Mailing Apparatus For Powered Cards

Abstract

Apparatuses and methods for packaging electronically powered cards are provided for maintaining electronically powered cards in a deactivated state. In an embodiment, a housing having a face panel and two side panels attached to the face panel at opposite sides is configured to provide an offset distance between an activation device on the card and the housing so that the activation device is prevented from being activated by a force exerted on the housing. Annular or circular devices can also be provided for establishing an offset distance between activation devices on the card and planar substrates.

Description

BACKGROUND

1. Field of the Invention

The present invention relates generally to powered ISO 7816-compliant cards and, more particularly, to apparatus for mailing powered cards in compliance with applicable postal regulations.

2. Background of the Invention

As a convenience for their customers, businesses (e.g., financial institutions), retailers, and advertisers routinely deliver transactional cards and promotional cards to their customers through the mail. The convenience of receiving a card through the mail saves a customer the trouble of visiting a retail location to pick up a card. As a result, the United States Postal Service (“USPS”) annually handles the mailing of millions of transactional cards, such as credit cards, debit cards, electronic cash cards, gift cards, pre-paid calling cards, Internet access cards, membership cards, identification cards, and smart cards.

Recently, card makers have developed ISO-compliant, self-powered cards, in which batteries, circuitry, and electronic components are embedded. The electronic components give the cards additional functionality, providing features such as sound, lights, and alphanumeric displays for secure token value generation. Powered cards having such features are produced by Innovative Card Technologies of Los Angeles, Calif. and are described, for example, in U.S. Pat. Nos. 5,412,199; 5,434,405; 5,608,203; 5,856,661; 6,176,430; and 6,902,116, which are herein incorporated by reference in their entirety.

Powering the cards, however, has introduced difficulties in complying with USPS postal regulations, which dictate that any device powered by dry-cell batteries must have the batteries removed or deactivated to prevent activation of the device in the mail.

SUMMARY OF THE INVENTION

In accordance with an embodiment of the present invention, a mailing apparatus is provided for maintaining an electronically powered card in a deactivated state. The apparatus includes a housing having a face panel and two side panels attached to the face panel at opposite sides. The side panels extend from the face panel in a direction generally perpendicular to the face panel. The apparatus further includes an electronically powered card that has an activation device on a surface thereof and an offset mechanism that establishes an offset distance between the electronically powered card and the face panel so that a force exerted upon the face panel is resisted by the face panel and prevented from causing activation of the activation device of the card.

In accordance with another aspect of the present invention, a mailing apparatus is provided for maintaining an electronically powered card in a deactivated state. The apparatus includes an electronically powered card that has an activation device on a surface and a prevention element attached to the surface of the electronically powered card. The prevention element is disposed around the activation device and is raised above the surface of the card. The prevention element has a thickness sufficient to prevent the activation of the activation device when a force is applied to a planar substrate disposed over the prevention element in a direction generally perpendicular to the planar substrate.

In accordance with another aspect of the prevent invention, a method of packaging and maintaining an electronically powered card in a deactivated state is provided. In the method, a housing is provided that has a face panel and two side panels attached to opposite sides of the face panel and an electronically powered card is inserted into the housing so that an offset distance is established between the face panel and all activation device located on a surface of the card facing the face panel. The housing with the inserted electronically powered card is mailed. The housing and the card have an interface that establishes the offset distance between the face panel and the activation device during transport so that the activation device is not activated by a force exerted on the face panel in a direction generally perpendicular to the face panel.

In accordance with another aspect of the prevent invention, a method of packaging and maintaining an electronically powered card in a deactivated state is provided. In the method, a prevention element is adhered onto an electronically powered card. The electronically powered card has an activation device on a surface thereof and the prevention element is disposed adjacent the activation device. The electronically powered device and adhered prevention element is inserted into an envelope or mailing container and the envelope or mailing container is mailed with the electronically powered card and adhered prevention element inserted therein. The prevention element has a thickness sufficient to prevent the activation of the activation device when a force is applied to an envelope or mailing container disposed over the prevention element during transport in a direction generally perpendicular to the activation device.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of a powered card according to an embodiment of the present invention.

