WO2020141088A1

WO2020141088A1 - Communicating ring with built-in electronics provided with a fingerprint reader

Info

Publication number: WO2020141088A1
Application number: PCT/EP2019/086340
Authority: WO
Inventors: Jérémy NEYROU; Fabien RAIOLA; Sébastien BERTOLOZZI
Original assignee: Icare Technologies
Priority date: 2019-01-02
Filing date: 2019-12-19
Publication date: 2020-07-09
Also published as: FR3091377A1; FR3091377B1

Abstract

The invention relates mainly to a communicating ring (10), characterised in that it comprises: - a body (11) intended for being arranged around a finger of a user, - a radio-frequency transponder (13) mounted inside the body (11) of said ring (10), said transponder (13) comprising an electronic circuit (14) and an antenna (15), - a fingerprint reader (21) capable of ensuring at least one identification of the user, - said fingerprint reader (21) being arranged on the outer periphery of the body (11) of said ring (19), - the transponder (13) and the fingerprint reader (21) being devoid of any power source, in particular such as a capacitor, battery or embedded battery, and being able to receive for their power supply only a power supply current by induction via the antenna (15) while said ring (10) is being used in a magnetic field.

Description

Title of the invention: COMMUNICATING RING WITH INTEGRATED ELECTRONICS PROVIDED WITH A FINGERPRINT READER

The present invention relates to an identification device provided with a radio frequency transponder, for example of the RFID type (or "Radio-identification" or "Radio Frequency Identification" in English) and / or NFC (or "Communication in near field "or" Near Field Communication "in the form of a ring. More specifically, the invention relates to a communicating ring with integrated electronics fitted with a fingerprint reader.

The invention can be implemented in all areas requiring identification, or a password to unlock the operation of a system, secure access controls, such as without limitation, the automobile , home automation, for example for opening doors, IT, and the field of banking transactions.

The applicant has developed an identification device comprising a passive radio frequency transponder integrated in a ring that can be worn every day by a user. This passive device described in document FR1554360 is capable of transmitting information, in particular of identification, when an antenna transmits nearby electromagnetic waves. The device includes a memory storing certain personal information of the user.

However, this device tends to inadvertently trigger the associated functionality without control of the wearer. Indeed, a passive NFC or RFID chip is capable of transmitting as soon as an antenna emits electromagnetic waves within range, which constitutes a lack of security.

The invention aims to effectively remedy these drawbacks by proposing a communicating ring, characterized in that it comprises:

- a body intended to be placed around a user's finger,

a radio frequency transponder mounted inside the body of said ring, said transponder comprising an electronic circuit and an antenna,

- a fingerprint reader capable of ensuring at least one identification of the user,

said fingerprint reader being disposed at the outer periphery of the body of said ring, - the transponder and the fingerprint reader being devoid of energy source, in particular of capacity type, or battery, or on-board battery, and being able to receive for their supply only an induction supply current via the antenna when said ring is in use in a magnetic field.

The invention thus makes it possible to guarantee the identification of the wearer via the presence of the fingerprint sensor on the external periphery. This avoids the risks of untimely triggering of the system to be controlled by controlling the emission of electromagnetic waves.

In one embodiment, said ring further comprises at least one mechanical or electronic switch capable of ensuring activation and / or deactivation of different functionalities of said ring and / or connectivity of said ring and / or identification of the 'user.

In one embodiment, the fingerprint reader is arranged radially above the switch.

In one embodiment, the fingerprint reader has an electronic switch function, so that when a finger of the user is placed on said fingerprint reader and recognized, communication with an external reader is able to operate and if no finger is placed on said fingerprint reader or if the finger is not recognized, then communication with the external reader does not take place.

According to one embodiment, the electronic circuit provided with a microcontroller and a security component are integrated in the same module, said fingerprint reader being in communication with the module.

