KR101143839B1 - Memory module supported ultra wide band communication and method thereof - Google Patents

Abstract

The present invention relates to a memory card and a method of operating the same, which supports switchable ultra wideband communication in accordance with a function requiring or simultaneously requiring a memory function and an ultra wideband communication function. A memory card supporting ultra-wideband communication includes a read-only memory for storing a driver for supporting operating systems of certain systems and information for setting a data transmission / reception path; A recordable memory capable of recording and reading predetermined data; An ultra-wideband communication unit for converting data stored in the system or the recordable memory to ultra-wideband frequency transmission to the outside or receiving an ultra-wideband frequency from the outside and converting the data into processable data; And when connected to any system, determines an operating system of the system, transmits information for setting a driver and data transmission / reception paths from the read-only memory to the system, and receives at least one transmission / reception setting signal from the system. And a control unit controlling an operation of the recordable memory or the ultra wideband communication unit.

Description

Memory card supported by ultra-wideband communication and its operation method {Memory module supported ultra wide band communication and method

1 is a block diagram showing the configuration of a memory card that supports ultra-wideband communication according to the present invention.

2 is a flowchart illustrating an operation of a system installation method after driver recognition among operating methods of a memory card supporting ultra wideband communication according to the present invention.

3 is a flowchart illustrating an operation of a method for setting a data transmission / reception path among operating methods of a memory card supporting ultra wideband communication according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a memory card and a method of operating the same, which support switchable ultra wideband communication according to a function requiring or simultaneously requiring a memory function and an ultra wideband communication function.

Typical secure digital (SD) memory cards, compact flash (CF) cards, personal computer memory card international association (PCMCIA) cards, peripheral component interconnect (PCI) boards, and peripheral component interconnect-express (PCI-e) boards Only functions are performed. For example, it only performs one of the communication functions, memory functions, or interface functions. However, as the number of devices and sets supporting wireless communication increases, a module having converged wireless communication functions is required. Modules mounted in such a multimedia device or system must install a device driver and related programs in the multimedia device or system in order to drive the module normally. For this purpose, there is a problem that a user needs to perform a manual installation task, and a wrong driver may be installed, causing a multimedia device or a system to malfunction.

The technical problem to be achieved by the present invention is to automatically recognize the operating system of the system when the system is equipped with a memory card, and to automatically install information for setting the driver and data transmission and reception paths according to the recognized operating system of the user The present invention provides a memory card and an operation method thereof that support ultra-wideband communication for increasing convenience and transmitting / receiving system data and data of a memory card in an ultra-wideband communication method according to a set data transmission / reception path.

Memory card that supports ultra-wideband communication to solve the above technical problem to be achieved by the present invention comprises a read-only memory for storing information for the driver for supporting the operating system of certain systems and data transmission and reception path setting; A recordable memory capable of recording and reading predetermined data; An ultra-wideband communication unit for converting data stored in the system or the recordable memory to ultra-wideband frequency transmission to the outside, or receiving an ultra-wideband frequency from the outside and converting the data into processable data; And when connected to any system, determines an operating system of the system, transmits information for setting a driver and data transmission / reception paths from the read-only memory to the system, and receives at least one transmission / reception setting signal from the system. It is preferable to include a control unit for controlling the operation of the recordable memory or the ultra-wideband communication unit.

In the present invention, by receiving the transmission and reception path setting signal determined by the system, the control unit controls to transmit the data inside the system to the outside through the ultra-wideband communication unit, and the data received by the ultra-wideband communication unit is It is characterized in that the control to transmit to the system.

In the present invention, by receiving the transmission / reception path setting signal determined by the system, the control unit controls to transmit the data of the recordable memory to the outside through the ultra-wideband communication unit, and transmits the data received by the ultra-wideband communication unit. And control to be stored in the recordable memory.

In the present invention, the control unit controls to transmit and receive data between the system and the recordable memory by receiving the transmission / reception path setting signal determined by the system.

A method of operating a memory card that supports ultra-wideband communication for solving the above technical problem to be achieved by the present invention stores a driver supporting operating systems of predetermined systems and information for data transmission / reception path setting, and supports ultra-wideband communication A method of operating a memory card, comprising: (a) determining an operating system of the system when the memory card is connected to an arbitrary system; (b) transmitting information for setting a driver and data transmission / reception path according to the determined operating system to the system; And (c) after installing the system, receiving the first to third data transmission / reception path setting signals of the system and transmitting and receiving data according to the received setting path.

