CN202795593U - Modularization mobile payment terminal system with replaceable system - Google Patents

Abstract

The utility model relates to a modularization mobile payment terminal system with a replaceable system, and belongs to the technical field of mobile payment. The modularization mobile payment terminal system is characterized by comprising an extending plate comprising a co-processor, a wireless connection module and an outside device interface, the co-processor is connected with the wireless connection module and the outside device interface used for being connected with a payment device, the co-processor enables an outside device to be connected with a required device through the wireless connection module to conduct required payment operation, and the outside device is connected with the outside device interface. The modularization mobile payment terminal system can effectively reduce hardware upgrading cost, effectively reduces system maintaining cost, keeps flexibility of hardware update and software update, utilizes the modularization structure, and is wide in applying range, safe and reliable.

Description

The modularization Mobile payment terminal system of replaceable system

Technical field

The utility model relates to a kind of Mobile payment terminal modular applications, especially a kind of modularization Mobile payment terminal system of replaceable system, specifically can make the convenient and swift replacing primary processor of Mobile payment terminal, thereby reach the purpose that promotes its processing power and recycling peripheral hardware, reduce upgrading and maintenance cost, belong to the technical field of mobile payment.

Background technology

In recent years, the Mobile payment terminal system of China presents outburst trend, and the use of Mobile payment terminal is more and more general, but the upgrading speed of the hardware of terminal always lags far behind the average level of computer industry hardware advances.Wherein very important reason just is: primary processor is of a great variety, such as X86-based being arranged, ARM framework, MIPS framework etc.Each primary processor characteristic is clearly demarcated: X86 system complex, price but Application development environ-ment is ripe; The ARM architecture system is simple, low price, but application and development is relatively complicated etc.The exploitation of application software also is subject to the difference of operating system in addition, such as Windows, and Android, Linux etc.Because concrete operating system is often just decided substantially from the incipient stage hardware selection of design, therefore causes Mobile payment terminal product configuration underaction and whole upgrading cost very high.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of modularization Mobile payment terminal system of replaceable system is provided, and it adopts modular construction, reduces HardwareUpgring cost and maintenance cost, and wide accommodation is safe and reliable.

The technical scheme that provides according to the utility model, the modularization Mobile payment terminal system of described replaceable system, comprise expansion board, described expansion board comprises coprocessor, wireless connections module and peripheral interface, and coprocessor links to each other with the wireless connections module and with the peripheral interface that is used for being connected with payment devices; Coprocessor can link to each other with required equipment by the peripherals that the wireless connections module will be connected on the peripheral interface, to carry out required delivery operation.

On the described expansion board bus control unit is set, described bus control unit links to each other with coprocessor and peripheral interface, and described peripheral interface comprises display interface, high-speed bus and low speed bus.

Described display interface comprises LCD interface, LVDS interface or HDMI interface, and high speed bus interface comprises USB interface or SDIO interface, and the low speed bus interface comprises UART, I2C or SPI interface.

Described wireless connections module comprises bluetooth module.

Described expansion board also comprises expansion board self-defined bus interface, and expansion board links to each other with required core board by expansion board self-defined bus interface, and core board adopts detachable the connection with expansion board; Described core board comprises primary processor and core board self-defined bus interface, core board and expansion board by core board self-defined bus interface with link into an integrated entity after expansion board self-defined bus Interface Matching is connected; Primary processor is communicated by letter with coprocessor by core board self-defined bus, expansion board self-defined bus, and can carry out initialization and state control to the peripherals that is mounted on the expansion board, after core board and the expansion board corresponding matching, the peripherals that is connected on the peripheral interface can be carried out required delivery operation.

Described core board adopts X86-based, ARM framework or MIPS framework.

Described expansion board self-defined bus and core board self-defined bus include usb bus, UART bus, spi bus, SDIO bus, LVDS or HDMI.

A kind of similar technical scheme, a kind of modularization Mobile payment terminal system comprises core board and adopts the detachable expansion board that is connected with described core board; The peripheral interface that expansion board is provided with coprocessor and is used for being connected with peripherals; Core board is with after expansion board is connected, link to each other with required peripherals by peripheral interface, coprocessor on the expansion board is transferred to core board with the peripherals parameter that connects, core board can carry out initialization and working state control to peripherals according to the peripherals parameter of coprocessor transmission on the expansion board, with carry out required delivery operation after peripherals cooperates.

