WO2016045573A1 - Data exchange system - Google Patents

Abstract

A data exchange system comprises: a simulation card (1110) for receiving first data sent by a card sleeve (1120), sending second data to the card sleeve (1120), receiving third data sent by a terminal, and sending fourth data to the terminal; the card sleeve (1120) for receiving the second data sent by the simulation card (1110), sending the first data to the simulation card (1110), receiving fifth data sent by a real card manager (1130), and sending sixth data to the real card manager (1130); and the real card manager (1130), which is connected to at least one real card, for receiving the sixth data sent by the card sleeve (1120), sending the fifth data to the card sleeve (1120), receiving seventh data sent by the real card, and sending eighth data to the real card. By means of the data exchange system, a transaction solution that is not only convenient for a user to carry but is also relatively high in security can be provided.

Description

Data interaction system Technical field

The present invention relates to the field of electronic information security technologies, and in particular, to a data interaction system.

Background technique

In the existing transaction process, for example, withdrawal or shopping, the user usually needs to carry the bank card from the bank with him. The user carries the bank card with certain security risks. Once lost, it is easy to cause damage to the user's assets. In addition, due to the variety of bank cards, a user may have multiple bank cards of different banks at the same time. If you need to carry multiple bank cards of different banks, it is not portable enough. If you carry them, you only have multiple banks. When using some bank cards, when using these cards for withdrawal or shopping, there may be cross-bank transactions, resulting in unnecessary expenses in the transaction.

Therefore, in the prior art, it is urgent to provide a transaction solution that is convenient for users to carry and has high security.

Summary of the invention

The present invention is directed to solving the above problems.

A first object of the present invention is to provide a real card manager.

A second object of the present invention is to provide a ferrule.

A third object of the present invention is to provide an analog card.

A fourth object of the present invention is to provide a data interaction system.

In order to achieve the above object, the technical solution of the present invention is specifically implemented as follows:

The first aspect of the present invention provides a real card manager, and the solution is as follows:

A card manager, comprising: a network interface, configured to receive first data sent by the card sleeve and send the data to the security chip, receive the second data sent by the security chip, and send the data to the card sleeve; at least two a reading and writing interface, configured to receive the third data sent by the card and send the data to the security chip, receive the fourth data sent by the security chip and send the card to the card; and input device, configured to perform the fifth data input; The security chip is connected to the network interface, each of the read/write interfaces, and the input device, and configured to receive the first data sent by the network interface, and send the second data to the network interface Receiving, by the data, the third data sent by the read/write interface, sending the fourth data to the read/write interface, receiving the fifth data input by the input device, and power source for the card The manager is powered.

The real card manager according to the first aspect, further comprising: a prompting device, connected to the security chip, configured to receive the sixth data sent by the security chip, and perform the sixth data prompt.

The real card manager according to claim 1 or 2, further comprising: a memory connected to the security chip for storing data.

A real card manager, comprising: a network interface, configured to receive first data sent by the card sleeve and send the data to the control chip, receive the second data sent by the control chip, and send the data to the card sleeve; Two read/write interfaces, configured to receive the third data sent by the card and send the data to the control chip, receive the fourth data sent by the control chip, and send the fourth data to the card; the security chip is configured to receive the Controlling, by the chip, the fifth data, sending the sixth data to the control chip; the input device, configured to perform the seventh data input; the control chip, the security chip, the network interface, each of the readings The write interface and the input device are connected to receive the first data sent by the network interface, send the second data to the network interface, and receive the third data sent by the read/write interface, Transmitting the fourth data to the read/write interface, receiving the sixth data sent by the security chip, transmitting the fifth data to the security chip, and receiving the input device The seventh data; a power source for powering the card manager.

The real card manager according to the fourth aspect, further comprising: a prompting device, connected to the control chip, configured to receive the eighth data sent by the control chip, and perform the eighth data prompt.

The real card manager according to claim 4 or 5, further comprising: a memory connected to the control chip for storing data.

The real card manager according to any one of the items 1 to 6, wherein the network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.

Item 8. The real card manager of any of clauses 1 to 6, the read/write interface comprising a contact interface and/or a contactless interface.

Item 9. The real card manager of any of clauses 1 to 6, the input device comprising: a voice collection device, a keyboard, and/or a scanning device.

Item 10. The real card manager according to claim 2 or 5, wherein the prompting device comprises: a voice playing device and/or a display device.

Item 11. The real card manager of any of clauses 1-10, wherein the card holder is a mobile device.

The real card manager according to any one of the items 1-10, wherein the card set is a mobile device and an electronic signature device, or the card sleeve is an electronic signature device.

It can be seen from the technical solution provided by the present invention that the real card manager based on the present invention can realize the management of the real card, and can further cooperate with the analog card and the card sleeve to realize convenient carrying by the user, and the security is high. purpose.

A second aspect of the present invention provides a card sleeve, and the solution is as follows:

The first interface is configured to receive the first data sent by the analog card and send the data to the security chip, receive the second data sent by the security chip, and send the data to the analog card; Receiving the third data sent by the real card manager and sending the third data to the security chip, receiving the fourth data sent by the security chip and sending the fourth data to the real card manager; and inputting the device for performing the fifth data. Inputting; a prompting device, configured to perform a sixth data prompt; the security chip, connected to the first interface, the network interface, the prompting device, and the input device, configured to receive the first interface to send Transmitting the second data to the first interface, receiving the third data sent by the network interface, transmitting the fourth data to the network interface, and receiving the input device The input fifth data, the sixth data is sent to the prompting device; and a battery is used to supply power to the card sleeve.

The second interface includes: a first interface, configured to receive first data sent by the analog card and send the data to the control chip, receive the second data sent by the control chip, and send the data to the analog card; Receiving the third data sent by the real card manager and sending the third data to the control chip, receiving the fourth data sent by the control chip and sending the fourth data to the real card manager; the security chip for receiving the location The fifth data sent by the control chip, the sixth data is sent to the control chip; the input device is configured to perform the seventh data input; the prompting device is configured to perform the eighth data prompt; the control chip, and the security The chip, the first interface, the network interface, the prompting device, and the input device are connected to receive the first data sent by the first interface, and send the first data to the first interface Receiving, by the second data, the third data sent by the network interface, sending the fourth data to the network interface, and receiving the sixth data sent by the security chip Transmitting the fifth data to the security chip, receiving the seventh data input by the input device, and transmitting the eighth data to the prompting device; and a battery for supplying power to the card sleeve.

The third card includes: a first interface, configured to receive first data sent by the analog card and send the data to the control chip, receive the second data sent by the control chip, and send the data to the analog card; Receiving third data sent by the real card manager and transmitting to the control chip, receiving fourth data sent by the control chip and transmitting the fourth data to the real card manager; and inputting means for performing fifth data Inputting; a prompting device, configured to perform a sixth data prompt; the security chip being connected to the prompting device and the input device, configured to receive the fifth data input by the input device, to the prompting device Transmitting the sixth data, receiving the seventh data sent by the control chip, and sending the eighth data to the control chip; the control chip is connected to the security chip, the first interface, and the network interface Receiving, by the first interface, the first data, sending the second data to the first interface, and receiving the The third data, the fourth data is sent to the network interface, the eighth data sent by the security chip is received, the seventh data is sent to the security chip, and a battery is used for the card set powered by.

The ferrule of any one of aspects 1 to 3, wherein the first interface is a contact interface and/or a wireless interface.

The ferrule according to the fourth aspect, the wireless interface includes: a 2.4G interface, a Bluetooth interface, an infrared interface, WIFI interface, NFC interface or RFID interface.

The card set according to any one of the items 1 to 3, wherein the network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.

The ferrule of any of aspects 1 to 3, further comprising: a charge controller coupled to the battery for receiving electrical energy and charging the battery.

The ferrule according to any one of claims 1 to 7, wherein the prompting device comprises: a voice playing device and/or a display device.

The ferrule of any of aspects 1 to 7, wherein the input device comprises: a voice collection device, a keyboard, and/or a scanning device.

The ferrule according to any one of the preceding claims, wherein the ferrule is a mobile device or an electronic signature device.

The ferrule of any one of aspects 1 to 9, the ferrule comprising a mobile device and an electronic signature device, the network interface being located on the mobile device, the first interface being located at the electronic signature On the device, the security chip is located on the electronic signature device.

The ferrule of any one of aspects 1 to 9, the ferrule comprising a mobile device and an electronic signature device, the network interface and the first interface being located on the mobile device, the security chip Located on the electronic signature device.

It can be seen from the technical solution provided by the present invention that the card sleeve according to the present invention can realize the function of connecting the analog card and the real card manager and performing data interaction, and can further cooperate with the analog card and the real card manager to realize Convenient for users to carry, and the purpose of higher security.

A third aspect of the present invention provides an analog card, the solution being as follows:

An analog card includes: a first interface, configured to receive first data sent by the card sleeve and send the data to the security chip, receive the second data sent by the security chip, and send the data to the card sleeve; An interface, configured to receive third data sent by the terminal and send the data to the security chip, receive fourth data sent by the security chip, and send the fourth data to the terminal; the security chip, the first interface, and the The second interface is connected to receive the first data sent by the first interface, send the second data to the first interface, and receive the third data sent by the second interface. The second interface sends the fourth data.

An analog card includes: a first interface, configured to receive first data sent by the card sleeve and send the data to the control chip, receive the second data sent by the control chip, and send the data to the card sleeve; The interface is configured to receive the third data sent by the terminal and send the data to the control chip, receive the fourth data sent by the control chip, and send the fourth data to the terminal, where the security chip is configured to receive the sending by the control chip. a fifth data, the sixth data is sent to the control chip; the control chip is connected to the security chip, the first interface, and the second interface, and is configured to receive the first interface Sending the first data, sending the second data to the first interface, receiving the third data sent by the second interface, and sending the fourth data to the second interface, receiving the The sixth data sent by the security chip sends the fifth data to the security chip.

An analog card includes: a first interface, configured to receive first data sent by the card sleeve and send the data to the control chip, receive the second data sent by the control chip, and send the data to the card sleeve; An interface, configured to receive third data sent by the terminal and send the data to the security chip, receive the fourth data sent by the security chip, and send the fourth data to the terminal; the security chip is connected to the second interface, and is configured to receive The fifth data sent by the control chip sends sixth data to the control chip, receives the third data sent by the second interface, and sends the fourth data to the second interface; the control a chip, connected to the security chip and the first interface, configured to receive the first data sent by the first interface, send the second data to the first interface, and send the security chip to send The sixth data, the fifth data is sent to the security chip.

The simulation card according to any one of the items 1 to 3, further comprising: a battery; and the battery for supplying power to the analog card.

Item 5. The analog card of any of clauses 1 to 4, wherein the first interface is a contact interface and/or a wireless interface.

The analog card according to the fifth aspect, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface or an RFID interface.

Item 7. The analog card of claim 4, wherein the second interface is a contact interface and/or a contactless interface.

Item 8. The analog card according to item 7, wherein the contactless interface is an NFC interface.

Item 9. The analog card of claim 4, further comprising: a charge controller coupled to the battery for receiving electrical energy and charging the battery.

The analog card of any of clauses 1-9, wherein the card holder is a mobile device.

The analog card according to any one of the preceding claims, wherein the card cover is a mobile device and an electronic signature device, or the card sleeve is an electronic signature device.

It can be seen from the technical solution provided by the present invention that the analog card according to the present invention can realize the function of connecting the terminal and the ferrule, and performing data interaction between the two, and further can cooperate with the ferrule and the real card manager. Therefore, the user is convenient to carry and the security is high.

A fourth aspect of the present invention provides a data interaction system, which is implemented as follows:

A data interaction system includes: the card sleeve, configured to receive first data sent by an analog card, send second data to the analog card, and receive third data sent by the real card manager, The real card manager sends the fourth data; the real card manager is connected to the at least one real card, and is configured to receive the sent by the card sleeve The fourth data, the third data is sent to the card sleeve, the fifth data sent by the real card is received, and the sixth data is sent to the real card.

The system of claim 1, the card sleeve includes: a first interface, configured to receive the first data sent by the analog card and send the data to the card security chip, and receive the sent by the card security chip The second data is sent to the analog card; the card network interface is configured to receive the third data sent by the real card manager and send the data to the card security chip, and receive the first sent by the card security chip And the data is sent to the real card manager; the card set input device is configured to perform the seventh data input; the card sleeve prompting device is configured to perform the eighth data prompt; the card sleeve security chip, and the first An interface, the ferrule network interface, the ferrule prompting device, and the ferrule input device are connected to receive the first data sent by the first interface, and send the first data to the first interface Receiving, by the second data, the third data sent by the card sleeve network interface, sending the fourth data to the card sleeve network interface, and receiving the seventh data input by the card sleeve input device, to the Prompt means for transmitting said eighth set of data; battery power for said ferrule.

The system of claim 1, the card sleeve includes: a first interface, configured to receive first data sent by the analog card and send the data to the card control chip, and receive the sent by the card control chip The second data is sent to the analog card; the card network interface is configured to receive the third data sent by the real card manager and send the data to the card control chip, and receive the first sent by the card control chip And the data is sent to the real card manager; the card security chip is configured to receive the seventh data sent by the card control chip, and send the eighth data to the card control chip; the card input device a ninth data input; a card sleeve prompting device, configured to perform a tenth data prompt; the card sleeve control chip, the card sleeve security chip, the first interface, the card sleeve network interface, The ferrule prompting device and the ferrule input device are connected to receive the first data sent by the first interface, send the second data to the first interface, and receive the card sleeve network. The third data sent by the interface, the fourth data is sent to the card network interface, the seventh data sent by the card security chip is received, and the eighth data is sent to the card security chip. Data, receiving the ninth data input by the ferrule input device, transmitting the tenth data to the ferrule prompting device, and a battery for supplying power to the ferrule.

The system of claim 1, the card sleeve includes: a first interface, configured to receive first data sent by the analog card and send the data to the card control chip, and receive the card control chip to send The second data is sent to the analog card; the card network interface is configured to receive the third data sent by the real card manager and send the data to the card control chip, and receive the first sent by the card control chip And the data is sent to the real card manager; the card set input device is configured to perform the seventh data input; the card cover prompting device is configured to perform the eighth data prompt; the card sleeve security chip, and the card sleeve The prompting device and the ferrule input device are connected to receive the seventh data input by the ferrule input device, send the eighth data to the ferrule prompting device, and receive the ferrule control chip to send Ninth data, Sending the tenth data to the ferrule control chip; the ferrule control chip is connected to the ferrule security chip, the first interface, and the ferrule network interface, and configured to receive the first interface to send Transmitting the second data to the first interface, receiving the third data sent by the card network interface, sending the fourth data to the card network interface, and receiving The tenth data sent by the ferrule security chip sends the ninth data to the ferrule security chip; and the battery is used to supply power to the ferrule.

The system of any one of aspects 2 to 4, wherein the first interface is a contact interface and/or a wireless interface.

The system of claim 5, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID interface.

The system of any one of aspects 2 to 4, wherein the card network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.

The system of any one of aspects 2 to 4, wherein the ferrule further comprises: a charge controller coupled to the battery for receiving electrical energy and charging the battery.

The system of any one of aspects 2 to 8, wherein the ferrule presentation device comprises: a voice playback device and/or a display device.

The system of any one of aspects 2 to 8, wherein the ferrule input device comprises: a voice collection device, a keyboard, and/or a scanning device.

The system of any one of aspects 2 to 10, wherein the card holder is a mobile device or an electronic signature device.

The system of any one of aspects 2 to 10, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface is located on the mobile device, and the first interface is located at the electronic device On the signature device, the ferrule security chip is located on the electronic signature device.

The system of any one of aspects 2 to 10, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface and the first interface are located on the mobile device, the card A set of security chips is located on the electronic signature device.

According to the system of claim 1, the real card manager includes: a real card manager network interface, configured to receive the fourth data sent by the card sleeve and send the fourth card data to the real card manager security chip, Receiving the third data sent by the real card manager security chip and sending the data to the card sleeve; at least one read/write interface, configured to receive the fifth data sent by the real card and send the real data to the real a card manager security chip, receiving the sixth data sent by the real card manager security chip and transmitting the sixth data to the real card; the real card manager input device, configured to perform the eleventh data input; the real card a manager security chip, coupled to the real card manager network interface, each of the read/write interfaces, and the real card manager input device, for receiving the fourth sent by the real card manager network interface Data, sending the third data to the real card manager network interface, Receiving, by the read/write interface, the fifth data, sending the sixth data to the read/write interface, and receiving the eleventh data input by the real card manager input device; The real card manager is powered.

The system of claim 14, the real card manager further comprising: a real card manager prompting device, coupled to the real card manager security chip, for receiving the real card manager security chip to send The twelfth data, and the twelfth data prompt is performed.

The system of claim 14 or 15, the real card manager further comprising: a memory coupled to the real card manager security chip for storing data.

The system of claim 1, the real card manager includes: a real card manager network interface, configured to receive the fourth data sent by the card sleeve and send the fourth card data to a real card manager control chip, Receiving the third data sent by the real card manager control chip and sending the data to the card sleeve; at least one read/write interface, configured to receive the fifth data sent by the real card and send the real data to the real The card manager controls the chip, receives the sixth data sent by the real card manager control chip, and sends the sixth data to the real card; the real card manager security chip is configured to receive the real card manager control chip Transmitting the eleventh data, transmitting the twelfth data to the real card manager control chip; the real card manager input device for performing the thirteenth data input; the real card manager controlling the chip, a real card manager security chip, the real card manager network interface, each of the read and write interfaces, and the real card manager The device is connected to receive the fourth data sent by the real card manager network interface, send the third data to the real card manager network interface, and receive the first message sent by the read/write interface. Five data, sending the sixth data to the read/write interface, receiving the twelfth data sent by the real card manager security chip, and sending the eleventh data to the real card manager security chip Receiving, the thirteenth data input by the real card manager input device, and a power source for supplying power to the real card manager.

The system of claim 17, the real card manager further comprising: a real card manager prompting device, coupled to the real card manager control chip, for receiving the real card manager control chip to send The fourteenth data, and the fourteenth data prompt is performed.

The system of claim 17 or 18, wherein the real card manager further comprises: a memory coupled to the real card manager control chip for storing data.

The system of any one of aspects 14 to 19, wherein the real card manager network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.

The system of any one of aspects 14 to 19, wherein the read/write interface comprises a contact interface and/or a contactless interface.

The system of any one of aspects 14 to 19, wherein the real card manager input device comprises: Voice capture device, keyboard and/or scanning device.

The system of claim 15 or 18, wherein the real card manager prompting device comprises: a voice playing device and/or a display device.

It can be seen from the technical solution provided by the present invention that the data received from the analog card can be sent to the real card manager through the ferrule of the present invention, and the data received from the real card manager can also be sent to the simulation. Cards to complete the data interaction between the simulated cards and the real card manager, while the real card manager can manage and interact with the real cards connected to it.

The fifth aspect of the present invention provides a data interaction system, and the solution is implemented as follows:

A data interaction system includes: an analog card, configured to receive first data sent by the card set, send second data to the card set, receive third data sent by the terminal, and send a fourth message to the terminal. Data; the card sleeve is configured to receive the second data sent by the analog card, send the first data to the analog card, and receive the fifth data sent by the real card manager, to the real card The manager sends the sixth data.

The system of claim 1, the analog card comprises: a first interface of the analog card, configured to receive the first data sent by the card sleeve and send the data to the analog card security chip, and receive the analog card The second data sent by the security chip is sent to the card sleeve; the second interface is configured to receive the third data sent by the terminal and send the data to the analog card security chip, and receive the analog card security. The fourth data sent by the chip is sent to the terminal; the analog card security chip is connected to the first interface of the analog card and the second interface, and is configured to receive the first interface sent by the analog card. Transmitting, by the first data, the second data to the first interface of the analog card, receiving the third data sent by the second interface, and sending the fourth data to the second interface.

