FR2910151A1 - Rectangular shaped electronic chip device manufacturing method for electronic chip reading system, involves inserting micro module in thickness of part so that introduction of part establishes electrical connections between contacts - Google Patents

Abstract

The method involves obtaining an rectangular shaped electronic micro-module (21) and a device support, where the support is made of plastic material and comprises an extremity part having thickness and width presenting values to allow introduction of the part in a universal serial bus (USB) type female connector providing electrical contacts. The micro-module is inserted in the thickness so that the introduction of the part establishes electrical connections between the contacts and electrical contacts of an electronic chip, where the contacts correspond to vignette. Independent claims are also included for the following: (1) an electronic chip device physically connected to a host terminal on which a driver software is installed (2) a method for utilizing an electronic chip device presenting a set of electrical contacts.

Description

The present invention relates to chips

  electronic, smart cards, and more precisely to the communication of these electronic chips via a USB type port (for 'Universal Serial Bus'), standardized by the organization USB IF (for USB Implementers Forum' ). For the purposes of the present description, the term "electronic chip" means the bare electronic component corresponding to an integrated circuit that is used in a smart card. The term "micro-electronic module", or micro-module, the assembly consisting of an electronic support copper, an electronic chip mounted on one side of the electronic support and electrical contacts mounted on the other side of this electronic support. Such an electronic micro-module may be intended for use in a smart card, such as that standardized by ISO 7816 for example. An electronic micro-module has, by its structure and functions, a high level of security. Indeed, it is expected that a chip such as that integrated in micro-smart card modules can in particular implement efficient encryption methods. A smart card compliant with the ISO 7816 standard is adapted to be read by a smart card reader that also meets standardization criteria corresponding to those of the smart card to read. These criteria are in particular relating to the electrical connections implemented between the smart card to be read and the smart card reader, when this card is inserted into the reader. They are also related to the protocol of messages to be exchanged allowing a reading of the data stored on the chip of the smart card via the electrical connections. In addition, many computer or electronic devices, such as computers, support devices via a USB type connection, that is to say they include a USB female connector adapted to receive a USB male connector.

2910151 2 However, particularly by its size and by the electrical connections it offers, a smart card is not suitable for USB type male connectors offered by these computer or electronic devices. However, it may be advantageous to use a smart card in the context of such devices. For this purpose, it is possible to connect a smart card to a USB female connector via a specific adapter which has on one side a chip card receiving interface, corresponding to a smart card reader. and, on the other hand, an interface having a USB male connector 10 adapted to connect to such a computing or electronic device. Disadvantages of using the additional element, which is the specific adapter, are attached to this architecture, such as the cost of this adapter. It is also possible to mount a bare-chip smart card chip in a conventional USB stick architecture. Indeed, a conventional USB key has a support on which are fixed, on the surface, integrated circuits and, on one end, a male USB connector, the integrated circuit being connected to the male USB connector by connecting son present in the support . In this case, the bare electronic chip is fixed on the conventional support of the USB stick, then it is connected to the support by connecting son, the support being always connected to the conventional USB male connector by connecting son present in the support. Such an architecture requires to integrate an electronic chip on the support of a conventional USB key, and therefore increases the cost of such a key 25 compared to a conventional USB key, in particular by the fact that the establishment connecting wires required to connect the chip to the support can be complex. The invention aims to remedy these drawbacks. For this purpose, a first aspect of the invention provides a method of manufacturing an electronic chip device comprising the following steps: / a / obtaining an electronic micro-module comprising an electronic chip mounted on a face of a support electronic and a set of first electrical contacts mounted on the other side of said electronic medium, said set of first contacts having mechanical characteristics that correspond to those of a USB type male connector; 5 / b / obtaining a device support comprising an end portion having a thickness and a width respectively having values between first and second respective threshold values adapted to allow insertion of said end portion into a connector USB type 10 female providing second contacts; and / c / inserting into the thickness of said end portion said micro-module such that the introduction of the end portion into the USB-type female connector establishes electrical connections between the first contacts of said chip 15 and the second contacts of the USB type female connector. In the context of the present invention, the terms 'electrical contacts' correspond to a sticker. Thanks to these provisions, the product obtained by applying the manufacturing method 20 mentioned above, can easily meet the criteria of the USB standard in terms of electrical connections, mechanical characteristics, as well as criteria relating to the functionalities of the cards. since under all of the first contacts there is an electronic chip of a smart card, which is therefore adapted to implement all the functions provided for smart cards, particularly in terms of security, it is that is, authentication, or cryptography. A chip card is thus obtained, since a smart card chip is integrated in the micro-module, itself integrated on the device support 30, and this smart card is adapted to connect directly via contacts. micro-module as in a conventional smart card architecture. In addition, this smart card is adapted to connect via a USB type port since the micro-module meets the USB type connection criteria, and it is inserted in a device holder having the required size to the introduction into a USB type female connector, as well as the format of contacts compatible with the USB standard.

