WO2015090053A1 - Mobile payment smart card - Google Patents

Abstract

The present invention relates to a mobile payment smart card, belonging to the technical field of smart cards. Existing mobile payment smart cards do not support both non-NFC-SWP handheld terminals and NFC-SWP handheld terminals. The mobile payment smart card of the present invention is integrated with a dual-interface smart card chip, an RF antenna, and an SWP smart card chip, and also comprises a security module and a contactless front-end amplifier, said SWP smart card chip being arranged in the security module. When using the mobile payment smart card of the present invention, both non-NFC-SWP handheld terminals and NFC-SWP handheld terminals are supported, and furthermore, a user's contactless experience is satisfactory without requiring an external RF antenna.

Description

 Mobile payment smart card

 The invention belongs to the technical field of smart cards, and in particular relates to a mobile payment smart card.

Existing mobile payment smart card can integrate dual interface smart card chip and RF (Ra d i 0

Frequency, radio frequency antenna, the RF antenna can be external, or integrated in the smart card base; or integrated SWP (Single Wi Re Pro toco l, single line protocol) smart card chip, RF antenna integrated in On the handheld terminal.

 Both of the above mobile payment smart cards can realize wireless data communication between the mobile payment smart card and the P0S, wherein the SWP protocol mode is a standard solution defined by the ETS I organization. Compared to dual-interface mobile payment smart cards, the non-contact RF antenna implementation is partially provided by the handheld terminal rather than by the integrated RF antenna of the dual interface card itself.

 However, the prior art has the following disadvantages:

 (1) The first mobile payment smart card with integrated dual interface smart card chip is suitable for most handheld terminals, but does not support the non-contact function of NFC-SWP terminals, and can not meet the market demand;

 (2) The second integrated mobile payment smart card with SWP smart card chip is suitable for NFC-SWP terminals, but it does not meet the market demand for non-contact functions that do not support non-NFC-SWP terminals.

 In the prior art, there is also a multi-interface mobile payment smart card, which supports simultaneous integration of a dual interface smart card chip and a SWP smart card chip, but the RF antenna needs to be supported according to the handheld terminal.

NFC-SWP chip, with or without external soldering. The multi-interface mobile payment smart card requires the user's external antenna to be unfavorable for marketing, and cannot meet the user experience requirements;

 At present, there are fewer handheld terminals supporting SWP functions in the market. There are a large number of non-NFC-SWP handheld terminals on the market, but with the development of mobile communication technologies and mobile payment technologies, the number of NFC-SWP handheld terminals will also increase. many.

In view of the above situation, a mobile payment smart card can support both a non-NFC-SWP handheld terminal and an NFC-SWP handheld terminal, and a smart card that does not require an external RF antenna can satisfy the user's contactless experience, which is very urgent. Summary of the invention

 In view of the deficiencies in the prior art, it is an object of the present invention to provide a mobile payment smart card. The smart card can support both non-NFC-SWP handheld terminals and NFC-SWP handheld terminals, and does not require a smart card with an external RF antenna to meet the user's contactless experience. In order to achieve the above object, the technical solution adopted by the present invention is:

 A mobile payment smart card integrated with a dual interface smart card chip and an RF antenna, the mobile payment smart card also integrates a SWP smart card chip, including a security module, a contactless front end amplifier, and the SWP smart card chip is disposed in the security module . Further, the RF antenna is built in, and an RF power amplifier chip is built in the antenna.

Alternatively, the RF antenna is connected in an external manner. Further, when the mobile payment smart card is used in connection with a non-NFC-SWP terminal, the contactless communication is performed by using an RF antenna integrated in the mobile payment smart card; when the mobile payment smart card is connected to the NFC-SWP terminal, the SWP smart card is used. The chip communicates with the NFC-SWP terminal, and can also perform contactless communication using the RF antenna integrated in the NFC-SWP terminal. Further, the security module is composed of one or more security chips, and the non-contact front-end amplifier is composed of one or more chips, and the SWP function is implemented by one or more SWP smart card chips. Further, the security module is used for identity authentication, and communicates with the non-contact front-end amplifier through a universal input/output interface, and selects an SE with a GPIO interface, thereby implementing data communication between the SE and the ACLF. Further, the non-contact front-end amplifier is directly connected to the RF antenna, wherein the SWP is responsible for processing the physical layer and the data link layer logic. Further, the non-contact front-end amplifier is connected to the contactless front end of the handheld terminal by a single-wire protocol, wherein the SWP is responsible for processing the physical layer and the data link layer logic. The effect of the invention is that: the mobile payment smart card of the invention can support non-NFC-SWP handheld terminals, and can also support NFC-SWP handheld terminals, and can satisfy the user's non-contact without the need of an external RF antenna smart card. Experience. DRAWINGS

 1 is a schematic diagram of a structure of a mobile payment smart card (S IM) and a connection with a handheld terminal according to the present invention. detailed description

 The invention is further described below in conjunction with the drawings and specific embodiments.

 The product design of the present invention includes a dual interface smart card function, a SWP smart card function, and an RF radio antenna function.

