WEARABLE DEVICE WITH INTEGRATED RFID OR NFC CHIPSET

Abstract

A wearable device with integrated RFID or NFC chipset, includes: a microchip for management and encryption of radio-frequency communications in RFID or NFC standards; at least one antenna, including metal coils to transmit/receive signals in RFID or NFC standards and/or metal coils to generate the electric current required for operation; a memory chip for storing data and encryption keys, manageable by the microchip; a wearable object, integrating the components of the device; a reversible closing buckle for the wearable object, associated with the opposite ends of the coils of the antenna. The buckle can determine in the coils a point of discontinuity, capable of reversibly inhibiting the respective transmission/reception functions of signals in RFID or NFC standards and of generating electric current via electromagnetic induction, thereby preventing unauthorized transmission by the microchip of the data and of the encryption keys of the same, contained in the memory chip.

Claims

1) Wearable device (1) with integrated RFID or NFC chipset, comprising: a microchip (2) for management and encryption of radio-frequency communications in RFID or NFC standards; at least one antenna (3) associated with said microchip (2), comprising metal coils (7) adapted to transmit/receive signals in RFID or NFC standards and/or metal coils (7) adapted to generate via electromagnetic induction the electric current required for operation of said device (1); a memory chip (4), adapted to contain data and encryption keys of the same, manageable by the microchip (2), characterized in that it comprises: a wearable object (5), integrating the components of said device (1); a reversible closing buckle (6) for said wearable object (5), associated with the opposite ends of said coils (7, 7) of said antenna (3), where said buckle (6) is adapted to determine in said coils (7, 7) a point of discontinuity, capable of reversibly inhibiting the respective transmission/reception functions of signals in RFID or NFC standards and of generating electric current via electromagnetic induction, so as to prevent unauthorized transmission by said microchip (2) of the data and of the encryption keys of the same, contained in said memory chip (4) associated therewith.

2) Device (1) according to claim 1, characterized in that the microchip (2) comprises receiving means of identification codes and encryption keys, for preliminary activation, transmitted via software applications executed by portable or fixed electronic devices, connected physically or remotely to the device (1).

3) Device (1) according to claim 1, characterized in that the wearable object (5) is a personal object such as a bracelet, watch, belt or the like.

4) Device (1) according to claim 1, characterized in that it comprises a microchip (2) associated with said buckle (6) of the wearable object (5), adapted to detect the open state of the same buckle (6) and consequently to cause deactivation of said microchip (2) and simultaneous deletion of the data and of the encryption keys contained in said memory chip (4).

5) Device (1) according to claim 4, characterized in that it comprises power supply means (12) associated with said microchip (2), adapted to allow operation of the same microchip (2) for the time required to deactivate said microchip (2) and to delete the data and the encryption keys contained in said memory chip (4).

6) Device (1) according to claim 1, characterized in that it comprises support films for said coils (7, 7) of the antenna (3) adapted to allow application thereof to said wearable object (5).

7) Device (1) according to claim 1, characterized in that it comprises a rectifier/limiter circuit (8) adapted to obtain from the antenna (3) the electric current required for operation of the microchip (2) and of the components of the device (1) correlated thereto.

8) Device (1) according to claim 1, characterized in that it comprises a circuit for indicating the availability of electric current (9), adapted to enable operation of the single components of the device (1).

9) Device (1) according to claim 1, characterized in that it comprises a detector/decoder circuit (10) adapted to supply the microchip (2) with the data received from a Reader (R) of an RFID or NFC system and to signal to a modulator (11) the instants in which it is possible to transmit the data and the encryption keys of the same, contained in the memory chip (4), toward said Reader (R) of said RFID or NFC system, via said microchip (2).

