KR100863608B1 - combo card including Bridge for memory card - Google Patents

Abstract

A combo card including a bridge for a memory card is provided. The present invention provides a non-memory device which provides a memory card interface and a non-memory interface having a different specification from the memory card interface and controls the input / output device, and is connected to the non-memory interface of the bridge for the memory card as the first input / output device. It includes a smart card and a memory card connected to a memory card interface of a bridge for a memory card as a second input / output device. The bridge for a memory card has an interface conversion function that allows different interface standards between a non-memory interface and a memory card interface to smoothly interface with each other.

Description

Combo card including bridge for memory card {combo card including Bridge for memory card}

1 is a view for explaining a memory card employed in the present invention.

2 is a conceptual diagram illustrating a bridge for a memory card according to the present invention.

3 is a block diagram illustrating a memory card bridge and a combo card using the same according to the present invention.

4 is a diagram illustrating an example of a connection relationship between a memory card bridge and a non-memory device according to the present invention.

5 is a diagram for explaining another example of the connection relationship between the memory card bridge and the non-memory device according to the present invention.

Explanation of symbols on the main parts of the drawings

12: memory card controller, 18: host processor, 20: memory card interface, 22: non-memory device, 24: non-memory interface, 100: bridge for memory card, 102: clock generator, 104: register, 106: processor inside bridge 108: bridge control program storage block, 110: bus control unit, 112: non-memory device interface conversion block, 114: memory card access block, 200: input / output device, 300: combo card

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bridge for a memory card and a combo card using the same, and more particularly, to a memory card bridge capable of providing various functions as well as data storage and a combo card using the same. It is about.

As the use of memory cards such as Secure Digital (SD) cards or MultiMediaCard (MMC) cards in portable information devices is becoming more common, memory cards can provide various functions such as data communication, security, and authentication beyond simple data storage devices. Attempts have been made to use the same composite device.

However, in general, a card controller employed in a memory card has only a structure suitable for use as a data storage device, and thus a memory card cannot be used as a complex device. In other words, since the card controller of the memory card has a memory card interface of a standard suitable for a storage device, a device that does not support the memory card interface cannot connect with the memory card.

Accordingly, a technical problem of the present invention is to provide a combo card using a memory card bridge (a memory card chip) that can easily connect a non-memory device that does not support a memory card interface as well as a memory card that supports a memory card interface. To provide.

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In order to achieve the above technical problem, the present invention provides a combo card including an input / output device and a bridge for a memory card for controlling the input / output device.
The bridge for a memory card includes a bridge internal processor for controlling an input / output device by analyzing a control signal received from a host processor, and a clock generator connected to the bridge internal processor to generate a clock signal for internal operation and a clock signal for communicating with an input / output device. And a register connected to the bridge internal processor and storing a state or information of an input / output device.
In addition, the bridge for memory cards includes a bus control block that provides bus sharing between the host processor, the registers, and the internal processor and the I / O device, and the bus control block that is connected to the bus control block to generate bus control signals in accordance with the specifications of the non-memory interface. And a memory card access control block connected to the non-memory device interface conversion block and the bus control block to generate a control signal in accordance with the specification of the memory card interface having a different specification from the non-memory interface. The combo card has an interface conversion function that allows different interface standards between the non-memory interface and the memory card interface to smoothly interface with each other.
The bus control block is preferably connected to the hose processor and memory card interface. The first input / output device may be connected to the non-memory device interface conversion block through the non-memory interface, and the second input / output device may be connected to the memory card access control block through the memory card interface. The first input / output device may be a non-memory device or a smart card, and the external input / output device may be a memory card. The non-memory interface may be a UART interface or an SPI interface.

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In addition, the combo card of the present invention provides a non-memory interface of a memory card bridge that provides a memory card interface and a non-memory interface having a different specification from the memory card interface, and controls an input / output device, and a bridge for a memory card as a first input / output device. And a memory card connected to a memory card interface of a bridge for a memory card as a second input / output device. The bridge for a memory card has an interface conversion function that allows different interface standards between a non-memory interface and a memory card interface to smoothly interface with each other.
The bridge for the memory card may be connected to the host processor through a memory card interface. The bridge for the memory card includes a bus control block connected to a host processor, a non-memory device interface conversion block connected to the bus control block to generate a bus control signal in accordance with the non-memory interface specification, and a memory card interface specification connected to the bus control block. And a memory card access control block for generating a control signal in accordance with the present invention.

