KR100720717B1 - Multi-duplexing interface apparatus and method of controlling thereof - Google Patents

Abstract

Disclosed are a multi-duplexing interface device and a control method thereof. The multi-duplexing device includes a control unit for controlling the first and second duplexing modules and the duplexing module mounted on a digital device to process data transmission / reception through external devices and first and second communication cables. Each of the duplex modules includes a transmitter for processing data to be transmitted from a digital device to an external device, a receiver for processing data input from an external device, and one of a transmitter and a receiver according to the input transmission or reception selection signal. And a switching unit for processing to be connected with the cable, and the control unit outputs a transmission selection signal or a reception selection signal to the switching unit according to the determined transmission / reception allocation ratio. According to the multi-duplexing interface device and its control method, the utilization of the transmission / reception of a plurality of communication cables can be adjusted according to the specific gravity of the data transmission / reception of the device, thereby improving the data transmission rate according to the device. Can be.

Description

Multi-duplexing interface apparatus and method of controlling thereof

1 is a block diagram illustrating a multi-duplexing interface device according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a digital device equipped with the multi-duplexing interface device of FIG. 1 connected to an external device.

3 is a flowchart illustrating a data transmission / reception rate allocation process of the multi-duplexing interface device of FIG. 1.

<Description of the reference numerals for the main parts of the drawings>

10: multi-duplexing interface device 20, 30, 70, 80: duplexing module

21, 71: first receiver 23, 73: first transmitter

25, 75: first switching unit 27, 77: first photoelectric conversion unit

31, 81: second receiver 33, 83: second transmitter

35, 85: second switching unit 37, 87: second photoelectric conversion unit

40, 90: control unit 45, 95: internal interface

The present invention relates to a multi-duplexing interface apparatus and a control method thereof, and more particularly, to a multi-duplexing interface apparatus and its control, which can be performed by varying a transmission / reception allocation rate of a plurality of communication cables connected to an external device. It is about a method.

As the current expansion buses and interfaces gradually increase in performance, they do not provide the high data rates required by multimedia devices, which are increasingly required to transmit information. In other words, current interface technologies do not provide the fast transmission speed and stability required for multimedia devices that process audio or video data at high speed. For example, bottlenecks in transmit / receive data due to the increase in peripheral devices used in connection with the main body in the computer system slow down the overall processing speed of the computer system. In order to solve this problem, various developments are being made, and one of the proposed new interfaces is IEEE1394.

IEEE1394 is a proposed interface method that can transmit data at high speed in response to the change of multimedia environment where the amount of information to be transmitted is getting huge. In IEEE1394, all devices can be hosts, and each device has an equal relationship. In addition, data can be transmitted and received between peripheral devices without passing through the computer main body.

This IEE1394 interface technology is proposed to transmit / receive data with external devices using only one cable. By the way, there is a device mainly receiving data or a device mainly transmitting data depending on the characteristics of each device. For example, a digital TV corresponds to a device that mainly receives display data input from the outside, and a digital camera corresponds to a device that transmits image information of a photographed subject to an external device.

Therefore, in order to increase the data transmission / reception speed between devices and use efficiency of communication cable, according to the ratio of transmission / reception according to the characteristics of the device, that is, when the applied digital device transmits or receives data, It is required to adjust the data transmission / reception allocation rate of the communication cable according to the characteristics of the device.

The present invention has been made to solve the above requirements, multi-duplexing interface device to increase the data transmission / reception efficiency by varying the transmission / reception allocation rate of the communication cable to match the transmission / reception ratio of the device And a control method thereof.

In order to achieve the above object, the multi-duplexing interface device according to the present invention is mounted on a digital device so as to process transmission and reception of data through an external device and first and second communication cables. A duplexing module and a control unit for controlling the duplexing module, each of the duplex modules including a transmitter for processing data to be transmitted from the digital device to an external device; A receiving unit for processing data input from the external device; And a switching unit which processes one of the transmitting unit and the receiving unit to be connected to the communication cable according to an input transmission or reception selection signal, wherein the controller is configured to transmit the transmission selection signal or the transmission selection signal according to the determined transmission / reception allocation rate. The reception select signal is output to the switching unit.