In the present invention, in the step (c), by receiving the first data transmission / reception path setting signal, data in the system is transmitted to the outside in the ultra wideband communication method, and data received in the ultra wideband communication method. Transmits the data to the system or transmits the data in the memory card to the outside through the ultra wideband communication method by receiving the second data transmission / reception path setting signal, and transmits the data received through the ultra wideband communication method. Storing data in the memory card or receiving the third data transmission / reception path setting signal to transmit / receive data between the system and the memory card.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a block diagram showing a configuration of a memory card that supports ultra-wideband communication according to the present invention, and includes a multimedia device or system 110 and a memory card 120. In the present invention, the memory card 120 includes a memory part 123 including a ROM 121, a memory 123-1, and a memory controller 123-2, a multiplexer 125, and a MAC 127-1. And a UWB part 127 and a CPU 129 composed of a baseband 127-2, an RF processor 127-3, and an antenna 127-4.

In FIG. 1, the ROM 121 stores a driver supporting an operating system of a multimedia device or system (hereinafter, referred to as a system) 110 as a host, and is mounted in the operating system of the system 110. When the memory card 120 recognition operation is performed through a standard interface (not shown) to automatically recognize the operating system, the driver stored in the ROM 121 is transmitted to the system 110 to be correctly recognized.

In addition, the ROM 121 stores menu information for setting a data transmission / reception path between the system 110 and the memory card 120. When the driver is transmitted to the system 110, menu information for setting the data transmission / reception path is provided. Send together. As another example, data transmission / reception path setting information may be included in the driver to transmit only the driver to the system 110. After installation, the system 110 may arbitrarily set a data transmission / reception path after installation. A detailed description of the data transmission / reception path setting is given below.

The memory 123-1 provided in the memory part 123 is, for example, a flash memory, and stores a file system and arbitrary data, and outputs the stored data. The memory controller 123-2 may be provided according to the type of the memory 123-1, and the memory controller 123-2 may control data input / output of the memory 123-1. The memory part 123 is selected by the multiplexer 125 for data transmission and reception.

The multiplexer 125 may select the memory card 120 to function to store data or to operate as an RF module through the UWB part 127 according to the data transmission / reception path setting of the system 110. That is, when the system 110 sets the memory part 123 as a data transmission / reception path, the multiplexer 125 enables the signal of the CPU 121 to transmit and receive data between the system and the memory part 123. The memory part 123 is selected by using. In addition, when the system 110 sets the ultra-wideband part 127 as a data transmission / reception path, the multiplexer 125 enables the CPU 121 to transmit / receive data between the system and the ultra-wideband part 127. The ultra-wideband part 127 is selected by the signal. In this way, the multiplexer 125 is controlled to perform another function by the enable signal of the CPU 129.

The UWB (ultra wide band) part 127 converts data stored in the system 110 or the memory 123-1 into an ultra wide band frequency and transmits it to the outside, or receives and processes an ultra wide band frequency from the outside. The data is converted into data and then transmitted to the system 110 or stored in the memory 123-1.

Ultra-wideband technology refers to a wireless transmission technology that directly transmits and receives an impulse signal without using an RF carrier. This ultra-wideband technology is a communication method that can achieve high-speed data transmission using ultra-low power while using a very wide frequency band unlike conventional narrowband communication. Therefore, it is expected to be widely applied to the next generation personal area wireless communication field such as home network including WPAN (Wireless Personal Area Network) which is rapidly developing.

The ultra wideband part 127 includes a MAC 127-1, a baseband 127-2, an RF processor 127-3, and an antenna 127-4.

Upon data transmission, the media access controller (MAC) 127-1 converts data from the memory part 123 or the system 110 into the MAC protocol. The baseband 127-2 converts the MAC protocol converted by the MAC 127-1 into physical layer data. The RF processor 127-3 converts the physical layer data converted by the baseband 127-2 into an RF signal and transmits the converted RF signal through the antenna 127-4. The antenna 127-4 can transmit and receive an impulse signal using a frequency band in the range of 3.1 to 10.6 GHz, and horn antennas and bi-conical antennas are known as the kinds thereof.

When data is received, frequency data transmitted through the antenna 127-4 is converted into data that can be processed by the RF processing unit 127-3, and then converted into physical layer data by the baseband 127-2, and the MAC The MAC protocol data is converted at 127-1 and then transmitted to the memory part 123 or the system 110.

The CPU 129 controls the overall operation of the memory card 120. In particular, it performs signal processing control of the ultra-wideband part 127, and is responsible for determining function selection of the memory part 123 and the ultra-wideband part 127, installing drivers stored in the ROM 121, and controlling data input / output.