FIG. 2A is a schematic diagram of a perspective view of a powered card and a mailing apparatus, with the mailing apparatus having slots that receive the powered card, according to an embodiment of the present invention.

FIG. 2B is a schematic diagram of a partial cross-sectional view of the powered card and mailing apparatus of FIG. 2A, taken along line B-B.

FIG. 2C is a schematic diagram of a partial cross-sectional view of a powered card and mailing apparatus, with the mailing apparatus having a front panel, a back panel, and two side panels, and having slots that receive the powered card, according to an embodiment of the present invention.

FIG. 2D is a schematic diagram of a cross-sectional view of the powered card and mailing apparatus of FIG. 2A taken along line B-B and showing a force applied to the mailing apparatus, according to an embodiment of the present invention.

FIG. 3 is a schematic diagram of a cross-sectional view of a powered card and a mailing apparatus, with the card having slots that receive protrusions of the mailing apparatus, according to an embodiment of the present invention.

FIG. 4A is a schematic diagram of a cross-sectional view of a powered card and a mailing apparatus, with the mailing apparatus having interior protrusions, according to an embodiment of the present invention.

FIG. 4B is a schematic diagram of a partial cross-sectional view of a powered card and a mailing apparatus, with the mailing apparatus having an interior protrusion protruding from its side panel, according to an embodiment of the present invention.

FIG. 4C is a schematic diagram of a partial cross-sectional view of a powered card and a mailing apparatus, with the mailing apparatus having an interior protrusion protruding from its face panel and a side panel, according to an embodiment of the present invention.

FIG. 4D is a schematic diagram of a partial cross-sectional view of a powered card and a mailing apparatus, with the mailing apparatus having a single interior protrusion, according to an embodiment of the present invention.

FIG. 5A is a schematic diagram of a cross-sectional view of a powered card and a mailing apparatus, with the mailing apparatus attached to a face of the card, according to an embodiment of the present invention.

FIG. 5B is a schematic diagram of a powered card and a mailing apparatus, with the mailing apparatus covering only a portion of a face of the card, according to an embodiment of the present invention.

FIG. 6A is a schematic diagram of a cross-sectional view of a powered card and a mailing apparatus, the mailing apparatus comprising one or more projections adhered to a face of card proximate to the switch, according to an embodiment of the present invention.

FIG. 6B is a schematic diagram of a partial perspective view of the powered card and mailing apparatus of FIG. 6A.

FIG. 7 is a schematic diagram of a cross-sectional view of a powered card and a mailing apparatus, the mailing apparatus comprising a compressible release liner adhered to a face of card, according to an embodiment of the present invention.

For clarity and ease of understanding, the components shown in the figures are not drawn to scale.

DETAILED DESCRIPTION

Embodiments of the present invention provide a mailing apparatus for a powered card. The mailing apparatus prevents activation of the powered card during mailing.

An exemplary powered card comprises a thin, flexible substrate (e.g., paper, thin cardboard stock, or plastic) having an embedded battery and electrical circuitry. The powered card is preferably equal in size to a conventional credit card, and may meet at least the flexibility requirements of ISO 7816. Powered by the battery, the circuitry can activate electronic output devices that, for example, display an encrypted light array, display alphanumeric characters or graphics, or play a voice message. From this output, a user can obtain information necessary to complete a transaction, for example, authenticating access to a financial account. The card can be branded or printed and may be traded, collected, or distributed as part of a promotion.

The electrical circuitry can be activated by any means suitable for a particular application. For example, the circuitry can be activated by light sensors, audio sensors, motion sensors, wireless sensors, or mechanical switches (e.g., membrane switches). With light, audio, and motion, the powered card would be activated when the appropriate stimulus is received. With wireless sensors using, for example, radio frequency identification (RFID), Bluetooth™, WiFi, or near frequency communication (NFC) technology, the powered card would be activated by the appropriate wireless signal. With mechanical switches, the powered card can be, for example, activated by a user's pressing a button or multiple buttons, or by a sliding a switch. In some applications, a user-actuated mechanical switch may be preferred to save power and extend the shelf life of the powered card.