The system of claim 1, the analog card includes: an analog card first interface, configured to receive the first data sent by the card sleeve and send the data to an analog card control chip, and receive the analog card Controlling the second data sent by the chip and sending the card to the card sleeve; the second interface is configured to receive the third data sent by the terminal and send the data to the analog card control chip, and receive the analog card control The fourth data sent by the chip is sent to the terminal; the analog card security chip is configured to receive the seventh data sent by the analog card control chip, and send the eighth data to the analog card control chip; The analog card control chip is connected to the analog card security chip, the first interface of the analog card, and the second interface, and is configured to receive the first data sent by the first interface of the analog card, to the The first interface of the analog card sends the second data, receives the third data sent by the second interface, and sends the fourth data to the second interface, and receives Said analog of said card security chip eighth data transmission, the transmitting analog card security chip to said seventh data.

The system of claim 1, the analog card comprises: a first interface of the analog card, configured to receive the first data sent by the card sleeve and send the data to the analog card control chip, and receive the analog card Control chip sent The second data is sent to the card set; the second interface is configured to receive the third data sent by the terminal and send the data to the analog card security chip, and receive the first part sent by the analog card security chip And sending the data to the terminal; the analog card security chip is connected to the second interface, and configured to receive the seventh data sent by the analog card control chip, and send the eighth data to the analog card control chip. Receiving the third data sent by the second interface, and sending the fourth data to the second interface; the analog card control chip, and the first interface of the analog card security chip and the analog card Connected to receive the first data sent by the first interface of the analog card, send the second data to the first interface of the analog card, and receive the eighth data sent by the analog card security chip. Transmitting the seventh data to the analog card security chip.

The system of any one of aspects 2 to 4, wherein the simulated card further comprises: an analog card battery;

The analog card battery is used to power the analog card.

The system of any one of aspects 2 to 5, wherein the first interface of the analog card is a contact interface and/or a wireless interface.

The system of claim 6, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID interface.

The system of claim 5, wherein the second interface is a contact interface and/or a contactless interface.

The system of claim 8, wherein the contactless interface is an NFC interface.

The system of claim 5, the analog card further comprising: an analog card charging controller coupled to the analog card battery for receiving electrical energy and charging the analog card battery.

The system of claim 1, the card sleeve includes: a first interface of the card sleeve, configured to receive the second data sent by the analog card, and send the data to the card security chip, and receive the card sleeve The first data sent by the security chip is sent to the analog card; the card network interface is configured to receive the fifth data sent by the real card manager and send the data to the card security chip, and receive the The sixth data sent by the security chip is sent to the real card manager; the card input device is configured to perform ninth data input; and the card cue device is configured to perform a tenth data prompt; a ferrule security chip, connected to the ferrule first interface, the ferrule network interface, the ferrule prompting device, and the ferrule input device, configured to receive the Transmitting, by the second data, the first data to the first interface of the card cover, receiving the fifth data sent by the network interface of the card set, and sending the sixth data to the network interface of the card set, and receiving the second data Card set Said ninth data input means, the tenth means sets the prompt transmission data to the card; card sets a battery for power supply to the card set.

The system of claim 1, the card sleeve includes: a first interface of the card sleeve, configured to receive the second data sent by the analog card, and send the data to the card sleeve control chip, and receive the card sleeve Controlling, by the chip, the first data sent to the analog card; the card sleeve network interface, configured to receive the fifth number sent by the real card manager And sending to the card sleeve control chip, receiving the sixth data sent by the card sleeve control chip and transmitting the sixth data to the real card manager; the card sleeve security chip, configured to receive the card sleeve control The ninth data sent by the chip sends the tenth data to the card sleeve control chip; the card sleeve input device is configured to perform the eleventh data input; the card sleeve prompting device is configured to perform the twelfth data prompt; the card a control chip, connected to the ferrule security chip, the ferrule first interface, the ferrule network interface, the ferrule prompting device, and the ferrule input device, for receiving the ferrule Sending, by the interface, the second data, the first data to the first interface of the card holder, receiving the fifth data sent by the card network interface, and sending the fifth data to the card network interface a sixth data, receiving the ninth data sent by the ferrule security chip, transmitting the tenth data to the ferrule security chip, and receiving the eleventh data input by the ferrule input device, to The card sleeve is loaded Transmitting said twelfth transactions; card sets a battery for power supply to the card set.

The system of claim 1, the card sleeve includes: a first interface of the card sleeve, configured to receive the second data sent by the analog card, and send the data to the card sleeve control chip, and receive the card sleeve The first data sent by the control chip is sent to the analog card; the card network interface is configured to receive the fifth data sent by the real card manager and send the data to the card control chip, and receive the The sixth data sent by the card control chip is sent to the real card manager; the card input device is configured to perform the ninth data input; the card cue device is configured to perform the tenth data prompt; a ferrule security chip, connected to the ferrule prompting device and the ferrule input device, configured to receive the ninth data input by the ferrule input device, and send the tenth to the ferrule prompting device Data, receiving the eleventh data sent by the card sleeve control chip, and transmitting the twelfth data to the card sleeve control chip; the card sleeve control chip, the card sleeve security chip, and the card sleeve first interface And the NIC network interface is connected to receive the second data sent by the first interface of the ferrule, send the first data to the first interface of the ferrule, and receive the network interface sent by the ferrule The fifth data, the sixth data is sent to the card network interface, the twelfth data sent by the card security chip is received, and the eleventh is sent to the card security chip. Data; a ferrule battery for powering the ferrule.

The system of any one of aspects 11 to 13, wherein the first interface of the ferrule is a contact interface and/or a wireless interface.

The system of claim 14, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID interface.

The system of any one of aspects 11 to 13, wherein the card network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.

The system of any one of aspects 11 to 13, wherein the ferrule further comprises: a ferrule charging controller connected to the ferrule battery for receiving electrical energy and charging the ferrule battery.

The system of any one of aspects 11 to 17, wherein the ferrule prompting device comprises: a voice playback device Set and / or display device.

The system of any one of aspects 11 to 17, wherein the ferrule input device comprises: a voice collection device, a keyboard, and/or a scanning device.

The system of any one of aspects 11 to 19, wherein the card holder is a mobile device or an electronic signature device.

The system of any one of aspects 11 to 19, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface is located on the mobile device, and the first interface of the ferrule is located at the On the electronic signature device, the ferrule security chip is located on the electronic signature device.

The system of any one of aspects 11 to 19, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface and the ferrule first interface are located on the mobile device, The ferrule security chip is located on the electronic signature device.

It can be seen from the technical solution provided by the present invention that the data received from the terminal can be sent to the ferrule by the analog card of the present invention, or the data received from the ferrule can be sent to the terminal, so as to complete the terminal to The data interaction between the card sets, at the same time, the card sets can interact with the real card manager.

A sixth aspect of the present invention provides a data interaction system, which is implemented as follows:

A data interaction system includes: an analog card, configured to receive first data sent by the card set, send second data to the card set, receive third data sent by the terminal, and send a fourth message to the terminal. Data; the card sleeve is configured to receive the second data sent by the analog card, send the first data to the analog card, and receive the fifth data sent by the real card manager, to the real card The manager sends the sixth data; the real card manager is connected to the at least one real card, and is configured to receive the sixth data sent by the card sleeve, send the fifth data to the card sleeve, and receive the The seventh data sent by the real card is sent to the real card to send the eighth data.

The system of claim 1, the analog card comprises: a first interface of the analog card, configured to receive the first data sent by the card sleeve and send the data to the analog card security chip, and receive the analog card The second data sent by the security chip is sent to the card sleeve; the second interface is configured to receive the third data sent by the terminal and send the data to the analog card security chip, and receive the analog card security. The fourth data sent by the chip is sent to the terminal; the analog card security chip is connected to the first interface of the analog card and the second interface, and is configured to receive the first interface sent by the analog card. Transmitting, by the first data, the second data to the first interface of the analog card, receiving the third data sent by the second interface, and sending the fourth data to the second interface.

The system of claim 1, the analog card includes: an analog card first interface, configured to receive the first data sent by the card sleeve and send the data to an analog card control chip, and receive the analog card The second data sent by the control chip is sent to the card sleeve, and the second interface is configured to receive the third data sent by the terminal and send the data And the analog card control chip receives the fourth data sent by the analog card control chip and sends the fourth data to the terminal; the analog card security chip is configured to receive the ninth data sent by the analog card control chip Transmitting the tenth data to the analog card control chip; the analog card control chip is connected to the analog card security chip, the first interface of the analog card, and the second interface, for receiving the analog card Transmitting, by the first interface, the first data, sending the second data to the first interface of the analog card, receiving the third data sent by the second interface, and sending the third data to the second interface And receiving the tenth data sent by the analog card security chip, and sending the ninth data to the analog card security chip.

The system of claim 1, the analog card comprises: a first interface of the analog card, configured to receive the first data sent by the card sleeve and send the data to the analog card control chip, and receive the analog card The second data sent by the control chip is sent to the card sleeve; the second interface is configured to receive the third data sent by the terminal and send the data to the analog card security chip, and receive the analog card security chip to send The fourth data is sent to the terminal; the analog card security chip is connected to the second interface, and is configured to receive the ninth data sent by the analog card control chip, and control the chip to the analog card Transmitting the tenth data, receiving the third data sent by the second interface, and sending the fourth data to the second interface; the analog card control chip, and the analog card security chip and the simulation The first interface of the card is connected to receive the first data sent by the first interface of the analog card, and send the second data to the first interface of the analog card, and connect The analog card of the tenth data transmission security chip, the security chip analog card transmits data to the ninth.

The system of any one of aspects 2 to 4, wherein the analog card further comprises: an analog card battery; the analog card battery for powering the analog card.

The system of any one of aspects 2 to 5, wherein the first interface of the analog card is a contact interface and/or a wireless interface.

The system of claim 6, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID interface.

The system of claim 5, wherein the second interface is a contact interface and/or a contactless interface.

The system of claim 8, wherein the contactless interface is an NFC interface.

The system of claim 5, the analog card further comprising: an analog card charging controller coupled to the analog card battery for receiving electrical energy and charging the analog card battery.

The system of claim 1, the card sleeve includes: a first interface of the card sleeve, configured to receive the second data sent by the analog card, and send the data to the card security chip, and receive the card sleeve The first data sent by the security chip is sent to the analog card; the card network interface is configured to receive the fifth data sent by the real card manager and send the data to the card security chip, and receive the Decoding the sixth data sent by the security chip and sending the data to the true a card card input device, configured to perform an eleventh data input; a card sleeve prompting device, configured to perform a twelfth data prompt; the card sleeve security chip, and the first interface and the card sleeve The ferrule network interface, the ferrule prompting device, and the ferrule input device are connected to receive the second data sent by the first interface of the ferrule, and send the Receiving, by the first data, the fifth data sent by the card network interface, sending the sixth data to the card network interface, and receiving the eleventh data input by the card input device, to The ferrule prompting device sends the twelfth data; the ferrule battery is used to supply power to the ferrule.

The system of claim 1, the card sleeve includes: a first interface of the card sleeve, configured to receive the second data sent by the analog card, and send the data to the card sleeve control chip, and receive the card sleeve The first data sent by the control chip is sent to the analog card; the card network interface is configured to receive the fifth data sent by the real card manager and send the data to the card control chip, and receive the The sixth data sent by the card control chip is sent to the real card manager; the card security chip is configured to receive the eleventh data sent by the card control chip, to the card sleeve The control chip sends the twelfth data; the card sleeve input device is configured to perform the thirteenth data input; the card sleeve prompting device is configured to perform the fourteenth data prompt; the card sleeve control chip, and the card sleeve security chip The first interface of the ferrule, the ferrule network interface, the ferrule prompting device, and the ferrule input device are connected to receive the second data sent by the first interface of the ferrule, The card holder Sending, by the interface, the first data, receiving the fifth data sent by the card network interface, sending the sixth data to the card network interface, and receiving the first part sent by the card security chip Eleven data, sending the twelfth data to the ferrule security chip, receiving the thirteenth data input by the ferrule input device, and transmitting the fourteenth data to the ferrule prompting device; A ferrule battery for powering the ferrule.

The system of claim 1, the card sleeve includes: a first interface of the card sleeve, configured to receive the second data sent by the analog card, and send the data to the card sleeve control chip, and receive the card sleeve The first data sent by the control chip is sent to the analog card; the card network interface is configured to receive the fifth data sent by the real card manager and send the data to the card control chip, and receive the The sixth data sent by the card control chip is sent to the real card manager; the card input device is configured to perform the eleventh data input; and the card cue device is configured to perform the twelfth data prompt; The ferrule security chip is connected to the ferrule prompting device and the ferrule input device, and configured to receive the eleventh data input by the ferrule input device, and send the device to the ferrule prompting device The twelfth data, receiving the thirteenth data sent by the card sleeve control chip, and transmitting the fourteenth data to the card sleeve control chip; the card sleeve control chip, and the card sleeve security chip, card cover An interface and the network interface of the card set are connected to receive the second data sent by the first interface of the card cover, send the first data to the first interface of the card cover, and receive the network of the card set The fifth data sent by the interface, sending the sixth data to the card network interface, receiving the fourteenth data sent by the card security chip, and sending the fourth data to the card security chip Thirteen data; card battery, used for The ferrule is powered.

The system of any one of aspects 11 to 13, wherein the first interface of the ferrule is a contact interface and/or a wireless interface.

The system of claim 14, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID interface.

The system of any one of aspects 11 to 13, wherein the card network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.

The system of any one of aspects 11 to 13, wherein the ferrule further comprises: a ferrule charging controller connected to the ferrule battery for receiving electrical energy and charging the ferrule battery.

The system of any one of aspects 11 to 17, wherein the ferrule presentation device comprises: a voice playback device and/or a display device.

The system of any one of aspects 11 to 17, wherein the ferrule input device comprises: a voice collection device, a keyboard, and/or a scanning device.

The system of any one of aspects 11 to 19, wherein the card holder is a mobile device or an electronic signature device.

The system of any one of aspects 11 to 19, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface is located on the mobile device, and the first interface of the ferrule is located at the On the electronic signature device, the ferrule security chip is located on the electronic signature device.

The system of any one of aspects 11 to 19, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface and the ferrule first interface are located on the mobile device, The ferrule security chip is located on the electronic signature device.

The system of claim 1, the real card manager includes: a real card manager network interface, configured to receive the sixth data sent by the card sleeve and send the data to a real card manager security chip, Receiving the fifth data sent by the real card manager security chip and sending the data to the card sleeve; at least one read/write interface, configured to receive the seventh data sent by the real card and send the data to the real a card manager security chip, receiving the eighth data sent by the real card manager security chip and transmitting the eighth data to the real card; the real card manager input device, configured to perform the fifteenth data input; the real card a manager security chip coupled to the real card manager network interface, each of the read/write interfaces, and the real card manager input device for receiving the sixth message sent by the real card manager network interface Data, sending the fifth data to the real card manager network interface, and receiving the seventh data sent by the read/write interface, to Said read-write interface to send the eighth data, said input means receiving said fifteenth true card data input manager; a power source for supplying power to the real card manager.

The system of claim 23, wherein the real card manager further comprises: a real card manager prompting device, coupled to the real card manager security chip, for receiving the real card manager security chip to send The sixteenth data, and the sixteenth data prompt is performed.

The system of claim 23 or 24, wherein the real card manager further comprises: a memory coupled to the real card manager security chip for storing data.

The system of claim 1, the real card manager includes: a real card manager network interface, configured to receive the sixth data sent by the card sleeve and send the data to the real card manager control chip, Receiving the fifth data sent by the real card manager control chip and sending the data to the card sleeve; at least one read/write interface, configured to receive the seventh data sent by the real card and send the data to the real The card manager control chip receives the eighth data sent by the real card manager control chip and sends the eighth data to the real card; the real card manager security chip is configured to receive the real card manager control chip Transmitting the fifteenth data, transmitting the sixteenth data to the real card manager control chip; the real card manager input device for performing the seventeenth data input; the real card manager controlling the chip, a real card manager security chip, the real card manager network interface, each of the read and write interfaces, and the real card manager The device is connected to receive the sixth data sent by the real card manager network interface, send the fifth data to the real card manager network interface, and receive the first message sent by the read/write interface. Seven data, sending the eighth data to the read/write interface, receiving the sixteenth data sent by the real card manager security chip, and sending the fifteenth data to the real card manager security chip Receiving, the seventeenth data input by the real card manager input device, and a power source for supplying power to the real card manager.

The system of claim 26, wherein the real card manager further comprises: a real card manager prompting device coupled to the real card manager control chip for receiving the real card manager control chip to send The eighteenth data, and the eighteenth data prompt is performed.

The system of claim 26 or 27, wherein the real card manager further comprises: a memory coupled to the real card manager control chip for storing data.

The system of any one of aspects 23 to 28, wherein the real card manager network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.

The system of any one of aspects 23 to 28, wherein the read/write interface comprises a contact interface and/or a contactless interface.

The system of any one of aspects 23 to 28, wherein the real card manager input device comprises: a voice collection device, a keyboard, and/or a scanning device.

The system of claim 24 or 27, wherein the real card manager prompting device comprises: voice broadcast Discharge device and / or display device.

It can be seen from the technical solution provided by the present invention that the data interaction system of the present invention can provide a transaction solution that is convenient for users to carry and has high security.

DRAWINGS

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention, Those of ordinary skill in the art will be able to obtain other figures from these drawings without the inventive effort.

1 is a schematic structural diagram of a real card manager according to Embodiment 1 of the present invention;

2 is a schematic structural diagram of a real card manager according to Embodiment 2 of the present invention;

3 is a schematic structural diagram of a ferrule provided in Embodiment 3 of the present invention;

4 is a schematic structural view of a ferrule provided by Embodiment 4 of the present invention;

FIG. 5 is a schematic structural diagram of a ferrule provided in Embodiment 5 of the present invention; FIG.

6 is a schematic structural diagram of an analog card according to Embodiment 6 of the present invention;

7 is a schematic structural diagram of an analog card according to Embodiment 7 of the present invention;

8 is a schematic structural diagram of an analog card according to Embodiment 8 of the present invention;

9 is a schematic structural diagram of a data interaction system according to Embodiment 9 of the present invention;

10 is a schematic structural diagram of a data interaction system according to Embodiment 10 of the present invention;

FIG. 11 is a schematic structural diagram of a data interaction system according to Embodiment 11 of the present invention.

detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "back", "left", "right", " The orientation or positional relationship of the indications of "upright", "horizontal", "top", "bottom", "inside", "outside", etc. is based on the orientation or positional relationship shown in the drawings, only for the convenience of describing the present invention and The simplification of the description is not intended to limit or imply that the device or component that is referred to has a particular orientation, is constructed and operated in a particular orientation, and thus is not to be construed as limiting. Moreover, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or quantity or location.

In the description of the present invention, it should be noted that the terms "installation", "connected", and "connected" are to be understood broadly, and may be fixed or detachable, for example, unless otherwise explicitly defined and defined. Connected, or integrally connected; can be mechanical or electrical; can be directly connected, or indirectly connected through an intermediate medium, can be the internal communication of the two components. The specific meaning of the above terms in the present invention can be understood in a specific case by those skilled in the art.

The embodiments of the present invention will be further described in detail below with reference to the accompanying drawings.

The present invention provides an architecture for data interaction to provide a transaction solution that is convenient for users to carry and has high security. The data interaction architecture includes: analog cards, card sets, and real card managers.

among them:

The analog card may include one or more sheets, and the analog card may be a separately manufactured card or a real card reserved with an analog card function. The analog card is the same size as the existing bank card, and in this data interaction architecture, the transaction can be completed instead of the real card. The analog card is completed with the existing terminal (such as ATM machine, POS machine, bus recharge machine, etc.). The analog card can interact with the card holder for data.