 FIG. 1 is a structural diagram of a mobile payment smart card (S IM) 10 and a structural connection with a handheld terminal (Hands e t ) 20 according to the present invention.

 As shown in FIG. 1, a mobile payment smart card integrates a dual interface smart card chip, a SWP smart card chip and an RF antenna, including a security module (SE), a contactless front end amplifier (ACLF), and an RF antenna (ANT). The security module (SE) is provided with an SWP smart card chip, and supports the SWP function. The structure of the RF antenna may be a built-in RF power amplifying chip and an RF antenna, or may be an external RF antenna and other RF antenna structures. the design of. In this embodiment, the mobile payment smart card itself has an integrated RF antenna, and can be adapted to an NFC-SWP terminal and a non-NFC-SWP terminal. When the mobile payment smart card is connected to a non-NFC-SWP terminal, the integration can be utilized. Contactless communication is performed on the RF antenna of the mobile payment smart card; when the mobile payment smart card is used in connection with the NFC-SWP terminal, the SWC smart card chip can communicate with the NFC-SWP terminal, or can be integrated with the NFC-SWP terminal. The RF antenna performs contactless communication.

In the structure of FIG. 1, a security module (SE) is integrated in the mobile payment smart card 10 (S IM). 11. Non-contact front-end amplifier (ACLF) 12. RF antenna (ANT) 13. The non-contact front-end amplifier (ACLF) 12 supports the SWP function. The SIM card is a dual-interface smart card that supports contact interface communication and non-contact interface communication. The contact interface conforms to the IS0/IEC 7816 protocol, and the non-contact interface conforms to the IS0/IEC 14443 protocol.

 In this embodiment, the security module (SE) 11 may be one or more chips, the contactless front end amplifier (ACLF) 12 may be one or more chips, and the SWP function may be separately composed of one or more chips. The function is realized, but the connection structure diagram of the three will be consistent with the structure of FIG. 1 above.

 The security module (hereinafter referred to as SE) 11 is the SE of the universal SIM card, and is mainly used for identity authentication; the SE communicates with the non-contact front-end amplifier (hereinafter referred to as ACLF) through the universal input/output interface (hereinafter referred to as GPI0), and should select the interface with the GPI0 interface. SE, thus achieving data communication between SE and ACLF.

 The non-contact front-end amplifier (ACLF) 12 can be directly connected to an RF antenna (hereinafter referred to as ANT), and can also be a non-contact front end of a single-wire protocol (hereinafter referred to as SWP) and a handheld terminal (hereinafter referred to as Handset) (below Referred to as CLF); where SWP is responsible for processing physical layer and data link layer logic.

 The above structure can realize the same security module (SE) connecting two kinds of radio frequency devices, one radio frequency device is embedded in the radio frequency device in the SIM card, and the other radio frequency device is embedded in the radio device in the Handset; by SE\ACLF The module's on-chip operating system (hereinafter referred to as COS) is developed and designed to enable the selection and configuration of two RF devices. It should be understood by those skilled in the art that the present invention is not limited to the embodiments of the present invention, and is not intended to limit the invention. Other embodiments of the invention will be apparent to those skilled in the art in the light of the appended claims.

Claims

Rights request

 A mobile payment smart card, which integrates a dual interface smart card chip and an RF antenna, wherein: the mobile payment smart card further integrates a SWP smart card chip, including a security module, a contactless front end amplifier, and the SWP smart card. The chip is placed in the security module.

2. A mobile payment smart card according to claim 1, wherein: said RF antenna is built in a built-in manner, and an RF power amplifying chip is built in the antenna.

3. A mobile payment smart card according to claim 1, wherein: said RF antenna is externally connected.

4. A mobile payment smart card according to any one of claims 1 to 3, wherein: when the mobile payment smart card is used in connection with a non-NFC-SWP terminal, the RF antenna integrated in the mobile payment smart card is used for non-operation. Contact communication; when the mobile payment smart card is used in connection with the NFC-SWP terminal, the SWC smart card chip communicates with the NFC-SWP terminal, and the RF antenna integrated in the NFC-SWP terminal can also be used for contactless communication.

5. The mobile payment smart card according to claim 1, wherein: said security module is composed of one or more security chips, and said non-contact front-end amplifier is composed of one or more chips. The SWP function described is implemented by one or more SWP smart card chips.

6. The mobile payment smart card according to claim 5, wherein: the security module is used for identity authentication, and communicates with a non-contact front-end amplifier through a universal input/output interface, and selects an SE having a GP I 0 interface. Thereby achieving data communication between SE and ACLF.

7. A mobile payment smart card according to claim 1, wherein: said non-contact front-end amplifier is directly connected to an RF radio antenna, wherein the SWP is responsible for processing physical layer and data link layer logic.

8. The mobile payment smart card according to claim 1, wherein: the non-contact front-end amplifier is connected to a contactless front end of the handheld terminal by a single-wire protocol, wherein the SWP is responsible for processing the physical layer and the data link. Layer logic.