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The first input / output device may be connected to the non-memory device interface conversion block, and the second input / output device may be connected to the memory card access control block. The non-memory interface may be a UART interface or an SPI interface.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention illustrated in the following may be modified in many different forms, and the scope of the present invention is not limited to the embodiments described below, but may be implemented in various different forms. The embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. In the drawings, the size or thickness of films or regions is exaggerated for clarity.

1 is a view for explaining a memory card employed in the present invention.

Specifically, the memory card 10 such as the SD card and the MMC card is composed of a memory card controller 12 and a memory block 14. The memory block 14 may be configured as a flash memory. The memory card controller 12 and the memory block 14 are connected (interface) to the memory interface 16. The memory card controller 12 is located between the host processor 18 and the memory block 14. The host processor means a PC, PDA, mobile phone, or the like.

The memory card controller 12 and the host processor 18 are connected to a standardized memory card interface 20. In other words, the memory card controller 12 is connected to the host processor 18 through the memory card interface 20 defined as a standard. The memory card controller 12 performs various control signals or control commands received from the host processor 18 with respect to the memory block 14, and transmits the processing results to the host processor 18.

2 is a conceptual diagram illustrating a bridge for a memory card according to the present invention.

Specifically, in FIG. 2, the same reference numerals as used in FIG. 1 denote the same members. The memory card bridge 100 of the present invention is a non-memory device that does not support the host processor 18 and the memory card controller 12 and between the host processor 18 and the memory card interface 20. It is located between 22. The connection and operation of the host processor 18 and the memory card controller 12 are the same as described with reference to FIG.

In the present specification, the non-memory device 22 refers to a device that does not belong to a memory card, such as an SD card or an MMC card. The non-memory device 22 refers to a ZigBee communication device (module), a Bluetooth communication device (module), a smart card, or the like. Of course, the non-memory device 22 does not support the memory card interface 20, but is not limited to the above-listed one.

Referring back to FIG. 2, the memory card bridge 100 according to the present invention is connected to the memory card 10 through the memory card interface 20 and the non-memory device 22 through the non-memory interface 24. Connected with The bridge 100 for the memory card is connected to the host processor 18 through the memory card interface 20.

Therefore, when the bridge 100 for a memory card of the present invention is used, the memory card 10 and the non-memory device 22 having various complex functions can be easily connected. The memory card bridge 100 of the present invention is used for well matching the non-memory device 22 that does not support the memory card interface 20 to the memory card interface 20.

In other words, in the memory card bridge 100 of the present invention, the memory card controller 12 and the non-memory device 22 that do not support the memory card interface 20 share the interface with the host processor 18. It provides an interface sharing function that allows it. In addition, the bridge 100 for a memory card of the present invention has different interface specifications between the memory card interface 20 and the non-memory interface 24 of the non-memory device 22 that does not support the memory card interface 20. It provides interface conversion function that enables smooth interface and interworking.

3 is a block diagram illustrating a memory card bridge and a combo card using the same according to the present invention.

Specifically, in FIG. 3, the same reference numerals as used in FIGS. 1 and 2 denote the same members. FIG. 3 is a diagram illustrating the relationship between the modules (blocks) performing core functions of the bridge 100 for a memory card and the input / output device 200.

First, a bridge for a memory card will be described. The bridge 100 for a memory card according to the present invention includes a bridge internal processor 106. The bridge internal processor 106 analyzes a control signal or a command set received from the host processor 18 and according to the result, the external input / output device 200, that is, the memory card 10 and the non-memory device ( 22) and controls the smart card 22a. In particular, the bridge internal processor 106 of the present invention can control only the memory card 10 without controlling the non-memory device 22 or the smart card 22a of the external input / output device 200. At this time, the non-memory device 22 or the smart card 22a is controlled by the host processor 20. In the memory card bridge 100 of FIG. 3, the smart card 22a is further included as an example of the non-memory device 22.

