FR2911706A1 - Electronic device i.e. contactless card reader, for storing and reading data, has storing circuit supplied with power by secondary aerial during exchange of data between storing and processing circuits and between system and storing circuit - Google Patents

Abstract

The device i.e. contactless card reader (5), has a data processing circuit (10) exchanging data with a storing circuit (24) by coupling primary and secondary aerials (7, 22) to read and/or write values in a memory (25) e.g. removable hard disk. The circuit (24) exchanges the data with a reading and/or writing system (30) i.e. near field communication (NFC) system, by coupling between aerials (22, 32) to read and/or write values in the memory. The circuit (24) is supplied with power by the aerial (22) during exchange of the data between the circuits and between the system and the circuit (24). An independent claim is also included for a method for storing data of an electronic device.

Description

B8099 - 06/04 1 MEMORIZATION OF DATA EXCHANGED BETWEEN A CIRCUIT

  ELECTRONICS AND A READING AND / OR WRITING SYSTEM

  FIELD OF THE INVENTION The present invention relates to the memorization, at the level of an electronic device, in particular a contactless card reader, of data intended to be exchanged between an electronic circuit of the electronic device and a reading system and / or separate writing of the electronic device. DISCUSSION OF THE PRIOR ART A contactless card reader generally comprises an antenna formed of an inductor, consisting of one or more turns, connected to a processing circuit. When a user places, near the antenna of the reader, a card on which is disposed an integrated circuit, called chip of the card, connected to an antenna, a coupling occurs between the two antennas for the exchange of data between the processing circuit and the chip of the card. The processing circuit comprises a memory in which data is stored during a data exchange between the reader and a contactless reader card. For example, in the case where the contactless reader card plays the role of a ticket and the contactless card reader is used for the validation of tickets, the B8099 - 06/04

  2 data that may be stored in the memory of the processing circuit may correspond to the serial numbers of the contactless reader cards that have been presented to the reader, to an identifier of the location where the reader is located, etc. A difficulty comes from the recovery of the data stored in the memory of the processing circuit. One possibility is to use a removable memory, for example a removable hard disk, a removable memory card, etc. The reading of the data stored in the memory can then be performed by removing the memory from the reader, possibly by replacing the removable memory with another. However, the withdrawal of the memory may require opening, at least partially, the speaker of the reader, which is generally not desirable, especially for security reasons. Another possibility is to read the data stored in the memory by connecting to the reader, via a wired connection or an infrared link, an external system, for example a laptop. The external system is then adapted to interrogate the processing circuit to read the data stored in the memory of the reader. A disadvantage of such a reading method is that it requires the reader to be powered on when reading the data stored in the reader's memory. However, for many applications it would be desirable for the reading of the data stored in the memory of the reader to be performed while the reader is powered off. For example, when the contactless card reader is used for the validation of tickets and is placed in a bus, the reading of data stored in the memory of the reader is generally performed while the bus is stopped. , engine off, the drive is then turned off. It is then necessary to replenish the power supply of the bus to reset the reader B8099 - 06/04

  3 and read the data stored in the memory of the reader, which is relatively restrictive. SUMMARY OF THE INVENTION The present invention relates to a device and a method for storing data supplied and / or used by an electronic circuit and intended to be read and / or provided by a system external to the electronic circuit, allowing the reading of the stored data. even when the electronic circuit is not powered.

  Another object of the present invention is to provide a data storage device of particularly simple design. To achieve all or part of these objects as well as others, there is provided an electronic device comprising, in a chamber, an electronic circuit connected to a first antenna and a storage circuit comprising a memory and connected to a second antenna. The electronic circuit is adapted to exchange data remotely with the storage circuit, by coupling the first antenna and the second antenna, for reading and / or writing values in the memory. The storage circuit is adapted to exchange data with a reading and / or writing system, separate from the electronic device and comprising a third antenna, by coupling between the second antenna and the third antenna for reading and / or reading. write values into memory. The memory circuit is adapted to be powered, during the exchange of data between the electronic circuit and the storage circuit and between the reading system and / or writing and the storage circuit, only by the second antenna. According to an exemplary embodiment, the device comprises a means of interrupting the emission of the electromagnetic field by the first antenna during the exchange of data between the reading and / or writing system and the memory circuit. .