In one embodiment, the antenna is a small antenna, in particular measuring 1 cm x 1 cm, able to supply the entire system formed by the microcontroller, the security component, and the reader. '' fingerprint simultaneously.

According to one embodiment, said ring is configured in such a way that when said ring is located near an external reader and an operation, for example a payment operation, has to be carried out, the user places a finger on the fingerprint reader, and the fingerprint reader is capable of detecting the fingerprint and of transmitting a model of the fingerprint to the microcontroller,

said microcontroller being able to transmit the modeling of the fingerprint to the security component,

- The security component being able to compare, in an encrypted manner, the modeling of the fingerprint from the fingerprint reader with the reference modeling of the encrypted fingerprint in a storage memory.

According to one embodiment, a comparison between the two models is made only in the security component so as to make the operation secure and confidential.

In one embodiment, said ring is capable of transmitting a communication when the fingerprint is not recognized or that the finger is not placed on the fingerprint reader so as to be able to exchange with an external reader or to transmit information, in particular a fingerprint reading error.

According to one embodiment, the mechanical switch can be chosen from one of the following types: lever, push button, slide, rotary, magnetic, thermal, gravity, sensitive, pressure switch, or multi-position switch type.

According to one embodiment, the electronic switch comprises at least one transistor, and / or at least one thyristor and / or at least one diode.

In one embodiment, the switch is mounted on a printed circuit disposed between an internal portion of the body of the ring and an external portion of the body of the ring.

In one embodiment, the printed circuit further carries the security component disposed on the side of a face opposite to that of the printed circuit carrying the switch.

In one embodiment, the switch is directed towards the outside of the ring.

In one embodiment, the switch is directed towards the inside of the ring so as to increase a sensitive area for pressing the switch.

According to one embodiment, a pad is arranged around the switch. According to one embodiment, the internal portion and / or the external portion of the ring body is made of a material chosen in particular from: a polymeric material, a plastic material, resin, wood, leather or ceramic.

In one embodiment, the internal portion and / or the external portion of the body of the ring are optionally covered with a material chosen in particular from a polymer material, a plastic material, resin, wood, leather or ceramic.

In one embodiment, said ring includes several button type switches so as to be able to reconfigure itself as a function of a combination of actions carried out on these buttons.

According to one embodiment, the switch makes it possible to select a use of a professional bank card or a personal bank card.

In one embodiment, said ring comprises two switches located along two opposite sides of the body of the ring so as to be independent of the direction of the ring around the user's finger.

In one embodiment, analog outputs are provided so as to be able to receive and / or control other input circuits, in particular at least one circuit from: a DNA sensor, a venous sensor, a temperature sensor , a pulse sensor, a perspiration and / or odor sensor, an oxygen sensor, a gas sensor, an atmospheric pressure sensor, a light sensor, a color sensor, a spectrometer, an accelerometer, a microphone, a retinal fingerprint reader, a magnetic field sensor.

In one embodiment, analog inputs are provided so as to be able to receive and / or control other output circuits, in particular at least one circuit from a screen, diodes, a speaker or a buzzer, or a vibrator.

In one embodiment, a multiplexing is able to increase a number of circuits connected at the input and / or at the output.

The invention will be better understood on reading the following description and on examining the accompanying figures. These figures are given only by way of illustration but in no way limit the invention. [Fig. 1] Figure 1 is a schematic representation of a communicating ring according to the present invention provided with a switch directed towards the outside;

[Fig. 2a] Figure 2a is a schematic representation of a communicating ring according to the present invention provided with a switch directed inward;

[Fig. 2b] Figure 2b is an enlarged schematic representation of the switch of the communicating ring of Figure 2a;

[Fig. 3] Figure 3 is a schematic representation of the various modules of the electronic circuit of the ring according to the present invention;

[Fig. 4] Figure 4 is a schematic representation of an embodiment of the ring according to the invention incorporating a fingerprint reader having the role of switch.