In an embodiment of the present invention, the circuitry and battery of a powered card is capable of insertion into a substrate equal in size to a conventional credit card, and meets at least the flexibility requirements of ISO 7816. An appropriate flexible battery for such an apparatus is available from Solicore (Lakeland, Fla.), which produces batteries using polymer matrix electrolyte (PME). The batteries are ultra-thin, flexible, environmentally friendly, and safe, and preferably having the following characteristics:

• • low profile design—approximately 0.3 mm thick; flexible and will not break or crack when bent or flexed;
  • conformable, in that the electrolyte can be a solid, non-compressible film, which can be shaped and formed into a variety of designs;
  • compatible with high speed printing and binding processes, and card manufacturing processes, and can survive hot lamination processes;
  • operable over a wide temperature range (−20° C. to +60° C.);
  • offer high ionic conductivity over a broad temperature range;
  • feature low self discharge rates (less than 1% per month);
  • provide high energy density (up to 300 Wh/l), thus offering maximum performance in smallest packages;
  • possess self connecting terminals;
  • are non-toxic, disposable, and environmentally friendly;
  • contain solid polymer electrolyte—no volatile liquids or gelling agents;
  • offer overall safety: with no out-gassing, swelling, or thermal runaway; no need for added safety devices; and pass UL requirements for crush test, drop test, and nail test; and
  • enjoy an inherently safe design, which reduces the need for additional battery safety circuitry.

The circuitry of the powered card includes at least one electronic output device that provides the user with information, such as a token value necessary for authentication. For example, the electronic output device can display an encrypted light array, alphanumeric characters, or a graphic, or can play a voice message. The user would then use the information for the purpose of authentication to obtain access to an associated system, such as a banking system or online game system.

FIG. 1 illustrates a powered card 100 according to an embodiment of the present invention. As shown, card 100 comprises a substrate 104, a battery 106, and circuitry 108. Substrate 104 can be paper or any other thin flexible material. Battery 106 and circuitry 108 are embedded in substrate 104 (e.g., sandwiched between a front and back face of substrate 104), as represented by the dashed lines. Circuitry 108 includes a controller 102, which may include, for example, a token value generator, a microprocessor, memory, clock, and any other necessary circuitry or devices. Circuitry 108 is controlled by a switch 110, such as a press button. Alternatively, circuitry 108 could be controlled by a light, audio, or motion sensor. Circuitry 108 also includes one or more electronic output devices that are activated when circuitry 108 is powered. For example, circuitry 108 can include an illumination device 114, a display 16, a speaker 118, and/or a vibrator 120.

As one of ordinary skill in the art would appreciate, circuitry 108 is shown only for illustration purposes and could include differently configured wires or conductive traces. For example, conductors to the illumination device 114 could be individually connected to each of the illumination elements (e.g., each LED or each electroluminescent device), or connected collectively such that the elements could be illuminated in unison, or some combination thereof. Similarly, if an alphanumeric or graphic display is used, the circuitry can be configured to drive the individual elements thereof in accordance with any desired sequence or design.

In one embodiment, substrate 104 comprises front and back faces made from cardstock and adhered together using adhesive. Battery 106, circuitry 108, and the other components are all sufficiently thin and flexible that the powered card has the same “feel” as a conventional cardstock playing card.

In another embodiment, substrate 104 comprises front and back faces made from plastic sheeting, similar to that used for a credit card-sized ISO 7816 compliant card. Optionally, thinner layers of plastics can be used to allow for increased flexibility.

In operation, powered card 100 activates in response to completion of circuitry 108, which provides power from battery 106 to the electronic output devices. In this example, circuitry 108 is completed by pressing button 110. Alternatively, another mechanical switch, such as a slide switch, could be used to activate card 100.