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  According to an exemplary embodiment, the electronic device is a contactless card reader, the electronic circuit being adapted to exchange data remotely by the coupling between the first antenna and a fourth antenna of a non-contact reading card. According to an exemplary embodiment, the device comprises a switch disposed between a terminal of the second antenna and a terminal of the storage circuit, the electronic circuit being adapted to control the opening of the switch during the exchange of data between the electronic circuit and the non-contact reading card and to command the closing of the interrupter during the exchange of data between the electronic circuit and the storage circuit. According to an exemplary embodiment, the device comprises a switch disposed at the terminals of the second antenna, the electronic circuit being adapted to control the closing of the switch during the exchange of data between the electronic circuit and the non-contact reading card and controlling the opening of the switch during data exchange between the electronic circuit and the storage circuit. There is also provided a method for storing data of an electronic device comprising, in an enclosure, an electronic circuit connected to a first antenna and a storage circuit comprising a memory and connected to a second antenna. The method comprises the steps of causing the electronic circuit to exchange data remotely with the storage circuit, by coupling the first antenna and the second antenna for reading and / or writing values in the memory, the memory circuit being fed only by the second antenna during data exchange between the electronic circuit and the storage circuit; and causing a reading and / or writing system, separate from the electronic device and including a third antenna, to remotely exchange data with the storage circuit by coupling between the second antenna B8099 - 06/04

  and the third antenna for reading and / or writing values in the memory, the storage circuit being fed only by the second antenna during the data exchange between the reading and / or writing system and the 5 memory circuit. According to an exemplary embodiment, the emission of the electromagnetic field by the first antenna is interrupted during the exchange of data between the reading and / or writing system and the storage circuit.

  According to an exemplary embodiment, the electronic circuit is adapted to exchange data remotely by the cou-range between the first antenna and a fourth antenna of a non-contact reading card. According to an exemplary embodiment, the interruption of the electromagnetic field emitted by the first antenna is performed after the electronic circuit has exchanged data with a specific non-contact reading card. According to an exemplary embodiment, the electronic circuit is further adapted to exchange data with the reading and / or writing system by coupling between the first antenna and the third antenna, the interruption of the electromagnetic field emitted by the first antenna being performed after the electronic circuit has exchanged data with the reading and / or writing system.

  BRIEF DESCRIPTION OF THE DRAWINGS These and other objects, features, and advantages will be set forth in detail in the following description of particular embodiments given in a non-limiting manner with reference to the accompanying figures, in which: FIGS. show schematically exemplary embodiments of a storage device according to the invention; B8099 - 06/04

  Figure 4 shows, in the form of a block diagram, an example of a method for storing data and reading stored data according to the invention; and Figures 5 and 6 show two more detailed exemplary embodiments of the data storage device according to the invention. DETAILED DESCRIPTION For the sake of clarity, the same elements have been designated with the same references in the various figures. In the remainder of the description, the present invention will be written for a storage device in which data supplied by the processing circuit of a contactless card reader is stored. However, the present invention also applies to the storage of data provided by any electronic circuit. FIG. 1 schematically represents a reader 5 consisting of an enclosure 6 (represented by a dotted line) containing an antenna 7, called the antenna of the reader or main antenna, connected to an emission amplifier 8 and 20 to a reception amplifier 9, themselves connected to a data processing circuit 10. The main antenna 7 is, for example, formed of an inductance consisting of one or more turns. Various components, in particular capacitors, not shown, can be provided to adapt the impedance of the main antenna 7. During normal operation of the reader 5, a contactless reader card 11, comprising an antenna 12 connected to a circuit integrated 13, called card chip, is placed near the speaker 6 at the main antenna 7. A coupling occurs between the main antenna 7 and the antenna 12 allowing the exchange of data between the processing circuit 10 of the reader 5 and the chip 13 of the card 11. During the data exchange between the processing circuit 10 and the chip 13, data can be stored by the processing circuit 10 at the level of a memory of the processing circuit 10, not shown.

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  There is further provided in the enclosure 6 a circuit 20 which includes a secondary antenna 22 connected to a storage circuit 24 comprising a memory 25 (MEM). The secondary antenna 22 is disposed in the enclosure 6 so as to be permanently coupled to the main antenna 7. However, the coupling between the main antenna 7 and the secondary antenna 22 is sufficiently weak for the presence of the secondary antenna 22 disturbs as little as possible the normal operation of the main antenna 7 during a data exchange between the processing circuit 10 and the chip 13 of a card 11 to read without contact. However, the coupling between the main antenna 7 and the secondary antenna 22 is sufficient to allow the exchange of data between the processing circuit 10 and the storage circuit 24. The processing circuit 10 can then provide data to the circuit 24, which are stored in the memory 25. FIG. 2 represents another embodiment in which a switch 26 is arranged between a terminal of the secondary antenna 22 and a terminal of the storage circuit 24. The switch 26 is controlled by a control signal C provided by the processing circuit 10. When the switch 26 is open, there is no interaction between the secondary antenna 22 and the main antenna 7. The reader 5 can then function normally for reading a non-contact reading card 11 placed outside the enclosure 6 near the main antenna 7. When the switch 26 is closed, a coupling occurs between the ante secondary circuit 22 and the main antenna 7 allowing the exchange of data between the processing circuit 10 and the storage circuit 24. The processing circuit 10 can then supply data to the storage circuit 24 which are stored in the memory 25 By way of example, the switch 26 may be an electromechanical switch. One advantage is that it is easy to make an electromechanical switch which remains closed in the absence of the B8099 - 06/04