Figure 1 shows a communicating ring 10 comprising a body 1 1 generally in the form of an axially oriented ring intended to be arranged around a finger of a user. The body 11 is provided with a flat 12. The ring 10 incorporates a radio frequency transponder 13 mounted inside the body 11 of the ring 10.

The transponder 13 comprises an electronic circuit 14 comprising a microcontroller and an antenna 15 capable of receiving an electromagnetic field in particular for its activation and of emitting an electromagnetic field transporting identification information for communication with a corresponding radio reader. The transponder 13 is for example of the NFC or RFID type or any other transponder 13 for autonomous remote communication and without on-board power supply. Alternatively, several transponders 13 can be integrated into the body 11 to allow identification by different types of radio readers.

The ring 10 may if necessary be waterproof, impermeable, insensitive to dust or any other substance / material that can generate an electromagnetic mask, or deterioration of the assembly.

More specifically, as illustrated in Figure 3, the microcontroller 14 includes a radio frequency interface 141 composed of a modulator / demodulator, a rectifier, a clock regenerator and a Voltage Regulator. The microcontroller 14 also includes cryptographic processors 142, for example data with triple encryption, and an associated cryptographic control unit 143 for controlling the operations of the cryptographic processors 142.

A command interpreter 144 makes it possible to manage the commands for accessing the memory interface 145 in communication with a memory 146. The memory 146 is preferably a read only memory. By way of example and without limitation, it can be of ROM, EPROM, EEPROM, or SSD type. All the elements 142, 143, 144, 145 are controlled by the digital control unit 147.

The information contained in the memory 146 can be encrypted using for example a symmetric encryption algorithm of AES type (for "Advanced Encryption Standard") 256 bits.

When the ring 10 is positioned near a reader, the radio frequency communication interface 141 at high speed allows the transmission of data at a speed of 106 kbit / s. The energy and the data are transferred via the antenna 15 consisting for example of a coil of a few turns directly connected to the microcontroller 14. As a variant, components of the diode, coil, and capacitor type could be used to forming signal processing filters before reception by the microcontroller 14.

A mechanical or electronic switch 17 is capable of ensuring activation and / or deactivation of different functionalities of the ring 10 and / or connectivity of the ring 10. As a variant, the ring 10 may include more than one switch 17 according to the needs of the application.

The switch 17 may be of the monostable or bistable type. The mechanical switch 17 can be chosen from one of the following types: lever, push button, slide, rotary, magnetic rocker, thermal, gravity, sensitive, pressure, or DIP switch type (for "Dual Inline Package" in English or "multiple position switch" in French).

In the case of an electronic switch 17, the switch comprises at least one transistor and / or at least one thyristor and / or at least one diode. The electronic switch 17 may be photosensitive. In the case of a mechanical switch 17, in this case in the form of a push button, the switch 17 is mounted on a printed circuit 18 (or PCB for "Printed Circuit Board" in English) arranged between an internal portion 1 1 .1 and an external portion 1 1 .2 of the body 1 1 of the ring 10. The internal portion 1 1 .1 may be made of a more flexible material than the external portion 1 1 .2 of the body 1 1 of the ring 10.

The printed circuit 18 further carries an electronic component 19, such as a microprocessor for securing data exchanges (known as "secure element" in English), arranged on the side of a face opposite to that of the printed circuit. 18 carrying the switch 17. Such a configuration thus makes it possible to reduce the risk of wear, breakage or separation of the switch from the printed circuit 18. According to a particular embodiment, the microcontroller 14 could be integrated on the printed circuit 18 The microcontroller 14 could, if necessary, be confused with a security microprocessor.

As shown in Figure 1, the switch 17 may be directed towards the outside of the ring 10. Alternatively, as shown in Figures 2a and 2b, the switch 17 may be directed to the inside of the ring 10 so as to increase a sensitive support area on the switch 17. In fact, the support, which has relatively large dimensions compared to the switch 17, increases the support surface on switch 17 which is reduced (initially by a few square millimeters).