Once circuitry 108 is closed, controller 102 and circuitry 108 activate one or more electronic output devices 114, 116, 118, and 120. For example, controller 102 and circuitry 108 can light illumination device 114 in a particular pattern that reveals a code, can display an alphanumeric message or graphic 122 on display 116, can play a sound, a message, or music through speaker 118 (e.g., a voice stating a code), or can activate vibrator 120 in a pattern that reveals a code. Illumination device 114 can comprise, for example, LED lights, incandescent lights, or electroluminescent devices. Display 116 can comprise, for example, an LCD screen, an electroluminescent display (such as those produced by Philips Electronics of Amsterdam; Sharp of Osaka, Japan; or Planar Systems, Inc. of Beaverton, Oreg.), or a printable electronic ink (such as those produced by E Ink of Cambridge, Mass., or Xerox of Palo Alto, Calif.). Speaker 118 can comprise, for example, a miniature speaker suitable for tight form factor applications. Vibrator 120 can comprise, for example, a miniature vibrator suitable for tight form factor applications, such as applications involving pagers and cellular telephones.

FIGS. 2A-2D illustrate a powered card 200 and mailing apparatus 202 according to an embodiment of the present invention. As shown, mailing apparatus 202 is a sleeve that includes a face panel 204 and two side panels 206, 208. Side panels 206 have slots 210 into which the edges of the powered card 200 slide, thereby holding the front face of the card 200 at a fixed distance from the underside of face panel 204. Mailing apparatus 202 is sufficiently rigid enough to retain card 200 within slots 210, and can optionally include a second face panel 212 opposing face panel 204 to provide a desired rigidity, as is shown in FIG. 2C. In addition, face panel 204 is itself sufficiently rigid enough to resist a force (especially a point force) in the general direction of arrow 214, to prevent a switch on the face of card 200 from being activated. As one example, FIG. 2D illustrates face panel 204 yielding slightly to the force 214, but not allowing contact with switch 216. Although shown as not contacting switch 216, the flexibility of face panel 204 could allow some degree of contact, as long as the force 214 is sufficiently dissipated or distributed to prevent actuation of switch 216. The degree to which the face panel 204 can contact switch 216 or any other portion of the face of panel 204 would of course depend on, for example, the type and sensitivity of the switch. Mailing apparatus 202 could be made of plastic, such as ABS or PVC.

Although FIG. 2A depicts the mailing apparatus 202 covering a majority of the card 200, mailing apparatus 202 could cover any appropriate length of the card 200 depending on, for example, the location of switches or other electronic components that should not be activated or damaged during mailing. As an example, if only a small switch need be covered, then mailing apparatus 202 could be a narrow band spanning the width of card 202, with the band just wide enough to cover the small switch.

FIG. 3 illustrates a powered card 300 and mailing apparatus 302 according to another embodiment of the present invention. As shown, card 300 defines slots 310 in two of its opposing edges. Mailing apparatus 302 includes a face panel 304, two opposing side panels 306, and two opposing protrusions 307 protruding from side panels 306. Protrusions 307 are adapted to slide within slots 310. In this position, the face panel 304 of mailing apparatus 302 is disposed over and spaced apart from the front face of card 300 and its switch 316. Face panel 304 resists forces applied in a direction generally perpendicular to the front face of card 300, as described above with reference to FIGS. 2A-2D.

FIG. 4A illustrates a powered card 400 and mailing apparatus 402 according to another embodiment of the present invention. As shown, mailing apparatus 402 is a sleeve that includes a face panel 404, two side panels 406, and a back panel 412. The underside of face panel 404 has one or more protrusions 403 located and adapted to contact portions of the front face of card 400 that do not affect the operation of the card 400 (e.g., areas of the face away from switch 416). The card 400 is held in place in the interior of mailing apparatus 402, with the face panel 404 disposed over and spaced apart from the front face of card 400 and its switch 416. In this position, face panel 404 resists forces applied in a direction generally perpendicular to the front face of card 400, as described above with reference to FIGS. 2A-2D.

Although FIG. 4A depicts the cross-sectional shape of protrusions 403 as round, protrusions 403 could have other cross-sectional shapes such as a rectangle, square, or triangle. In addition, protrusions 403 could be isolated protrusions on the underside of face panel 404, or could be continuous rails along the length of mailing apparatus 402. In one embodiment, mailing apparatus 402 has one isolated protrusion in each of the four corners of face panel 404. In another embodiment, mailing apparatus 402 has two continuous rails, each having a rectangular cross-section, with one disposed proximate to a side panel 406 and the other disposed proximate to the opposite side panel 406. In another embodiment, as shown in FIG. 4B, a protrusion 403 protrudes from a side panel 406 of mailing apparatus 402, holding an edge of card 400. In another embodiment, as shown in FIG. 4C, a protrusion 403 protrudes from both a side panel 406 and the face panel 404, for example, filling the corner of mailing apparatus 402 and holding an edge of card 400.