Advantageously, such an architecture does not require an adapter between the smart card and a USB type female connector, as described above. Such an architecture also has the advantage of not requiring the establishment of connecting son from a smart card chip to the conventional USB connector as is the case in a USB key 10 provided with a microchip smart card. Thus, by using a smart card manufacturing method in this way, it is possible to reduce the cost of using a smart card chip to connect via a USB port. As in a standard standardized smart card architecture, the chip card chip is disposed under the electrical contacts and as a result, the smart card chip is also introduced into the USB socket. Preferably, the micro-module is adapted to implement a USB type protocol.

In one embodiment of the present invention, the set of first contacts obtained in step / a / comprises: - a supply contact; - two contacts adapted for a data connection; and - a mass contact.

Thus, the characteristics of the contacts offered by this device correspond to the characteristics required by the USB standard, for the serial interface connectors A, with regard to the electrical connections. However, no limitation is attached to the present invention with regard to the type of USB interface. Indeed, the contacts could be adapted to correspond to the connectors of other interfaces of the USB standard. In step lb /, the end portion of the device carrier having a thickness having a value between 2.1 mm and 2.20 mm is obtained, a width having a value between 11.90 mm and 12, 10 mm and a length having a value greater than 11.75 mm, in order to have a manipulation area of the card. Thanks to these characteristics, an end portion is obtained which is adapted to be introduced into a USB female connector, and which is of sufficient length to allow the extraction of the electronic chip device from the USB female connector. In step / c /, the electronic micro-module is integrated in the surface of the device holder so that the surface of the electronic micro-module is at the same level as the surface of the face of the device holder in which the microchip is inserted. The USB standard for this aspect of the connection requires that the edges of the device holder only protrude from the surface of the contacts by 0 to 0.26 mm. According to this standard, it is intended in one embodiment of the present invention to take the value of 0 mm into account so that the upper surface of the electronic micro-module is at the same level as the surface of the device support when this electronic micro-module is inserted into the device support considered. In one embodiment of the present invention, the device holder is made of plastic. A second aspect of the present invention provides an electronic chip device obtained by carrying out the manufacturing method according to the first aspect of the present invention. Such an electronic chip device according to the second aspect, may advantageously be adapted to be physically connected to a host terminal, on which at least one pilot software is installed which is adapted to allow communication between this host terminal and a peripheral device having a human interface. The electronic chip device then comprises a microprocessor adapted to send to the terminal security data during a communication with the terminal, this communication between the electronic chip device and the host terminal being managed at the terminal by via the driver software 2910151 and simulating communication between the peripheral device having a human interface and the host terminal. The host terminal 14 includes a female USB connector 67. The security data can then relate to an identification and / or authentication of a user. The electronic chip device may include a memory storing security elements and the security data sent to the terminal may relate to the stored security elements. The peripheral device having a human interface may be one of a computer keyboard, a computer mouse and a joystick. A third aspect of the present invention provides an electronic chip reading system comprising an electronic chip device according to the present invention. second aspect of the present invention and an electronic chip reading terminal having a USB type female connector. A fourth aspect of the present invention provides a method of using an electronic chip device having first contacts according to the second aspect of the present invention, in a USB type female connector, comprising two openings, one of the two openings. presenting second contacts. The method of use comprises the following steps: / a / introducing the electronic chip device into the opening having the second contacts of the USB type female connector; and b) creating electrical contacts between the first contacts presented by the electronic chip device and the second contacts. By thus using the electronic chip device, the other opening provided by a USB female connector is not used. Thus, advantageously, the electronic chip device does not include the metal shielding present on a conventional USB key. It can therefore have a shape similar to a smart card, in that it can be advantageously flat like a smart card.