Preferably, the communication cable is an optical fiber, and each of the duplex modules is installed between the optical fiber and the switching unit to convert an optical signal received through the optical fiber into an electrical signal and output the electrical signal to the switching unit, and input from the switching unit. And a photoelectric conversion unit converting the electrical signal into an optical signal and outputting the optical signal through the optical fiber.

In addition, in order to achieve the above object, the control method of the multi-duplexing interface device according to the present invention is mounted on a digital device to be able to process the transmission and reception of data through an external device and the first and second communication cables. A control method of a multi-duplexing interface device having a first and a second duplexing module and a control unit for controlling the duplexing module, wherein the type of data recorded in a data packet transmitted from the external device or the digital device is determined. Analyzing; Determining a data transmission / reception allocation rate with the external device according to the type of the analyzed data; And causing each of the first and second duplex modules to perform any one of a duplexing mode, a transmission mode, and a reception mode according to the determined transmission / reception allocation rate.

Hereinafter, a multi-duplexing interface device and a control method thereof according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a multi-duplexing interface device according to an embodiment of the present invention.

Referring to the drawings, the multi-duplexing interface device 10 includes a control unit 40, a first duplexing module 20, and a second duplexing module 30.

The first duplexing module 20 includes a first receiver 21, a first transmitter 23, a first switch 25, and a first photoelectric converter 27.

The first receiver 21 processes the data input from the external device via the first photoelectric converter 27. The first receiver 21 processes and transmits the data format, for example, parallel data, required by the internal processing circuit (not shown) of the digital device connected through the controller 40 and the internal interface 45.

The first transmitter 23 processes and processes the data transmitted from the digital device through the internal interface 45 into a format, for example, serial data, which is set to be transmitted to the external device.

The first switching unit 25 is controlled by the control unit 40 to select any one of the first receiver 21 and the first transmitter 23 to connect the first photoelectric converter 27. That is, when the transmission selection signal is input from the control unit 40, the first switching unit 25 switches the selection switch so that the first transmission unit 23 is connected to the first photoelectric conversion unit 27, and the reception selection signal is selected. The select switch is switched so that the first photoelectric conversion unit 27 to which the is inputted is connected to the first receiving unit 21.

The first photoelectric conversion unit 27 converts an optical signal received from an optical fiber (not shown) (see FIG. 2, 51) applied as a communication cable for data communication with an external device, into an electrical signal, and converts the first switching unit 25 into an electrical signal. ) And converts the electrical signal input from the first switching unit 25 into an optical signal and outputs the optical signal through the optical fiber. Reference numeral 27a denotes an optical fiber connection terminal.

The first photoelectric conversion unit 27 includes a light source (not shown) installed to emit light into the optical fiber, and a light receiving element (not shown) installed to receive light incident from the optical fiber. In addition, the first photoelectric conversion unit 27 may include a lens for focusing the light emitted from the light source into the optical fiber, an optical element such as a mirror, and / or an optical element for focusing the light incident from the optical fiber onto the light receiving element. have.

The second duplexing module 30 includes a second receiver 31, a second transmitter 33, a second switching unit 35, and a second photoelectric conversion unit 37. Each element of the second duplexing module 30 performs the same function as that of the element of the first duplexing module 20 which differs only in order and has a corresponding name. Therefore, since the function of each element of the second duplexing module 30 overlaps with each element of the first duplexing module 20, the description thereof will be omitted. Reference numeral 37a denotes an optical fiber connection terminal.

The controller 40 controls each of the first switching unit 25 and the second switching unit 35 according to the determined transmission / reception allocation ratio. When the transmission selection signal is input from the control unit 40, the switching unit 25 and 35 connect a switch such that the transmission unit 23 and 33 are connected to the photoelectric conversion unit 27 and 37, and the reception selection signal is When input, the switching units 25 and 35 connect the switches so that the receiving units 21 and 31 are connected to the photoelectric conversion units 27 and 37.