Although FIG. 4A shows the use of multiple protrusions, an alternative embodiment of the present invention provides only one protrusion, an example of which is shown in FIG. 4D. In this exemplary configuration, mailing apparatus 452 has a single protrusion 453, which can be, for example, an isolated round protrusion in the center of the face panel 454 of mailing apparatus 452. The mailing apparatus 452 has side panels 456 and back panel 462 having similar characteristics as previously described side panels 406 and back panel 412. The protrusion 453 may alternatively be a continuous round protrusion (e.g., shaped like a road speed bump) extending the length of mailing apparatus 452 along the center of face panel 454. The protrusion 453 is preferably located to contact the face of card 400 in an area apart from switch 466. In this manner, protrusion 453 prevents a force 464 applied in a direction generally perpendicular to face panel 452 from deflecting face panel 452 against switch 466 and activating switch 466.

An alternative embodiment of the present invention provides a mailing apparatus, such as the mailing apparatus 402, with a closed end. In other words, rather than having a sleeve with two open ends, this alternative embodiment provides a closed end to form a pocket. In this manner, a powered card can be inserted into the pocket sleeve, with the sleeve covering only a portion of the card (e.g., one-third of the card starting from an end). The pocket sleeve could have protrusions or slots as described above, to prevent activation of a switch or other electronic component.

FIG. 5A illustrates a cross-sectional view of a powered card 500 and mailing apparatus 502 according to another embodiment of the present invention. As shown, mailing apparatus 502 is attached to the face of card 500 oh which a switch 516 is disposed, providing a cover over the switch. In this manner, mailing apparatus 502 resists a force 514 applied in a direction generally perpendicular to the front face of card 500, similar to the embodiments described above with reference to FIGS. 2A-2D. In this example, mailing apparatus 502 is attached to card 500 by a layer of adhesive 517, which is strong enough to hold the mailing apparatus 502 to the card 500 during mailing, but can be conveniently released by the user after mailing so that the card 500 can be used. Although FIG. 5A shows the mailing apparatus 502 covering a majority of the width of card 500, mailing apparatus 502 could cover any portion of the width or length of card 500, depending on the location of the components of card 500. For example, as shown in FIG. 5B, if a switch is located in only one small portion of the face of card 500, mailing apparatus 502 could be placed over only the switch, leaving the remaining portion of the face of the card 500 uncovered.

FIGS. 6A and 6B illustrate a further embodiment of the present invention, in which the mailing apparatus 602 comprises one or more projections adhered to the face of card 600 proximate to the switch 616. The projections 602 help prevent structures, such as the paper of the envelope in which card 600 is mailed, from contacting switch 616 and activating card 600. Although shown as doughnut-shaped, mailing apparatus 602 could comprise other shaped projections, such as individual raised bumps placed around the switch.

FIG. 7 illustrates a cross-sectional view of a powered card 700 and mailing apparatus 702 according to another embodiment of the present invention. In this configuration, mailing apparatus 702 comprises a compressible release liner that is adhered to the face of card 500 over the switch 716. Mailing apparatus 702 is made of a material having properties (e.g., hardness, compressibility, and thickness) sufficient to resist the typical forces 714 encountered during mailing, applied generally in a direction perpendicular to the face of card 700. For example, mailing apparatus 702 could be made of a compressible foam or a compressible gel. Alternatively, mailing apparatus 702 could comprise a chamber filled with a liquid or a gas. In this manner, mailing apparatus 702 can dissipate or distribute forces 714 so that switch 716 is not actuated. In one configuration, mailing apparatus 714 is attached to the face of card 700 by a layer of adhesive that is strong enough to hold the mailing apparatus 702 to the card 700 during mailing, but can be conveniently removed by the user after mailing so that the card 700 can be used.