10) Device (1) according to claim 1, characterized in that it comprises a modulator (11) of the impedance of the antenna (3), adapted to generate a pilot signal useful for transmission of the data and of the encryption keys of the same, contained in the memory chip (4), toward a Reader (R) of an RFID or NFC system.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0033] Further features and advantages of the invention will be more evident from the more detailed description set forth below, with the aid of the drawings, which show a preferred implementation thereof, illustrated by way of non-limiting example, wherein:

[0034] FIG. 1 schematically shows the structure of a wearable device with integrated RFID or NFC chipset according to the invention;

[0035] FIG. 2 schematically shows the operating logic of said device.

MODE OF IMPLEMENTATION OF THE INVENTION

[0036] With reference to the details of FIGS. 1-2, a wearable device 1 with integrated RFID or NFC chipset according to the invention substantially comprises: [0037] a microchip 2 for management and encryption of radio-frequency communications in RFID or NFC standards, associated with a least one antenna 3 for transmission/reception of signals in these standards; [0038] a memory chip 4, adapted to contain data and encryption keys of the same, personal for the user of the device 1, manageable by said microchip 2, [0039] a wearable object 5, integrating the components of the device 1; [0040] a reversible closing buckle 6 for said wearable object 5; [0041] a microchip 2 for detection of the condition of opening of said buckle 6 and consequent deactivation of the microchip 2, associated with its own power supply means 12.

[0042] The device 1 as described is capable of operating as a passive Tag in relation to Readers R of RFID or NFC systems, preferably but not exclusively on HF frequencies (for example 13.56 MHz).

[0043] The microchip 2 is adapted to be activated via identification codes (pins, random keys, etc.) and encryption keys, unique for the user of the device 1, transmitted via a multiplatform software application, executable on portable (smartphones, tablets, etc.) or fixed (personal computers) electronic devices, connectable to the device 1 via physical (usb, etc.) or remote (Wi-Fi, Bluetooth, etc.) interfaces.

[0044] The antenna 3 comprises pluralities of metal coils 7, 7, of the dimensions of around two square centimeters, arrange on backing films (Mylar, etc.) adapted to allow the application thereof to wearable objects 5, according to criteria of ergonomics and ease of use required for the same objects.

[0045] Said coils 7 of said antenna 3 allow the transmission of signals in RFID or NFC standard, generated by the microchip 2, in encrypted form, and the reception of signals in the same standards, generated by Readers R of RFID or NFC systems.

[0046] Said coils 7 of said antenna 3 instead allow power to be supplied to the microchip 2 and the components of the device 1 correlated thereto, via electromagnetic induction generated by interaction of the same antenna 3 with corresponding transmission/reception A antennas of Readers R of RFID or NFC systems.

[0047] The transmission/reception functions of signals in RFID or NFC standards and of power supplied via electromagnetic induction can be performed both by the coils of a single antenna 3 or by the coils of several antennas 3 individually designated to these functions.

[0048] The reversible closing buckle 6 of the wearable object 5 is associated with the opposite ends of the coils 7, 7 of said antenna 3, so as to cause a point of discontinuity thereof capable of reversibly interrupting said transmission/reception functions of signals in RFID or NFC standard and of power supply of the microchip 2 and of the components of the device 1 correlated thereto.

[0049] Operation of a wearable device 1 with integrated RFID or NFC chipset according to the invention can be summed up as described below.

[0050] The user puts on the object 5, produced in the form of bracelets, watches, necklaces, belts, etc., and closes the related buckle 6.

[0051] The user activates the microchip 2 integrated in said object 5, via personal identification codes and encryption keys, transmitted via a multiplatform software application, executed on a portable or fixed electronic device, physically or remotely connected to the device 1.

[0052] Via said multiplatform software application, executed on said portable or fixed electronic device, the user then enters personal data usable in RFID or NFC systems in the memory chip 4, also integrated in said object 5.

[0053] With the microchip 2 activated and the buckle 6 closed, the device 1 is able to operate as a passive Tag and consequently to transmit the data and the encryption keys of the same, contained in the memory chip 4, to a Reader R of an RFID or NFC system, as consequence of the interrogation received by the device 1 from the same Reader R.