The determination of the transmission / reception allocation for each module 20, 30 of the control unit 40, that is, the determination of the transmission / reception allocation of the optical fiber, which is a communication cable, is mounted according to the data transmission / reception format recommended by IEEE1394. Address information in a data packet received from a digital device or an external device that is received from the digital device or the external device, and switches from the identification information of the digital device or the external device recorded in the address information according to a transmission / reception rate set for the corresponding device. The selectivity of the transmitters 23 (33) and the receivers 21 (31) may be determined.

Alternatively, the determination of the transmission / reception allocation of the control unit 40 analyzes the information in the data packet received from the attached digital device or the external device according to the data transmission / reception format recommended in IEEE1394, and analyzes the information in the digital device or the external device. You may decide according to the data amount and data type to be transmitted from a device. The latter transmission / reception allocation decision method can be more flexibly determined for transmission / reception allocation since it is properly adjusted for each data transmission / reception request.

For example, if there is a request to transmit a large amount of video data from an installed device to an external device, the transmission unit 23 until all the data to be transmitted from the first and second transmission units 23 and 33 are output. The control unit 40 may control the switching units 25 and 35 so that the reference numeral 33 is connected to the photoelectric conversion units 27 and 37.

Alternatively, the first switching unit 25 is controlled such that the first transmission unit 23 is connected to the first photoelectric conversion unit 27 until all the data to be transmitted from the first transmission unit 23 are output. Second switching to perform duplex mode that frequently switches transmission and reception as necessary to process both data transmission from the transmitter 33 to an external device and reception of reception error information and other status information from the external device. You may control the part 35.                     

If the multi-duplexing interface device 10 is appropriately applied to the transmission / reception allocation of the communication cable to increase the data transmission / reception efficiency according to the characteristics of the transmission / reception ratio of the applied device and the external device connected to the applied device do.

FIG. 2 is a block diagram illustrating a state in which the multi-duplexing interface device of FIG. 1 is connected to an external device when the multi-duplexing interface device of FIG. 1 is mounted on a digital camcorder.

Referring to the drawings, the multi-duplexing interface device 10, 60 according to the present invention is mounted in a digital camcorder and a digital TV, respectively. For the sake of understanding, the multi-duplexing interface device 10 mounted on the digital camcorder is denoted by the same member as in FIG. 1, and the multi-duplexing interface device 60 mounted on the digital TV applied as an example of an external device has a different member number. Indicated as.

The multi-duplexing interface device 60 mounted on the digital TV includes a controller 90, a first duplexing module 70, and a second duplexing module 80. Reference numeral 95 is an internal interface connecting the control unit and the internal circuit of the digital TV.

The first duplexing module 70 includes a first receiving unit 71, a first transmitting unit 73, a first switching unit 75, and a first photoelectric conversion unit 77. Reference numeral 77a denotes a terminal for connecting the first optical fiber 51.

The second duplexing module 80 includes a second receiver 81, a second transmitter 83, a second switching unit 85, and a second photoelectric conversion unit 87. Reference numeral 87a denotes a terminal for connecting the second optical fiber 53.

On the other hand, the transmission unit 23, 33 of the digital camcorder and the reception unit 71, 81 of the digital TV are connected to each other by the multi-duplexing interface device 10, 60 equipped with the digital camcorder and the digital TV, respectively. When each of the switching units 25, 35, 75, and 85 is controlled, data may be transmitted from the digital camcorder to the digital TV using both the first and second optical fibers 51 and 53.

Alternatively, each of the first switching units 25 and 75 is connected to one optical fiber, that is, the first optical fiber 51 so that the first transmitting unit 23 of the digital camcorder and the first receiving unit 71 of the digital TV are connected to each other. , And the second duplexing modules 30 and 80 of the digital camcorder and the digital TV may control each of the second switching units 35 and 85 to perform a duplexing mode that frequently switches transmission and reception. .

According to this method, one of the transmission mode, the reception mode, and the duplexing mode can be performed for each of the plurality of optical fibers 51 and 53 so that the transmission / reception ratio of data can be adjusted as necessary. do.

Hereinafter, a data transmission / reception rate determination process of the multi-duplexing interface device according to the present invention will be described with reference to FIG. 3.