Other features and advantages of the invention will become apparent on reading the description which follows. This is purely illustrative and should be read in conjunction with the accompanying drawings in which: Figure 1 shows a male connector and a USB type female connector; Fig. 2-A illustrates an electronic chip device according to an embodiment of the present invention; FIG. 2-B illustrates a sectional view of a micro-module according to one embodiment of the present invention; FIG. 3 illustrates a chip device according to an embodiment of the present invention according to a front view; Figure 4 illustrates an arrangement of the first contacts according to an embodiment of the present invention; Figure 5 illustrates an electronic chip reading system according to an embodiment of the present invention; and FIG. 6 illustrates an electronic chip device according to an embodiment of the present invention in its application to a peripheral security device. Figure 1 illustrates a conventional USB female connector 110 and a conventional USB male connector 100. The female connector 100 has an opening 101 in which is positioned a bar 102 supporting 4 contacts compliant with the USB standard. Thus, a contact 103 corresponds to the + 5V supply, contacts 104 and 105 correspond to differential D- and D + data contacts, and a fourth contact 106 corresponds to ground. The conventional USB male connector 110 comprises an opening 111 adapted to be introduced into the opening 101 of the female connector and to receive the bar 102. Contacts 113 to 116 are situated on one face of this opening 111 so that when the male connector is introduced into the female connector, the contacts 103-106 and the contacts 113-116 are brought into contact and thus form electrical connections. Fig. 2-A illustrates an electronic chip device according to an embodiment of the present invention. Such a device here has a simple rectangular shape. No limitation is attached to the shape of such a smart device, with the exception of the characteristics for introducing such a device into a USB type female connector. Thus, such a chip device according to one embodiment of the present invention may have any shape except for the end portion to be introduced into the USB female connector. In the example illustrated in FIG. 2, a device support 22, which may advantageously be made of plastic as for a conventional smart card, comprises at one of its ends a micro-module 21 according to an embodiment of the invention. present invention. No limitation is attached to the shape of the micro-module. Indeed, it can be substantially circular or rectangular as illustrated here. The micro-module has a set of first contacts 23-24 which correspond to the USB type contacts, as illustrated in FIG. 1. Thus, a contact 23 corresponds to the + 5V supply, contacts 24 and 25 correspond to each other. to differential data contacts D- and D +, and a contact 26 corresponds to ground. It follows from such an arrangement that the introduction of this chip device 20 into a USB type female connector 100 makes it possible to establish electronic connections as required for USB type communication. In one embodiment of the present invention, the support of such a chip device has a minimum length of 11.75 mm and a width of between 11.90 mm and 12.10 mm.

Figure 2-B illustrates a sectional view of a micro-module 21 according to an embodiment of the present invention. An electronic chip 202 is mounted on an electronic copper medium 201. The electronic chip 202 is covered with a resin layer 203. On the integrated circuit are mounted electrical contacts 204 according to an embodiment of the present invention. Figure 3 illustrates a chip device according to an embodiment of the present invention according to a front view. The micro-module is inserted in the device holder 22 so that the side edges 31 and 32 of the device holder 22 protrude from the upper surface of the contacts of the electronic micro-module by a Y value. the USB standard, the value of Y is between 0 and 0.26 mm. The thickness H of the device support 22 preferably has a value of between 2.1 mm and 2.20 mm.

Figure 4 illustrates the arrangement of a set of first contacts according to an embodiment of the present invention. The central axis of the two central contacts 24 and 25 is preferably remote from a central axis 40 of the set of contacts of a distance 43 which has a value between 0.95 and 1.005 mm. The central axis of the contacts 23 and 26 is remote from the central axis 40 by a distance 45 having a value between 3.45 and 3.55 mm. These contacts 23 and 26 have a length 42 greater than 4.2 mm, and must be between 0.74 and 1.74 from the edge of the device carrier. It can be provided that the contacts 24 and 25 are recessed from the contacts 23 and 26, with respect to the edge of the device holder, by about 1 mm. Figure 5 illustrates an electronic chip reading system according to an embodiment of the present invention. Such a system comprises an equipment or terminal 51, such as for example a computer, which is provided with a USB type female connector 100, such a terminal being adapted to communicate with a chip of a chip device according to a Embodiment of the present invention via USB type electrical connections. Thus, upon introduction of the electronic chip device according to an embodiment of the present invention, in the connector 100 of the equipment 51, the USB electrical connections are established.

An electronic chip device according to one embodiment of the present invention can be designed based on standard chip card technology and thereby benefiting advantageously from reduced production costs related to the large amount of electronic chips produced. . In addition, it offers all the other advantages that are attached to this technology, particularly in terms of the security of data exchanges stored on the chip. Figure 6 illustrates an electronic chip device 20 according to one embodiment of the present invention in its application to a peripheral security device. It is then adapted to be physically connected to a host terminal 64, on which at least one pilot software 66 is installed adapted to allow communication between the host terminal 64 and a peripheral device having a human interface, such as a keyboard 63. 5 example. The electronic chip device comprises a microprocessor adapted to send to the terminal security data during a communication with the host terminal 64, the communication between the electronic chip device and the host terminal is managed at the terminal by Via the pilot software and simulates communication between the peripheral device having a human interface 63 and the host terminal 64 via the pilot software. The term "peripheral device having a human interface" is intended here to mean a peripheral device of a computer terminal 15 enabling a user to communicate with the host terminal, such as for example a keyboard, a mouse or a joystick. In general, a host terminal has such a human interface thus allowing a user to use this terminal. As a result, conventionally, a pilot software adapted for one of these peripheral devices having a human interface is previously installed on the terminal. Under such conditions, it is advantageously possible to communicate an electronic chip device according to an embodiment of the present invention with such a terminal easily without having to install a specific driver software on the terminal.