The card sleeve may include one or more card sleeves, and the card sleeve may manage one or more analog cards, and each of the analog cards may belong to and be managed by one card sleeve. The ferrule can be a device that is separately manufactured in the shape of a card jacket, or a mobile device with a ferrule function, including: a smart phone, a tablet computer (PAD), a PDA (eg, a palmtop computer, a learning machine), a notebook computer, an electronic device. Book reading devices, wearable devices (such as smart watches, smart glasses, etc.). The card holder can interact with the analog card for data interaction, and the card holder can also perform data interaction with the real card manager. In addition, the card sleeve may also be a combination of a mobile device and an electronic signature device; the card sleeve may also be only an electronic signature device. The electronic signature device may be a key device, such as ICBC U Shield, Agricultural Bank K Bao, and the like.

The real card manager can manage one or more card sets, and the real card manager has at least two read/write interfaces, and the read/write interface can be a contact type (for example, contact contact in the form of a card slot) interface and/or Or non-contact (such as NFC, etc.) interface, so that the real card manager can connect different kinds of real cards in different ways; the real card manager can also interact with the card sets for data.

In this data interaction architecture, the analog card and the real card are smart chip cards.

Based on the above data architecture, the present invention provides a real card manager for managing the above real cards.

Example 1

FIG. 1 is a schematic structural diagram of a real card manager according to Embodiment 1 of the present invention. Referring to FIG. 1, the real card manager of Embodiment 1 of the present invention includes:

A real card manager network interface 101, at least two read/write interfaces 102, a real card manager input device 103, a real card manager security chip 104, and a power source 105;

The real card manager network interface 101 is configured to receive the first data sent by the card sleeve and send it to the real card manager security chip 104, and receive the second data sent by the real card manager security chip 104 and send the card to the card sleeve;

The at least two read/write interfaces 102 are configured to receive the third data sent by the card and send the data to the real card manager security chip 104, and receive the fourth data sent by the real card manager security chip 104 and send the card to the card;

a real card manager input device 103, configured to perform a fifth data input;

The real card manager security chip 104 is connected to the real card manager network interface 101, each of the read/write interfaces 102, and the real card manager input device 103 for receiving the first data sent by the real card manager network interface 101. The real card manager network interface 101 sends the second data, receives the third data sent by the read/write interface 102, sends the fourth data to the read/write interface 102, and receives the fifth data input by the real card manager input device 103;

A power source 105 for powering the real card manager.

The real card manager network interface 101 can be any one of a 2G network interface, a 3G network interface, a 4G network interface, or a WIFI interface, so as to perform data interaction with the card sleeve through the network. Specifically, the real card manager network interface 101 can be SIM6320, Longshang Company U7500, and the like.

The read/write interface 102 can be at least two contact interfaces, or at least two contactless interfaces, or at least one contact interface and at least one contactless interface, for performing data with different types of real cards through the read/write interface 102. Interaction, a read/write interface 102 reads and writes with a real card. For details, refer to FIG. 1. The read/write interface 102(1) is a read/write interface 102(n), where n≥2 and n is a natural number. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The real card manager input device 103 can be one of a voice capture device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The real card manager security chip 104 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. The embodiment 1 of the present invention controls the real card through the real card manager security chip 104. The data transmission of the manager network interface 101 and the read/write interface 102 can improve security. Specifically, the real card manager security chip 104 can be a national technology Z8D256U, Infineon STSEL78. Additionally, the real card manager security chip 104 can have a storage unit for data storage.

The power source 105 can be a direct power source or a battery. If it is a battery, the real card manager also has a matching component such as a charger.

The real card manager according to the first embodiment of the present invention can realize the management of the real card, and can further cooperate with the analog card and the card sleeve to realize convenient carrying by the user and high security.

Further, in order to facilitate the user's use, the real card manager of the embodiment 1 of the present invention further includes: a real card manager prompting device 106; the real card manager prompting device 106 is connected with the real card manager security chip 104, Receiving the sixth data sent by the real card manager security chip 104, and performing the sixth data prompt. The real card manager prompting device 106 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a earphone, etc., and the display device may be a display screen or the like.

Further, in order to facilitate data storage, the real card manager of Embodiment 1 of the present invention further includes: a memory 107; the memory 107 is connected to the real card manager security chip 104 for storing data.

Certainly, the first to fifth data in Embodiment 1 of the present invention may be different data. In addition, the first data may be the same as the fourth data, the third data may be the same as the second data, and the fifth data may be the second data. The data is the same, the fifth data may be the same as the fourth data, the sixth data may be the same as the first data, the sixth data may be the same as the third data, and the sixth data may be the same as the fifth data.

Example 2

The difference between the second embodiment and the first embodiment is that the real card manager network interface, the read/write interface, the real card manager input device, etc. are called by the real card manager control chip in the second embodiment, and the specific implementation is as follows:

FIG. 2 is a schematic structural diagram of a real card manager according to Embodiment 2 of the present invention. Referring to FIG. 2, the real card manager of Embodiment 2 of the present invention includes:

The real card manager network interface 201, at least two read/write interfaces 202, a real card manager security chip 203, a real card manager input device 204, a real card manager control chip 205, and a power source 206;

The real card manager network interface 201 is configured to receive the first data sent by the card sleeve and send it to the real card manager control chip 205, receive the second data sent by the real card manager control chip 205, and send the data to the card sleeve;

The at least two read/write interfaces 202 are configured to receive the third data sent by the card and send the data to the real card manager control chip 205, and receive the fourth data sent by the real card manager control chip 205 and send the card to the card;

The real card manager security chip 203 is configured to receive the fifth data sent by the real card manager control chip 205, and send the sixth data to the real card manager control chip 205;

a real card manager input device 204, configured to perform a seventh data input;

The real card manager control chip 205 is connected to the real card manager security chip 203, the real card manager network interface 201, each read/write interface 202, and the real card manager input device 204 for receiving the real card manager network interface. The first data sent by 201 sends the second data to the real card manager network interface 201, and receives the read data. Write the third data sent by the interface 202, send the fourth data to the read/write interface 202, receive the sixth data sent by the real card manager security chip 203, send the fifth data to the real card manager security chip 203, and receive the real card management. The seventh data input by the device input device 204;

A power source 206 for powering the real card manager.

The real card manager network interface 201 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface, so as to perform data interaction with the card sleeve through the network. Specifically, the real card manager network interface 201 can be SIM6320, Longshang Company U7500, and the like.

The read/write interface 202 can have at least two contact interfaces, or at least two contactless interfaces, or at least one contact interface and at least one contactless interface, for data interaction with different types of real cards through the read/write interface 202. A read/write interface 202 reads and writes with a real card. For details, refer to FIG. 2, the read/write interface 202(1), the read/write interface 202(n), where n≥2 and n is a natural number. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The real card manager input device 204 can be one of a voice capture device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The real card manager security chip 203 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the real card manager security chip 203 can be a national technology Z8D256U, Infineon's STSEL78. In addition, the real card manager security chip 203 may have a storage unit for data storage.

The real card manager control chip 205 controls the data interaction between the real card manager network interface 201, the read and write interface 202, the real card manager input device 203, and the real card manager security chip 203. Specifically, the real card manager control chip 205 can be STM32 of ST company, Z32 of national technology, and the like. In addition, the real card manager control chip 205 may have a storage unit for data storage.

The power source 206 can be a direct plug power source or a battery. If it is a battery, the real card manager also has a matching component such as a charger.

The real card manager according to the second embodiment of the present invention can realize the management of the real card, and can further cooperate with the analog card and the card sleeve to realize convenient carrying by the user and high security.

Further, for the convenience of the user, the real card manager of the embodiment 2 of the present invention may further include: a real card manager prompting device 207; the real card manager prompting device 207 is connected to the real card manager security chip 203, and is used for The eighth data sent by the real card manager security chip 203 is received, and an eighth data prompt is performed. among them, The real card manager prompting device 207 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a earphone, etc., and the display device may be a display screen or the like.

Further, in order to facilitate data storage, the real card manager of Embodiment 2 of the present invention further includes: a memory 208; the memory 208 is connected to the real card manager control chip 205 for storing data.

Certainly, the first to eighth data in Embodiment 2 of the present invention may be different data. In addition, the first data may be the same as the fourth data, the third data may be the same as the second data, and the fifth data may be the first data. The data is the same, the fifth data can be the same as the third data, the sixth data can be the same as the second data, the sixth data can be the same as the fourth data, the seventh data can be the same as the second data, and the seventh data can be the same as the second data. The fourth data is the same, the eighth data can be the same as the first data, the eighth data can be the same as the third data, the eighth data can be the same as the fifth data, the eighth data can be the same as the sixth data, and the eighth data can be the same as the sixth data. The seven data are the same.

Based on the above-described architecture of data interaction, the present invention provides a card sleeve for use in data interaction between an analog card and a real card manager.

Example 3

FIG. 3 is a schematic structural diagram of a ferrule according to Embodiment 3 of the present invention. Referring to FIG. 3, the ferrule of Embodiment 3 of the present invention includes:

The ferrule first interface 301, the ferrule network interface 302, the ferrule input device 303, the ferrule prompting device 304, the ferrule security chip 305, and the ferrule battery 306; wherein:

The card first interface 301 is configured to receive the first data sent by the analog card and send the data to the card security chip 305, and receive the second data sent by the card security chip 305 and send the data to the analog card;

The card network interface 302 is configured to receive the third data sent by the real card manager and send the data to the card security chip 305, and receive the fourth data sent by the card security chip 305 and send the data to the real card manager;

a card input device 303, configured to perform a fifth data input;

a ferrule prompting device 304, configured to perform a sixth data prompt;

The ferrule security chip 305 is connected to the ferrule first interface 301, the ferrule network interface 302, the ferrule prompting device 304, and the ferrule input device 303, and is configured to receive the first data sent by the first interface 301 of the ferrule, to the card. The first interface 301 sends the second data, receives the third data sent by the card network interface 302, sends the fourth data to the card network interface 302, receives the fifth data input by the card input device 303, and presents the card to the card holder device. 304 sends the sixth data;

The ferrule battery 306 is used to supply power to the ferrule.

The first interface 301 of the ferrule can be a contact interface, the first interface 301 of the ferrule can also be a wireless interface, and the first interface 301 of the ferrule can also be a contact interface and a wireless interface, so as to pass the first interface of the ferrule 301 and analog card Perform data interaction. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The card network interface 302 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 302 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 303 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cover prompting device 304 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule security chip 305 has a data processing function such as encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. The third embodiment of the present invention controls the ferrule first interface 301 through the ferrule security chip 305. The data transmission of the card set network interface 302 can improve security. Specifically, the ferrule security chip 305 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 305 may have a storage unit for data storage. Of course, the ferrule security chip 305 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 305.

The ferrule battery 306 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule can further include a charging controller, and the charging controller can be connected to the ferrule battery 306 for receiving power and giving the card. The battery controller 306 is charged. Of course, the charging controller can be disposed in the ferrule battery 306 or in the ferrule security chip 305. When the ferrule first interface 301 has a charging function, the charging controller can also be set. On the first interface 301 of the ferrule having a charging function, of course, a separate charging interface (for example, a USB interface) may be disposed on the ferrule, and the charging controller may be disposed on the charging interface.

The card sleeve according to Embodiment 3 of the present invention can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying by the user. And the purpose of higher security.

Further, in order to facilitate data storage, the ferrule of Embodiment 3 of the present invention may also separately set a memory; the memory may be connected to the ferrule security chip 305 for storing data.

Certainly, the first to sixth data in Embodiment 3 of the present invention may be different data. In addition, the first data may be the same as the fourth data, the third data may be the same as the second data, and the fifth data may be the second data. The same data, the fifth data can be In the same manner as the fourth data, the sixth data may be the same as the first data, the sixth data may be the same as the third data, and the sixth data may be the same as the fifth data.

Example 4

The difference between the fourth embodiment and the third embodiment is that the first interface of the ferrule, the ferrule network interface, the ferrule input device, the ferrule prompting device, and the like are called by the ferrule control chip, and the specific implementation is as follows:

4 is a schematic structural view of a ferrule according to Embodiment 4 of the present invention. Referring to FIG. 4, the ferrule of Embodiment 4 of the present invention includes:

The ferrule first interface 401, the ferrule network interface 402, the ferrule security chip 403, the ferrule input device 404, the ferrule prompting device 405, the ferrule control chip 406, and the ferrule battery 407; wherein:

The card first interface 401 is configured to receive the first data sent by the analog card and send the data to the card control chip 406, and receive the second data sent by the card control chip 406 and send the data to the analog card;

The card network interface 402 is configured to receive the third data sent by the real card manager and send the data to the card control chip 406, and receive the fourth data sent by the card control chip 406 and send the data to the real card manager;

The ferrule security chip 403 is configured to receive the fifth data sent by the ferrule control chip 406, and send the sixth data to the ferrule control chip 406;

a card input device 404, configured to perform a seventh data input;

a ferrule prompting device 405, configured to perform an eighth data prompt;

The ferrule control chip 406 is connected to the ferrule security chip 403, the ferrule first interface 401, the ferrule network interface 402, the ferrule prompting device 405, and the ferrule input device 404, and is configured to receive the ferrule first interface 401. The first data is sent to the first interface 401 of the card holder 401, and the third data sent by the card network interface 402 is received, the fourth data is sent to the card network interface 402, and the sixth data sent by the card security chip 403 is received. Sending the fifth data to the ferrule security chip 403, receiving the seventh data input by the ferrule input device 404, and transmitting the eighth data to the ferrule prompting device 405;

The ferrule battery 407 is used to supply power to the ferrule.

The first interface 401 of the ferrule may be a contact interface, and the first interface 401 of the ferrule may also be a wireless interface, and the first interface 401 of the ferrule may also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 402 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card set network interface 402 It can be SIM6320, Longshang Company's U7500, etc.

The ferrule security chip 403 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule security chip 403 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 403 may have a storage unit for data storage. Of course, the ferrule security chip 403 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 403.

The ferrule input device 404 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cueing device 405 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule control chip 406 controls data interaction between the ferrule first interface 401, the ferrule network interface 402, the ferrule input device 404, the ferrule presentation device 405, and the ferrule security chip 403. Specifically, the ferrule control chip 406 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the ferrule control chip 406 can have a storage unit for data storage.

The ferrule battery 407 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule can further include a charging controller, and the charging controller can be connected to the ferrule battery 407 for receiving power and giving the card. The battery 407 is charged. Of course, the charging controller can be disposed in the ferrule battery 407, or can be disposed in the ferrule security chip 403, and can also be disposed in the ferrule control chip 406. When the ferrule first interface 401 has In the charging function, the charging controller can also be disposed on the first interface 401 of the ferrule having a charging function. Of course, a separate charging interface (for example, a USB interface) can be disposed on the ferrule, and the charging controller can be disposed on the charging interface. on.

The card sleeve according to Embodiment 4 of the present invention can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying by the user. And the purpose of higher security.

Further, in order to facilitate data storage, the ferrule of Embodiment 4 of the present invention may further be provided with a memory; the memory may be connected to the ferrule control chip 406 or connected to the ferrule security chip 403 for storing data.

Of course, the first to eighth data in Embodiment 4 of the present invention may be different data. In addition, the first data may be the same as the fourth data, the third data may be the same as the second data, and the fifth data may be the first data. The data is the same, the fifth data can be the same as the third data, the fifth data can be the same as the seventh data, the sixth data can be the same as the second data, the sixth data can be the same as the fourth data, and the sixth data can be the same as the fourth data. The eighth data is the same, the seventh data can be the same as the second data, the seventh data can be the same as the fourth data, the eighth data can be the same as the first data, the eighth data can be the same as the third data, and the eighth data can be the same as the third data. The fifth data is the same, and the eighth data can be the same as the seventh data.

Example 5

The difference between the fifth embodiment and the fourth embodiment is that the first interface of the ferrule and the network interface of the ferrule are called by the ferrule control chip, and the ferrule input device and the ferrule presentation device are performed by the ferrule security chip. Called, the specific implementation is as follows:

FIG. 5 is a schematic structural diagram of a ferrule according to Embodiment 5 of the present invention. Referring to FIG. 5, the ferrule of Embodiment 5 of the present invention includes:

The ferrule first interface 501, the ferrule network interface 502, the ferrule input device 503, the ferrule prompting device 504, the ferrule security chip 505, the ferrule control chip 506, and the ferrule battery 507;

The card first interface 501 is configured to receive the first data sent by the analog card and send the data to the card control chip 506, and receive the second data sent by the card control chip 506 and send the data to the analog card;

The card network interface 502 is configured to receive the third data sent by the real card manager and send the data to the card control chip 506, and receive the fourth data sent by the card control chip 506 and send the data to the real card manager;

a card input device 503, configured to perform a fifth data input;

a ferrule prompting device 504, configured to perform a sixth data prompt;

The ferrule security chip 505 is connected to the ferrule prompting device 504 and the ferrule input device 503, and is configured to receive the fifth data input by the ferrule input device 503, send the sixth data to the ferrule prompting device 504, and receive the ferrule control chip. The seventh data sent by the 506 sends the eighth data to the ferrule control chip 506;

The ferrule control chip 506 is connected to the ferrule security chip 505, the ferrule first interface 501, and the ferrule network interface 502, and is configured to receive the first data sent by the ferrule first interface 501, and send the first data to the ferrule first interface 501. The second data, the third data sent by the card set network interface 502, the fourth data is sent to the card network interface 502, the eighth data sent by the card security chip 505 is received, and the seventh data is sent to the card security chip 505;

The ferrule battery 507 is used to supply power to the ferrule.

The first interface 501 of the ferrule can be a contact interface, and the first interface 501 of the ferrule can also be a wireless interface, and the first interface 501 of the ferrule can also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 502 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 502 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 503 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cover prompting device 504 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule security chip 505 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule input device 503 and the ferrule presentation device 504 are called by the security chip 505 to improve security. The ferrule security chip 505 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 505 can have a storage unit for data storage. Of course, the ferrule security chip 505 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 505.

The ferrule control chip 506 controls data interaction between the ferrule first interface 501, the ferrule network interface 502, and the ferrule security chip 505. Specifically, the ferrule control chip 506 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the ferrule control chip 506 can have a storage unit for data storage.

The ferrule battery 507 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule can further include a charging controller, and the charging controller can be connected to the ferrule battery 507 for receiving power and giving the card. The battery 507 is charged. Of course, the charging controller can be disposed in the ferrule battery 507, or can be disposed in the ferrule security chip 505, and can also be disposed in the ferrule control chip 506. When the ferrule first interface 501 has In the charging function, the charging controller can also be disposed on the first interface 501 of the ferrule having a charging function. Of course, a separate charging interface (for example, a USB interface) can be disposed on the ferrule, and the charging controller can be disposed on the charging interface. on.

The card sleeve according to Embodiment 5 of the present invention can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying by the user. And the purpose of higher security.

Further, in order to facilitate data storage, the ferrule of Embodiment 5 of the present invention may also separately set a memory; the memory may be connected to the ferrule control chip 506 or connected to the ferrule security chip 505 for storing data.

Certainly, the first to eighth data in Embodiment 5 of the present invention may be different data. In addition, the first data may be the same as the fourth data, the third data may be the same as the second data, and the fifth data may be the eighth data. The data is the same, the sixth data may be the same as the seventh data, the sixth data may be the same as the fifth data, the sixth data may be the same as the eighth data, the seventh data may be the same as the first data, and the seventh data may be the same as the first data. The three data are the same, the eighth data can be the same as the second data, and the eighth data can be the same as the fourth data.

In addition, when the card sleeve in the embodiment 3-5 is a combination of a mobile device and an electronic signature device, wherein the first interface of the card sleeve Located on the electronic signature device, the card network interface is located on the mobile device, and the card security chip is located on the electronic signature device.

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the foregoing embodiments, and details are not described herein again.