2 is a flowchart illustrating an operation of a system installation method after driver recognition among operating methods of a memory card supporting ultra wideband communication according to the present invention. The system installation method after driver recognition according to the present invention may be performed in the memory card 120 as shown in FIG. 1. According to an embodiment, the main algorithm may be supported by peripheral components of the memory card 120. It may be performed inside the CPU 129.

First, when the memory card 120 is mounted in the system 110 (step 201), the CPU 129 of the memory card 120 recognizes the system 110 (step 203).

When the recognition of the system 110 by the CPU 129 is completed, the CPU 129 determines the operating system of the system 110 (step 205).

When the determination of the operating system of the system 110 is completed, the CPU 129 accesses the ROM 121 and searches for the determined operating system (step 207).

The CPU 129 then transmits a driver and data transmission / reception path menu suitable for the operating system from the ROM 121 to the system 110 (step 209). At this time, the CPU 129 outputs a corresponding enable signal to the multiplexer 125 such that a driver and a data transmission / reception path menu suitable for an operating system stored in the ROM 121 are transmitted to the system 110.

The system 110 that receives the driver from the memory card 120 installs (step 211).

FIG. 3 is a flowchart illustrating an operation of a method for setting a later data transmission / reception path among operating methods of a memory card supporting ultra wideband communication according to the present invention. The method for establishing a data transmission / reception path according to the present invention may be performed in the system 110 as shown in FIG. 1. According to an embodiment, the main algorithm may be performed with the help of the memory card 120. Can be.

When the memory card recognition operation of the system 110 is completed (step 301), it is determined whether to display a data transmission / reception path menu (step 303).

If the data transmission / reception path menu is not displayed, the data transmission / reception path is set to a default value (step 305). Here, the default value of the data transmission / reception path may arbitrarily be a data transmission / reception path between the system 110 and the memory card 120 or a data transmission / reception path between the system 110 and the outside or the memory card 120. It can be set as a data transmission / reception path between the outside.

When the data transmission / reception path menu is displayed, the data transmission path setting menu is first displayed (step 307). In the present invention, the data transmission path setting menu is provided with the first to third data transmission path menus, and one or more of them may be set, which will be described in detail in steps 309 to 315.

First, it is determined whether data in the system 110 is to be transmitted to the outside as the first data transmission path (step 309).

When setting a path for transmitting the data in the system 110 to the outside, the data in the system 110 is transmitted to the outside through the ultra-wideband part 127 of the memory card 120 (step 311). As such, when the first data transmission path is established, the CPU 129 enables the multiplexer 125 so that internal data of the system 110 is transmitted to the ultra-wideband part 127. Thereafter, the data output from the system 110 is converted from the MAC 127-1 to the MAC protocol, converted from the baseband 127-2 to physical layer data, and then from the RF processor 127-3. The signal is converted into an RF signal and then transmitted through the antenna 127-4.

Next, as a second data transmission path, it is determined whether data external to the system 110, that is, data stored in the memory part 123 of the memory card 120, is transmitted to the outside (step 313).

When setting a path for transmitting data external to the system 110, that is, data stored in the memory part 123 of the memory card 120 to the outside, data stored in the memory 123-1 of the memory part 123 may be set. Transmitting to the outside via the ultra-wideband part 127 (step 315). As such, when the second data transmission path is established, the CPU 129 controls the ultra-wideband part 127 to convert data stored in the memory 123-1 from the MAC 127-1 to the MAC protocol, and baseband In step 127-2, the data is converted into physical layer data, and the RF processing unit 127-3 converts the RF signal into an RF signal and then transmits the data to the outside through the antenna 127-4.

Finally, when setting a path for transmitting the data in the system 110 to the memory card 120 as the third data transmission path, the data in the system 110 is transmitted to the memory card 120 (317). step). As such, when the third data transmission path is established, the CPU 129 enables the multiplexer 125 to transmit internal data of the system 110 to the memory part 123. Thereafter, data output from the system 110 is stored in the memory 123-1 of the memory part 123 through the multiplexer 125.

When setting of at least one of the first to third data transmission paths is completed (step 319), the data reception path setting menu is displayed (step 321). In the present invention, the data receiving path setting menu is provided with the first to third data receiving path menus, and one or more of them may be set, which will be described in detail in the following steps 323 to 331.

First, it is determined whether external data is received inside the system 110 as the first data receiving path (step 323).