Expansion board self-defined bus interface is set on the described expansion board, described expansion board self-defined bus interface is connected with core board self-defined bus Interface Matching on the core board, core board self-defined bus interface on the described core board links to each other with primary processor, and core board adopts detachable the connection by core board self-defined bus interface with expansion board self-defined bus interface on the expansion board; Described core board adopts X86-based, ARM framework or MIPS framework.

Also be provided with the wireless connections module on the described expansion board, described wireless connections module and coprocessor interconnect; Expansion board comprises display screen, printer, magnetic stripe card read write line, rfid interrogator, CPU card reader, fingerprint recognition read write line, code keypad or auxiliary external storage by the payment terminal that peripheral interface connects.

Advantage of the present utility model: core board is main system, core board is connected with expansion board by core board self-defined bus interface, guarantee that different system architectures all can effectively connect use, all high speed data buss, the part low speed bus, the safety detection signal, power control signals etc. are by expansion board self-defined bus interface, physical connection when core board self-defined bus interface contacts with core board, expansion board can directly be carried out required delivery operation by coprocessor and wireless connections module, when changing the core board of different frameworks, can effectively reduce the HardwareUpgring cost, effectively reduce the system maintenance cost, keep hardware, the dirigibility of software upgrading, adopt modular construction, wide accommodation, safe and reliable.

Description of drawings

Fig. 1 is the structural representation of the utility model core board.

Fig. 2 is the structural representation of the utility model expansion board.

Fig. 3 is the utility model core board and structured flowchart after the expansion board coupling is connected.

Fig. 4 is the structured flowchart of the utility model expansion board.

Embodiment

The utility model is described in further detail below in conjunction with concrete drawings and Examples.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4: in order to solve the problem that exists in the existing Mobile payment terminal use, the utility model comprises core board and adopts the detachable expansion board that is connected with described core board; Among the utility model embodiment, detachable connection refers to that core board and expansion board can pass through the card insert type connected mode; The peripheral interface that expansion board is provided with coprocessor and is used for being connected with peripherals; Core board is with after expansion board is connected, link to each other with required peripherals by peripheral interface, coprocessor on the expansion board is transferred to core board with the peripherals parameter that connects, core board can carry out initialization and working state control to peripherals according to the peripherals parameter of coprocessor transmission on the expansion board, with carry out required delivery operation after peripherals cooperates.Described working state control comprises the control of writing of the reading of data, data and working method etc., and the duty of equipment is relevant with concrete equipment, herein detailed description no longer one by one.

Described peripheral interface comprises display interface, high-speed bus and low speed bus.Described display interface comprises LCD interface, LVDS interface or HDMI interface, and high speed bus interface comprises USB interface or SDIO interface etc., and the low speed bus interface comprises UART, I2C or SPI interface etc.For payment terminal, the peripherals that is connected on the peripheral interface generally comprises display screen, printer, magnetic stripe card read write line, rfid interrogator, CPU card reader, fingerprint recognition read write line, code keypad, auxiliary external storage, described auxiliary external storage comprises SD card, TF card, iNAND, NAND, SATA storer etc.After peripherals was connected on the expansion board by peripheral interface, core board was realized the operation to peripherals by with after expansion board is communicated by letter, to realize the operation of payment.

Expansion board self-defined bus interface is set on the described expansion board, described expansion board self-defined bus interface is connected with core board self-defined bus Interface Matching on the core board, core board self-defined bus interface on the described core board links to each other with primary processor, and core board adopts detachable the connection by core board self-defined bus interface with expansion board self-defined bus interface on the expansion board; Described core board adopts X86-based, ARM framework or MIPS framework.According to the needs of actual conditions, can select the core board of corresponding framework, after the framework of core board was determined, core board and expansion board linked into an integrated entity after pegging graft.

Also be provided with the wireless connections module on the described expansion board, described wireless connections module and coprocessor interconnect; Described wireless connections module comprises bluetooth module, also can adopt other wireless connections modules.Expansion board can link to each other peripherals by the wireless connections module with required equipment, to carry out required delivery operation; Such as, expansion board is connected with handheld mobile device by bluetooth module, and by handheld mobile device being operated rear realization delivery operation, expansion board prints and associative operation by peripherals.