Indeed, the communication between the terminal and the electronic chip device according to one embodiment of the present invention simulates a communication between a peripheral device having a human interface for which a pilot software is already installed on the terminal. Thus, the terminal treats the electronic chip device as a peripheral device having a human interface and can therefore communicate with the latter via the previously loaded driver software. Thanks to these arrangements, the establishment of a communication between a host terminal and such an electronic chip device does not require the prior installation of a corresponding specific pilot software on the host terminal, since it is the software driver installed for a peripheral device having a human interface which is advantageously used here. Thus, when this electronic chip device is physically connected to the host terminal, according to a connection as described above, the latter detects this new physical connection and determines that this electronic chip device is a peripheral device having a human interface for which a driver software is already installed. The security data sent to the terminal advantageously simulate information that could be transmitted by the peripheral device having a human interface. Thus, the host terminal is able to process the data received from the electronic chip device as if these data were transmitted by the peripheral device having a human interface for which the pilot software used is installed.

This type of electronic chip device can be advantageously used to implement a control session in order to obtain authorization to access secure information. No limitation is attached to the present invention with respect to this type of control session. For example, this control session may be implemented between the electronic chip device and the host terminal itself, or it may be implemented between the microchip device and a control server, the communication between the microchip device and the host terminal itself. device and the server is then performed via the host terminal. The security data may relate to an identification and / or authentication of a user. In addition, the electronic chip device may comprise a memory that stores security elements and, in this case, the security data sent to the terminal may relate to these security elements. Thus, it can be provided that the security elements correspond directly to the security data to be sent. This can be the case when the security elements correspond directly to a password to be sent during a control session. Storing a word of 2910151 12 passes on such an electronic chip device allows the use of complex and long passwords that are difficult to memorize by a user. It is also possible that the security elements stored in memory can generate a password type OTP (for 'One Time 5 Password'). In this case, the security elements correspond to a password generation algorithm. In one embodiment of the present invention, the electronic chip device further comprises a biometric information reader and a converter of this biometric information into security data to be sent to the terminal. Such an electronic chip device is advantageous when used for a control session that is based on biometric information. Such control sessions are well known to those skilled in the art and will not be described here.

When the peripheral device having a human interface is a computer keyboard, the communication between said peripheral security device and the host terminal may advantageously be bidirectional. Indeed, a computer keyboard has light-emitting diodes whose state can be turned on or off and can be controlled by the terminal to which a computer keyboard is connected. The terminal can indicate in particular whether the capital function is active, or if the keyboard is in numeric mode. Thus, by using the transmission channel provided to transmit the LED status commands from the terminal to the keypad, it is possible to receive at the microchip device according to an embodiment of the present invention, information from the terminal. Such an electronic chip device can therefore be used advantageously for a bidirectional control session. Under these conditions, the electronic chip device can advantageously be used for the implementation of an access control session in which the access control to secure information is performed at a server that implements a corresponding algorithm. For this purpose, it can be provided that the host terminal of the electronic chip device is connected to the server via a telecommunications network. In this context, the electronic chip device can communicate with the server via the terminal. The electronic chip device can thus receive data from the server after loading by the server on the host terminal of a mini application (or 'applet' in English) so as to perform a control session adapted to the server in question. This aspect is well known to those skilled in the art and will not be detailed here.

In addition, the electronic chip device may comprise a locking module adapted to block the communication between the electronic chip device and the host terminal at the connection of the electronic chip device and to authorize the communication upon receipt of information from unlocking at the electronic chip device.