A pad can be placed around the switch 17.

Advantageously, the internal portion 1 1 .1 and / or the external portion 1 1 .2 of the body 1 1 of the ring 10 is made of a material chosen in particular from: a polymeric material, a plastic material, resin , wood, leather or ceramic.

The internal portion 1 1 .1 and / or the external portion 1 1 .2 of the body 1 1 of the ring 10 may be optionally covered with a material chosen in particular from a polymer material, a plastic material, resin , wood, leather or ceramic.

The ring 10 may include several switches 17 of button type so as to be able to reconfigure according to a combination of actions performed on these buttons. Thus, the ring 10 is programmed for a given user as a function of a certain combination of support, holding, or release of the various push buttons which identify the user wearing it. In the event of withdrawal, a system for deactivation or deletion of data and / or functionalities can be activated.

Switch 17 allows you to select the use of a professional bank card or a personal bank card.

Advantageously, the ring 10 has two switches 17 located on two opposite sides of the body 1 1 of the ring 10 so as to be independent of the direction of the ring 10. Indeed, if the switch 17 is positioned only one side, for example to the right of the ring 10, and that the ring 10 is turned, the button is found on the left and this therefore lacks ergonomics. By positioning a switch 17 on each side of the ring 10, this problem is solved.

In the embodiment of Figure 4, the ring 10 comprises an electronic circuit with microcontroller 14 and a security component 19 integrated in the same module 20. This therefore requires less space on the printed circuit 18 and allows perform operations at very high speed and achieve significant energy savings.

The module 20 is compatible with very high lamination, in particular of the PVC, PC type and all of the ISO / CQM constraints. This also makes it possible to optimally integrate advanced cryptographic functions necessary for new means of payment or at very high levels of identification for applications such as crypto wallet, payment, data storage, passport, CNI (for National Card of identity), medical ...

The elements 14 and 19 are supplied by an antenna 15 of the ring 10 generating a supply current during the electromagnetic induction produced by the passage through the magnetic field of an external reader.

Analog outputs are provided so as to be able to receive and / or control other input circuits, in particular at least one of: a DNA sensor, a venous sensor, a temperature sensor, a pulse, perspiration and / or odor sensor, oxygen sensor, gas sensor, atmospheric pressure sensor, light sensor, color sensor, spectrometer, accelerometer, microphone, retinal fingerprint reader, magnetic field sensor. Analog inputs are provided so as to be able to receive and / or control other output circuits, in particular at least one circuit from a screen, diodes in particular of LED type, a loudspeaker or a buzzer, or a vibrator.

Multiplexing can be carried out so as to increase a number of circuits connected at the input and / or at the output.

Advantageously, the ring 10 incorporates a fingerprint reader 21 in communication with the module 20. The fingerprint reader 21 is disposed on an outer periphery of the ring 10 of annular shape and axial orientation. The fingerprint reader 21 is capable of ensuring user identification. Having the reader 21 on the external periphery makes it possible to activate the identification phase at the request of the user during a particular operation, such as a payment transaction, or to unlock an access. If the ring 10 is worn on a finger, the activation for identification will therefore be carried out by another finger of the hand which will come to rest on the reader 21. This makes it possible to control the triggering of the operation, in particular of payment, and therefore to avoid any untimely triggering of the ring 10.

Advantageously, the reader 21 is configured to recognize at least one finger, preferably two fingers different from the user, regardless of the position of the fingers on the reader 21. Advantageously, the reading of biometric parameters via the reader 21 is equivalent to the security offered by the 4-digit PIN (Personal Identification number) codes. This system makes it possible to validate any act performed by the ring 10 by placing a finger on an external part of its body 11. It makes it possible in particular to carry out payment transactions on electronic payment terminals (EPT) or any standard payment architecture making it possible to pay with or without contact exactly as with a bank card, in particular an EMV type architecture for ( Europay MasterCard Visa) which is an international standard for payment card security.