  8 control signal C, that is to say when the processing circuit 10 is not powered. FIG. 3 represents another exemplary embodiment in which a switch 28 is disposed between the terminals of the secondary antenna 22. When the switch 28 is closed, the secondary antenna 22 is short-circuited and the main antenna 7 is granted accordingly. The storage circuit 24 is not powered. The reader 5 can then function normally for the reading of contactless reader cards 11. When the switch 28 is open, the coupling between the secondary antenna 22 and the main antenna 7 allows the exchange of data between the circuit processing 10 and the storage circuit 24. As an example, the switch 28 can be made by one or more transistors. One advantage is that it is easy to make a transistor-based switch that remains open in the absence of a control signal C, i.e., when the processing circuit 10 is not powered. In each of the embodiments described above, a read / write system 30, outside the enclosure 6 and comprising an antenna 32, can be approached from the secondary antenna 22 so as to allow the exchange of data between the read / write system 30 and the storage circuit 24 by coupling the secondary antenna 22 and the antenna 32.

  FIG. 4 represents an example of a method of using the reader 5 according to the previously described embodiments. In step 40, during normal operation of the reader 5, the processing circuit 10 transmits, via the coupling of the main antenna 7 and the secondary antenna 22, data to the storage circuit 24 which are As an example, after a contactless reader card 11 has been presented in front of the reader 5 and data has been exchanged between the processing circuit 10 and the chip 13 of the card 11, the processing circuit B8099 - 06/04 9 transmits to the storage circuit 24 data reflecting the previous transaction with the card 11 to be read without contact and stored in the internal memory of the processing circuit 10, this data is then stored in the memory 25. For example, when the reader 5 serves for the validation of tickets, the data stored in the memory 25 may be representative of the serial numbers of the cartons 5, which are presented in front of the reader 5, to an identifier of the place where the reader 5 is placed, and so on. For the embodiment previously described in connection with FIG. 2, the processing circuit 10 can control the opening of the switch 26 during a data exchange with the card 11 for reading without contact so that the presence of the circuit 20 does not disturb the data exchange with the card 11. Once the data exchange between the processing circuit 10 and the chip 13 of the card 11 is completed, the processing circuit 10 can control the closing of the switch 26 so as to allow data exchange between the processing circuit 10 and the storage circuit 24. For the embodiment described above in connection with Figure 3, the processing circuit 10 can control the closing of the switch 28 during a data exchange with the card 11 to read without contact so that the presence of the circuit 20 does not interfere with the exchange of data with the card 11. Once the data exchange between the the processing circuit 10 and the chip 13 of the card 11 is completed, the processing circuit 10 can control the opening of the switch 28 so as to allow data exchange between the processing circuit 10 and the storage circuit 24. According to a variant of the embodiment previously described in relation to FIG. 1, the storage circuit 24 corresponds to a chip and the processing circuit 10 is adapted to exchange data with the chip 24 by coupling the main antenna 7 and the secondary antenna 22. Following instructions provided by the circuit B8099 - 06/04

  10, the chip 24 is adapted to switch from a normal operating state to a standby or standby state, in which the presence of the circuit 20 slightly disturbs the data exchange between the processing circuit 10 and the chip 13 of the card 11. Once the data exchange between the processing circuit 10 and the chip 13 of the card 11 is completed, the processing circuit 10 can control the chip 24 so that it starts again in the normal operating state to allow the exchange of data between the processing circuit 10 and the storage circuit 24. In step 42, it is desired to carry out a read operation of the data stored in the memory 25. To do this, the emission of the electromagnetic field by the main antenna 7 is interrupted. This can be done in different ways.

