RU197573U1 - ELECTRONIC UNIVERSAL MEDIA - Google Patents

Abstract

A utility model relates to storage media intended for use with readers. The electronic storage medium contains a plastic substrate that is transparent to optical radiation, a controller and a memory device, mounted within the boundaries of the substrate, coupled to a transmit-receive wire antenna embedded in the thickness of the substrate, and an additional antenna circuit connected to the controller and with LEDs activated when an additional antennas in the field of the electromagnetic radiation source at a distance sufficient to receive energy, providing the LEDs glow with a color corresponding to the operation being performed with the carrier. The technical result is to increase the reliability of data protection.

Description

The utility model relates to storage media intended for use with readers, including electronic passes, travel documents, bank and credit cards, smart cards and other media using the NFC technology.

The following technical solutions are known from the prior art.

Known flat media containing a substrate made in the form of an optical medium made with the possibility of fixation in a reader. Information on the non-working side of the optical medium is in the form of a code or magnetic medium (RF patent No. 60434, published January 27, 2007).

Also known is a flat storage medium comprising a substrate with a storage medium placed on it, made in the form of a code or a magnetic medium covered by a protective layer of code. The substrate is made in the form of a single-sided optical medium that can be fixed in a reader, while the information medium in the form of a code or a magnetic medium covered by a protective layer is placed on the non-working side of the optical medium (RF patent No. 68960, published January 27, 2007).

The disadvantages of the known solutions are the lack of security of identifying elements, as well as the likelihood of demagnetization of the card and its failure.

This problem is solved by the implementation of the storage medium on a multilayer printed product in the form of a wireless communication chip located between the inner layers of the printed product, while the wireless communication chip is preferably an NFC chip for short-range communication, which includes an antenna (UK patent No. 2515724, published on January 7, 2015).

The cited patent is the closest analogue of the patented solution and describes one of the well-known modern methods for the production of smart cards and other types of media using NFC technologies that involve the use of inlays (the inner layer, made in the form of a film on which the antenna is placed, logical elements, microchips, etc.) and the external housing of carriers. In most cases, such media are made of opaque plastic (both inlay and the body), which is subsequently applied with a printing method for drawing, text and other design elements. Carrier antennas are a contour of a thin (usually copper) conductor, laid along the perimeter of inley.

The disadvantage of the closest analogue is the impossibility of obtaining information from the card without using a reader.

The technical problem is the lack of a universal information carrier on the market that is maximally protected from fakes and unauthorized access to data and services related to the information carrier.

The technical result of the patented solution is to increase the reliability of data protection by ensuring the exclusion of unauthorized use of the card and obtaining information from it by third parties using a reader.

The claimed technical result is ensured by a structure containing a plastic substrate transparent to optical radiation, a controller and a memory device fixed within the boundaries of the substrate, coupled to a transceiver wire antenna embedded in the thickness of the substrate, and an additional antenna circuit connected to the controller and to the LEDs made activated when the additional antenna is in the field of the electromagnetic radiation source at a distance sufficient to receive energy, providing the LEDs glow with a color corresponding to the operation performed with the carrier.

In the particular case of the implementation of the utility model, the device comprises a display made in the same plane with the housing and connected to the controller, and on the surface of the housing there are controls for controlling the functions of the controller.

In the particular case of the implementation of the utility model, the substrate contains interspersed particles of irregular shape, smaller than the thickness of the substrate, arranged randomly on the substrate.

In the particular case of the implementation of the utility model, the plastic substrate is transparent to optical radiation.

In the particular case of the implementation of the utility model, the plastic substrate is made transparent and the contour of the transceiver wire antenna has an arbitrary shape, which is part of the visual design of the card.

In the particular case of the implementation of the utility model, the display is based on E-Ink technology.

In the particular case of the implementation of the utility model, the controls are made in the form of touch buttons.

In the particular case of the implementation of the utility model, the controller is configured to generate a one-time password displayed on the screen by pressing the touch button.

