FR2991842A1 - COMMON INTERFACE FOR WIFI PERIPHERAL AND CHIP CARD - Google Patents

Abstract

Method and device for interfacing (100) a chip card (2) with a smart card controller (13), the interfacing device (100) comprising a connector (1) adapted for connecting the card with a chip (2), the connector (1) comprising a power pin (3) connected to a first power line (5) and two auxiliary contacts (8, 9), the interface device (100) comprising a first switch (7) adapted to connect a USB controller (14) to said auxiliary contact (8, 9) of the connector (1), a second switch (6) adapted to connect a second power line (4) to the power pin (3) of the connector (1), in substitution for the first power line (5) and a third controller (15, 16) adapted for the identification of a peripheral (2) ) inserted into the connector (1) and the switch control.

Description

COMMON INTERFACE FOR WIFI DEVICE AND CHIP CARD 1. Field of the invention

The invention relates to the field of receivers-decoders of audiovisual programs and more particularly to the integration of the wireless network and smart card functions by the use of the same interface. 2. State of the art The increasing integration of functions useful for the reception and decoding of audiovisual programs is such that the size of the components used decreases constantly. As a result, the size of the electronic circuits and more generally that of the receiver-decoder equipment is also reduced. One of the advantages resulting from this reduction in size is the economy of material since the case that dresses all the circuits as well as the circuit board or circuits used are smaller. These two elements constitute, among others, important items of the cost of manufacturing a receiver-decoder equipment. In order to reduce costs, it is common to find receiver-decoder equipment equipped with an identical or almost identical housing for the dressing of variants or variations of a product. For example, the same box can be used for a version of a receiver-decoder of signals transmitted by a cable network that for a version receiving signals transmitted by an ADSL network (of the English "asymetric digital subscriber line" and which means " asymmetrical digital subscriber line "). Only a few elements sometimes vary, such as, for example, openings allowing access to input / output connectors. It sometimes happens that two versions (or declensions) of a receiver-decoder equipment use functions or interfaces exclusively. For example, a "cable decoder" includes an access control interface using a smart card and an "IPTV decoder" adapted to receive programs broadcast via an IP link ("internet protocol"). and which means "Internet transmission protocol") includes a WIFI wireless network interface (English "Wireless Fidelity") The need to provide the implementation of a function whose use is specific to a version declined a device, often leads the developer to provide a double-implantation, such as for example, a print on the printed circuit for the implementation of an access control interface and a fingerprint for the implementation of a wireless network interface. However, the use of multiple impressions is contrary to the reduction of the printed circuit surface used and that of the dimensions of the box. 3. Summary of the invention. The invention improves the situation by providing a connection interface for the exclusive insertion of a smart card and a wireless network interface module in a single connector. More particularly, the invention relates to a device for interfacing a smart card with a first controller, the interface device comprising a connector adapted to the connection of the smart card, the smart card connector comprising at least one power pin connected to a first power line and at least two auxiliary contacts, the interfacing device comprising: - a first switch adapted to connect a second controller to the auxiliary contacts of the connector, - a second adapted switch connecting a second power line to a power pin of the connector, replacing the first power supply line; - a third controller adapted to an identification of a peripheral inserted in the smart card connector and controlling the first and second switches based on the identified type of the inserted device.

According to one embodiment of the invention, the identification by the third controller of the inserted device comprises transmitting a first sequence of bytes to the inserted device. This first sequence of bytes corresponds to a reset response type initialization frame as defined in the standard describing various aspects of IS07816-3 contactor smart cards. According to one embodiment of the invention, controlling the first switch and the second switch performs: a signal connection from the first controller and the first power line to the smart card connector when the inserted device transmits a second sequence bytes in response to the initialization frame; which second sequence of bytes is in accordance with a response of a smart card to a reset response command as defined in the IS07816-3 standard, and a signal connection of the second controller and the second power supply line. to the smart card connector when the inserted device transmits a response to the non-compliant initialization frame to a response of a smart card following a reset response command as defined in the IS07816-3 standard. According to one embodiment of the invention, the connector is mechanically and electrically compatible with the ISO 7816 standard.

According to one embodiment of the invention, the second controller is a bus controller compatible with the Universal Serial Bus (USB) standard.

According to one embodiment of the invention, the first type defines the device inserted as a smart card. According to one embodiment of the invention, the second type defines the device inserted as a connection module to a wired or wireless communication network. According to one embodiment of the invention, the first, second and third controllers are included in the same integrated circuit.