The clock generator 102 is connected to the bridge internal processor 106 to generate a clock signal for internal operation and a clock signal for communicating with an external input / output device 200. That is, the clock generator 102 and the clock signal for the internal operation of the bridge 100 for the memory card and the external input / output device 200, that is, the non-memory device 22, the smart card 22a and the memory card 10 and Generates the clock signal needed to communicate. The bridge internal processor 106 is connected to an external input / output device 200, in particular a register 104 for storing the state or information of the memory card. The bridge internal program 106 is connected with a bridge control program storage block 108 that stores a bridge control program.

In addition, the bridge for a memory card according to the present invention includes a clock generator 102, a register 104, a bus controller 110 that provides a bus sharing function between the bridge internal processor 106 and the input / output device 200. . The non-memory device interface conversion block 112 and the memory card access block 114 are connected to the bus controller 110. The non-memory device interface conversion block 112 is an interface control unit that generates a bus control signal conforming to the specification of the non-memory interface 24 supported by the bridge. The memory card access block 114 is an interface controller that generates a bus control signal conforming to the specification of the memory card interface 20 supported by the bridge.

Next, the combo card 300 including the input / output device 200 connected to the bridge 100 for a memory card will be described.

The combo card 300 is completed by further including an input / output device 200 in the bridge 100 for the memory card. The non-memory device interface conversion block 112 of the memory card bridge 100 is connected to the non-memory device 22 and the smart card 22a through the non-memory interface 24. The non-memory interface 24 uses a UART interface or an SPI interface as described later. The memory card 10 is connected to the memory card access control block 114. Accordingly, the combo card 300 of the present invention includes a memory card bridge 100 that provides the memory card interface 20 and the non-memory interface 24 and controls the input / output device 200.

Next, the functions and operations of the combo card 300 including the memory card bridge 100 and the input / output device 200 will be described.

Specifically, data communication between the host processor 18 and the input / output device 200 is made through a set of instructions defined in the standard. The memory card controller 12 analyzes a set of instructions received from the host processor 18 to perform the functions required by the host processor 18 to the memory block 14 and transmit the result to the host processor 18. .

The bridge 100 for a memory card provides a transparent interface with the host processor 18 in relation to the memory card controller 12, and does not support a memory card interface, that is, a non-memory device 22 or a smart card ( In relation to 22a) it serves as a memory card interface controller.

In other words, when the host processor 18 sends a control signal or instruction set, the bridge internal processor 106 analyzes. The bridge internal processor 106 determines whether the operation is performed on the memory card controller 12 or the non-memory device 22 or the smart card 22a according to the analysis result, and thus, the corresponding interface block, that is, the non-memory device interface. The conversion block 112 or the memory card access control block 114 are activated. Accordingly, the non-memory device 22, the smart card 22a, or the memory card 10 are selectively operated. In particular, the bridge internal processor 106 analyzes the instruction set received from the host processor 18 and the instruction set received from the non-memory device 22 or the smart card 22a to analyze the host processor 18 and the non-memory device 22. Or interworking between smart cards 22a.

The linkage between the non-memory device 22 or the smart card 22a that does not support the memory card interface 20 and the bridge 100 for the memory card is performed through a UART (Universal Asynchronous Receiver Transmitter) interface and a SPI (Serial). This is done through the Peripheral Interface interface. The UART interface and the SPI interface are the basic communication interfaces supported by most input / output devices, and can connect an efficient communication interface with only the minimum interface signals required for communication.

4 is a diagram illustrating an example of a connection relationship between a memory card bridge and a non-memory device according to the present invention.

Specifically, in Fig. 4, the same reference numerals as Figs. 1 to 3 denote the same members. 4 illustrates that the UART interface 24 is supported as an interface between the memory card bridge 100 and the input / output device 200. The memory card interface 20 supports two interfaces, a serial communication mode and a parallel communication mode, but the UART interface and the interface specification are different.