The LEDs are activated when the additional antenna connected to them is in the electromagnetic field of the reader, while the microcontroller is configured to activate LEDs of different colors depending on the operation being performed, which serves as a signal to start working with the card, for example, reading / writing information from the card, which It makes it possible not only to find out about the beginning of a transaction, but also about the type of operation being performed, which allows you to interrupt an erroneously initiated transaction or unauthorized use of a card in time using an intruder reader.

Next, the solution is illustrated by reference to the figure, which shows a General view of the media.

The electronic storage medium has a housing 1 made in the form of a plastic substrate transparent to optical radiation, having interspersed particles 2 of irregular shape, smaller than the thickness of the substrate, located randomly throughout the volume of the substrate. These particles are placed in plastic when packing a card or other medium, where they randomly scatter. The pattern formed of such particles at random is unique to each carrier. An optical reader of a standard sample, or a special optical reader can read this unique pattern both in transparency and in the usual way (similar to reading QR with additional technologies for recognizing an abstract unspecified pattern) using recognition technologies.

Within the boundaries of the substrate, a controller 3 and a memory device are fixed, paired with a transceiver wire antenna 7, the contour of which has a random shape embedded in the thickness of the substrate. Subject to the length of the antenna, the shape of its laying on the inle (the inner layer on which the antenna and logic elements are located) can be an additional component of the visual design of the map. That is, the very form of laying the antenna conductor is chosen so that it carries not only technological, but also visual functions.

At the same time, the chip and other logical elements located on the inle can be masked under the sealed (opaque) zones of the card.

An additional antenna circuit is built into the card, used to power additional elements, to which the LEDs, controller, and other necessary logic elements and LED control elements are connected.

When a card is inserted into the reader field (devices for working with cards of the corresponding standard), in addition to performing the basic functions of reading / writing cards, it becomes possible to power the backlight operation circuit and manage it in accordance with the logic embedded in the card functionality.

The backlight can be used just as an additional visual component, or carry an informative part, for example:

• yellow light - reading,

• green - successful recording,

• blue - it is necessary to contact a specialist / controller / seller,

• red - card / reader malfunction.

In the case when the card seal is needed solid, the LEDs can be directed towards the side faces, thereby using them as the exit point of the light flux.

The device includes a display 6, made in the same plane with the housing and connected to the controller 3, and on the surface of the housing are the controls for the functions of the controller in the form of a power button 4 and input buttons 5.

The display is based on E-Ink technology, it reflects the status of the card (balance).

The controller is configured to generate a one-time password that appears on the display by pressing the touch button 4, which should then be entered on the media using buttons 5.

Information can be updated both by means of the card itself (using only its own properties), and in the process of interacting with the reader.

The electronic components required for the authentication session, as well as the LEDs, use an additional antenna circuit as an energy source.

If additional batteries are placed on the carrier, that is, when there is no need to add a card to the reader field to manipulate the card using the buttons on it, viewing the information on the display is possible without interacting with the reader.

Claims (7)

1. An electronic storage medium containing a plastic substrate transparent to optical radiation, a controller and a memory device mounted within the boundaries of the substrate, coupled to a transceiver wire antenna embedded in the thickness of the substrate, and an additional antenna circuit connected to the controller and to the LEDs made activated when the additional antenna is located in the field of the electromagnetic radiation source at a distance sufficient to receive energy, providing the LEDs glow with a color corresponding to the operation performed with the carrier. 2. The electronic storage medium according to claim 1, which contains interspersed particles of irregular shape, smaller than the thickness of the substrate, located randomly on the substrate. 3. The electronic storage medium according to claim 1, which contains a display made in the same plane with the substrate and connected to the controller, and on the surface of the substrate are the controls for the functions of the controller. 4. The electronic storage medium according to claim 1, in which the plastic substrate is made transparent to optical radiation. 5. The electronic storage medium according to claim 3, wherein the display is based on E-Ink technology. 6. The electronic storage medium according to claim 3, in which the controls are made in the form of touch buttons. 7. The electronic storage medium according to claim 3, in which the controller is configured to generate a one-time password displayed on the screen by pressing the touch button.

Images