Embodiments of the present invention therefore provide mailing apparatus that prevent activation of a powered card during mailing, to comply with applicable postal regulations. The mailing apparatus can be temporarily applied to a powered card for mailing, and then conveniently removed by the user so that the powered card can be activated and used. In addition, embodiments of the present invention are inexpensive and conveniently incorporated into high volume printing, card-making, and mailing operations.

Although embodiments of the present invention describe mailing apparatus with respect to powered cards having mechanical switches such as membrane switches, the mailing apparatus of the present invention are equally applicable to other switches, such as sound-activated or light-activated switches. For example, the mailing apparatus 702 of FIG. 7 could be used to seal a light sensor, wireless sensor, or sound sensor that is used to activate a powered card. In this manner, when the user removes mailing apparatus 702 from card 700, the card is activated, for example, illuminating lights and displays to convey a mailed advertisement. In the case of a wireless sensor, the mailing apparatus could be made of an electromagnetically opaque material to act as a shield, preventing wireless signals from activating the card during mailing.

In one implementation, the powered card and the mailing apparatus are branded (e.g., with graphics, logos, colors, or holography) to associate the card and mailing apparatus with each other and/or with a system to which the card provides access. The powered cards and mailing apparatus may be disposable (in that they may have limited temporal use) or may be intended to be collectors' items.

The powered cards and mailing apparatus in accordance with the present invention may be given away free, given away as part of a related promotion, given as a gift with a purchase of an unrelated item, included in the packaging of a video game, or made available for purchase on their own as products in their own right.

The foregoing disclosure of the preferred embodiments of the present invention has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Many variations and modifications of the embodiments described herein will be apparent to one of ordinary skill in the art in light of the above disclosure. The scope of the invention is to be defined only by the claims, and by their equivalents.

Further, in describing representative embodiments of the present invention, the specification may have presented the method and/or process of the present invention as a particular sequence of steps. However, to the extent that the method or process does not rely on the particular order of steps set forth herein, the method or process should not be limited to the particular sequence of steps described. As one of ordinary skill in the art would appreciate, other sequences of steps may be possible. Therefore, the particular order of the steps set forth in the specification should not be construed as limitations on the claims. In addition, the claims directed to the method and/or process of the present invention should not be limited to the performance of their steps in the order written, and one skilled in the art can readily appreciate that the sequences may be varied and still remain within the spirit and scope of the present invention.

Claims

1. A mailing apparatus for maintaining an electronically powered card in a deactivated state, comprising: a housing having a face panel and two side panels attached to the face panel at opposite sides of the face panel, the side panels extending from the face panel in a direction generally perpendicular to the face panel;an electronically powered card having an activation device on a surface thereof; andan offset mechanism,wherein the offset mechanism establishes an offset distance between the electronically powered card and the face panel so that a force exerted upon the face panel in a direction generally perpendicular to the face panel is resisted by the face panel and prevented from causing activation of the activation device of the card.

2. The mailing apparatus of claim 1, wherein the housing is made of one of ABS plastic and PVC plastic.

3. The mailing apparatus of claim 1, wherein the offset mechanism comprises slots disposed in each of the two side panels, the slots retaining edges of the electronically powered card.

4. The mailing apparatus of claim 1, wherein the offset mechanism comprises protrusions extending from each of the two side panels and the electronically powered card comprises slots along edges thereof, the protrusions being configured to slide within the slots in the edges of the electronically powered card.

5. The mailing apparatus of claim 1, wherein the offset mechanism comprises at least one protrusion formed on an undersurface of the face panel, the at least one protrusion extending in a direction toward the electronically powered card and contacting the electronically powered card to establish the offset distance between the face panel and the electronically powered card.

6. The mailing apparatus of claim 1, wherein the offset mechanism comprises protrusions extending from each of the two side panels, the protrusions contacting the electronically powered card and establishing the offset distance between the electronically powered card and the face panel.