Core board adopts the minimum system structure, and when core board adopted X86-based, core board comprised primary processor, internal memory, bridge sheet, EC(embedded controller) and the BIOS system.When core board adopted ARM framework and MIPS framework, core board comprised primary processor, internal memory and one section boot; Certainly, the power supply when needing work is arranged on the core board, this is known by the art personnel, describes in detail no longer one by one herein.When the core board of the above-mentioned different frameworks of sampling cooperates with expansion board, can access the interchangeability of Windows, Linux or Android operating system, it is convenient to change.,.

Core board self-defined bus interface and expansion board self-defined bus interface are the bus interface of the interfaces such as integration USB, SDIO, UART, SPI, and core board self-defined bus interface and expansion board self-defined bus interface can also comprise other needed bus interface, as long as can be so that core board and expansion board can communicate to connect after grafting mutually is integral.Core board self-defined bus interface mutually mates with expansion board self-defined bus interface and is connected, core board self-defined bus interface and expansion board self-defined bus interface comprise two kinds of fixed definitions pin and on-fixed defining interfaces, wherein, the fixed definitions pin is used for connecting coprocessor and the necessary bus interface of part, definition pin after on-fixed definition pin can be consulted by primary processor and coprocessor.During the core board electrifying startup, be positioned at embedded controller on the core board or BIOS or boot by core board self-defined bus interface be positioned at coprocessor communication on the expansion board obtaining the corresponding information on the expansion board, during for core board initialization peripheral hardware.

As shown in Figure 4: according to above-mentioned analysis as can be known, in a kind of specific situation, the utility model can only comprise expansion board, at this moment, on the expansion board except coprocessor, bus control unit and peripheral bus are set, also the wireless connections module must be set, coprocessor links to each other with required equipment by the peripherals that the wireless connections module will be articulated on the expansion board, finished corresponding delivery operation, wherein, required equipment and corresponding delivery operation are corresponding, and personnel are known by the art, no longer describe in detail herein.

Simultaneously, under above-mentioned particular case, expansion board self-defined bus interface can also be set on the expansion board, be connected with core board self-defined bus Interface Matching on the core board by expansion board self-defined bus interface, so that core board and expansion board link into an integrated entity, core board is connected with the expansion board coupling, and is connected the rear Mobile payment terminal system that forms with peripherals.

The product that utilizes the utility model to obtain can be used for the mobile payment field; By the combination of software and hardware product, can realize commodity shopping, receive single financial payment business that waits.Adopt the modularization framework, system hardware consists of two of expansion board and core boards.Core board is connected expansion board self-defined bus interface by core board self-defined bus interface and is connected with expansion board.Can realize changing rapidly the system CPU framework by changing core board.Coprocessor on the expansion board can be realized wireless connections by radio-cell on the expansion board and third party.

Change core board and can realize easily the replacing of CPU framework, be equipped with corresponding peripheral storage, can realize Windows, Linux, the switching of the several operation systems such as Android.Cooperated with expansion board when forming complete machine and using by core board, core board and expansion board are assembled together, and can realize complete commodity shopping by the software and hardware system of highly integrating, and receive single financial payment application that waits.When changing core board, change core board and extended memory, rapidly implementation platform bulk migration.

Expansion board works alone: when core board did not exist, expansion board was behind the starting up that powers on, and the wireless connections of carrying by plate can connect with third party's peripherals, authentication, communication.Also can realize accessing the ability of peripheral hardware on the expansion board.

Such as Fig. 1 ~ shown in Figure 4: during use, according to using needs to select the core board of corresponding framework, after core board is selected, core board and expansion board are pegged graft, core board be connected rear formation one by bus communication after expansion board is pegged graft.When core board starts, initialization core board internal memory.After coprocessor started, preparing provided expansion board that configuration information is provided to core board, if having bus control unit then the initialization bus control module.Core board and coprocessor carry out communication, and core board carries out the initial work in early stage according to the data that coprocessor provides.Next step starting state of Determines according to extended memory in the configuration information of passing back on the expansion board.Operating system normally starts.Application program normally starts.System enters into operable state.When needs are upgraded, core board is separated with expansion board, because the integrated settings such as interface commonly used on the expansion board, only core board need to be upgraded on the hardware and get final product, after the upgrading of the software and hardware of core board and after the auxiliary storage software upgrading on the expansion board, core board gets final product with linking into an integrated entity after expansion board self defined interface on the expansion board cooperates by core board self-defined bus interface.