  The processing circuit 10 can be de-energized so that the main antenna 7 no longer emits an electromagnetic field. For example, when the reader 5 is placed in a bus and is powered by the bus power network, the reader 5 can be de-energized by interrupting the power supply of the bus power network. The power off of the reader 5 can also be achieved by means of a specific command operated by an operator, for example a button accessible from outside the enclosure 6. The processing circuit 10 can remain powered when performing a reading operation of the data stored in the memory 25. To interrupt the emission of the electromagnetic field by the main antenna 7, an operator can bring a specific contactless reading card 11 at the main antenna 7. This card 11 is detected by the processing circuit 10 which recognizes from data exchanged with the specific card 11 that a read operation must be performed. The processing circuit 10 can then interrupt the emission of the electromagnetic field by the main antenna 7, for example for a determined duration. For the embodiment described in connection with B8099 - 06/04

  2, the processing circuit 10 can further control the closing of the switch 26 and, for the embodiment described in connection with FIG. 3, the processing circuit 10 can also control the opening of the According to a variant, a command actuated by the operator, for example a button accessible from outside the enclosure 6, makes it possible to control the processing circuit 10 to interrupt the emission of the electromagnetic field by the main antenna 7, for example for a fixed period.

  The method continues in step 44 at which the reading operation of the data stored in the memory 25 is performed. The contactless read / write system is approached from the enclosure 6 near the secondary antenna 22. A remote data exchange is then performed between the read / write system 30 and the storage circuit 24 by the coupling the secondary antenna 22 and the antenna 32. The data stored in the memory 25 can then be read by the read / write system 30. Once the read operation of the data 20 stored in the memory 25 is complete, the method may continue to step 40. Alternatively, the read / write system 30 may be a system compatible with Near Field Communication (NFC) technology. Such a system contains an antenna connected to a chip that is adapted to operate actively, analogously to the processing circuit 10, or passively, similarly to the chip 13 of a card 11 with conventional non-contact reading . When the processing circuit 10 is energized while a read operation of the data stored in the memory 25 is to be performed, the NFC system may first be presented in front of the antenna 7 so that the processing circuit 10 exchanges data with the NFC system by coupling the main antenna 7 and the antenna of the NFC system. The processing circuit 10 can then recognize the B8099 - 06/04

  12 NFC system and interrupt the emission of the electromagnetic field by the antenna 7, for example for a fixed period. The NFC system can then be presented in front of the secondary antenna 22 so that the NFC system exchanges data with the storage circuit 24 by coupling between the secondary antenna 22 and the antenna of the NFC system for reading the data stored in the NFC system. When the read / write system 30 is an NFC system, the secondary antenna 22 is preferably placed sufficiently close to the main antenna 7 so that the coupling between the antenna of the NFC system and the antenna main 7 or the secondary antenna 22 can be achieved without moving the NFC system. Although the circuit 20 has been previously described for the storage, in the memory 25, of data provided by the processing circuit 10, the present invention can be implemented to store, in the memory 25, data provided by the system. The data stored in the memory 25 can then be read subsequently by the processing circuit 10. This data can correspond, for example, to operating parameters of the processing circuit 10, in particular to a list serial numbers of invalid contactless reader cards. FIG. 5 partially shows a more detailed exemplary embodiment of the reader 5. The main antenna 7 consists of a single turn 46 made on a support 48. The amplifiers 8, 9 and the processing circuit 10 are not represented. The circuit 20 is made at the support 48 outside the turn 46. Only the chip 24 and the secondary antenna 22 are shown, the secondary antenna 22 being, for example, consisting of two coils concen - triques. The area occupied by the secondary antenna 22 and the number of turns of the secondary antenna 22 determine the value of the inductance of the secondary antenna 22. It is then possible to set the coupling characteristics between the secondary antenna 22 and the antenna 22. main antenna 7 by varying the position B8099 - 06/04

  Relative to the main antenna 7. This exemplary embodiment is advantageous insofar as the field lines of the parasitic electromagnetic field due to the secondary antenna 22 are substantially oriented in the same direction as the field lines of the electromagnetic field emitted by the main antenna 7 in the region above the main antenna 7, that is to say where is placed the contactless reading card 11 during an exchange between the reader 5 and the card 11. As a result, for the embodiment previously described in connection with FIG. 1 or 3, in which the secondary antenna 22 is permanently coupled with the main antenna 7, the The parasitic electromagnetic field due to the secondary antenna 22 substantially adds to the electromagnetic field emitted by the main antenna 7 in the region where the non-contact reading card 11 is placed during an echo operation. data angel between the processing circuit 10 and the chip 13 of the card 11. Figure 6 shows another embodiment wherein the circuit 20 is formed at an auxiliary support 50 separate from the support 48 and disposed in the 6 of the reader 5. The support 50 is inclined relative to the support 48 so that the parasitic electromagnetic field due to the secondary antenna 22 is oriented so as to disturb as little as possible the electromagnetic field emitted by the main antenna 7 in the region where the contactless reader card 11 is placed during a data exchange operation between the processing circuit 10 and the chip 13 of the card 11 in the case where, as for the embodiment described previously in connection with Figure 1 or 3, the secondary antenna 22 is permanently coupled with the main antenna 7. However, the inclination of the support 50 relative to the support 48 is chosen so that the neck the range between the secondary antenna 22 and the main antenna 7 is sufficient to allow the exchange of data between the processing circuit 10 and the storage circuit 24.