In addition, in the embodiment 3-5, the card sleeve is a combination of the mobile device and the electronic signature device, wherein the card sleeve network interface and the card sleeve first interface are located on the mobile device, and the card sleeve security chip is located on the electronic signature device.

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the above implementations, and are not described herein again.

Thus, the electronic signature device can interact with the real card manager via the network interface of the mobile device.

Based on the above-described architecture of data interaction, the present invention provides an analog card for use in simulating data interaction between a card and a card holder.

Example 6

FIG. 6 is a schematic structural diagram of an analog card according to Embodiment 6 of the present invention. Referring to FIG. 6, the analog card of Embodiment 6 of the present invention includes:

An analog card first interface 601, a second interface 602, and an analog card security chip 603; wherein:

The first interface 601 of the analog card is configured to receive the first data sent by the card sleeve and send the data to the analog card security chip 603, and receive the second data sent by the analog card security chip 603 and send the data to the card sleeve;

The second interface 602 is configured to receive the third data sent by the terminal and send the data to the analog card security chip 603, and receive the fourth data sent by the analog card security chip 603 and send the fourth data to the terminal;

The analog card security chip 603 is connected to the analog card first interface 601 and the second interface 602, and is configured to receive the first data sent by the analog card first interface 601, send the second data to the analog card first interface 601, and receive the second data. The third data sent by the interface 602 sends the fourth data to the second interface 602.

The analog card first interface 601 can be a contact interface, the analog card first interface 601 can also be a wireless interface, and the analog card first interface 601 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. 601 performs data interaction with the card holder. Wherein, the contact interface can be a contact, etc., the type of the contact interface can be NXP's 8035, NCN's 8025, etc.; wireless interface can be 2.4G interface, Bluetooth interface, infrared interface, WIFI interface, NFC interface or RFID interface, etc. The wireless interface model can be QN9021, PN512, Texas Instruments TIF256 , NXP's RC663 and so on.

The second interface 602 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 602. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 603 is a data processing function with encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. The sixth embodiment of the present invention controls the analog card first interface 601 by the analog card security chip 603. The data transmission of the second interface 602 can improve security. Specifically, the analog card security chip 603 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the analog card security chip 603 may have a storage unit for data storage. Of course, the analog card security chip 603 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 603.

The simulation card according to Embodiment 6 of the present invention can realize the function of connecting the terminal and the ferrule and performing data interaction between the two, and further can cooperate with the ferrule and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to ensure the power supply of the analog card, the analog card may supply power to the analog card through the analog card first interface 601 and/or the second interface 602, or may add an analog card battery 604 to the analog card to supply power to the analog card. The analog card battery 604 can be a non-rechargeable battery or a rechargeable battery. If it is a rechargeable battery, the analog card can also include a charge controller, and the charge controller can be connected to the analog card battery 604 for receiving power and giving The analog card battery 604 is charged. Of course, the charge controller can be disposed in the analog card battery 604 or in the analog card security chip 603. When the analog card first interface 601 and/or the second interface 602 have a charging function. The charging controller can also be disposed on the analog card first interface 601 and/or the second interface 602 having a charging function. Of course, the analog card can also be provided with a separate charging interface (for example, a USB interface), and the charging controller can Set on the charging interface.

Further, in order to facilitate data storage, the analog card of Embodiment 6 of the present invention may also separately set a memory; the memory may be connected to the analog card security chip 603 for storing data.

Of course, the first to fourth data in Embodiment 6 of the present invention may be different data. Further, the first data may be the same as the fourth data, and the third data may be the same as the second data.

Example 7

The difference between the seventh embodiment and the sixth embodiment is that the first interface and the second interface of the analog card in the seventh embodiment are called by the analog card control chip, and the specific implementation is as follows:

FIG. 7 is a schematic structural diagram of an analog card according to Embodiment 7 of the present invention. Referring to FIG. 7, the simulation card of Embodiment 7 of the present invention includes:

An analog card first interface 701, a second interface 702, an analog card security chip 703, and an analog card control chip 704; wherein:

The first interface 701 of the analog card is configured to receive the first data sent by the card sleeve and send the data to the analog card control chip 704, and receive the second data sent by the analog card control chip 704 and send the data to the card sleeve;

The second interface 702 is configured to receive the third data sent by the terminal and send the data to the control chip 704, and receive the fourth data sent by the analog card control chip 704 and send the fourth data to the terminal.

The analog card security chip 703 is configured to receive the fifth data sent by the analog card control chip 704, and send the sixth data to the analog card control chip 704;

The analog card control chip 704 is connected to the analog card security chip 703, the analog card first interface 701 and the second interface 702, and is configured to receive the first data sent by the analog card first interface 701, and send the first data to the analog card first interface 701. The second data receives the third data sent by the second interface 702, sends the fourth data to the second interface 702, receives the sixth data sent by the analog card security chip 703, and sends the fifth data to the analog card security chip 703.

The analog card first interface 701 can be a contact interface, the analog card first interface 701 can also be a wireless interface, and the analog card first interface 701 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. The 701 performs data interaction with the card holder. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The second interface 702 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 702. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 703 is a data processing function such as encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. Specifically, the analog card security chip 703 can be a Z8D256U of National Technology and an STSEL78 of Infineon. In addition, the analog card security chip 703 may have a storage unit for data storage. Of course, the analog card security chip 703 can also have a contact and/or contactless interface to extend the functionality of the analog chip security chip 703.

The analog card control chip 704 controls data interaction between the analog card first interface 701, the second interface 702, and the analog card security chip 703. Specifically, the analog card control chip 704 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the analog card control chip 704 can have a storage unit for data storage.

The simulation card according to Embodiment 7 of the present invention can realize the function of connecting the terminal and the ferrule and performing data interaction between the two, and further can cooperate with the ferrule and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to ensure the power supply of the analog card, the analog card may supply power to the analog card through the analog card first interface 701 and/or the second interface 702, or may add an analog card battery 705 to the analog card to supply power to the analog card. The analog card battery 705 can be a non-rechargeable battery or a rechargeable battery. If it is a rechargeable battery, the analog card can also include a charging controller, and the charging controller can be connected to the analog card battery 705 for receiving power and giving The analog card battery 705 is charged. Of course, the charging controller may be disposed in the analog card battery 705, or may be disposed in the analog card security chip 703, or may be disposed in the analog card control chip 704, when the analog card first interface 701 When the second interface 702 has a charging function, the charging controller can also be disposed on the analog card first interface 701 and/or the second interface 702 having a charging function. Of course, a separate charging interface can also be set on the analog card. (For example, USB interface), the charge controller can be set on the charging interface.

Further, in order to facilitate data storage, the analog card of Embodiment 7 of the present invention may also separately set a memory; the memory may be connected to the analog card control chip 704 or connected to the analog card security chip 703 for storing data.

Certainly, the first to sixth data in Embodiment 7 of the present invention may be different data. In addition, the first data may be the same as the fourth data, the third data may be the same as the second data, and the fifth data may be the first data. The data is the same, the fifth data can be the same as the third data, the sixth data can be the same as the second data, and the sixth data can be the same as the fourth data.

Example 8

The difference between the eighth embodiment and the sixth embodiment is that the first interface of the analog card in the eighth embodiment is called by the analog card control chip, and the second interface is called by the analog card security chip, and the specific implementation is as follows:

FIG. 8 is a schematic structural diagram of an analog card according to Embodiment 8 of the present invention. Referring to FIG. 8, the analog card of Embodiment 8 of the present invention includes:

An analog card first interface 801, a second interface 802, an analog card security chip 803, and an analog card control chip 804; wherein:

The analog card first interface 801 is configured to receive the first data sent by the card sleeve and send the data to the analog card control chip 804, and receive the second data sent by the analog card control chip 304 and send the data to the card sleeve;

The second interface 802 is configured to receive the third data sent by the terminal and send the data to the analog card security chip 803, and receive the fourth data sent by the analog card security chip 803 and send the fourth data to the terminal;

The analog card security chip 803 is connected to the second interface 802 for receiving the fifth data sent by the analog card control chip 804, sending the sixth data to the analog card control chip 804, and receiving the third data sent by the second interface 802. The second interface 802 sends the fourth data;

The analog card control chip 804 is connected to the analog card security chip 803 and the analog card first interface 801, and is configured to receive the first data sent by the analog card first interface 801, and send the second data to the analog card first interface 801, and receive the simulation. The sixth data sent by the card security chip 803 transmits the fifth data to the analog card security chip 803.

The analog card first interface 801 can be a contact interface, the analog card first interface 801 can also be a wireless interface, and the analog card first interface 801 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. The 801 interacts with the card holder for data. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The second interface 802 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 802. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 803 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. The eighth embodiment of the present invention can improve the security by controlling the data transmission of the second interface 802 by the analog card security chip 803. Specifically, the analog card security chip 803 can be a Z8D256U of National Technology and an STSEL78 of Infineon. In addition, the analog card security chip 803 may have a storage unit for data storage. Of course, the analog card security chip 803 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 803.

The analog card control chip 804 controls the data interaction between the analog card first interface 801 and the analog card security chip 803. Specifically, the analog card control chip 804 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the analog card control chip 804 can have a storage unit for data storage.

The simulation card according to Embodiment 8 of the present invention can realize the function of connecting the terminal and the ferrule and performing data interaction between the two, and further can cooperate with the ferrule and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to ensure the power supply of the analog card, the analog card may pass through the analog card first interface 801 and/or The second interface 802 supplies power to the analog card, and may also add an analog card battery 805 to the analog card to supply power to the analog card. The analog card battery 805 may be a non-rechargeable battery or a rechargeable battery. The analog card may further include a charging controller, which may be connected to the analog card battery 805 for receiving electric energy and charging the analog card battery 805. Of course, the charging controller may be disposed in the analog card battery 805, or The charging controller can also be disposed in the analog card security chip 803, and can also be disposed in the analog card control chip 804. When the analog card first interface 801 and/or the second interface 802 have a charging function, the charging controller can also be set to have a charging function. The analog card first interface 801 and/or the second interface 802, of course, a separate charging interface (such as a USB interface) can also be set on the analog card, and the charging controller can be disposed on the charging interface.

Further, in order to facilitate data storage, the analog card of Embodiment 8 of the present invention may also separately set a memory; the memory may be connected to the analog card control chip 804 or connected to the security chip 803 for storing data.

Certainly, the first to sixth data in Embodiment 8 of the present invention may be different data. In addition, the first data may be the same as the fifth data, the second data may be the same as the sixth data, and the third data may be the sixth data. The data is the same, and the fourth data can be the same as the fifth data.

Based on the above-described architecture of data interaction, the present invention provides a data interaction system for use in performing data interaction between a card holder and a real card manager.

Example 9

FIG. 9 is a schematic structural diagram of a data interaction system according to Embodiment 9 of the present invention. Referring to FIG. 9, the data interaction system in this embodiment includes: a card sleeve 910 and a real card manager 920; wherein:

The card sleeve 910 is configured to receive the first data sent by the analog card, send the second data to the analog card, receive the third data sent by the real card manager 920, and send the fourth data to the real card manager 920;

The real card manager 920 is connected to the at least one real card, and is configured to receive the fourth data sent by the card 910, send the third data to the card 910, receive the fifth data sent by the real card, and send the sixth data to the real card. .

Specifically, the data received from the analog card can be sent to the real card manager 920 through the ferrule 910 of the present invention, or the data received from the real card manager 920 can be sent to the analog card to complete the analog card. To the data interaction between the real card managers, the real card manager 920 can manage and interact with the real cards connected to it. Of course, the data transmitted between the card holder 910 and the real card manager 920 can also be independent of the analog card, that is, the data sent by the card sleeve 910 to the real card manager 920 is not from the analog card, but is generated by the card sleeve 910 itself. Alternatively, it can be obtained from other external devices; similarly, the data sent by the real card manager 920 to the card holder 910 can also be processed independently by the card holder 910 without sending to the analog card.

In the following, the structure of the ferrule 910 and the real card manager 920 will be described in detail:

Wherein: the ferrule 910 may have the following structure, but the invention is not limited thereto:

Card sleeve 910 structure (1):

For the first structure of the ferrule in the data interaction system provided in this embodiment, reference may be made to FIG. 3, and the ferrule 910 includes:

The ferrule first interface 301, the ferrule network interface 302, the ferrule input device 303, the ferrule prompting device 304, the ferrule security chip 305, and the ferrule battery 306; wherein:

The card first interface 301 is configured to receive the first data sent by the analog card and send the data to the card security chip 305, and receive the second data sent by the card security chip 305 and send the data to the analog card;

The card network interface 302 is configured to receive the third data sent by the real card manager 920 and send it to the card security chip 305, and receive the fourth data sent by the card security chip 305 and send it to the real card manager 920;

a card input device 303, configured to perform a seventh data input;

a ferrule prompting device 304, configured to perform an eighth data prompt;

The ferrule security chip 305 is connected to the ferrule first interface 301, the ferrule network interface 302, the ferrule prompting device 304, and the ferrule input device 305, and is configured to receive the first data sent by the first interface 301 of the ferrule, to the card. The first interface 301 sends the second data, receives the third data sent by the card network interface 302, sends the fourth data to the card network interface 302, receives the seventh data input by the card input device 303, and presents the card to the card holder device. 304 sends the eighth data;

The ferrule battery 306 is used to supply power to the ferrule 910.

The first interface 301 of the ferrule can be a contact interface, the first interface 301 of the ferrule can also be a wireless interface, and the first interface 301 of the ferrule can also be a contact interface and a wireless interface, so as to pass the first interface of the ferrule 301 interacts with the analog card for data. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The card network interface 302 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card set network interface 102 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 303 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The ferrule prompting device 304 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, The earphone receiver, etc., the display device can be a display screen or the like.

The card security chip 305 has the data processing functions of encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. In the present structure, the first interface 301 and the card of the card cover are controlled by the card security chip 305. The data transmission of the network interface 302 can improve security. Specifically, the ferrule security chip 305 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 305 may have a storage unit for data storage. Of course, the ferrule security chip 305 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 305.

The ferrule battery 306 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule can further include a charging controller, and the charging controller can be connected to the ferrule battery 306 for receiving power and giving the card. The battery controller 306 is charged. Of course, the charging controller can be disposed in the ferrule battery 306 or in the ferrule security chip 305. When the ferrule first interface 301 has a charging function, the charging controller can also be set. On the first interface 301 of the ferrule having a charging function, of course, a separate charging interface (for example, a USB interface) may be disposed on the ferrule, and the charging controller may be disposed on the charging interface.

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the structure may also be separately provided with a memory; the memory may be connected to the ferrule security chip 305 for storing data.

Certainly, the first to fourth data, the seventh and eighth data in the structure may be different data, and further, the first data may be the same as the fourth data, and the third data may be the same as the second data, the seventh data The seventh data may be the same as the fourth data, the eighth data may be the same as the first data, the eighth data may be the same as the third data, and the eighth data may be the same as the seventh data.

Card sleeve 910 structure (2):

The difference between the structure and the structure (1) is that the first interface of the ferrule, the ferrule network interface, the ferrule input device, the ferrule prompting device and the like are called by the ferrule control chip, and the specific implementation is as follows:

For the second structure of the ferrule in the data interaction system provided in this embodiment, as shown in FIG. 4, the ferrule 910 includes:

The card sleeve first interface 401, the card sleeve network interface 402, the card sleeve security chip 403, the card sleeve input device 404, the card sleeve prompting device 405, the card sleeve control chip 406 and the battery 407; wherein:

The card first interface 401 is configured to receive the first data sent by the analog card and send the data to the card control chip 406, and receive the second data sent by the card control chip 406 and send the data to the analog card;

The card network interface 402 is configured to receive the third data sent by the real card manager 920 and send the data to the card control core The slice 406 receives the fourth data sent by the card sleeve control chip 406 and sends it to the real card manager 920;

The ferrule security chip 403 is configured to receive the seventh data sent by the ferrule control chip 406, and send the eighth data to the ferrule control chip 406;

a card input device 404, configured to perform a ninth data input;

a ferrule prompting device 405, configured to perform a tenth data prompt;

The ferrule control chip 406 is connected to the ferrule security chip 403, the ferrule first interface 401, the ferrule network interface 402, the ferrule prompting device 405, and the ferrule input device 404, and is configured to receive the ferrule first interface 401. The first data is sent to the first interface 401 of the card sleeve, the third data sent by the card network interface 402 is received, the fourth data is sent to the card network interface 402, and the seventh data sent by the card security chip 403 is received. Sending the eighth data to the ferrule security chip 403, receiving the ninth data input by the ferrule input device 404, and transmitting the tenth data to the ferrule prompting device 405;

The ferrule battery 407 is used to supply power to the ferrule 10.

The first interface 401 of the ferrule may be a contact interface, and the first interface 401 of the ferrule may also be a wireless interface, and the first interface 401 of the ferrule may also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 402 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card set network interface 102 can be SIM6320, Longshang Company U7500, and the like.

The ferrule security chip 403 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule security chip 403 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 403 may have a storage unit for data storage. Of course, the ferrule security chip 403 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 403.

The ferrule input device 404 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cueing device 405 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule control chip 406 controls data interaction between the ferrule first interface 401, the ferrule network interface 402, the ferrule input device 404, the ferrule presentation device 405, and the ferrule security chip 403. Specifically, the ferrule control chip 406 can be an STM32 of the ST company, a Z32 of the national technology, or the like. In addition, the ferrule control chip 406 can have a storage unit for For data storage.

The ferrule battery 407 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule can further include a charging controller, and the charging controller can be connected to the ferrule battery 407 for receiving power and giving the card. The battery 407 is charged. Of course, the charging controller can be disposed in the ferrule battery 407, or can be disposed in the ferrule security chip 403, and can also be disposed in the ferrule control chip 406. When the ferrule first interface 401 has In the charging function, the charging controller can also be disposed on the first interface 401 of the ferrule having a charging function. Of course, a separate charging interface (for example, a USB interface) can be disposed on the ferrule, and the charging controller can be disposed on the charging interface. on.

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the structure may also be separately provided with a memory; the memory may be connected to the ferrule control chip 406 or connected to the ferrule security chip 403 for storing data.

Of course, the first to fourth data and the seventh to tenth data in the structure may be different data. In addition, the first data may be the same as the fourth data, and the third data may be the same as the second data, and the seventh data. The seventh data may be the same as the first data, the seventh data may be the same as the third data, the eighth data may be the same as the second data, and the eighth data may be the same as the fourth data, the eighth The data may be the same as the tenth data, the ninth data may be the same as the second data, the ninth data may be the same as the fourth data, the tenth data may be the same as the first data, and the tenth data may be the same as the third data, tenth The data can be the same as the seventh data, and the tenth data can be the same as the ninth data.

Card sleeve 910 structure (3):

The difference between the structure and the structure (1) is that the first interface of the card sleeve and the network interface of the card sleeve are called by the card sleeve control chip, and the card sleeve input device and the card sleeve prompt device are called by the card sleeve security chip, specifically The implementation is as follows:

For the third structure of the ferrule in the data interaction system provided in this embodiment, as shown in FIG. 5, the ferrule 910 includes:

The ferrule first interface 501, the ferrule network interface 502, the ferrule input device 503, the ferrule prompting device 504, the ferrule security chip 505, the ferrule control chip 506, and the ferrule battery 507;

The card first interface 501 is configured to receive the first data sent by the analog card and send the data to the card control chip 506, and receive the second data sent by the card control chip 506 and send the data to the analog card;

The card network interface 502 is configured to receive the third data sent by the real card manager 920 and send it to the card control chip 506, and receive the fourth data sent by the card control chip 506 and send it to the real card manager 920;

a card input device 503, configured to perform a seventh data input;

a ferrule prompting device 504, configured to perform an eighth data prompt;

The ferrule security chip 505 is connected to the ferrule prompting device 504 and the ferrule input device 503 for receiving the card sleeve The seventh data input by the device 503 sends the eighth data to the ferrule prompting device 504, receives the ninth data sent by the ferrule control chip 506, and sends the tenth data to the ferrule control chip 506;

The ferrule control chip 506 is connected to the ferrule security chip 505, the ferrule first interface 501, and the ferrule network interface 502, and is configured to receive the first data sent by the ferrule first interface 501, and send the first data to the ferrule first interface 501. The second data, the third data sent by the card set network interface 502, the fourth data is sent to the card network interface 502, the tenth data sent by the card security chip 505 is received, and the ninth data is sent to the card security chip 505;

The ferrule battery 507 is used to supply power to the ferrule 910.