In the following description, a transmission / reception determination process will be described taking as an example that the multi-duplexing interface device is mounted on the digital camcorder of FIG. In the initialization process before the transmission / reception rate determination process, the first switching unit 25 is the first receiving unit 21 and the second switching unit 35 is the second transmitting unit so that both the external device and the transmission mode and the reception mode can be performed. If each is connected to (33), the subsequent transmission / reception decision process is examined.

First, the controller 40 determines whether data has been received (step 100). That is, it is determined whether transmission data is received or data is received from an external device through the internal interface 45 connected to the digital camcorder.                     

If it is determined that the data has been received, the received data is analyzed (step 110).

Then, the transmission / reception allocation rate of the communication cable, that is, the optical fibers 51 and 53, is determined according to the content of the analyzed data (step 120). As an example, if the received data contains contents desired to transmit a predetermined amount of image data from a digital camcorder to a digital TV, 100% of all transmissions or 75% of transmissions of data transmission / reception through the optical fibers 51 and 53 are recorded. Determines the transmit / receive allocation rate, such as receive 25%.

Then, the mode of the duplex module 20, 30 is set according to the determined transmission / reception allocation rate (step 130). That is, if 100% transmission is determined in step 120, the first and second transmitters 23 and 33 of the digital camcorder are connected to the first and second receivers 71 of the digital TV via the optical fibers 51 and 53 ( The switching sections 25 and 35 are controlled to be connected to 81.

Alternatively, if 75% transmission is determined, the first duplexing module 20 of the digital camcorder transmits the first transmitter 23 to the first receiver 71 of the digital TV via the optical fiber 51. The second switching unit 35 is set to a duplexing mode in which the second receiving unit 31 and the second transmitting unit 33 are alternately connected to the second photoelectric conversion unit 37.

When the mode setting is completed, data transmission / reception is performed according to the set mode (step 140).

As an example, if the content of the received data is a request signal for transmitting a predetermined amount of image data from the digital camcorder to the digital TV, request a response signal indicating whether data can be transmitted to the digital TV, and if the response is received, the first and the second signals are received. 2 For the optical fibers 51 and 53, the operation modes are mutually set so that data can be transmitted from the digital camcorder to the digital TV, and each switching unit 25, 35, 75, 85 is adjusted according to the set mode. do. Then the transmission of data from the digital camcorder and the reception of data on the digital TV are processed.

As described so far, according to the multi-duplexing interface apparatus according to the present invention, the utilization of the transmission / reception for a plurality of communication cables can be adjusted according to the specific gravity of the data transmission / reception of the device, so that the data transmission rate Can be improved to suit the device.

Claims (4)

A first and second duplexing module mounted on a digital device and configured to process transmission / reception of data through an external device and first and second communication cables, and a control unit controlling the duplexing module, Each of the duplex modules A transmitter for processing data to be transmitted from the digital device to an external device; A receiving unit for processing data input from the external device; And a switching unit which processes one of the transmitting unit and the receiving unit to be connected to the communication cable according to an input transmission or reception selection signal. And the control unit outputs the transmission selection signal or the reception selection signal to the switching unit according to the determined transmission / reception allocation ratio. The method of claim 1, The communication cable is an optical fiber, Each of the duplex modules Installed between the optical fiber and the switching unit to convert the optical signal received through the optical fiber into an electrical signal to output to the switching unit, and converts the electrical signal input from the switching unit into an optical signal and outputs through the optical fiber Photoelectric conversion unit; multi-duplexing interface device characterized in that it further comprises The method of claim 1, The controller analyzes the address information in the data packet received from the digital device or the external device according to the data transmission / reception format recommended by IEEE1394, and from the identification information of the digital device or the external device recorded in the address information. And a selection ratio of the transmitter and the receiver by the switching unit in accordance with a transmission / reception rate set for the device. Multi-duplex having a first and second duplexing module mounted on a digital device to handle the transmission and reception of data through the first and second communication cable with an external device, and a control unit for controlling the duplexing module In the control method of the lexing interface device, Analyzing data recorded in a data packet transmitted from the external device or the digital device; Determining a data transmission / reception allocation rate with the external device according to the analyzed data; And allowing each of the first and second duplex modules to perform any one of a duplexing mode, a transmission mode, and a reception mode according to the determined transmission / reception allocation ratio. Control method of the device.

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