitate efficient and reproducible manufacturing. Moreover, such manufacturing may reduce waste by reducing scrap material during manufacturing.

It is well known that the use of personally identifiable information should comply with privacy policies and practices that are recognized as meeting or exceeding industry or government requirements for maintaining user privacy. In particular, personally identifiable information data should be managed and processed to minimize the risk of inadvertent or unauthorized access or use, and the nature of authorized use should be explicitly stated to the user.

The foregoing description, for purposes of explanation, used specific nomenclature to provide a thorough understanding of the embodiments. However, it will be apparent to one skilled in the art that the specific details are not required in order to practice the embodiments. Thus, the foregoing descriptions of specific embodiments described herein are presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the embodiments to the precise forms disclosed. It will be apparent to those skilled in the art that many modifications and variations are possible in light of the above teaching.