The first interface 501 of the ferrule can be a contact interface, and the first interface 501 of the ferrule can also be a wireless interface, and the first interface 501 of the ferrule can also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 502 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 502 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 503 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cover prompting device 504 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule security chip 505 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule input device 503 and the ferrule presentation device 504 are invoked by the ferrule security chip 505 to improve security. The ferrule security chip 505 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 505 can have a storage unit for data storage. Of course, the ferrule security chip 505 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 505.

The ferrule control chip 506 controls data interaction between the ferrule first interface 501, the ferrule network interface 502, and the ferrule security chip 505. Specifically, the ferrule control chip 506 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the ferrule control chip 506 can have a storage unit for data storage.

The ferrule battery 507 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule can further include a charging controller, and the charging controller can be connected to the ferrule battery 507 for receiving power and giving the card. The battery 507 is charged. Of course, the charging controller can be disposed in the ferrule battery 507 or can be disposed on the ferrule security chip 505. The ferrule control chip 506 can also be disposed in the ferrule control chip 506. When the ferrule first interface 501 has a charging function, the charging controller can also be disposed on the ferrule first interface 501 having a charging function, and of course, the ferrule is further A separate charging interface (such as a USB interface) can be provided, which can be placed on the charging interface.

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the present structure may also be separately provided with a memory; the memory may be connected to the ferrule control chip 506 or connected to the ferrule security chip 505 for storing data.

Of course, the first to fourth data and the seventh to tenth data in the structure may be different data. In addition, the first data may be the same as the fourth data, and the third data may be the same as the second data, and the seventh data. The eighth data may be the same as the ninth data, the eighth data may be the same as the seventh data, the eighth data may be the same as the tenth data, and the ninth data may be the same as the first data, the ninth data The data may be the same as the third data, the tenth data may be the same as the second data, and the tenth data may be the same as the fourth data.

In addition, in the embodiment, the card sleeve is a combination of a mobile device and an electronic signature device, wherein the first interface of the card sleeve is located on the electronic signature device, the network interface of the card sleeve is located on the mobile device, and the card security chip is located on the electronic signature device. .

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the foregoing embodiments, and details are not described herein again.

In addition, in the embodiment, the card sleeve is a combination of the mobile device and the electronic signature device, wherein the card sleeve network interface and the card sleeve first interface are located on the mobile device, and the card sleeve security chip is located on the electronic signature device.

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the above implementations, and are not described herein again.

Thus, the electronic signature device can interact with the real card manager via the network interface of the mobile device.

Wherein: the real card manager 920 can have the following structure, but the invention is not limited to this:

Real Card Manager 920 Structure (1):

The first structure of the real card manager in the data interaction system provided in this embodiment can be seen in FIG. 1. The real card manager 920 includes:

A real card manager network interface 101, at least one read/write interface 102, a real card manager input device 103, a real card manager security chip 104, and a power source 105;

The real card manager network interface 101 is configured to receive the fourth data sent by the card holder 910 and send it to the real card manager security chip 104, and receive the third data sent by the real card manager security chip 104 and send it to the card sleeve 910;

The at least one read/write interface 102 is configured to receive the fifth data sent by the real card and send it to the real card manager security chip 104, and receive the sixth data sent by the real card manager security chip 104 and send the data to the real card;

a real card manager input device 103, configured to perform an eleventh data input;

The real card manager security chip 104 is connected to the real card manager network interface 101, each of the read/write interfaces 102, and the real card manager input device 103 for receiving the fourth data sent by the real card manager network interface 101. The real card manager network interface 101 sends the third data, receives the fifth data sent by the read/write interface 102, sends the sixth data to the read/write interface 102, and receives the eleventh data input by the real card manager input device 103;

A power source 105 is provided for powering the real card manager 920.

The real card manager network interface 101 can be any one of a 2G network interface, a 3G network interface, a 4G network interface, or a WIFI interface, so as to perform data interaction with the card sleeve through the network. Specifically, the real card manager network interface 101 can be SIM6320, Longshang Company U7500, and the like.

The read/write interface 102 can be at least one contact interface, or at least one contactless interface, or at least one contact interface and at least one contactless interface for data interaction with different types of real cards through the read/write interface 102. A read/write interface 102 reads and writes with a real card. For details, refer to FIG. 1, read/write interface 102(1), ... read/write interface 102(n), where n≥1 and n is a natural number. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The real card manager input device 103 can be one of a voice capture device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The real card manager security chip 104 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification, and the structure controls the real card manager network through the real card manager security chip 104. The data transmission of the interface 101 and the read/write interface 102 can improve security. Specifically, the real card manager security chip 104 can be a national technology Z8D256U, Infineon STSEL78. Additionally, the real card manager security chip 104 can have a storage unit for data storage.

The power source 105 can be a direct power source or a battery. If it is a battery, the real card manager also has a matching component such as a charger.

The real card manager based on the structure can realize the management of the real card, and can further cooperate with the analog card and the card sleeve to realize the purpose of convenient carrying by the user and high security.

Further, for the convenience of the user, the real card manager of the structure further includes: a real card manager prompting device 106; the real card manager prompting device 106 is connected with the real card manager security chip 104 for receiving the real The twelfth data sent by the card manager security chip 104, and the twelfth data prompt is performed. The real card manager prompting device 106 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a earphone, etc., and the display device may be a display screen or the like.

Further, in order to facilitate data storage, the real card manager of the present structure further includes: a memory 107; the memory 107 is connected to the real card manager security chip 104 for storing data.

Of course, the third to sixth data and the eleventh to twelfth data in the structure may be different data. In addition, the fourth data may be the same as the sixth data, and the fifth data may be the same as the third data. The eleventh data may be the same as the third data, the eleventh data may be the same as the sixth data, the twelfth data may be the same as the fourth data, the twelfth data may be the same as the fifth data, and the twelfth data may be the same The eleventh data is the same.

Real Card Manager 920 Structure (2):

The difference between the structure and the structure (1) is that the real card manager network interface, the read/write interface, the real card manager input device, etc. are called by the real card manager control chip in the structure, and the specific implementation is as follows:

The second structure of the real card manager in the data interaction system provided in this embodiment can be seen in FIG. 2, and the real card manager 920 includes:

The real card manager network interface 201, the at least one read/write interface 202, the real card manager security chip 203, the real card manager input device 204, the real card manager control chip 205, and the power source 206;

The real card manager network interface 201 is configured to receive the fourth data sent by the card holder 910 and send it to the real card manager control chip 205, and receive the third data sent by the real card manager control chip 205 and send it to the card sleeve 910;

The at least one read/write interface 202 is configured to receive the fifth data sent by the real card and send it to the real card manager control chip 205, and receive the sixth data sent by the real card manager control chip 205 and send the data to the real card;

The real card manager security chip 203 is configured to receive the eleventh data sent by the real card manager control chip 205, and send the twelfth data to the real card manager control chip 205;

a real card manager input device 204 for performing a thirteenth data input;

The real card manager control chip 205 is connected to the real card manager security chip 203, the real card manager network interface 201, each read/write interface 202, and the real card manager input device 204 for receiving real card tubes. The fourth data sent by the router network interface 201 sends the third data to the real card manager network interface 201, receives the fifth data sent by the read/write interface 202, sends the sixth data to the read/write interface 202, and receives the real card manager. The twelfth data sent by the security chip 203 sends the eleventh data to the real card manager security chip 203, and receives the thirteenth data input by the real card manager input device 204;

A power source 206 is provided for powering the real card manager 920.

The real card manager network interface 201 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface, so as to perform data interaction with the card sleeve through the network. Specifically, the real card manager network interface 201 can be SIM6320, Longshang Company U7500, and the like.

The read/write interface 202 can have at least one contact interface, or at least one contactless interface, or at least one contact interface and at least one contactless interface, for data interaction with different types of real cards through the read/write interface 202, one The read/write interface 202 reads and writes with a real card. For details, refer to FIG. 2, read/write interface 202(1), ... read/write interface 202(n), where n≥1 and n is a natural number. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The real card manager input device 204 can be one of a voice capture device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The real card manager security chip 203 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the real card manager security chip 203 can be a national technology Z8D256U, Infineon's STSEL78. In addition, the real card manager security chip 203 may have a storage unit for data storage.

The real card manager control chip 205 controls the data interaction between the real card manager network interface 201, the read and write interface 202, the real card manager input device 204, and the real card manager security chip 203. Specifically, the real card manager control chip 205 can be STM32 of ST company, Z32 of national technology, and the like. In addition, the real card manager control chip 205 may have a storage unit for data storage.

The power source 206 can be a direct plug power source or a battery. If it is a battery, the real card manager also has a matching component such as a charger.

The real card manager based on the structure can realize the management of the real card, and can further cooperate with the analog card and the card sleeve to realize the purpose of convenient carrying by the user and high security.

Further, for the convenience of the user, the real card manager of the present structure may further include: a real card manager prompting device 207; the real card manager prompting device 207 is connected to the real card manager security chip 203, and is used for The fourteenth data sent by the real card manager security chip 203 is received, and the fourteenth data prompt is performed. The real card manager prompting device 207 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a earphone, etc., and the display device may be a display screen or the like.

Further, in order to facilitate data storage, the real card manager of the present structure further includes: a memory 208; the memory 208 is connected to the real card manager security chip 203 or connected to the real card manager control chip 205 for storing data. .

Of course, the third to sixth data and the eleventh to fourteenth data in the structure may be different data. Further, the fourth data may be the same as the sixth data, and the fifth data may be the same as the third data. The eleventh data may be the same as the fourth data, the eleventh data may be the same as the fifth data, the twelfth data may be the same as the third data, the twelfth data may be the same as the sixth data, and the thirteenth data may be the same The third data is the same, the thirteenth data may be the same as the sixth data, the fourteenth data may be the same as the fourth data, the fourteenth data may be the same as the fifth data, and the fourteenth data may be the same as the eleventh data. The fourteenth data may be the same as the twelfth data, and the fourteenth data may be the same as the thirteenth data.

Based on the above-described architecture of data interaction, the present invention provides a data interaction system for performing data interaction between an analog card and a card holder.

Example 10

FIG. 10 is a schematic structural diagram of a data interaction system according to Embodiment 10 of the present invention. Referring to FIG. 10, the data interaction system in this embodiment includes: an analog card 1010 and a card holder 1020; wherein:

The analog card 1010 is configured to receive the first data sent by the ferrule 1020, send the second data to the ferrule 1020, receive the third data sent by the terminal, and send the fourth data to the terminal;

The card holder 1020 is configured to receive the second data sent by the analog card 1010, send the first data to the analog card 1010, receive the fifth data sent by the real card manager, and send the sixth data to the real card manager.

Specifically, the analog card 1010 of the present invention can transmit data received from the terminal to the ferrule 1020, and can also send data received from the ferrule 1020 to the terminal, so as to complete data between the terminal and the ferrule. Interaction, at the same time, the card holder 1020 can perform data interaction with the real card manager. Of course, the data transmitted between the analog card 1010 and the ferrule 1020 can also be independent of the terminal, that is, the data sent by the analog card 1010 to the ferrule 1020 is not from the terminal but is generated by the analog card 1010 itself or obtained from other external devices. Similarly, the data sent by the card sleeve 1020 to the analog card 1010 may also be processed independently by the analog card 1010 without being sent to the terminal.

In the following, the structure of the analog card 1010 and the ferrule 1020 will be described in detail:

Wherein: the analog card 1010 may have the following structure, but the invention is not limited to this:

Analog card 1010 structure (1):

The first structure of the analog card in the data interaction system provided in this embodiment can be seen in FIG. 6. The analog card 1010 includes:

An analog card first interface 601, a second interface 602, and an analog card security chip 603; wherein:

The analog card first interface 601 is configured to receive the first data sent by the card sleeve 1020 and send it to the analog card security chip 603, and receive the second data sent by the analog card security chip 603 and send it to the card sleeve 1020;

The second interface 602 is configured to receive the third data sent by the terminal and send the data to the analog card security chip 603, and receive the fourth data sent by the analog card security chip 603 and send the fourth data to the terminal;

The analog card security chip 603 is connected to the analog card first interface 601 and the second interface 602, and is configured to receive the first data sent by the analog card first interface 601, send the second data to the analog card first interface 601, and receive the second data. The third data sent by the interface 602 sends the fourth data to the second interface 602.

The analog card first interface 601 can be a contact interface, the analog card first interface 601 can also be a wireless interface, and the analog card first interface 601 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. 601 performs data interaction with the card holder. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The second interface 602 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 602. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 603 has the functions of data processing such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. The structure controls the analog card first interface 601 and the second through the analog card security chip 603. The data transmission of the interface 602 can improve security. Specifically, the analog card security chip 603 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the analog card security chip 603 may have a storage unit for data storage. Of course, the analog card security chip 603 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 603.

The analog card based on the structure can realize the function of connecting the terminal and the card sleeve and performing data interaction between the two, and further can cooperate with the card sleeve and the real card manager to realize convenient carrying by the user, and the security is high. purpose.

Further, in order to ensure the power supply of the analog card 1010, the analog card 1010 can supply power to the analog card 1010 through the analog card first interface 601 and/or the second interface 602, or the analog card battery 604 can be added to the analog card 1010, so as to The analog card 1010 is powered. The analog card battery 604 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the analog card 1010 can also include an analog card charging controller, and the analog card charging controller can be combined with an analog card. The battery 604 is connected for receiving electric energy and charging the analog card battery 604. Of course, the analog card charging controller may be disposed in the analog card battery 604, or may be disposed in the analog card security chip 603, when the analog card first interface When the 601 and/or the second interface 602 has a charging function, the analog card charging controller can also be disposed on the analog card first interface 601 and/or the second interface 602 having a charging function, and of course, the analog card 1010 can also be set. Separate charging interface (such as USB interface), the analog card charging controller can be set In the charging interface.

Further, in order to facilitate data storage, the analog card of the structure may also be separately provided with a memory; the memory may be connected to the analog card security chip 603 for storing data.

Of course, the first to fourth data in the structure may be different data. Further, the first data may be the same as the fourth data, and the third data may be the same as the second data.

Analog card 1010 structure (2):

The difference between the structure and the structure (1) is that the first interface and the second interface of the analog card in the structure are called by the analog card control chip, and the specific implementation is as follows:

The second structure of the analog card in the data interaction system provided in this embodiment can be seen in FIG. 7. The analog card 1010 includes:

An analog card first interface 701, a second interface 702, an analog card security chip 703, and an analog card control chip 704; wherein:

The analog card first interface 701 is configured to receive the first data sent by the card sleeve 1020 and send it to the analog card control chip 704, and receive the second data sent by the analog card control chip 704 and send it to the card sleeve 1020;

The second interface 702 is configured to receive the third data sent by the terminal and send the data to the analog card control chip 704, and receive the fourth data sent by the analog card control chip 704 and send the fourth data to the terminal;

The analog card security chip 703 is configured to receive the seventh data sent by the analog card control chip 704, and send the eighth data to the analog card control chip 704;

The analog card control chip 704 is connected to the analog card security chip 703, the analog card first interface 701 and the second interface 702, and is configured to receive the first data sent by the analog card first interface 701, and send the first data to the analog card first interface 701. The second data receives the third data sent by the second interface 702, sends the fourth data to the second interface 702, receives the eighth data sent by the analog card security chip 703, and sends the seventh data to the analog card security chip 703.

The analog card first interface 701 can be a contact interface, the analog card first interface 701 can also be a wireless interface, and the analog card first interface 701 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. The 701 performs data interaction with the card holder. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The second interface 702 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 702. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 703 is a data processing function such as encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. Specifically, the analog card security chip 703 can be a Z8D256U of National Technology and an STSEL78 of Infineon. In addition, the analog card security chip 703 may have a storage unit for data storage. Of course, the analog card security chip 703 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 703.

The analog card control chip 704 controls data interaction between the analog card first interface 701, the second interface 702, and the analog card security chip 703. Specifically, the analog card control chip 704 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the analog card control chip 704 can have a storage unit for data storage.

The analog card based on the structure can realize the function of connecting the terminal and the card sleeve and performing data interaction between the two, and further can cooperate with the card sleeve and the real card manager to realize convenient carrying by the user, and the security is high. purpose.

Further, in order to ensure the power supply of the analog card 1010, the analog card 1010 may supply the analog card 1010 through the analog card first interface 701 and/or the second interface 702, or may add the analog card battery 705 to the analog card 1010, so as to The analog card 1010 is powered. The analog card battery 705 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the analog card 1010 can also include an analog card charging controller, and the analog card charging controller can be combined with an analog card. The battery 705 is connected for receiving electric energy and charging the analog card battery 705. Of course, the analog card charging controller may be disposed in the analog card battery 705, or may be disposed in the analog card security chip 703, and may also be set in the analog card. In the control chip 704, when the analog card first interface 701 and/or the second interface 702 have a charging function, the analog card charging controller may also be disposed on the analog card first interface 701 and/or the second interface having a charging function. On the 702, of course, a separate charging interface (for example, US) can be provided on the analog card 1010. B interface), the analog card charging controller can be set on the charging interface.

Further, in order to facilitate data storage, the analog card of the present structure may also be separately provided with a memory; the memory may be connected to the analog card control chip 704 or connected to the analog card security chip 703 for storing data.

Of course, the first to fourth data and the seventh to eighth data in the structure may be different data. In addition, the first data may be the same as the fourth data, and the third data may be the same as the second data, and the seventh data. The first data may be the same as the first data, the seventh data may be the same as the third data, and the eighth data may be the same as the fourth data.

Analog card 1010 structure (3):

The difference between the structure and the structure (1) is that the first interface of the analog card in the structure is called by the analog card control chip, and the second interface is called by the analog card security chip, and the specific implementation is as follows:

The third structure of the analog card in the data interaction system provided in this embodiment can be seen in FIG. 8. The analog card 1010 includes:

An analog card first interface 801, a second interface 802, an analog card security chip 803, and an analog card control chip 804; wherein:

The analog card first interface 801 is configured to receive the first data sent by the card sleeve 1020 and send it to the analog card control chip 804, and receive the second data sent by the analog card control chip 804 and send it to the card sleeve 1020;

The second interface 802 is configured to receive the third data sent by the terminal and send the data to the analog card security chip 803, and receive the fourth data sent by the analog card security chip 803 and send the fourth data to the terminal;

The analog card security chip 803 is connected to the second interface 802 and configured to receive the seventh data sent by the analog card control chip 804, send the eighth data to the analog card control chip 804, and receive the third data sent by the second interface 802. The second interface 802 sends the fourth data;

The analog card control chip 804 is connected to the analog card security chip 803 and the analog card first interface 801, and is configured to receive the first data sent by the analog card first interface 801, and send the second data to the analog card first interface 801, and receive the simulation. The eighth data transmitted by the card security chip 803 transmits the seventh data to the analog card security chip 803.

The analog card first interface 801 can be a contact interface, the analog card first interface 801 can also be a wireless interface, and the analog card first interface 801 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. The 801 interacts with the card holder for data. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The second interface 802 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 802. Specifically, the contact interface can be a contact, etc. The contactless interface can be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 803 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. This structure can improve the security by controlling the data transmission of the second interface 802 by the analog card security chip 803. Specifically, the analog card security chip 803 can be a Z8D256U of National Technology and an STSEL78 of Infineon. In addition, the analog card security chip 803 may have a storage unit for data storage. Of course, the analog card security chip 803 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 803.