Preferably, the fingerprint reader 21 has, in addition to the identification function, an electronic switch function. Thus, when the user's finger is placed on the reader 21 and recognized by the module 20, the communication (bank or not) with an external reader takes place. If no finger is placed on the reader 21 or if the finger is not recognized, then the communication with the external reader does not take place. In some cases, the ring 10 may, the if necessary, send a communication when the fingerprint is not recognized or the finger is not placed on the reader 21 so as to exchange with the external reader or to transmit information to it, in particular and in a non-exclusive manner an error fingerprint reading. In a non-exhaustive way, the fingerprint is not checked once but during each use.

Alternatively, in an embodiment shown in Figure 1, 2a, 2b, the fingerprint reader 21 shown in dotted lines is arranged radially above the switch 17. Thus, a finger pressure on the reader fingerprint 21 can identify the user and simultaneously trigger the switch 17 which ensures activation and / or deactivation of different functions of the ring 10 and / or connectivity of the ring 10. In the case where the fingerprint reader 21 also has the switch function, it is possible to remove the switch 17. The reader 21 will then be able to ensure only activation and / or deactivation of different functions of the ring 10 and / or connectivity of the ring 10.

The optimization of the system is such that it spends very little electrical energy and manages to be autonomous. Indeed, the system formed by the transponder (electronic circuit 14 with microcontroller and antenna 15), the security component 19, and the fingerprint reader 21 is devoid of super-capacity or battery or on-board battery, and receives only an induction supply current when in use in a magnetic field, so that when powered up, the fingerprint can be checked.

Thus, a small antenna 15, in particular measuring 1 cm x 1 cm, provides power to the entire system formed by the microcontroller 14, the security component 19, and the fingerprint reader 21 simultaneously and perform, within the security component 19, the comparison of fingerprint while consuming very little energy.

The operation of the ring 10 produced according to the embodiment of FIG. 4 is described below. When the ring 10 is located near an external reader and an operation, for example a payment operation , must be performed, the user places a finger on the fingerprint reader 21. The fingerprint reader 21 detects the fingerprint, and transmits a modeling of the Temp fingerprint ("template" in English) to the microcontroller 14 (in the exclusively incoming direction). The microcontroller 14 transmits the fingerprint modeling to the security component 19. The security component 19 compares, in an encrypted manner, the modeling of the Temp fingerprint from the reader 21 with the reference modeling of the Temp_ref fingerprint encrypted in a storage memory 22. The correspondence between the two models is performed only in the security component 19 so as to make the operation completely secure and confidential.

The switch 17 allows in particular to prohibit the supply of the transponder 13, the security component 19, and the fingerprint reader 21 as long as it is not activated (by pressing for a mechanical switch 17 or by being covered by a finger for a capacitive or photosensitive electronic switch or a heat detection switch, or a magnetic field detection switch, a resistivity detection switch, or a body humidity detection switch ) while the antenna 15 is powered by induction due to the presence of an external reader. The switch 17 thus makes it possible to avoid false detections which would be carried out by the fingerprint reader 21 if its supply was authorized as soon as it is close to an external reader.

The switch 17 authorizes the supply of the transponder 13, the security component 19, and the fingerprint reader 21 when it is activated and that the antenna 15 is powered by induction. In other words, when the antenna 15 is powered by induction due to the presence near an external reader, the electrical energy coming from this antenna 15 does not power the transponder 13, nor the security component 19, nor the fingerprint reader 21 as long as the switch 17 is not activated.

Alternatively, only part of the electronic elements of the ring (one or two of: the transponder 13, the security component 19, or the fingerprint reader 21) can be turned on when the antenna 15 is powered by induction due to the presence near an external reader. The other part of the electronic elements of the ring among the transponder 13, the security component 19, or the fingerprint reader 21 (whose power supply was previously inhibited before activation of the switch 17) is switched on when the switch 17 is activated and the antenna 15 remains of course powered by induction.