The utility model core board is main system, core board is connected with expansion board by core board self-defined bus interface, guarantee that different system architectures all can effectively connect use, all high speed data buss, the part low speed bus, the safety detection signal, power control signals etc. are by expansion board self-defined bus interface, physical connection when core board self-defined bus interface contacts with core board, expansion board can directly be carried out required delivery operation by coprocessor and wireless connections module, upgrade-system software can realize being more suitable for the system applies of environment for use when changing the core board of different frameworks, can effectively reduce the HardwareUpgring cost, effectively reduce the system maintenance cost, keep hardware, the dirigibility of software upgrading, adopt modular construction, wide accommodation, safe and reliable.

The above only is preferred embodiment of the present utility model; be not limited to the utility model; all any modifications of within principle of the present utility model and spirit, doing, be equal to and replace and improvement etc., all just be included within the protection domain of the present utility model.

Claims (10)

1. the modularization Mobile payment terminal system of a replaceable system, it is characterized in that: comprise expansion board, described expansion board comprises coprocessor, wireless connections module and peripheral interface, and coprocessor links to each other with the wireless connections module and with the peripheral interface that is used for being connected with payment devices; Coprocessor can link to each other with required equipment by the peripherals that the wireless connections module will be connected on the peripheral interface, to carry out required delivery operation.

2. the modularization Mobile payment terminal system of replaceable system according to claim 1, it is characterized in that: on the described expansion board bus control unit is set, described bus control unit links to each other with coprocessor and peripheral interface, and described peripheral interface comprises display interface, high-speed bus and low speed bus.

3. the modularization Mobile payment terminal system of replaceable system according to claim 2, it is characterized in that: described display interface comprises LCD interface, LVDS interface or HDMI interface, high speed bus interface comprises USB interface or SDIO interface, and the low speed bus interface comprises UART, I2C or SPI interface.

4. the modularization Mobile payment terminal system of replaceable system according to claim 1, it is characterized in that: described wireless connections module comprises bluetooth module.

5. the modularization Mobile payment terminal system of replaceable system according to claim 1, it is characterized in that: described expansion board also comprises expansion board self-defined bus interface, expansion board links to each other with required core board by expansion board self-defined bus interface, and core board adopts detachable the connection with expansion board; Described core board comprises primary processor and core board self-defined bus interface, core board and expansion board by core board self-defined bus interface with link into an integrated entity after expansion board self-defined bus Interface Matching is connected; Primary processor is communicated by letter with coprocessor by core board self-defined bus, expansion board self-defined bus, and can carry out initialization and state control to the peripherals that is mounted on the expansion board, after core board and the expansion board corresponding matching, the peripherals that is connected on the peripheral interface can be carried out required delivery operation.

6. the modularization Mobile payment terminal system of replaceable system according to claim 5 is characterized in that: described core board employing X86-based, ARM framework or MIPS framework.

7. the modularization Mobile payment terminal system of replaceable system according to claim 5, it is characterized in that: described expansion board self-defined bus and core board self-defined bus include usb bus, UART bus, spi bus, SDIO bus, LVDS or HDMI.

8. the modularization Mobile payment terminal system of a replaceable system is characterized in that: comprise core board and adopt the detachable expansion board that is connected with described core board; The peripheral interface that expansion board is provided with coprocessor and is used for being connected with peripherals; Core board is with after expansion board is connected, link to each other with required peripherals by peripheral interface, coprocessor on the expansion board is transferred to core board with the peripherals parameter that connects, core board can carry out initialization and working state control to peripherals according to the peripherals parameter of coprocessor transmission on the expansion board, with carry out required delivery operation after peripherals cooperates.

9. the modularization Mobile payment terminal system of replaceable system according to claim 8, it is characterized in that: expansion board self-defined bus interface is set on the described expansion board, described expansion board self-defined bus interface is connected with core board self-defined bus Interface Matching on the core board, core board self-defined bus interface on the described core board links to each other with primary processor, and core board adopts detachable the connection by core board self-defined bus interface with expansion board self-defined bus interface on the expansion board; Described core board adopts X86-based, ARM framework or MIPS framework.

10. the modularization Mobile payment terminal system of replaceable system according to claim 8, it is characterized in that: also be provided with the wireless connections module on the described expansion board, described wireless connections module and coprocessor interconnect; Expansion board comprises display screen, printer, magnetic stripe card read write line, rfid interrogator, CPU card reader, fingerprint recognition read write line, code keypad or auxiliary external storage by the payment terminal that peripheral interface connects.

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