The non-memory device interface conversion block 112 includes a UART communication control block 116, a serial-to-parallel converter 118, a parallel-to-serial converter 120, and a first in first out (FIFO) unit 122. . The UART communication control block 116, together with the clock generator 102, performs a function of generating a control signal and a clock signal required for UART communication under the control of the internal bridge processor 106. The serial-parallel converter 118 and the parallel-to-serial converter 120 match between different communication speeds and bus sizes, and the FIFO unit 122 performs a buffer function to match different communication speeds.

5 is a diagram for explaining another example of the connection relationship between the memory card bridge and the non-memory device according to the present invention.

Specifically, in Fig. 5, the same reference numerals as Figs. 1 to 3 denote the same members. 5 is a structural diagram for an interface between the memory card bridge 100 and the input / output device 200 supporting the SPI interface, for example, the smart card 22a. The non-memory device interface conversion block 112 supports both the SPI interface 24 having the input data line and the output data line separately or a single input data line and the output data line. In particular, the SPI interface 24 having one input data line and one output data line may be connected to a smart card 22a that supports an authentication function, such as a smart card.

The non-memory device interface conversion block 112 includes a serial-to-parallel conversion unit 124, a FIFO unit 126, a memory card command analyzer 128, and a clock generator 130. The serial-parallel converter 124 adjusts the speed between different speeds and bus sizes, and the FIFO unit 126 performs a buffer function to match different communication speeds. The clock generator 130 generates a clock signal for SPI communication, and the memory card command analyzer 128 analyzes a control signal transmitted through the bridge internal processor 106 to generate a reset signal.

As described above, the bridge for a memory card of the present invention may connect not only a memory card that supports the memory card interface but also a non-memory device that does not support the memory card interface. In the present invention, a combo card can be configured using a bridge for a memory card.

Accordingly, the present invention can support a variety of complex functions of the memory card used only as a simple storage device, and can significantly increase the utilization of the memory card, which is gradually used in portable electronic devices.

Claims (10)

A combo card comprising an input / output device and a bridge for a memory card for controlling the input / output device, The bridge for the memory card, An internal processor for controlling the input / output device by analyzing a control signal received from a host processor; A clock generator coupled to the bridge internal processor to generate a clock signal for internal operation and a clock signal for communicating with the input / output device; A register coupled to the bridge internal processor to store a state or information of the input / output device; A bus control block providing a bus sharing function between the host processor, a register and an internal bridge processor, and the input / output device; A non-memory device interface conversion block coupled to the bus control block and generating a bus control signal in accordance with a specification of the non-memory interface; And A memory card access control block connected to the bus control block to generate a control signal according to a specification of a memory card interface different from the non-memory interface; And a interface conversion function for interfacing different interface standards between the non-memory interface and the memory card interface to smoothly interface with each other. The combo card of claim 1, wherein the bus control block is connected to the host processor through a memory card interface. The memory device of claim 1, wherein the non-memory device interface conversion block is connected to the first input / output device through a non-memory interface, and the memory card access control block is connected to a second input / output device and a memory card interface. Combo card. The combo card according to claim 3, wherein the first input / output device is a non-memory device or a smart card, and the second input / output device is a memory card. 4. The combo card of claim 3, wherein the non-memory interface is a UART interface or an SPI interface. A memory card bridge for providing a memory card interface and a non-memory interface having a different specification from the memory card interface, and controlling an input / output device; A non-memory device or a smart card connected to the non-memory interface of the bridge for the memory card as a first input / output device; And And a memory card connected to the memory card interface of the bridge for the memory card as a second input / output device, The memory card bridge has a combo card, characterized in that it has an interface conversion function for interfacing different interface standards between the non-memory interface and the memory card interface to each other smoothly. 7. The combo card of claim 6, wherein the bridge for the memory card is connected to a host processor through a memory card interface. The memory card bridge of claim 6, wherein the memory card bridge comprises: a bus control block connected to a host processor; a non-memory device interface conversion block connected to the bus control block to generate a bus control signal according to the non-memory interface specification; And a memory card access control block coupled to a bus control block to generate a control signal in accordance with the memory card interface specification. The combo card of claim 8, wherein the first input / output device is connected to the non-memory device interface conversion block, and the second input / output device is connected to the memory card access control block. 7. The combo card of claim 6, wherein the non-memory interface is a UART interface or an SPI interface.

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