Thus, an additional level of security is advantageously required to implement a control session using an electronic chip device according to one embodiment of the present invention. Indeed, the user must send to the microchip device unlocking information to provide the required security data to the terminal or to a server via the terminal. In one embodiment of the present invention, when the host terminal communicates with a computer keyboard, the unlocking information may include a personal identification code (PIN code) for "personal identification number" to be dialed. this computer keyboard. It can also be provided that the electronic chip device comprises a biometric data reader and that the unlocking information corresponds to these biometric data. 30

Claims (18)

  A method of manufacturing an electronic chip device (20) comprising the steps of: / a / obtaining an electronic micro-module (21) comprising an electronic chip (202) mounted on one side of an electronic medium (201) ), and a set of first electrical contacts (204) mounted on the other side of said electronic medium, said set of first contacts having mechanical characteristics that correspond to those of a USB type male connector; / b / obtaining a device carrier (22) comprising an end portion having a thickness and a width having respective values adapted to allow insertion of said end portion of the device carrier into a USB type female connector offering second contacts; and / c / inserting into the thickness of said end portion said electronic micro-module such that, the introduction of the end portion into the USB type female connector establishes electrical connections between the first contacts of the said electronic chip and the second contacts of the USB type female connector. 25   2. The manufacturing method according to claim 1, wherein said micro-module is adapted to implement a USB type protocol.   3. Manufacturing method according to claim 1 or 2, wherein the set of first contacts obtained in step / a / comprises: - a supply contact (23): - two contacts adapted for a data connection ( 24, 25); and - a mass contact (26). 15 20 30 2910151   4. The manufacturing method as claimed in any one of the preceding claims, wherein in step / b /, the end portion having a thickness having a value of between 2.1 mm and 2.20 mm is obtained. width having a value between 11, 90 mm and 12.10 mm and a length having a value greater than 11.75 mm.   The manufacturing method according to any one of the preceding claims, wherein in step / c / the electronic micro-module is integrated in the thickness of the device carrier (22) so that the surface the chip is at the same level as the surface of the face of the device holder in which the microchip is inserted.   6. Manufacturing method according to any one of the preceding claims wherein the device holder is made of plastic. 15   An electronic chip device (20) comprising: - an electronic micro-module (21) comprising an electronic chip (202) mounted on one side of an electronic medium (201), and a set of first electrical contacts (204) mounted on the other side of said electronic medium, said set of first contacts having mechanical characteristics which correspond to those of a USB type male connector, said micro-module being adapted to implement a USB type protocol; and a device carrier (22) comprising an end portion having a thickness and a width respectively having values between first and second respective threshold values adapted to allow insertion of said end portion into a USB type female connector providing 30 second contacts; said electronic micro-module being integrated in the thickness of said end portion such that, the introduction of the end portion into the USB type female connector establishes electrical connections between the first contacts of said microphone electronic module and the second contacts of the USB type female connector. 5   8. Device (20) with an electronic chip according to claim 7, wherein said micro-module is adapted to implement a USB type protocol.   An electronic chip device (20) according to claim 7 or 8, wherein the set of first contacts comprises: - a supply contact (23): - two contacts adapted for a data connection (24, 25) ; and - a mass contact (26).   10. Device (20) with an electronic chip according to one of claims 7 to 9, wherein the end portion has a thickness having a value between 2.1 mm and 2.20 mm, a width having a value between between 11.90 mm and 12.10 mm and a length having a value greater than 11.75 mm.   11. Device (20) with an electronic chip according to any one of claims 7 to 10, wherein, the electronic micro-module comprising the electronic chip (21) is integrated in the thickness of the device support (22) of such so that the surface of the electronic micro-module is at the same level as the surface of the face of the device support in which the electronic micro-module is inserted.   An electronic chip device (20) according to any one of claims 7 to 11, wherein the device carrier (22) is of plastics material.   An electronic chip device (20) according to any one of claims 7 to 12, adapted to be physically connected to a host terminal (64), on which at least one pilot software (66) adapted for allow communication between said host terminal and a peripheral device having a human interface (63); said electronic chip device comprising a microprocessor adapted to send to the terminal security data during a communication with the terminal; said communication between said microchip device and the host terminal being managed at the terminal through the pilot software, and simulating communication between the peripheral device having a human interface and the host terminal.   The electronic chip device (20) of claim 13, wherein the security data relates to an identification and / or authentication of a user.   The electronic chip device (20) according to claim 13 or 14, comprising a memory storing security elements and wherein the security data sent to the terminal relates to the stored security elements. 20   The electronic chip device (20) according to any one of claims 13 to 15, wherein the peripheral device having a human interface is one of a computer keyboard, a computer mouse and a joystick.   An electronic chip reading system comprising an electronic chip device (20) according to any of claims 7 to 16 and an electronic chip reading terminal (51) having a USB type female connector. 15 25 2910151 18   18. A method of using an electronic chip device having first contacts according to any one of claims 7 to 16, in a USB type female connector comprising two openings, one of the two openings having second contacts, said method of use comprising the steps of: / a / introducing the electronic chip device into the opening having the second contacts of the USB type female connector; and / b / creating electrical contacts by contacting the first contacts presented by the electronic chip device with the second contacts.