The analog card control chip 804 controls the data interaction between the analog card first interface 801 and the analog card security chip 803. Specifically, the analog card control chip 804 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the analog card control chip 804 can have a storage unit for data storage.

The analog card based on the structure can realize the function of connecting the terminal and the card sleeve and performing data interaction between the two, and further can cooperate with the card sleeve and the real card manager to realize convenient carrying by the user, and the security is high. purpose.

Further, in order to ensure the power supply of the analog card 1010, the analog card 1010 may supply the analog card 1010 through the analog card first interface 801 and/or the second interface 802, or may add the analog card battery 805 to the analog card 1010, so as to The analog card 1010 is powered. The analog card battery 805 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the analog card 1010 can also include an analog card charging controller, and the analog card charging controller can be combined with an analog card. The battery 805 is connected to receive power and charge the analog card battery 805. Of course, the analog card charging controller may be disposed in the analog card battery 805, or may be disposed in the analog card security chip 803, and may also be set in the analog card. In the control chip 804, when the analog card first interface 801 and/or the second interface 802 have a charging function, the analog card charging controller may also be disposed on the analog card first interface 801 and/or the second interface having a charging function. On the 802, of course, a separate charging interface (for example, US) can be provided on the analog card 1010. B interface), the analog card charging controller can be set on the charging interface.

Further, in order to facilitate data storage, the analog card of the structure may also be separately provided with a memory; the memory may be connected to the analog card control chip 804 or connected to the analog card security chip 803 for storing data.

Of course, the first to fourth data and the seventh to eighth data in the structure may be different data. In addition, the first data may be the same as the seventh data, and the second data may be the same as the eighth data, the third data. The fourth data may be the same as the eighth data.

Wherein: the ferrule 1020 may have the following structure, but the invention is not limited to this:

Card cover 1020 structure (1):

The first structure of the ferrule in the data interaction system provided in this embodiment can be referred to FIG. 3, and the ferrule 1020 includes:

The ferrule first interface 301, the ferrule network interface 302, the ferrule input device 303, the ferrule prompting device 304, the ferrule security chip 305, and the ferrule battery 306; wherein:

The card first interface 301 is configured to receive the second data sent by the analog card 1010 and send it to the card security chip 305, and receive the first data sent by the card security chip 305 and send it to the analog card 1010;

The card set network interface 302 is configured to receive the fifth data sent by the real card manager and send the data to the card security chip 305, and receive the sixth data sent by the card security chip 305 and send the data to the real card manager;

a card input device 303, configured to perform a ninth data input;

a ferrule prompting device 304, configured to perform a tenth data prompt;

The ferrule security chip 305 is connected to the ferrule first interface 301, the ferrule network interface 302, the ferrule prompting device 304, and the ferrule input device 303, and is configured to receive the second data sent by the first interface 301 of the ferrule, to the card. The first interface 301 sends the first data, receives the fifth data sent by the card network interface 302, sends the sixth data to the card network interface 302, receives the ninth data input by the card input device 303, and presents the card to the card holder device. 304 sends the tenth data;

The ferrule battery 306 is used to supply power to the ferrule 1020.

The first interface 301 of the ferrule can be a contact interface, the first interface 301 of the ferrule can also be a wireless interface, and the first interface 301 of the ferrule can also be a contact interface and a wireless interface, so as to pass the first interface of the ferrule 301 interacts with the analog card for data. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The card network interface 302 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 202 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 303 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cover prompting device 304 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The card security chip 305 has the data processing functions of encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. In the present structure, the first interface 301 and the card of the card cover are controlled by the card security chip 305. Set of network interface 302 Data transfer can improve security. Specifically, the ferrule security chip 305 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 305 may have a storage unit for data storage. Of course, the ferrule security chip 305 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 305.

The ferrule battery 306 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule 1020 can further include a ferrule charging controller, and the ferrule charging controller can be connected to the ferrule battery 306 for Receiving the electric energy and charging the ferrule battery 306. Of course, the ferrule charging controller may be disposed in the ferrule battery 306 or in the ferrule security chip 305. When the ferrule first interface 301 has a charging function, The ferrule charging controller can also be disposed on the first interface 301 of the ferrule having a charging function. Of course, the ferrule 1020 can also be provided with a separate charging interface (for example, a USB interface), and the ferrule charging controller can be set to be charged. On the interface.

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the structure may also be separately provided with a memory; the memory may be connected to the ferrule security chip 305 for storing data.

Certainly, the first to second data, the fifth to sixth data, and the ninth to twelfth data in the structure may be different data, and further, the second data may be the same as the sixth data, and the fifth data may be The first data is the same, the ninth data may be the same as the first data, the ninth data may be the same as the sixth data, the tenth data may be the same as the second data, the tenth data may be the same as the fifth data, and the tenth data may be Same as the ninth data.

Card cover 1020 structure (2):

The difference between the structure and the structure (1) is that the first interface of the ferrule, the ferrule network interface, the ferrule input device, the ferrule prompting device and the like are called by the ferrule control chip, and the specific implementation is as follows:

For the second structure diagram of the ferrule in the data interaction system provided in this embodiment, reference may be made to FIG. 4, and the ferrule 1020 includes:

The ferrule first interface 401, the ferrule network interface 402, the ferrule security chip 403, the ferrule input device 404, the ferrule prompting device 405, the ferrule control chip 406, and the ferrule battery 407; wherein:

The card socket first interface 401 is configured to receive the second data sent by the analog card 1010 and send it to the card sleeve control chip 406, and receive the first data sent by the card sleeve control chip 406 and send it to the analog card 1010;

The card network interface 402 is configured to receive the fifth data sent by the real card manager and send the data to the card control chip 406, and receive the sixth data sent by the card control chip 406 and send the data to the real card manager;

The ferrule security chip 403 is configured to receive the ninth data sent by the ferrule control chip 406, and the ferrule control chip 406 Send the tenth data;

a card input device 404, configured to perform an eleventh data input;

a ferrule prompting device 405, configured to perform a twelfth data prompt;

The ferrule control chip 406 is connected to the ferrule security chip 403, the ferrule first interface 401, the ferrule network interface 402, the ferrule prompting device 405, and the ferrule input device 404, and is configured to receive the ferrule first interface 401. The second data sends the first data to the first interface 401 of the card holder, receives the fifth data sent by the card network interface 402, sends the sixth data to the card network interface 402, and receives the ninth data sent by the card security chip 403. Sending the tenth data to the ferrule security chip 403, receiving the eleventh data input by the ferrule input device 404, and transmitting the twelfth data to the ferrule prompting device 405;

The ferrule battery 407 is used to supply power to the ferrule 1020.

The first interface 401 of the ferrule may be a contact interface, and the first interface 401 of the ferrule may also be a wireless interface, and the first interface 401 of the ferrule may also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 402 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 202 can be SIM6320, Longshang Company U7500, and the like.

The ferrule security chip 403 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule security chip 403 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 403 may have a storage unit for data storage. Of course, the ferrule security chip 403 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 403.

The ferrule input device 404 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cueing device 405 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule control chip 406 controls data interaction between the ferrule first interface 401, the ferrule network interface 402, the ferrule input device 404, the ferrule presentation device 405, and the ferrule security chip 403. Specifically, the ferrule control chip 406 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the ferrule control chip 406 can have a storage unit for data storage.

The ferrule battery 407 can be a non-rechargeable battery or a rechargeable battery. If it is a rechargeable battery, the ferrule 1020 The ferrule charging controller can also be included, and the ferrule charging controller can be connected to the ferrule battery 407 for receiving electric energy and charging the ferrule battery 407. Of course, the ferrule charging controller can be disposed on the ferrule battery 407. The ferrule security controller can also be disposed in the ferrule security chip 403, and can also be disposed in the ferrule control chip 406. When the ferrule first interface 401 has a charging function, the ferrule charging controller can also be disposed on the charging function. The ferrule first interface 401, of course, can also be provided with a separate charging interface (such as a USB interface) on the ferrule 1020, and the ferrule charging controller can be disposed on the charging interface.

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the structure may also be separately provided with a memory; the memory may be connected to the ferrule control chip 406 or connected to the ferrule security chip 403 for storing data.

Certainly, the first to second data, the fifth to sixth data, and the ninth to twelfth data in the structure may be different data, and further, the second data may be the same as the sixth data, and the fifth data may be The first data is the same, the ninth data may be the same as the second data, the ninth data may be the same as the fifth data, the ninth data may be the same as the eleventh data, and the tenth data may be the same as the first data, the tenth data The same as the sixth data, the tenth data may be the same as the twelfth data, the eleventh data may be the same as the first data, the eleventh data may be the same as the sixth data, and the twelfth data may be the same as the second data The twelfth data may be the same as the fifth data, the twelfth data may be the same as the ninth data, and the twelfth data may be the same as the eleventh data.

Card cover 1020 structure (3):

The difference between the structure and the structure (1) is that the first interface of the card sleeve and the network interface of the card sleeve are called by the card sleeve control chip, and the card sleeve input device and the card sleeve prompt device are called by the card sleeve security chip, specifically The implementation is as follows:

The third structure of the ferrule in the data interaction system provided in this embodiment can be seen in FIG. 5, and the ferrule 1020 includes:

The ferrule first interface 501, the ferrule network interface 502, the ferrule input device 503, the ferrule prompting device 504, the ferrule security chip 505, the ferrule control chip 506, and the ferrule battery 507;

The card first interface 501 is configured to receive the second data sent by the analog card 1010 and send it to the card control chip 506, and receive the first data sent by the card control chip 506 and send it to the analog card 1010;

The card network interface 502 is configured to receive the fifth data sent by the real card manager and send the data to the card control chip 506, and receive the sixth data sent by the card control chip 506 and send the data to the real card manager;

a ferrule input device 503, configured to perform ninth data input;

a ferrule prompting device 504, configured to perform a tenth data prompt;

The ferrule security chip 505 is connected to the ferrule prompting device 504 and the ferrule input device 503, and is configured to receive the ninth data input by the ferrule input device 503, send the tenth data to the ferrule prompting device 504, and receive the ferrule control chip. 506 rounds Sending the eleventh data, sending the twelfth data to the card sleeve control chip 506;

The ferrule control chip 506 is connected to the ferrule security chip 505, the ferrule first interface 501, and the ferrule network interface 502, and is configured to receive the second data sent by the ferrule first interface 501, and send the second data to the ferrule first interface 501. The first data, the fifth data sent by the card set network interface 502, sends the sixth data to the card network interface 502, receives the twelfth data sent by the card security chip 505, and sends the eleventh data to the card security chip 505. data;

The ferrule battery 507 is used to supply power to the ferrule 1020.

The first interface 501 of the ferrule can be a contact interface, and the first interface 501 of the ferrule can also be a wireless interface, and the first interface 501 of the ferrule can also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 502 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 502 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 503 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cover prompting device 504 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule security chip 505 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule input device 503 and the ferrule presentation device 504 are invoked by the ferrule security chip 505 to improve security. The ferrule security chip 505 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 505 can have a storage unit for data storage. Of course, the ferrule security chip 505 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 505.

The ferrule control chip 506 controls data interaction between the ferrule first interface 501, the ferrule network interface 502, and the ferrule security chip 505. Specifically, the ferrule control chip 506 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the ferrule control chip 506 can have a storage unit for data storage.

The ferrule battery 507 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule 1020 can further include a ferrule charging controller, and the ferrule charging controller can be connected to the ferrule battery 507 for Receiving the electric energy and charging the ferrule battery 507. Of course, the ferrule charging controller may be disposed in the ferrule battery 507, or may be disposed in the ferrule security chip 505, or may be disposed in the ferrule control chip 506. The first interface 501 of the ferrule has charging work When applicable, the ferrule charging controller can also be disposed on the first interface 501 of the ferrule having a charging function. Of course, the ferrule 1020 can also be provided with a separate charging interface (for example, a USB interface), and the ferrule charging controller can Set on the charging interface.

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the present structure may also be separately provided with a memory; the memory may be connected to the ferrule control chip 506 or connected to the ferrule security chip 505 for storing data.

Certainly, the first to second data, the fifth to sixth data, and the ninth to twelfth data in the structure may be different data, and further, the second data may be the same as the sixth data, and the fifth data may be The first data is the same, the ninth data may be the same as the twelfth data, the tenth data may be the same as the eleventh data, the tenth data may be the same as the ninth data, and the tenth data may be the same as the twelfth data, the The eleventh data may be the same as the second data, the eleventh data may be the same as the fifth data, the twelfth data may be the same as the first data, and the twelfth data may be the same as the sixth data.

In addition, in the embodiment, the card sleeve is a combination of a mobile device and an electronic signature device, wherein the first interface of the card sleeve is located on the electronic signature device, the network interface of the card sleeve is located on the mobile device, and the card security chip is located on the electronic signature device. .

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the foregoing embodiments, and details are not described herein again.

In addition, in the embodiment, the card sleeve is a combination of the mobile device and the electronic signature device, wherein the card sleeve network interface and the card sleeve first interface are located on the mobile device, and the card sleeve security chip is located on the electronic signature device.

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the above implementations, and are not described herein again.

Thus, the electronic signature device can interact with the real card manager via the network interface of the mobile device.

Based on the above-described architecture of data interaction, the present invention provides a data interaction system for performing data interaction between an analog card and a card holder.

Example 11

11 is a schematic structural diagram of a data interaction system according to Embodiment 11 of the present invention. Referring to FIG. 11, the data interaction system of the present invention includes: an analog card 1110, a card holder 1120, and a real card manager 1130;

The analog card 1110 is configured to receive the first data sent by the card sleeve 1120, send the second data to the card sleeve 1120, receive the third data sent by the terminal, and send the fourth data to the terminal;

The card set 1120 is configured to receive the second data sent by the analog card 1110, send the first data to the analog card 1110, receive the fifth data sent by the real card manager 1130, and send the sixth data to the real card manager 1130;

The real card manager 1130 is connected to the at least one real card, and is configured to receive the sixth data sent by the card sleeve 1120, send the fifth data to the card sleeve 1120, receive the seventh data sent by the real card, and send the eighth data to the real card. .

Specifically, the analog card 1110 of the present invention can transmit data received from the terminal to the ferrule 1120, and can also send data received from the ferrule 1120 to the terminal, so as to complete the connection between the terminal and the ferrule 1120. Data interaction.

With the ferrule 1120 of the present invention, data received from the analog card 1110 can be sent to the real card manager 1130, and data received from the real card manager 1130 can also be sent to the analog card 1110 to complete the simulated card 1110. Data interaction to the real card manager 1130.

Of course, the data transmitted between the analog card 1110 and the ferrule 1120 can also be independent of the terminal, that is, the data sent by the analog card 1110 to the ferrule 1120 is not from the terminal but is generated by the analog card 1110 itself or obtained from other external devices. Similarly, the data sent by the card sleeve 1120 to the analog card 1110 may also be processed independently by the analog card 1110 without being sent to the terminal.

At the same time, the real card manager 1130 can manage and interact with the real cards connected to it. Of course, the data transmitted between the card holder 1120 and the real card manager 1130 can also be independent of the analog card 1110, that is, the data sent by the card holder 1120 to the real card manager 1130 is not from the analog card 1110 but by the card holder 1120. The data generated by the real card manager 1130 to the card holder 1120 can also be processed independently by the card holder 1120 without being sent to the analog card 1110.

It can be seen that, through the data interaction system of the present invention, a transaction solution that is convenient for the user to carry and has high security can be provided.

In the following, the structures of the analog card 1110, the card holder 1120, and the real card manager 1130 are respectively described in detail:

Wherein: the analog card 1110 may have the following structure, but the invention is not limited to this:

Analog card 1110 structure (1):

The first structure of the analog card in the data interaction system provided in this embodiment can be seen in FIG. 6. The analog card 1110 includes:

An analog card first interface 601, a second interface 602, and an analog card security chip 603; wherein:

The analog card first interface 601 is configured to receive the first data sent by the card sleeve 1120 and send it to the analog card security chip 603, receive the second data sent by the analog card security chip 603 and send it to the card sleeve 1120;

The second interface 602 is configured to receive the third data sent by the terminal and send the data to the analog card security chip 603, and receive the fourth data sent by the analog card security chip 603 and send the fourth data to the terminal;

The analog card security chip 603 is connected to the analog card first interface 601 and the second interface 602, and is configured to receive the first data sent by the analog card first interface 601, send the second data to the analog card first interface 601, and receive the second data. The third data sent by the interface 602 sends the fourth data to the second interface 602.

The analog card first interface 601 can be a contact interface, the analog card first interface 601 can also be a wireless interface, and the analog card first interface 601 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. 601 performs data interaction with the card holder. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The second interface 602 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 602. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 603 has the functions of data processing such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. The structure controls the analog card first interface 601 and the second through the analog card security chip 603. The data transmission of the interface 602 can improve security. Specifically, the analog card security chip 603 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the analog card security chip 603 may have a storage unit for data storage. Of course, the analog card security chip 603 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 603.

The analog card based on the structure can realize the function of connecting the terminal and the card sleeve and performing data interaction between the two, and further can cooperate with the card sleeve and the real card manager to realize convenient carrying by the user, and the security is high. purpose.

Further, in order to ensure the power supply of the analog card 1110, the analog card 1110 can supply power to the analog card 1110 through the analog card first interface 601 and/or the second interface 602, or the analog card battery 604 can be added to the analog card 1110, so as to The analog card battery 604 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the analog card 1110 can also include an analog card charging controller. The electric controller can be connected to the analog card battery 604 for receiving electric energy and charging the analog card battery 604. Of course, the analog card charging controller can be disposed in the analog card battery 604 or in the analog card security chip 603. When the analog card first interface 601 and/or the second interface 602 have a charging function, the analog card charging controller may also be disposed on the analog card first interface 601 and/or the second interface 602 having a charging function, of course. A separate charging interface (such as a USB interface) can also be provided on the analog card 1110, and the analog card charging controller can be disposed on the charging interface.

Further, in order to facilitate data storage, the analog card of the structure may also be separately provided with a memory; the memory may be connected to the analog card security chip 603 for storing data.

Of course, the first to fourth data in the structure may be different data. Further, the first data may be the same as the fourth data, and the third data may be the same as the second data.

The data described in the present invention may further include instructions and the like.

Analog card 1110 structure (2):

The difference between the structure and the structure (1) is that the first interface and the second interface of the analog card in the structure are called by the analog card control chip, and the specific implementation is as follows:

The second structure of the analog card in the data interaction system provided in this embodiment can be seen in FIG. 7. The analog card 1110 includes:

An analog card first interface 701, a second interface 702, an analog card security chip 703, and an analog card control chip 704; wherein:

The analog card first interface 701 is configured to receive the first data sent by the card sleeve 1120 and send it to the analog card control chip 704, receive the second data sent by the analog card control chip 704 and send it to the card sleeve 1120;

The second interface 702 is configured to receive the third data sent by the terminal and send the data to the analog card control chip 704, and receive the fourth data sent by the analog card control chip 704 and send the fourth data to the terminal;

The analog card security chip 703 is configured to receive the ninth data sent by the analog card control chip 704, and send the tenth data to the analog card control chip 704;

The analog card control chip 704 is connected to the analog card security chip 703, the analog card first interface 701 and the second interface 702, and is configured to receive the first data sent by the analog card first interface 701, and send the first data to the analog card first interface 701. The second data receives the third data sent by the second interface 702, sends the fourth data to the second interface 702, receives the tenth data sent by the analog card security chip 703, and sends the ninth data to the analog card security chip 703.

The analog card first interface 701 can be a contact interface, the analog card first interface 701 can also be a wireless interface, and the analog card first interface 701 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. The 701 performs data interaction with the card holder. Wherein, the contact interface can be a contact, etc., the type of the contact interface can be NXP's 8035, NCN's 8025, etc.; wireless interface can be 2.4G interface, Bluetooth interface, infrared interface, WIFI interface, NFC interface or RFID interface, etc. The wireless interface model can be QN9021, PN512, Texas Instruments TIF256 , NXP's RC663 and so on.