[0054] The sequence of events deriving from interrogation of the device 1 by the Reader R of an RFID or NFC system is as follows: [0055] the control logic L of the Reader R sends the interrogation data to a transmitter T that generates the signal for a coil antenna A; [0056] the electrical current circulating in the coil antenna A of the Reader R induces a pulsating magnetic field that concatenates with the coil antenna 3 of the microchip 2 integrated in the object 5 worn by the user; [0057] a rectifier/limiter circuit (3) obtains from the antenna 3 the electric current required for operation of the microchip 2 and of the components of the device 1 correlated thereto. [0058] a circuit for indicating the availability of electric current 9 enables operation of the microchip 2 and of the components of the device 1 correlated thereto; [0059] a detector/decoder circuit 10 supplies the microchip 2 with data received from the Reader R; [0060] said detector/decoder circuit 10 signals to a modulator 11 the instants in which it is possible to activate transmission of the data and the encryption keys of the same, contained in the memory chip 4, toward the Reader R; [0061] the microchip 2 reads the data and the encryption keys of the same, contained in the memory chip 4, causes encryption of said data according to said encryption keys, and indicates the availability thereof, together with said encryption keys, to said modulator 11, which, in the appropriate instants, generates a pilot signal through suitable modulation of the impedance of the antenna 3; [0062] the Reader R perceives the variations of the impedance of the antenna 3 via a detector RL, obtains from said variations the data received, and sends them toward its control logic L.

[0063] The device 1 implements in particular an encryption system that, using algorithms normally used for communications in RFID or NFC standard, is capable of causing, at hardware level, physical separation of the encryption algorithms, contained in the microchip 2, from the encryption keys, contained in the memory chip 4.

[0064] With the microchip 2 activated, opening of the buckle 6 of the object 5 worn by the user causes a point of discontinuity in the coils 7, 7 of the antenna 3 associated with the same microchip 2.

[0065] Said point of discontinuity causes interruption of the coils 7 of the antenna 3, designated to transmission/reception of signals in RFID or NFC standard, reducing the area thereof to zero, and consequently prevents the generation of communications in these standards, normally managed, in encrypted form, by the microchip 2.

[0066] Said point of discontinuity also causes short-circuiting of the coils 7 of the antenna 3, designated to the power supply of the microchip 2 and of the components correlated thereto, bringing the area thereof to approximately zero, and consequently inhibits the communication functions, in RFID or NFC standard, normally supplied, in encrypted form, by said microchip 2.

[0067] Moreover, opening of the buckle 6 of the object 5 is detected by the microchip 2 associated thereto, which: [0068] generates and transmits to the microchip 2 control signals adapted to cause the temporary deactivation thereof; [0069] generates and transmits to the memory chip 4 control signals adapted to cause deletion of the data and of the encryption keys contained therein.

[0070] The microchip 2 is associated with power supply means 12, of the type of storage capacitors, femtocells or the like.

[0071] Said means 12 allow regular operation of the microchip 2, after short-circuiting of the coils 7 of the antenna 3 of the device 1, solely for the time required to complete the aforesaid procedures of deactivation of the microchip 2 and of deletion of the memory chip 4.

[0072] Advantageously, if opening of the buckle 6 of the object 5 worn by the user were the result of malicious removal of the device 1, the device be unable to transmit the data and the encryption keys of the same, contained in the memory chip 4, in response to the interrogation of a Reader R of an RFID or NFC system, in this way preventing interception of the data transmitted and possible use thereof in actions of fraudulent access to goods and services belonging to others.

[0073] Just as advantageously, after opening of the buckle 6 of the wearable object 5, the related microchip 2 will require a new preliminary activation, via identification codes and encryption keys in possession of the legitimate user of the device 1, in this way preventing its use by unauthorized users.

[0074] Considering the high levels of security provided, a wearable device with RFID or NFC chipset according to the invention will find its natural application within the scope of services that require the communication of highly personal data, such as systems for electronic banking or for the electronic purchase of goods and services.