The invention also relates to an equipment for receiving and rendering audiovisual programs, also commonly called a decoder, comprising the interfacing device described above.

The invention further relates to a method of controlling a device for interfacing a chip card connector with a first controller and a second controller, the connector being adapted for at least one connection of a smart card, the connector comprising at least one power pin connected to a first power line and at least two auxiliary contacts, the connector being initially coupled to the first controller, the method comprising the steps of: - identification of a device inserted into said connector, - coupling said connector to said second controller, said coupling step comprising connecting signals of said second controller to said auxiliary contacts and connecting a second power line to said connector in substitution for said first line, According to a embodiment of the invention, the first controller is a smart card controller compatible with IS07816 standard and the second controller is a bus controller compatible with the Universal Serial Bus (USB) standard.

According to one embodiment of the invention, the method further comprises an enumeration step according to a device identification protocol compatible with the Universal Serial Bus (USB) standard.

According to one embodiment of the invention, the type of the identified device is a smart card or a connection module to a communication network. 4. List of figures.

The invention will be better understood, and other features and advantages will appear on reading the description which follows, the description referring to the accompanying drawings in which: - Figure 1 illustrates a receiver-decoder of audiovisual programs including an interface common WIFI functions and access control, according to one embodiment of the invention. - Figure 2 illustrates the detail of the common interface, according to one embodiment of the invention. FIG. 3 illustrates a diagram representing the identification method of the peripheral inserted in the common interface, according to one embodiment of the invention. 5. Detailed description of embodiments of the invention. In general but not limitation, the invention relates to a smart card interface of a receiver-decoder equipment audiovisual programs. The interface allows the coupling of a smart card as well known to those skilled in the art as well as the connection of a peripheral module 30 connection interface to a wireless network. FIG. 1 shows an STB receiver / decoder of a IS07816 standard IS07816-compatible smart card connector CONN1, further enabling the connection of a connection module to a wireless network according to one embodiment of the invention. . The ISO 7816 standard contains a set of standards that covers different aspects of the contact chip card. Parts -1, -2 and -3 respectively relate to the physical characteristics, the dimensions and positions of the contacts as well as the electronic signals and the transmission protocol. The chip card interface of the STB receiver-decoder can link with a smart card compatible with IS07816 standard (also called microcontroller card) and a coupling with a WIFI module. The coupling with the WIFI module uses a fast serial bus compatible with the USB standard. The smart card and the WIFI module are represented in the form of a single device PERIPH 2. An important advantage of this implementation according to the invention is that it is not necessary to implement two separate interfaces, which allows a cost reduction specific to the components used as well as a reduction in material cost, in particular relative to the printed circuit and to the casing of the STB receiver-decoder equipment. The illustration of the receiver / decoder STB is simplified since the increasing integration of the functions useful for the reception and decoding of audiovisual programs is such that most of the circuits are often grouped together in a single integrated circuit "core", conventionally called SOC (from the English "System On Chip" and that means "system in a single circuit"). Also, the STB decoder comprises a core circuit SOC1 which includes all the conventional functions of demultiplexing the input, filtering, buffering, decoding, and rendering signals, as well as the other conventional processes useful for the functions. receiver-decoder equipment for audiovisual programs. These other treatments include, for example, device control and management. The receiver-decoder STB also comprises an input interface IN1 21 and an output interface OUT1 22. The input interface IN1 21 receives the signals. It may be able to receive signals from an ADSL modem type equipment or a wired network, for example, by the input link 24. The output interface OUT1 22 formats the output signals in order to restitution of the audiovisual programs on an external rendering equipment, such as a television, for example. The connection to the external equipment is made by the output link 25. The core circuit of the STB receiver-decoder comprises a control unit (see FIG. 2) which allows the control and management of the interfaces IN1 21 and OUT1 22 by the The receiver-decoder comprises a COMM switching logic module 23 for switching signals between the core circuit SOC1 and the smart card connector CONN1 1 depending on the peripheral type PERIPH. 2 is inserted into the connector CONN1 1. FIG. 2 shows a smart card interface 100 according to one embodiment of the invention. The smart card interface 100 allows the coupling of a smart card 2 with a smart card controller 13 included in a processor SOC1 20. The interface 100 comprises a connector 1 adapted to the connection of the smart card 2 according to ISO 7816. The connector 1 comprises a supply pin 3 connected to a first supply line 5 and two auxiliary contacts AUX1 8 and AUX2 9. The interface 100 also comprises: a suitable switch C2 7 at the connection of a USB controller 14 (integrated with the SOC1 processor 20) to the auxiliary contacts AUX1 8 and AUX2 9 of the smart card connector 1. - a switch Cl 6 adapted to the connection of a power line 4 to the power pin 3 of the smart card connector 1, 30 instead of the power supply line 5. - a CUI control unit 15, associated with a group of input / output ports 101 16, used for the identification of a device 2 inserted into the card connector at chip 1 and the control of the switches 6 and 7 according to the identified type of the device 2 inserted in the smart card connector 1. The CUI control unit 15, the input / output port module 10116, the controller of smart card CTRL1 13 and the USB controller CTRL2 14 are interconnected via a data exchange bus IB1 19. The control unit CUI 15 uses this bus for all the data exchange in reading and in writing, to and from the modules 13, 14 and 16. The module 101 16 of input and output ports and used by the control unit Cul 15 for the configuration of the signal switches Cl 6 and C2 7.