The second interface 702 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 702. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 703 is a data processing function such as encryption, decryption, verification, verification verification, certificate verification, signature, and/or verification. Specifically, the analog card security chip 703 can be a Z8D256U of National Technology and an STSEL78 of Infineon. In addition, the analog card security chip 703 may have a storage unit for data storage. Of course, the analog card security chip 703 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 703.

The analog card control chip 704 controls data interaction between the analog card first interface 701, the second interface 702, and the analog card security chip 703. Specifically, the analog card control chip 704 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the analog card control chip 704 can have a storage unit for data storage.

The analog card based on the structure can realize the function of connecting the terminal and the card sleeve and performing data interaction between the two, and further can cooperate with the card sleeve and the real card manager to realize convenient carrying by the user, and the security is high. purpose.

Further, in order to ensure the power supply of the analog card 1110, the analog card 1110 may supply the analog card 1110 through the analog card first interface 701 and/or the second interface 702, or may add the analog card battery 705 to the analog card 1110. The analog card battery 705 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the analog card 1110 can also include an analog card charging controller, and the analog card charging controller can be combined with an analog card. The battery 705 is connected for receiving electric energy and charging the analog card battery 705. Of course, the analog card charging controller may be disposed in the analog card battery 705, or may be disposed in the analog card security chip 703, and may also be set in the analog card. In the control chip 704, when the analog card first interface 701 and/or the second interface 702 have a charging function, the analog card charging controller may also be disposed on the analog card first interface 701 and/or the second interface having a charging function. On the 702, of course, a separate charging interface (for example, US) can be provided on the analog card 1110. B interface), the analog card charging controller can be set on the charging interface.

Further, in order to facilitate data storage, the analog card of the present structure may also be separately provided with a memory; the memory may be connected to the analog card control chip 704 or connected to the analog card security chip 703 for storing data.

Of course, the first to fourth data and the ninth to tenth data in the structure may be different data, and in addition, the first number According to the fourth data, the third data may be the same as the second data, the ninth data may be the same as the first data, the ninth data may be the same as the third data, and the tenth data may be the same as the second data, Ten data can be the same as the fourth data.

Analog card 1110 structure (3):

The difference between the structure and the structure (1) is that the first interface of the analog card in the structure is called by the analog card control chip, and the second interface is called by the analog card security chip, and the specific implementation is as follows:

The third structure of the analog card in the data interaction system provided in this embodiment can be seen in FIG. 8. The analog card 1110 in the data interaction system of the present invention includes:

An analog card first interface 801, a second interface 802, an analog card security chip 803, and an analog card control chip 804; wherein:

The analog card first interface 801 is configured to receive the first data sent by the card sleeve 1120 and send it to the analog card control chip 804, receive the second data sent by the analog card control chip 804 and send it to the card sleeve 1120;

The second interface 802 is configured to receive the third data sent by the terminal and send the data to the analog card security chip 803, and receive the fourth data sent by the analog card security chip 803 and send the fourth data to the terminal;

The analog card security chip 803 is connected to the second interface 802 for receiving the ninth data sent by the analog card control chip 804, transmitting the tenth data to the analog card control chip 804, and receiving the third data sent by the second interface 802. The second interface 802 sends the fourth data;

The analog card control chip 804 is connected to the analog card security chip 803 and the analog card first interface 801, and is configured to receive the first data sent by the analog card first interface 801, and send the second data to the analog card first interface 801, and receive the simulation. The tenth data transmitted by the card security chip 803 transmits the ninth data to the analog card security chip 803.

The analog card first interface 801 can be a contact interface, the analog card first interface 801 can also be a wireless interface, and the analog card first interface 801 can also be a contact interface and a wireless interface, so as to pass the first interface of the analog card. The 801 interacts with the card holder for data. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The second interface 802 is a contact interface, or a contactless interface, or a contact interface and a contactless interface, so as to perform data interaction with different types of terminals through the second interface 802. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The analog card security chip 803 has encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Sign and other data processing functions. This structure can improve the security by controlling the data transmission of the second interface 802 by the analog card security chip 803. Specifically, the analog card security chip 803 can be a Z8D256U of National Technology and an STSEL78 of Infineon. In addition, the analog card security chip 803 may have a storage unit for data storage. Of course, the analog card security chip 803 can also have a contact and/or contactless interface to extend the functionality of the analog card security chip 803.

The analog card control chip 804 controls the data interaction between the analog card first interface 801 and the analog card security chip 803. Specifically, the analog card control chip 804 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the analog card control chip 804 can have a storage unit for data storage.

The analog card based on the structure can realize the function of connecting the terminal and the card sleeve and performing data interaction between the two, and further can cooperate with the card sleeve and the real card manager to realize convenient carrying by the user, and the security is high. purpose.

Further, in order to ensure the power supply of the analog card 1110, the analog card 1110 may supply the analog card 1110 through the analog card first interface 801 and/or the second interface 802, or may add the analog card battery 805 to the analog card 1110, so as to The analog card battery 805 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the analog card 1110 can also include an analog card charging controller, and the analog card charging controller can be combined with an analog card. The battery 805 is connected to receive power and charge the analog card battery 805. Of course, the analog card charging controller may be disposed in the analog card battery 805, or may be disposed in the analog card security chip 803, and may also be set in the analog card. In the control chip 804, when the analog card first interface 801 and/or the second interface 802 have a charging function, the analog card charging controller may also be disposed on the analog card first interface 801 and/or the second interface having a charging function. On the 802, of course, a separate charging interface (such as US) can also be provided on the analog card 1110. B interface), the analog card charging controller can be set on the charging interface.

Further, in order to facilitate data storage, the analog card of the structure may also be separately provided with a memory; the memory may be connected to the analog card control chip 804 or connected to the analog card security chip 803 for storing data.

Of course, the first to fourth data and the ninth to tenth data in the structure may be different data. In addition, the first data may be the same as the ninth data, and the second data may be the same as the tenth data, the third data. It may be the same as the tenth data, and the fourth data may be the same as the ninth data.

Wherein: the ferrule 1120 can have the following structure, but the invention is not limited to this:

Card cover 1120 structure (1):

For the first structure of the ferrule in the data interaction system provided in this embodiment, as shown in FIG. 3, the ferrule 1120 includes:

Card sleeve first interface 301, card sleeve network interface 302, card sleeve input device 303, card sleeve prompting device 304, card sleeve Full chip 305 and ferrule battery 306; wherein:

The card first interface 301 is configured to receive the second data sent by the analog card 1110 and send it to the card security chip 305, and receive the first data sent by the card security chip 305 and send it to the analog card 1110;

The card network interface 302 is configured to receive the fifth data sent by the real card manager 1130 and send it to the card security chip 305, and receive the sixth data sent by the card security chip 305 and send it to the real card manager 30;

a card input device 303, configured to perform an eleventh data input;

a ferrule prompting device 304, configured to perform a twelfth data prompt;

The ferrule security chip 305 is connected to the ferrule first interface 301, the ferrule network interface 302, the ferrule prompting device 304, and the ferrule input device 303, and is configured to receive the second data sent by the first interface 301 of the ferrule, to the card. The first interface 301 sends the first data, receives the fifth data sent by the card network interface 302, sends the sixth data to the card network interface 302, receives the eleventh data input by the card input device 303, and prompts the card sleeve. The device 304 transmits the twelfth data;

The ferrule battery 306 is used to supply power to the ferrule 1120.

The first interface 301 of the ferrule can be a contact interface, the first interface 301 of the ferrule can also be a wireless interface, and the first interface 301 of the ferrule can also be a contact interface and a wireless interface, so as to pass the first interface of the ferrule 301 interacts with the analog card for data. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the models of the wireless interface can be QN9021, PN512, TIF256 of Texas Instruments, RC663 of NXP.

The card network interface 302 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 302 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 303 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cover prompting device 304 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The card security chip 305 has the data processing functions of encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. In the present structure, the first interface 301 and the card of the card cover are controlled by the card security chip 305. The data transmission of the network interface 302 can improve security. Specifically, the ferrule security chip 305 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 305 may have a storage unit for data storage. Of course, the ferrule security chip 305 can also have a contact and/or contactless interface for extending the ferrule security chip 305. The function.

The ferrule battery 306 can be a non-rechargeable battery or a rechargeable battery. If the battery is a rechargeable battery, the ferrule can further include a ferrule charging controller, and the ferrule charging controller can be connected to the ferrule battery 306 for receiving The electric power is charged to the ferrule battery 306. Of course, the ferrule charging controller can be disposed in the ferrule battery 306 or in the ferrule security chip 305. When the ferrule first interface 301 has a charging function, the ferrule first interface 301 has a charging function. The ferrule charging controller can also be disposed on the first interface 301 of the ferrule having a charging function. Of course, a separate charging interface (for example, a USB interface) can be disposed on the ferrule, and the ferrule charging controller can be disposed on the charging interface. .

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the structure may also be separately provided with a memory; the memory may be connected to the ferrule security chip 305 for storing data.

Of course, the first to second data, the fifth to sixth data, and the eleventh to fourteenth data in the structure may be different data. In addition, the second data may be the same as the sixth data, and the fifth data may be Like the first data, the eleventh data may be the same as the first data, the eleventh data may be the same as the sixth data, the twelfth data may be the same as the second data, and the twelfth data may be the same as the fifth data The twelfth data can be the same as the eleventh data.

Card cover 1120 structure (2):

The difference between the structure and the structure (1) is that the first interface of the ferrule, the ferrule network interface, the ferrule input device, the ferrule prompting device and the like are called by the ferrule control chip, and the specific implementation is as follows:

The second structure of the ferrule in the data interaction system provided in this embodiment can be seen in FIG. 4. The NIC 1120 in the data interaction system of the present invention includes:

The ferrule first interface 401, the ferrule network interface 402, the ferrule security chip 403, the ferrule input device 404, the ferrule prompting device 405, the ferrule control chip 406, and the ferrule battery 407; wherein:

The card socket first interface 401 is configured to receive the second data sent by the analog card 1110 and send it to the card sleeve control chip 406, and receive the first data sent by the card sleeve control chip 406 and send it to the analog card 1110;

The card network interface 402 is configured to receive the fifth data sent by the real card manager 1130 and send it to the card control chip 406, and receive the sixth data sent by the card control chip 406 and send it to the real card manager 1130;

The ferrule security chip 403 is configured to receive the eleventh data sent by the ferrule control chip 406, and send the twelfth data to the ferrule control chip 406;

a card input device 404, configured to perform a thirteenth data input;

a ferrule prompting device 405, configured to perform a fourteenth data prompt;

The ferrule control chip 406 is connected to the ferrule security chip 403, the ferrule first interface 401, the ferrule network interface 402, the ferrule prompting device 405, and the ferrule input device 404, and is configured to receive the ferrule first interface 401. The second data sends the first data to the first interface 401 of the card holder, receives the fifth data sent by the card network interface 402, sends the sixth data to the card network interface 402, and receives the eleventh sent by the card security chip 403. Data, transmitting the twelfth data to the ferrule security chip 403, receiving the thirteenth data input by the ferrule input device 404, and transmitting the fourteenth data to the ferrule prompting device 405;

The ferrule battery 407 is used to supply power to the ferrule 1120.

The first interface 401 of the ferrule may be a contact interface, and the first interface 401 of the ferrule may also be a wireless interface, and the first interface 401 of the ferrule may also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 402 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 402 can be SIM6320, Longshang Company U7500, and the like.

The ferrule security chip 403 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule security chip 403 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 403 may have a storage unit for data storage. Of course, the ferrule security chip 403 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 403.

The ferrule input device 404 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cueing device 405 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule control chip 406 controls data interaction between the ferrule first interface 401, the ferrule network interface 402, the ferrule input device 404, the ferrule presentation device 405, and the ferrule security chip 403. Specifically, the ferrule control chip 406 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the ferrule control chip 406 can have a storage unit for data storage.

The ferrule battery 407 can be a non-rechargeable battery or a rechargeable battery. If it is a rechargeable battery, the ferrule can further include a ferrule charging controller, and the ferrule charging controller can be connected to the ferrule battery 407 for receiving The electric energy is charged to the ferrule battery 407. Of course, the ferrule charging controller can be disposed in the ferrule battery 407, or can be disposed in the ferrule security chip 403, and can also be disposed in the ferrule control chip 406. When the first interface 401 has a charging function, The ferrule charging controller can also be disposed on the first interface 401 of the ferrule having a charging function. Of course, a separate charging interface (for example, a USB interface) can be disposed on the ferrule, and the ferrule charging controller can be disposed on the charging interface. on.

The card sleeve based on the structure can realize the function of connecting the analog card and the real card manager, and performing data interaction between the two, and further can cooperate with the analog card and the real card manager to realize convenient carrying, and safety. Higher purpose.

Further, in order to facilitate data storage, the ferrule of the structure may also be separately provided with a memory; the memory may be connected to the ferrule control chip 406 or connected to the ferrule security chip 403 for storing data.

Of course, the first to second data, the fifth to sixth data, and the eleventh to fourteenth data in the structure may be different data. In addition, the second data may be the same as the sixth data, and the fifth data may be Like the first data, the eleventh data may be the same as the second data, the eleventh data may be the same as the fifth data, the eleventh data may be the same as the thirteenth data, and the twelfth data may be the first data Similarly, the twelfth data may be the same as the sixth data, the twelfth data may be the same as the fourteenth data, the thirteenth data may be the same as the first data, and the thirteenth data may be the same as the sixth data, the fourteenth The data may be the same as the second data, the fourteenth data may be the same as the fifth data, the fourteenth data may be the same as the eleventh data, and the fourteenth data may be the same as the thirteenth data.

Card cover 1120 structure (3):

The difference between the structure and the structure (1) is that the first interface of the card sleeve and the network interface of the card sleeve are called by the card sleeve control chip, and the card sleeve input device and the card sleeve prompt device are called by the card sleeve security chip, specifically The implementation is as follows:

The third structure of the ferrule in the data interaction system provided in this embodiment can be seen in FIG. 5, and the ferrule 1120 includes:

The ferrule first interface 501, the ferrule network interface 502, the ferrule input device 503, the ferrule prompting device 504, the ferrule security chip 505, the ferrule control chip 506, and the ferrule battery 507;

The card socket first interface 501 is configured to receive the second data sent by the analog card 1110 and send it to the card sleeve control chip 506, and receive the first data sent by the card sleeve control chip 506 and send it to the analog card 1110;

The card network interface 502 is configured to receive the fifth data sent by the real card manager 1130 and send it to the card control chip 506, and receive the sixth data sent by the card control chip 506 and send it to the real card manager 1130;

a card input device 503, configured to perform an eleventh data input;

a ferrule prompting device 504, configured to perform a twelfth data prompt;

The ferrule security chip 505 is connected to the ferrule prompting device 504 and the ferrule input device 503 for receiving the eleventh data input by the ferrule input device 503, and transmitting the twelfth data to the ferrule prompting device 504, and receiving the ferrule The thirteenth data sent by the control chip 506 is sent to the ferrule control chip 506 to transmit the fourteenth data;

The ferrule control chip 506 is connected to the ferrule security chip 505, the ferrule first interface 501, and the ferrule network interface 502, and is configured to receive the second data sent by the ferrule first interface 501, and send the second data to the ferrule first interface 501. First data, receiving The fifth data sent by the card network interface 502 sends the sixth data to the card network interface 502, receives the fourteenth data sent by the card security chip 505, and sends the thirteenth data to the card security chip 505;

The ferrule battery 507 is used to supply power to the ferrule 1120.

The first interface 501 of the ferrule can be a contact interface, and the first interface 501 of the ferrule can also be a wireless interface, and the first interface 501 of the ferrule can also be a contact interface and a wireless interface. The contact interface can be a contact, etc., and the contact interface can be a model of NXP 8035, NCN 8025, etc.; the wireless interface can be a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID. For interfaces, etc., the model number of the wireless interface can be QN9021, TIF256 of Texas Instruments, PN512, and RC663 of NXP.

The card network interface 502 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface for data interaction with a real card manager over the network. Specifically, the card network interface 202 can be SIM6320, Longshang Company U7500, and the like.

The ferrule input device 503 can be one of a voice acquisition device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The card cover prompting device 504 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a headphone earphone, etc., and the display device may be a display screen or the like.

The ferrule security chip 505 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the ferrule input device 503 and the ferrule presentation device 504 are invoked by the ferrule security chip 505 to improve security. The ferrule security chip 505 can be a national technology Z8D256U or an Infineon STSEL78. In addition, the ferrule security chip 505 can have a storage unit for data storage. Of course, the ferrule security chip 505 can also have a contact and/or contactless interface to extend the functionality of the ferrule security chip 505.

The ferrule control chip 506 controls data interaction between the ferrule first interface 501, the ferrule network interface 502, and the ferrule security chip 505. Specifically, the ferrule control chip 506 can be an STM32 of the ST company, a Z32 of the national technology, or the like. Additionally, the ferrule control chip 506 can have a storage unit for data storage.

The ferrule battery 507 can be a non-rechargeable battery or a rechargeable battery. If it is a rechargeable battery, the ferrule can further include a ferrule charging controller, and the ferrule charging controller can be connected to the ferrule battery 507 for receiving The electric energy is charged to the ferrule battery 507. Of course, the ferrule charging controller can be disposed in the ferrule battery 507, or can be disposed in the ferrule security chip 505, and can also be disposed in the ferrule control chip 506. When the first interface 501 has a charging function, the ferrule charging controller can also be disposed on the first interface 501 of the ferrule having a charging function. Of course, a separate charging interface (such as a USB interface) can also be disposed on the ferrule. The ferrule charging controller can be placed on the charging interface.

Based on the ferrule of the structure, it is possible to connect the analog card and the real card manager, and count between the two According to the interactive function, the analog card and the real card manager can be further cooperated to realize convenient carrying and high security.

Further, in order to facilitate data storage, the ferrule of the present structure may also be separately provided with a memory; the memory may be connected to the ferrule control chip 506 or connected to the ferrule security chip 505 for storing data.

Of course, the first to second data, the fifth to sixth data, and the eleventh to fourteenth data in the structure may be different data. In addition, the second data may be the same as the sixth data, and the fifth data may be Like the first data, the eleventh data may be the same as the fourteenth data, the twelfth data may be the same as the thirteenth data, the twelfth data may be the same as the eleventh data, and the twelfth data may be the same as the eleventh data. The fourteenth data is the same, the thirteenth data may be the same as the second data, the thirteenth data may be the same as the fifth data, the fourteenth data may be the same as the first data, and the fourteenth data may be the same as the sixth data.

In addition, in the embodiment, the card sleeve is a combination of a mobile device and an electronic signature device, wherein the first interface of the card sleeve is located on the electronic signature device, the network interface of the card sleeve is located on the mobile device, and the card security chip is located on the electronic signature device. .

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the foregoing embodiments, and details are not described herein again.

In addition, in the embodiment, the card sleeve is a combination of the mobile device and the electronic signature device, wherein the card sleeve network interface and the card sleeve first interface are located on the mobile device, and the card sleeve security chip is located on the electronic signature device.

The ferrule input device and the ferrule prompting device may be located on the mobile device at the same time, or may be located on the electronic signature device at the same time, or one of them may be located on the mobile device and the other on the electronic signature device.

The card control chip can be located on the mobile device or on the electronic signature device.

Other related descriptions are the same as the related descriptions of the above implementations, and are not described herein again.

Thus, the electronic signature device can interact with the real card manager via the network interface of the mobile device.