In other words, the switch 17 is configured to inhibit a supply of all or respectively only part of the electronic elements of the ring when the antenna 15 is supplied by induction due to the presence at proximity to an external reader and to authorize a supply of all or respectively the other part of the electronic elements when said switch 17 is activated and the antenna 15 remains of course supplied by induction.

In this architecture, it is possible to modify the level of the ISO protocol (for "Open Systems Interconnection" in English) used in order to be able to activate, sequentially and quickly, various functions related to the levels of the radio frequency protocol, in particular of type NFC ("Near Field Communication" in English). For example and in a non-exhaustive way, it is possible to switch from a Mifare classic 14443-3 to a Mifare desfire 14443-4. This increases the interoperability of different products with Mifare / EMV / PKI / FIDO / systems and any other system suited to the application.

Of course, the foregoing description has been given by way of example only and does not limit the scope of the invention from which one would not depart by replacing the various elements with any other equivalent.

In addition, the different characteristics, variants, and / or embodiments of the present invention can be combined with one another in various combinations, insofar as they are not incompatible or mutually exclusive of each other.

Claims

[Claim 1] Communicating ring (10), characterized in that it comprises:

- a body (1 1) intended to be arranged around a finger of a user,

- a radio frequency transponder (13) mounted inside the body (1 1) of said ring (10), said transponder (13) comprising an electronic circuit (14) and an antenna (15),

- a fingerprint reader (21) capable of ensuring at least one identification of the user,

- said fingerprint reader (21) being disposed at the outer periphery of the body (1 1) of said ring (10),

- the transponder (13) and the fingerprint reader (21) being devoid of energy source, in particular of capacity type, or battery, or on-board battery, and being able to receive for their supply only a supply current by induction via the antenna (15) when said ring (10) is in use in a magnetic field.

[Claim 2] Ring according to claim 1, characterized in that it further comprises at least one switch (17) mechanical or electronic capable of ensuring activation and / or deactivation of different functionalities of said ring (10) and / or a connectivity of said ring (10) and / or an identification of the user.

[Claim 3] Ring according to claim 2, characterized in that the fingerprint reader (21) is arranged radially above the switch (17).

[Claim 4] Ring according to any one of claims 1 to 3, characterized in that the fingerprint reader (21) has an electronic switch function, so that when a finger of the user is placed on said recognized fingerprint reader (21), communication with an external reader is able to take place and if no finger is placed on said fingerprint reader (21) or if the finger is not not recognized, then communication with the external player does not take place.

[Claim 5] Ring according to any one of claims 1 to 4, characterized in that the electronic circuit (14) provided with a microcontroller (14) and a safety component (19) are integrated in the same module (20) , said fingerprint reader (21) being in communication with the module (20).

[Claim 6] Ring according to claim 5, characterized in that the antenna (15) is a small antenna, in particular measuring 1 cm x 1 cm, able to supply the entire system formed by the microcontroller (14), the security component (19), and the fingerprint reader (21) simultaneously.

[Claim 7] Ring according to claim 5 or 6, characterized in that it is configured in such a way that when said ring (10) is located near an external reader and an operation, for example an operation of payment, must be made, the user places a finger on the fingerprint reader (21), and

- the fingerprint reader (21) is able to detect the fingerprint, and to transmit a modeling of the fingerprint (Temp) to the microcontroller (14),

said microcontroller (14) being capable of transmitting the modeling of the fingerprint (Temp) to the security component (19),

- the security component (19) being able to compare, in an encrypted manner, the modeling of the fingerprint (Temp) from the fingerprint reader (21) with the reference modeling of the fingerprint (Tem_ref) encrypted in a storage memory (22).

[Claim 8] Ring according to claim 7, characterized in that a comparison between the two models (Temp_ref, Temp) is carried out only in the security component (19) so as to make the operation secure and confidential.