The receiver-decoder comprising the interface 100 is initialized at the power-up so that the default coupling of the interface 100 is adapted to the exchange of signals between the smart card controller CTRL1 13 and a peripheral 2 smart card type. The control unit CUI 15 of the main processor SOC1 20 then programs the smart card controller 13 to establish a communication initialization sequence with the smart card (device 2). This sequence is called ATR (of the English "Answer To Reset" and that means "response to reset"). The first response of the smart card to the smart card controller 13 contains bytes allowing the controller to determine operating parameters specific to the smart card, such as, for example, the speed of data transmission or details of the data. the format of the data that can be exchanged. Analysis of this reset response allows the CUI control unit 15 to verify that the device 2 inserted in the smart card connector 1 is a smart card. If the response to the reset is not in accordance with the specific format expected, the control unit CUI 15 considers that the device is not a smart card and that it is therefore a connection module to a network without -fil. The control unit CUI 15 comprises all the elements that are useful for the previously described functions and in particular an arithmetic and logic unit, registers, random access memory, non-volatile memory, clock systems; all these elements not being described in more detail here, being well known to those skilled in the art. The signal switch Cl 6 is configured by default to connect the supply line PL1 5 to the voltage pin PL 3 of the smart card connector 1. The voltage available on the supply line PL1 5, generated by the module UG1 17 power supply, is suitable for feeding a smart card.

The signal switch C2 7 is configured by default for the connection of signals dedicated to the access control on the pins AUX1 8 and AUX 2 9 of the smart card connector 1 when the use of the smart card coupled with the receiver-decoder equipment includes access control functions using signals to be transmitted via these pins (this is for example the case for one of the access control solutions available on the market). According to a variant of the embodiment, nothing is connected to pins AUX1 8 and AUX2 9 in the default configuration, especially in the absence of use of control signals specific to a particular access control solution. When the reset response is non-compliant with one of the formats allowing the control unit to validate the presence of a smart card (device 2) in the connector CONN1 1, the control unit CUl 15 sets the signal switches Cl 6 is C2 7 so that the USB bus BUS2 12 of the USB controller CTRL2 14 is connected to the pins AUX1 8 and AUX2 9 of the connector CONN1 1 and that the supply line PL2 4, whose voltage is generated by the power supply module UG2 18, is connected to the power supply pin PL 3 of the connector CONN1 1. The supply line PL2 4 is adapted to the power supply of a USB bus as defined by the standard USB2 .0. When these connections are established, so as to connect a USB bus and a PL2 line 4 compatible with the USB standard, CU1 control unit 15 SOC1 processor 20 can control a device for connection to a wireless network 2 interfaceable via a USB bus.