Wherein: the real card manager 1130 may have the following structure, but the invention is not limited to this:

Real Card Manager 1130 Structure (1):

The first structure of the real card manager in the data interaction system provided in this embodiment can be seen in FIG. 1. The real card manager 1130 includes:

A real card manager network interface 101, at least one read/write interface 102, a real card manager input device 103, a real card manager security chip 104, and a power source 105;

The real card manager network interface 101 is configured to receive the sixth data sent by the card holder 1120 and send it to the real card manager security chip 104, and receive the fifth data sent by the real card manager security chip 104 and send it to the card sleeve 1120;

The at least one read/write interface 102 is configured to receive the seventh data sent by the real card and send it to the real card manager security chip 104, and receive the eighth data sent by the real card manager security chip 104 and send the data to the real card;

a real card manager input device 103 for performing a fifteenth data input;

The real card manager security chip 104 is connected to the real card manager network interface 101, each of the read/write interfaces 102, and the real card manager input device 103 for receiving the sixth data sent by the real card manager network interface 101. The real card manager network interface 101 sends the fifth data, receives the seventh data sent by the read/write interface 102, sends the eighth data to the read/write interface 102, and receives the fifteenth data input by the real card manager input device 103;

A power source 105 is provided for powering the real card manager 1130.

The real card manager network interface 101 can be any one of a 2G network interface, a 3G network interface, a 4G network interface, or a WIFI interface, so as to perform data interaction with the card sleeve through the network. Specifically, the real card manager network interface 101 can be SIM6330, Longshang Company U7500, and the like.

The read/write interface 102 can be at least one contact interface, or at least one contactless interface, or at least one contact interface and at least one contactless interface for data interaction with different types of real cards through the read/write interface 102. A read/write interface 102 reads and writes with a real card. For details, refer to FIG. 1, read/write interface 102(1), ... read/write interface 102(n), where n≥1 and n is a natural number. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The real card manager input device 103 can be one of a voice capture device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The real card manager security chip 104 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification, and the structure controls the real card manager network through the real card manager security chip 104. The data transmission of the interface 101 and the read/write interface 102 can improve security. Specifically, the real card manager security chip 104 can be a national technology Z8D256U, Infineon STSEL78. Additionally, the real card manager security chip 104 can have a storage unit for data storage.

The power source 105 can be a direct power source or a battery. If it is a battery, the real card manager also has a matching component such as a charger.

The real card manager based on the structure can realize the management of the real card, and can further cooperate with the analog card and the card sleeve to realize the purpose of convenient carrying by the user and high security.

Further, for the convenience of the user, the real card manager of the structure further includes: a real card manager prompting device 106; the real card manager prompting device 106 is connected with the real card manager security chip 104 for receiving the real The card manager security chip 104 sends the sixteenth data and performs the sixteenth data prompt. The real card manager prompting device 106 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a earphone, etc., and the display device may be a display screen or the like.

Further, in order to facilitate data storage, the real card manager of the present structure further includes: a memory 107; the memory 107 is connected to the real card manager security chip 104 for storing data.

Of course, the fifth to eighth data and the fifteenth to sixteenth data in the structure may be different data. Further, the sixth data may be the same as the eighth data, and the seventh data may be the same as the fifth data. The fifteenth data may be the same as the fifth data, the fifteenth data may be the same as the eighth data, the sixteenth data may be the same as the sixth data, the sixteenth data may be the same as the seventh data, and the sixteenth data may be The fifteenth data is the same.

Real Card Manager 1130 Structure (2):

The difference between the structure and the structure (1) is that the real card manager network interface, the read/write interface, the real card manager input device, etc. are called by the real card manager control chip in the structure, and the specific implementation is as follows:

The second structure of the real card manager in the data interaction system provided in this embodiment can be seen in FIG. 2, and the real card manager 1130 includes:

The real card manager network interface 201, the at least one read/write interface 202, the real card manager security chip 203, the real card manager input device 204, the real card manager control chip 205, and the power source 206;

The real card manager network interface 201 is configured to receive the sixth data sent by the card holder 1120 and send it to the real card manager control chip 205, and receive the fifth data sent by the real card manager control chip 205 and send it to the card sleeve 1120;

The at least one read/write interface 202 is configured to receive the seventh data sent by the real card and send the data to the real card manager control chip 205, and receive the eighth data sent by the real card manager control chip 205 and send the data to the real card;

The real card manager security chip 203 is configured to receive the fifteenth data sent by the real card manager control chip 205, and send the sixteenth data to the real card manager control chip 205;

a real card manager input device 204 for performing a seventeenth data input;

The real card manager control chip 205 is connected to the real card manager security chip 203, the real card manager network interface 201, each read/write interface 202, and the real card manager input device 204 for receiving the real card manager network interface. The sixth data sent by the 201 sends the fifth data to the real card manager network interface 201, receives the seventh data sent by the read/write interface 202, and sends the eighth data to the read/write interface 202, and receives the real card manager security chip 203 to send. The sixteenth data, the fifteenth data is sent to the real card manager security chip 203, and the seventeenth data input by the real card manager input device 204 is received;

A power source 206 is provided for powering the real card manager 1130.

The real card manager network interface 201 can be any one of a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface, so as to perform data interaction with the card sleeve through the network. Specifically, the real card manager network interface 201 can be SIM6330, Longshang Company U7500, and the like.

The read/write interface 202 can have at least one contact interface, or at least one contactless interface, or at least one contact interface and at least one contactless interface, for data interaction with different types of real cards through the read/write interface 202, one The read/write interface 202 reads and writes with a real card. For details, refer to FIG. 2, read/write interface 202(1), ... read/write interface 202(n), where n≥1 and n is a natural number. Specifically, the contact interface may be a contact or the like, and the contactless interface may be an NFC interface or the like. The model of the contact interface can be 8035 from NXP, 8025 from NCN, etc. The model of the contactless interface can be PN512, NCP RC663, etc.

The real card manager input device 204 can be one of a voice capture device, a keyboard, and a scanning device, or any combination thereof. The voice collection device may be a microphone or the like, the keyboard may be a physical keyboard or a virtual keyboard, and the scanning device may be a camera or the like.

The real card manager security chip 203 has data processing functions such as encryption, decryption, verification, verification verification, certificate verification, signature and/or verification. Specifically, the real card manager security chip 203 can be a national technology Z8D256U, Infineon's STSEL78. In addition, the real card manager security chip 203 may have a storage unit for data storage.

The real card manager control chip 205 controls the data interaction between the real card manager network interface 201, the read and write interface 202, the real card manager input device 204, and the real card manager security chip 203. Specifically, the real card manager control chip 205 can be STM32 of ST company, Z32 of national technology, and the like. In addition, the real card manager control chip 205 may have a storage unit for data storage.

The power source 206 can be a direct plug power source or a battery. If it is a battery, the real card manager also has a matching component such as a charger.

The real card manager based on the structure can realize the management of the real card, and can further cooperate with the analog card and the card sleeve to realize the purpose of convenient carrying by the user and high security.

Further, for the convenience of the user, the real card manager of the structure may further include: a real card manager prompting device 207; the real card manager prompting device 207 is connected to the real card manager security chip 203 for receiving the real card. The eighteenth data sent by the manager security chip 203, and the eighteenth data prompt is performed. The real card manager prompting device 207 may include: a voice playing device and/or a display device; the voice playing device may be a speaker, a earphone, etc., and the display device may be a display screen or the like.

Further, in order to facilitate data storage, the real card manager of the structure further includes: a memory 208; The memory 208 is coupled to the real card manager security chip 203 or to the real card manager control chip 205 for storing data.

Of course, the fifth to eighth data and the fifteenth to eighteenth data in the structure may be different data. In addition, the sixth data may be the same as the eighth data, and the seventh data may be the same as the fifth data. The fifteenth data may be the same as the sixth data, the fifteenth data may be the same as the seventh data, the sixteenth data may be the same as the fifth data, the sixteenth data may be the same as the eighth data, and the seventeenth data may be The fifth data is the same, the seventeenth data may be the same as the eighth data, the eighteenth data may be the same as the sixth data, the eighteenth data may be the same as the seventh data, and the eighteenth data may be the same as the fifteenth data. The eighteenth data may be the same as the sixteenth data, and the eighteenth data may be the same as the seventeenth data.

The data described in the present invention may further include instructions and the like.

The "connected" described in the present invention may be directly connected or indirectly connected.

In the description of the present specification, the description with reference to the terms "one embodiment", "some embodiments", "example", "specific example", or "some examples" and the like means a specific feature described in connection with the embodiment or example. A structure, material or feature is included in at least one embodiment or example of the invention. In the present specification, the schematic representation of the above terms does not necessarily mean the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in a suitable manner in any one or more embodiments or examples.

Although the embodiments of the present invention have been shown and described, it is understood that the foregoing embodiments are illustrative and not restrictive Variations, modifications, alterations and variations of the above-described embodiments are possible within the scope of the invention. The scope of the invention is defined by the appended claims and their equivalents.

Claims (32)

1. A data interaction system, comprising:

   An analog card, configured to receive first data sent by the card sleeve, send second data to the card sleeve, receive third data sent by the terminal, and send fourth data to the terminal;

   The card sleeve is configured to receive the second data sent by the analog card, send the first data to the analog card, and receive the fifth data sent by the real card manager, to the real card manager Sending the sixth data;

   The real card manager is connected to the at least one real card, and configured to receive the sixth data sent by the card sleeve, send the fifth data to the card sleeve, and receive the seventh data sent by the real card. Data, sending eighth data to the real card.
2. The system of claim 1 wherein said simulated card comprises:

   The first interface of the analog card is configured to receive the first data sent by the card sleeve and send the first data to the analog card security chip, and receive the second data sent by the analog card security chip and send the data to the card sleeve;

   a second interface, configured to receive the third data sent by the terminal, and send the third data to the analog card security chip, and receive the fourth data sent by the analog card security chip and send the fourth data to the terminal;

   The analog card security chip is connected to the first interface of the analog card and the second interface, and is configured to receive the first data sent by the first interface of the analog card, and send the first data to the first interface of the analog card. Receiving, by the second data, the third data sent by the second interface, and sending the fourth data to the second interface.
3. The system of claim 1 wherein said simulated card comprises:

   The first interface of the analog card is configured to receive the first data sent by the card sleeve and send the first data to the analog card control chip, and receive the second data sent by the analog card control chip and send the data to the card sleeve;

   a second interface, configured to receive the third data sent by the terminal, and send the fourth data to the analog card control chip, and receive the fourth data sent by the analog card control chip and send the fourth data to the terminal;

   The analog card security chip is configured to receive ninth data sent by the analog card control chip, and send tenth data to the analog card control chip;

   The analog card control chip is connected to the analog card security chip, the first interface of the analog card, and the second interface, and is configured to receive the first data sent by the first interface of the analog card. The first interface of the analog card sends the second data, receives the third data sent by the second interface, and sends the fourth data to the second interface, and receives the sent by the analog card security chip. The tenth data is sent to the analog card security chip to send the ninth data.
4. The system of claim 1 wherein said simulated card comprises:

   The first interface of the analog card is configured to receive the first data sent by the card sleeve and send the first data to the analog card control chip, and receive the second data sent by the analog card control chip and send the data to the card sleeve;

   a second interface, configured to receive the third data sent by the terminal and send the data to the analog card security chip, and receive the fourth data sent by the analog card security chip and send the fourth data to the terminal;

   The analog card security chip is connected to the second interface, and is configured to receive ninth data sent by the analog card control chip, send tenth data to the analog card control chip, and receive the second interface to send Transmitting, by the third data, the fourth data to the second interface;

   The analog card control chip is connected to the analog card security chip and the first interface of the analog card, and is configured to receive the first data sent by the first interface of the analog card, to the first interface of the analog card Sending the second data, receiving the tenth data sent by the analog card security chip, and transmitting the ninth data to the analog card security chip.
5. The system according to any one of claims 2 to 4, wherein the analog card further comprises: an analog card battery;

   The analog card battery is used to power the analog card.
6. The system according to any one of claims 2 to 5, wherein the first interface of the analog card is a contact interface and/or a wireless interface.
7. The system according to claim 6, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID interface.
8. The system of claim 5 wherein the second interface is a contact interface and/or a contactless interface.
9. The system of claim 8 wherein said contactless interface is an NFC interface.
10. The system of claim 5, wherein the simulated card further comprises:

    An analog card charging controller is coupled to the analog card battery for receiving electrical energy and charging the analog card battery.
11. The system of claim 1 wherein said ferrule comprises:

    The first interface of the card is configured to receive the second data sent by the analog card and send the data to the card security chip, receive the first data sent by the card security chip, and send the first data to the analog card;

    a card network interface, configured to receive the fifth data sent by the real card manager and send the data to the card security chip, receive the sixth data sent by the card security chip, and send the sixth data to the card Real card manager;

    a card input device for performing an eleventh data input;

    a ferrule prompting device for performing a twelfth data prompt;

    The ferrule security chip is connected to the ferrule first interface, the ferrule network interface, the ferrule prompting device, and the ferrule input device, and is configured to receive the first interface sent by the ferrule Transmitting, by the second data, the first data to the first interface of the card set, receiving the fifth data sent by the network interface of the card set, and sending the sixth data to the network interface of the card set, Receiving the eleventh data input by the card sleeve input device, and transmitting the twelfth data to the card sleeve prompting device;

    A ferrule battery for powering the ferrule.
12. The system of claim 1 wherein said ferrule comprises:

    The first interface of the card is configured to receive the second data sent by the analog card and send the data to the card control chip, and receive the first data sent by the card control chip and send the data to the analog card;

    a card network interface, configured to receive the fifth data sent by the real card manager and send the data to the card control chip, receive the sixth data sent by the card control chip, and send the data to the Real card manager;

    The ferrule security chip is configured to receive the eleventh data sent by the ferrule control chip, and send the twelfth data to the ferrule control chip;

    a card input device for performing a thirteenth data input;

    a ferrule prompting device for performing the fourteenth data prompt;

    The ferrule control chip is connected to the ferrule security chip, the ferrule first interface, the ferrule network interface, the ferrule prompting device, and the ferrule input device, and configured to receive the ferrule security chip The second data sent by the first interface of the ferrule, the first data is sent to the first interface of the ferrule, and the fifth data sent by the network interface of the ferrule is received, and the network interface is sent to the ferrule network interface Transmitting the sixth data, receiving the eleventh data sent by the card security chip, transmitting the twelfth data to the card security chip, and receiving the first input by the card input device Thirteen data, sending the fourteenth data to the card set prompting device;

    A ferrule battery for powering the ferrule.
13. The system of claim 1 wherein said ferrule comprises:

    The first interface of the card is configured to receive the second data sent by the analog card and send the data to the card control chip, and receive the first data sent by the card control chip and send the data to the analog card;

    a card network interface, configured to receive the fifth data sent by the real card manager and send the data to the card control chip, receive the sixth data sent by the card control chip, and send the data to the Real card manager;

    a card input device for performing an eleventh data input;

    a ferrule prompting device for performing a twelfth data prompt;

    The ferrule security chip is connected to the ferrule prompting device and the ferrule input device, and configured to receive the eleventh data input by the ferrule input device, and send the device to the ferrule prompting device The twelfth data, receiving the card The thirteenth data sent by the control chip is sent to the ferrule control chip to send the fourteenth data;

    The ferrule control chip is connected to the ferrule security chip, the ferrule first interface, and the ferrule network interface, and is configured to receive the second data sent by the first interface of the ferrule, The first interface of the ferrule sends the first data, receives the fifth data sent by the network interface of the ferrule, sends the sixth data to the network interface of the ferrule, and receives the security chip of the ferrule Transmitting the fourteenth data, and sending the thirteenth data to the card security chip;

    A ferrule battery for powering the ferrule.
14. The system according to any one of claims 11 to 13, wherein the first interface of the ferrule is a contact interface and/or a wireless interface.
15. The system according to claim 14, wherein the wireless interface comprises: a 2.4G interface, a Bluetooth interface, an infrared interface, a WIFI interface, an NFC interface, or an RFID interface.
16. The system according to any one of claims 11 to 13, wherein the card network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.
17. The system according to any one of claims 11 to 13, wherein the ferrule further comprises:

    A ferrule charging controller is coupled to the ferrule battery for receiving electrical energy and charging the ferrule battery.
18. The system according to any one of claims 11 to 17, wherein the ferrule presentation means comprises: a voice playback device and/or a display device.
19. The system according to any one of claims 11 to 17, wherein the ferrule input device comprises: a voice collection device, a keyboard and/or a scanning device.
20. A system according to any one of claims 11 to 19, wherein the card holder is a mobile device or an electronic signature device.
21. The system according to any one of claims 11 to 19, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface is located on the mobile device, and the ferrule first interface Located on the electronic signature device, the ferrule security chip is located on the electronic signature device.
22. The system according to any one of claims 11 to 19, wherein the ferrule comprises a mobile device and an electronic signature device, the ferrule network interface and the first interface of the ferrule being located on the mobile device The ferrule security chip is located on the electronic signature device.
23. The system of claim 1 wherein said real card manager comprises:

    a real card manager network interface, configured to receive the sixth data sent by the card sleeve and send the data to the real card manager security chip, receive the fifth data sent by the real card manager security chip, and send the The ferrule;

    At least one read/write interface, configured to receive the seventh data sent by the real card and send the data to the real card manager security chip, receive the eighth data sent by the real card manager security chip, and send Give the truth card;

    a real card manager input device for performing the fifteenth data input;

    The real card manager security chip is connected to the real card manager network interface, each of the read/write interfaces, and the real card manager input device, for receiving the real card manager network interface Transmitting, by the sixth data, the fifth data to the real card manager network interface, receiving the seventh data sent by the read/write interface, and sending the eighth data to the read/write interface, and receiving The fifteenth data input by the real card manager input device;

    A power source for powering the real card manager.
24. The system of claim 23, wherein the real card manager further comprises:

    The real card manager prompting device is connected to the real card manager security chip, and is configured to receive the sixteenth data sent by the real card manager security chip, and perform the sixteenth data prompt.
25. The system of claim 23 or 24, wherein the real card manager further comprises:

    A memory is coupled to the real card manager security chip for storing data.
26. The system of claim 1 wherein said real card manager comprises:

    a real card manager network interface, configured to receive the sixth data sent by the card sleeve and send the data to the real card manager control chip, receive the fifth data sent by the real card manager control chip, and send the The ferrule;

    At least one read/write interface, configured to receive the seventh data sent by the real card and send the data to the real card manager control chip, and receive the eighth data sent by the real card manager control chip and send Giving the real card;

    The real card manager security chip is configured to receive the fifteenth data sent by the real card manager control chip, and send the sixteenth data to the real card manager control chip;

    a real card manager input device for performing the seventeenth data input;

    The real card manager control chip is connected to the real card manager security chip, the real card manager network interface, each of the read/write interfaces, and the real card manager input device for receiving Transmitting the sixth data sent by the real card manager network interface, sending the fifth data to the real card manager network interface, receiving the seventh data sent by the read/write interface, and performing the reading and writing The interface sends the eighth data, receives the sixteenth data sent by the real card manager security chip, sends the fifteenth data to the real card manager security chip, and receives the real card manager. Inputting the seventeenth data input by the device;

    A power source for powering the real card manager.
27. The system of claim 26, wherein the real card manager further comprises:

    a real card manager prompting device connected to the real card manager control chip for receiving the real card The slice manager controls the eighteenth data sent by the chip and performs the eighteenth data prompt.
28. The system of claim 26 or 27, wherein the real card manager further comprises:

    A memory is coupled to the real card manager control chip for storing data.
29. The system according to any one of claims 23 to 28, wherein the real card manager network interface is a 2G network interface, a 3G network interface, a 4G network interface or a WIFI interface.
30. A system according to any one of claims 23 to 28, wherein the read/write interface comprises a contact interface and/or a contactless interface.
31. A system according to any one of claims 23 to 28, wherein the real card manager input means comprises: a voice capture device, a keyboard and/or a scanning device.
32. A system according to claim 24 or 27, wherein said real card manager presentation means comprises: a voice playback device and/or a display device.

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