If a path for receiving external data is set in the system 110, the received data is transmitted to the system 110 through the ultra-wideband part 127 of the memory card 120 (325). As such, when the first data receiving path is established, the CPU 129 enables the multiplexer 125 to transmit data received by the ultra wideband part 127 into the system 110. Thereafter, the data received through the antenna 127-4 is signal-processed by the RF processor 127-3, converted into physical layer data by the baseband 127-2, and the MAC protocol by the MAC 127-1. Is converted into the system 110 through the multiplexer 125.

Next, as a second data receiving path, it is determined whether external data is to be received outside the system 110, that is, the memory part 123 of the memory card 120 (step 327).

When setting a path outside the system 110, that is, the memory part 123 of the memory card 120 to receive external data, the data received from the ultra-wideband part 127 is stored in the memory 123 of the memory part 123. -1) (step 329). As such, when the second data transmission path is established, the CPU 129 controls the ultra-wideband part 127 to signal-process the data received through the antenna 127-4 by the RF processor 127-3. The baseband 127-2 converts the data into physical layer data, converts the MAC 127-1 into the MAC protocol, and then stores the data in the memory 123-1 of the memory part 123.

Finally, when the system 110 sets a path for receiving data from the memory card 120 as the third data receiving path, the system 110 receives data from the memory card 120 (step 331). . As such, when the third data receiving path is established, the CPU 129 enables the multiplexer 125 to allow the system 110 to receive data of the memory part 123. Thereafter, the data output from the memory 123-1 of the memory part 123 is transmitted to the system 110 through the multiplexer 125.

When setting of at least one of the first to third data receiving paths is completed (step 333), data transmission / reception is performed according to the set path (step 335), and when data transmission / reception is completed (step 337). Exit.

As described above, when the memory card is installed in the system, the operating system of the system can be automatically recognized and the driver according to the recognized operating system of the system can be automatically installed to increase user convenience.

In addition, by providing information for setting a data transmission and reception path to the system, it is possible to increase the user's convenience by transmitting and receiving data in an ultra-wideband communication method according to the data transmission and reception path set by the system.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

Claims (6)

In the memory card, A read-only memory for storing a driver for supporting operating systems of certain systems and information for data transmission / reception path setting; A recordable memory capable of recording and reading predetermined data; An ultra-wideband communication unit for converting data stored in the system or the recordable memory to ultra-wideband frequency transmission to the outside or receiving an ultra-wideband frequency from the outside and converting the data into processable data; And When connected to any system, it determines the operating system of the system and transmits the information for setting the driver and data transmission and reception paths from the read-only memory to the system, and receives at least one transmission and reception path setting signal from the system And a controller for selectively controlling data transmission and reception between the system, the memory card, and the outside by controlling an operation of the recordable memory or the ultra wideband communication unit. The method of claim 1, By receiving the transmission / reception path setting signal determined by the system, the controller controls the internal data to be transmitted to the outside through the ultra wideband communication unit, and transmits the data received by the ultra wideband communication unit to the system. Memory card that supports ultra-wideband communication, characterized in that the control. The method of claim 1, By receiving the transmission / reception path setting signal determined by the system, the control unit controls to transmit the data of the recordable memory to the outside through the ultra-wideband communication unit, and transmits the data received by the ultra-wideband communication unit to the recordable memory. Memory card that supports ultra-wideband communication, characterized in that the control to be stored. The method of claim 1, And receiving the transmission / reception path setting signal determined by the system, wherein the control unit controls to transmit and receive data between the system and the recordable memory. A method of operating a memory card that stores information for setting a driver and data transmission / reception path setting for an operating system of predetermined systems and supports ultra-wideband communication with an external device, (a) if the memory card is connected to any system, determining an operating system of the system; (b) transmitting information for setting a driver and data transmission / reception path according to the determined operating system to the system; And (c) after installing the system, receiving the first to third data transmission / reception path setting signals of the system and selectively transmitting / receiving data between the system, the memory card, and the outside according to the received setting path. Operating method of a memory card that supports ultra-wideband communication including. The method of claim 5, wherein in step (c), Receiving the first data transmission and reception path setting signal, transmits the data in the system to the outside in the ultra-wideband communication method, and transmits the data received in the ultra-wideband communication method into the system, Receiving the second data transmission and reception path setting signal, and controls to transmit the data in the memory card to the outside in the ultra-wideband communication method, and stores the data received in the ultra-wideband communication method in the memory card, And transmitting and receiving data between the system and the memory card by receiving the third data transmission / reception path setting signal.

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