[Claim 9] Ring according to any one of claims 1 to 8, characterized in that it is capable of transmitting a communication when the fingerprint is not recognized or that the finger is not placed on the reader d fingerprint (21) so as to be able to exchange with an external reader or to transmit information, in particular an error in reading a fingerprint.

[Claim 10] Ring according to claim 2, characterized in that the mechanical switch (17) can be chosen from one of the following types: lever, push button, slide, rotary, magnetic rocker, thermal, gravity, sensitive, pressure , or multi-position switch type.

[Claim 1 1] Ring according to claim 2, characterized in that the electronic switch (17) comprises at least one transistor, and / or at least one thyristor and / or at least one diode.

[Claim 12] Ring according to claim 2, characterized in that the switch (17) is mounted on a printed circuit (18) disposed between an internal portion (11.1) of the body (1 1) of the ring (10) and an outer portion (11.2) of the body (1 1) of the ring (10).

[Claim 13] Ring according to claims 5 and 12, characterized in that the printed circuit (18) further carries the security component disposed on the side of a face opposite to that of the printed circuit (18) carrying the switch (17 ).

[Claim 14] Ring according to claim 2, characterized in that the switch (17) is directed towards the outside of the ring (10).

[Claim 15] Ring according to claim 2, characterized in that the switch (17) is directed towards the inside of the ring (10) so as to increase a sensitive area for pressing on the switch (17).

[Claim 16] Ring according to claim 2, characterized in that a bearing is arranged around the switch (17).

[Claim 17] Ring according to claim 12, characterized in that the internal portion (1 1.1) and / or the external portion (1 1.2) of the body (1 1) of the ring (10) is made of a material chosen in particular among: a polymer material, a plastic material, resin, wood, leather or ceramic.

[Claim 18] Ring according to claim 12, characterized in that the internal portion (1 1.1) and / or the external portion (1 1.2) of the body (1 1) of the ring (10) are optionally covered with a material chosen in particular from a polymer material, a plastic material, resin, wood, leather or ceramic.

[Claim 19] Ring according to claim 2, characterized in that it comprises several switches (17) of button type so as to be able to be reconfigured as a function of a combination of actions performed on these buttons.

[Claim 20] Ring according to claim 2, characterized in that the switch (17) makes it possible to select the use of a professional bank card or a personal bank card.

[Claim 21] Ring according to claim 2, characterized in that it comprises two switches (17) located along two opposite sides of the body (1 1) of the ring (10) so as to be independent of the direction of the ring ( 10) around the user's finger.

[Claim 22] Ring according to any one of claims 1 to 21, characterized in that analog outputs are provided so as to be able to receive and / or control other input circuits, in particular at least one of: DNA sensor, venous sensor, temperature sensor, pulse sensor, perspiration and / or odor sensor, oxygen sensor, gas sensor, air pressure sensor, light sensor, color sensor, spectrometer, accelerometer, microphone, retinal fingerprint reader, magnetic field sensor.

[Claim 23] Ring according to any one of claims 1 to 22, characterized in that analog inputs are provided so as to be able to receive and / or control other output circuits, in particular at least one circuit from a screen, LEDs, a speaker or buzzer, or a vibrator.

[Claim 24] Ring according to claim 22 or 23, characterized in that a multiplexing is capable of increasing a number of circuits connected at the input and / or at the output.

[Claim 25] Ring according to any one of claims 1 to 24, characterized in that when the antenna (15) is powered by induction due to the presence near an external reader,

- The switch (17) is configured to inhibit a supply of all or respectively only a part of the electronic elements of the ring, in particular one or two elements among: the transponder (13), a security component (19 ), or the fingerprint reader (21), and

- to authorize a supply of all or respectively the other part of the electronic elements from the transponder (13), the security component (19), or the fingerprint reader (21) whose supply has been previously inhibited when said switch (17) is activated.