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  An advantage of the embodiments described above is that the storage circuit 24 is supplied only by the secondary antenna 22 during the data exchange between the processing circuit 10 and the storage circuit 24 or between the reading system. In this way, even when the reader 5 is not powered, or even when the reader 5 no longer functions properly, the data stored in the memory 25 remains accessible since a data exchange between the read / write system 30 and the storage circuit 24 can be realized. Particular embodiments of the present invention have been described. Various variations and modifications will be apparent to those skilled in the art. In particular, the circuit 20 can be made on a mobile support so as to be remote from the main antenna 7 during a data exchange operation between the processing circuit 10 and the chip 13 of the card 11 and be close to the main antenna 7 during a data exchange operation between the processing circuit 10 and the storage circuit 24.

Claims (10)

  An electronic device (5) comprising, in an enclosure (6), an electronic circuit (10) connected to a first antenna (7) and a storage circuit (24) comprising a memory (25) and connected to a second antenna (22), wherein the electronic circuit is adapted to exchange data remotely with the storage circuit, by coupling the first antenna and the second antenna, for reading and / or writing values in the memory , wherein the storage circuit is adapted to exchange data with a reading and / or writing system (30), separate from the electronic device and comprising a third antenna (32), by the coupling between the second antenna and the third antenna for reading and / or writing values in the memory, and in which the storage circuit is adapted to be powered, during the exchange of data between the electronic circuit and the storage circuit and between the reading and / or writing system and the storage circuit, only by the second antenna.   2. Device according to claim 1, comprising a means of interrupting the emission of the electromagnetic field by the first antenna (7) during the exchange of data between the reading system and / or writing (30) and the storage circuit (24).   3. Device according to claim 1 or 2, wherein the electronic device is a card reader (5) without contact, the electronic circuit (10) being adapted to exchange data remotely by the coupling between the first antenna (7). and a fourth antenna (13) of a contactless card (11).   4. Device according to claim 3, comprising a switch (26) arranged between a terminal of the second antenna (22) and a terminal of the storage circuit (24), the electronic circuit (80) being adapted to controlling the opening of the switch during the exchange of data between the electronic circuit and the card (11) to read without contact and to control the closing of the switch during the exchange of data between the electronic circuit and the memory circuit.   5. Device according to claim 3, comprising a switch (28) disposed across the second antenna (22), the electronic circuit (10) being adapted to control the closing of the switch during the exchange of data between the electronic circuit and the card (11) to read without contact and to control the opening of the switch during the exchange of data between the electronic circuit and the storage circuit (24).   A method of storing data of an electronic device (5) comprising, in an enclosure (6), an electronic circuit (10) connected to a first antenna (7) and a storage circuit (24) comprising a memory ( 25) and connected to a second antenna (22), the method comprising the steps of: causing the electronic circuit to exchange data remotely with the storage circuit, by coupling the first antenna and the second antenna for reading and / or the writing of values in the memory, the storage circuit being fed only by the second antenna during the data exchange between the electronic circuit and the storage circuit; and causing a reading and / or writing system (30), separate from the electronic device and including a third antenna (32), to exchange data remotely with the storage circuit by coupling between the second antenna and the third antenna (32) for reading and / or writing of values in the memory, the storage circuit being fed only by the second antenna during the exchange of data between the reading system and / or of writing and the memory circuit.   7. Method according to claim 6, wherein the emission of the electromagnetic field by the first antenna (7) is interrupted during the exchange of data between the reading system and / or writing (30) and the circuit of memorization (24).   The method according to claim 6 or 7, wherein the electronic circuit (10) is adapted to remotely exchange data by coupling between the first antenna (7) and a fourth antenna (13) of a card (11). contactless reading.   9. The method of claim 8, wherein the interruption of the electromagnetic field emitted by the first antenna (7) is performed after the electronic circuit has exchanged data with a specific non-contact reading card.   The method according to claim 8, wherein the electronic circuit (10) is further adapted to exchange data with the reading and / or writing system (30) by coupling between the first antenna (7) and the third antenna (32), the interruption of the electromagnetic field emitted by the first antenna being carried out after the electronic circuit has exchanged data with the reading and / or writing system.