Cleverly, it is then possible to implement a WIFI connection module controlled by a USB interface in the receiver-decoder equipment, without having recourse to another connector technology than the smart card connector, which greatly facilitates the implementation of the WIFI function and consequently reduces the cost of the whole. Such a module is assembled on a board (circuit board) compatible with the insertion into a standard smart card connector and includes a controller dedicated to communication over a WIFI wireless network. The antenna is, for example, integrated in the printed circuit. Advantageously, the various components that make up the WIFI communication interface are positioned so that they are inserted into the dressing box of the STB receiver-decoder equipment when the module is connected to the smart card connector CONN1 1. Alternatively, the components can be maintained outside the STB receiver-decoder box and be protected by a varnish or a camber. The SOC1 processor 20 is a main processor as it is common to use for reception and decoding applications of 15 audiovisual programs. The acronym SOC stands for "System On Chip" and illustrates the integration of a complete system useful for receiving and decoding audiovisual programs in a single integrated circuit. The circuit SOC1 comprises reception modules, demultiplexing buffering, decoding and restitution of the data for the implementation of processing useful for the reception and the return of the audiovisual programs received. In addition to any control signals specific to the access control function that can be applied to the pins AUX1 8 and AUX2 9, the signals used for the data exchange between the CTRL1 smart card controller 13 and a peripheral device 2 smart card type are not detailed here. These signals constitute bus BUS1 shown in FIG. 2. Their connections on connector CONN1 are provided by a set of pins B 10. These signals are described in the ISO 7816 standard which defines a smart card interface standard.

The interface 100 of FIG. 2 thus constitutes, according to the embodiment of the invention, a device for interfacing the smart card 2 with the smart card controller 13. The interface 100 comprises the adapted connector 1 at the connection of the smart card 2. The connector 1 comprises the power pin 3 connected to the power line 5 and two auxiliary contacts 8 and 9. The interface 100 also comprises: the switch 7 adapted to the connection of the USB controller 14 to the auxiliary contacts 8 and 9, - the switch 6 adapted to the connection of the power supply line 4 specific to the power supply of a USB device to the power pin 3 in substitution of the line d supply 5, - the control unit CU1 15 and the input / output ports 1016 adapted to the identification of the device 2 inserted in the connector 1 and the control of the switches 6 and 7 according to the identified type of the device 2 which has been inserted ed. FIG. 3 is a diagram illustrating a management method of the smart card interface of the STB receiver-decoder equipment. The connector of the chip card interface, initially intended for the insertion of a smart card, can receive a connection module to a wireless network, according to the embodiment of the invention. To do this, the method comprises the steps described below: The step S0 corresponds to the global initialization of the receiver-decoder STB after power-up. The various modules and registers are initialized for the implementation of the reception and decoding operations of audiovisual programs received in the form of data. In step S1, the control unit configures the smart card controllers CTRL1 13 and USB CTRL2 14, as well as the signal switches C2 7 and C1 6. The signal switches are configured for connecting the card controller signals. 13 on the corresponding pins of the smart card connector CONN1 1. The USB bus BUS2 12 is not connected to the connector CONN1 1. In step S2, the control unit CU1 15 detects the insertion of a device in the connector CONN1 1. The detection is carried out by activation of an electromechanical switch type micro-switch integrated connector CONN1 1. The microswitch is connected to the input / output port 101 16. In step S3 , the smart card controller transmits an ATR frame as defined in the ISO 7816 standard and receives the reset response of the inserted smart card, if any. The response is received by the smart card controller CTRL1 and stored in the RAM of the CUI control unit 15. The control unit analyzes the response by reading the received data in its memory and determines in step S4 if the answer conforms to the form and the content possibly expected, which validates the presence of a smart card if that is the case. In step S5, in the case where the presence of a smart card is detected, the control unit CUI 15 manages the exchanges with the smart card inserted in the connector 1 and performs all appropriate processing and useful for the overall operation of the STB receiver-decoder specific to the case of the presence of a smart card. All of these treatments are called Proc. 1 (as process 1). The exchanges between the control unit CUI 15 and the smart card PERIPH 2 are done through the smart card controller CTRL1 13 and BUS11 bus compatible with standard IS07816. Step S6 corresponds to the case where the recognition of a smart card has failed during the reset response test (which corresponds to the initialization phase of a smart card coupler). The control unit reconfigures the signal switches C2 7 and Cl 6. The signal switches are configured this time for the connection of the signals of the USB controller 14 to the pins AUX1 8 and AUX2 9 of the smart card connector CONN1 1 The USB bus BUS2 12 is then connected to the connector CONN1 1 and the supply line PL2 is connected to the pin PL 3 of the smart card connector CONN1 1 in order to supply the device 200 in the case where the latter is a network connection module. The control unit performs an initialization of the USB controller CTRL2 14 and a recognition phase of the device 2 inserted, and in particular checks whether the device is the connection module to an expected wireless network, in the absence of a smart card. (and in the presence of an inserted device). If the expected device is not the expected WIFI network connection module, then the process returns to the configuration step 51 and waits for the detection of a new device insertion in the CONN1 connector 1. If the network connection module is correctly identified in steps S6 and S7, while in step S8, the control unit CU1 manages the exchanges with the wireless network connection module inserted in the connector 1 and carries out the set of appropriate processing and useful to the overall operation of the STB receiver-decoder specific to the case of the presence of the network connection module. The exchanges between the control unit CU1 15 and the network connection module PERIPH 2 are via the USB controller CTRL2 14 and the BUS2 USB bus 12.