7. The mailing apparatus of claim 1, wherein the offset mechanism comprises at least one protrusion that simultaneously extends from both an undersurface of the face panel and a side panel at a junction between the face panel and the side panel, the at least one protrusion contacting the electronically powered card and establishing the offset distance between the electronically powered card and the face panel.

8. The mailing apparatus of claim 1, wherein the offset mechanism comprises an adhesive disposed on an edge of each of the two side panels opposite to the face panel, the adhesive fastening the housing to a surface of the electronically powered card with the activation device of the card being located between the two side panels and offset from the face panel.

9. A mailing apparatus for maintaining an electronically powered card in a deactivated state, comprising: an electronically powered card having an activation device on a surface thereof;a prevention element attached to the surface, the prevention element disposed adjacent the activation device and raised above the surface of the electronically powered card,wherein the prevention element has a thickness sufficient to prevent the activation of the activation device when a force is applied to a planar substrate disposed over the prevention element in a direction generally perpendicular to the planar substrate.

10. The mailing apparatus of claim 9, wherein the prevention element is a bumped annular projection adhered to the surface of the card in an area surrounding the activation device.

11. The mailing apparatus of claim 9, wherein the prevention element is a compressible release liner that is adhered to the surface of the card and disposed over the activation device.

12. The mailing apparatus of claim 11, wherein the compressible release liner is made of one of a foam and gel.

13. The mailing apparatus of claim 11, wherein the compressible release liner is a chamber filled with one of a liquid and gas.

14. A method of packaging and maintaining an electronically powered card in a deactivated state during transport, comprising: providing a housing having a face panel and two side panels attached to opposite sides of the face panel;inserting an electronically powered card into the housing so that an offset distance is established between the face panel and an activation device located on a surface of the card facing the face panel; andmailing the housing with the electronically powered card inserted therein, the housing and the card having an interface that establishes the offset distance between the face panel and the activation device during transport so that the activation device is not activated by a force exerted on the face panel in a direction generally perpendicular to the face panel.

15. The method of claim 14, further comprising making the housing of one of ABS plastic and PVC plastic.

16. The method of claim 14, further comprising forming slots in each of the two side panels, the slots retaining edges of the electronically powered card.

17. The method of claim 14, further comprising forming protrusions in each of the two side panels and forming slots in the electronically powered card along edges thereof the protrusions being configured to slide within the slots in the edges of the electronically powered card.

18. The method of claim 14, further comprising forming at least one protrusion on an undersurface of the face panes the at least one protrusion extending in a direction toward the electronically powered card to establish the offset distance between the face panel and the electronically powered card.

19. The method of claim 14, further comprising forming protrusions on each of the two side panels, the protrusions establishing the offset distance between the electronically powered card and the face panel.

20. The method of claim 14, further comprising forming at least one protrusion simultaneously extending from both an undersurface of the face panel and a side panel, at a junction thereof, the at least one protrusion establishing the offset distance between the electronically powered card and the face panel.

21. The method of claim 14, further comprising an adhesive disposed on one edge of each of the two side panels, on an opposite end from the face panel, and fastening the housing to a surface of the electronically powered card with the adhesive so that the activation device of the electronically powered card is located between the two side panels and offset from the face panel.

22. A method of packaging and maintaining an electronically powered card in a deactivated state, comprising: adhering a prevention element onto an electronically powered card, the electronically powered card having an activation device on a surface thereof the prevention element being disposed adjacent the activation device;inserting the electronically powered device and adhered prevention element into an envelope or mailing container; andmailing the envelope or mailing container with the electronically powered card and adhered prevention element inserted therein, wherein the prevention element has a thickness sufficient to prevent the activation of the activation device when a force is applied to a container disposed over the prevention element during transport in a direction generally perpendicular to the activation device.

23. The method of claim 22, further comprising forming the prevention element as a bumped annular projection adhered to the surface of the card in an area surrounding the activation device.

24. The method of claim 22, further comprising forming the prevention element as a compressible release liner that is adhered to the surface of the card and disposed over the activation device.

25. The method of claim 24, further comprising forming the compressible release liner as made of one of a foam and gel.

26. The method of claim 24, further comprising forming the compressible release liner as a chamber filled with one of a liquid and gas.