All of these treatments are called Proc. 2 (as process 2). According to the embodiment, after one or the other of the device types PERIPH 2, chip card or network connection module, has been normally detected and implemented, it is necessary to restart the receiver-decoder STB to return to the global initialization step SO.

The invention does not apply to the single embodiment described above, but relates to any system allowing, in a device, the automatic detection of insertion in a smart card interface connector, as well as the coupling with the device. equipment of an interface module to a communication network. More particularly, the invention also applies to a connection module to a network controlled by a parallel bus or when the type of smart card coupler used is defined by a standard other than IS0-7816 standard.

Claims (11)

REVENDICATIONS1. Device for interfacing (100) a chip card (2) with a first controller (13), said interface device (100) comprising a connector (1) adapted for connecting said smart card (2) , said connector (1) comprising at least one power pin (3) connected to a first power supply line (5) and at least two auxiliary contacts (8, 9), said interface device (100) being characterized in that it comprises: - a first switch (7) adapted to connect a second controller (14) to said auxiliary contacts (8, 9) of said connector (1), - a second switch (6) adapted to the connecting a second supply line (4) to said supply pin (3) in substitution for said first supply line (5), - a third controller (15, 16) adapted for identification of a type of a device (2) inserted into said connector (1) and controlling said first switch (7) and said second switch ur (6) according to the identified type of the inserted device (2), said identified type being exclusively part of a first type or a second type. 2. Device according to claim 1, characterized in that the identification of said peripheral (2) by said third controller (15,16) comprises the transmission of a first sequence of bytes to said inserted device (2), said first sequence of bytes corresponding to at least one reset response type initialization frame as defined in the IS07816-3 standard. 3. Device according to any one of claims 1 to 2, characterized in that said control of said first switch (7) and said second switch (8) performs: - a signal connection of said first controller (13) and said first supply line (5) to said connector (1) when said peripheral (2) transmits a second sequence of bytes in response to said initialization frame, said second byte sequence being in accordance with a response of a smart card to a reset response command as defined in the IS07816-3 standard, and - a signal connection of said second controller (14) and said second power line (5) to said connector (1) when said peripheral (2) ) transmits a response to said initialization frame, said response being non-compliant with a response of a smart card following a reset response command as defined in the IS07816-3 standard. 4. Interface device according to any one of claims 1 to 3, characterized in that said connector (1) is mechanically compatible with the ISO 7816 standard. 5. Interface device according to any one of claims 1 to 4, characterized in that said second controller (14) is a bus controller compatible with the Universal Serial Bus standard, 6. Device according to any one of claims 1 to 5, characterized in that said first type defines said peripheral (2) as being a smart card contacts. 7. Device according to any one of claims 1 to 6, characterized in that said second type defines said device (2) as being a connection module to a communication network. 8. Device according to claim 7, characterized in that said communication network is a wireless network. 9. Device according to any one of claims 1 to 8, characterized in that said first (13), second (14) and third controllers (15) are included in the same integrated circuit. 10. Audiovisual program receiving device characterized in that it comprises an interfacing device according to any one of claims 1 to 9. 11. A method of controlling an interfacing device (100) of a chip card connector (3) with a first controller (13) and a second controller (14), said connector (1) being adapted to minus the connection of a smart card, said connector (1) comprising at least one power pin (3) connected to a first power line (5) and at least two auxiliary contacts (8, 9), said connector (1) being initially coupled to said first controller (13), said method (14) being characterized in that it comprises: - an identification step (S4) of a peripheral (2) inserted into said connector (1 a coupling step (S6) of said connector (1) to said second controller (14), said coupling step (S6) comprising the signal connection (12) of said second controller (14) to said auxiliary contacts (8, 9) and the connection of a second supply line (4) to said connector (1) in substitution of said first line (5).