KR100491441B1 - Apparatus for restoring active signal and synchronizing signal - Google Patents

Abstract

It recovers the horizontal and vertical synchronizing signals and the horizontal and vertical active signals from signals received through a physical medium that cannot transmit clock signals from the source device.

The optical signal receiver receives an optical signal transmitted through an optical fiber, a physical medium that cannot transmit a clock signal from a source device, the serial data of the received optical signal is converted into parallel data by a serial / parallel converter, and the decoder decodes the optical signal. Converts 10-bit parallel data into 8-bit parallel data, and the video signal processor separates the video signal, header and tail from the output signals of the decoder, and processes the video signal characteristic packet to process the video signal. Recognize the resolution information, the clock signal generator generates a clock signal according to the recognized resolution information, the horizontal active signal / synchronous signal recovery unit receives the header, tail and resolution information to restore the horizontal sync signal and horizontal active signal, The vertical active signal / sync signal recovery unit receives the header and resolution information and the horizontal sync signal. The vertical sync signal and the vertical active signal are restored, and the video signal output unit receives the video signal separated by the video signal processing unit and outputs the video signal according to the horizontal active signal restored by the horizontal active signal / synchronized signal recovery unit.

Description

Apparatus for restoring active signal and synchronizing signal

According to the present invention, a display device receives a digital video signal, which is transmitted as an optical signal through an optical fiber, which is a physical medium in which a predetermined source device such as a set top box cannot transmit a clock signal, thereby receiving a horizontal synchronization signal and a vertical synchronization signal. The present invention relates to an active signal / synchronous signal recovery device for recovering a horizontal active signal and a vertical active signal.

With the development of electronic technology, many flat panel display (FPD) devices have been developed. In display devices such as television receivers and monitors, display screens displaying predetermined images are bulky and thin and light instead of heavy cathode ray tubes. Increasingly, flat panel display elements are adopted.

A flat panel display element is divided into the element using an inorganic substance, and the element using an organic substance based on the substance used. Examples of devices using inorganic materials include plasma display panels (PDPs) using PL (photo luminescence) and field emission display (FED) devices using cathode luminescence (CL), and organic materials are used. Examples of the device include a liquid crystal display element (LCD), an organic EL display element, and the like, which are widely used in various fields.

Among these flat panel display elements, PDP has high brightness and high luminescence efficiency, wide viewing angle, can be manufactured at a relatively low manufacturing price compared to other flat panel display elements, and has excellent heat and cold resistance and earthquake resistance characteristics. Because of the advantages of easy implementation of full color and light weight, PDP has been widely adopted as a display screen in display devices such as television receivers and monitors with the advent of large PDPs. In addition, since the display device adopting the PDP as the display screen is light in weight and thin in thickness, it is being developed as a wall-mount type.

As such, in order to input a video signal and an audio signal output from a source device such as a set top box to a display device employing a PDP, the display device outputs video and audio. Are connected to each other with a predetermined cable so that the video and audio signals of the source device are transmitted to the display device via the cable, and the display device and the source device transmit the predetermined control signal to each other through the cable. have.

1 is a diagram illustrating a connection relationship between a conventional display device and a source device as an example. Here, reference numeral 100 denotes, for example, a wall-mounted display device such as a wall-mounted monitor or wall-mounted television receiver using a PDP as a display screen.

Reference numeral 110 denotes a digital apparatus such as a digital VTR (Video Tape Recorder) or a DVD (Digital Video Disc) player that reproduces a predetermined playback medium and outputs a transport packet stream of a digital video signal and an audio signal. Reference numeral 120 is an analog device such as a VTR or computer system that reproduces a playback medium such as a video tape and outputs an analog video signal and an analog audio signal.

Reference numeral 130 receives a digital broadcast signal, selectively receives a transmission packet stream output from the digital device 110 and analog video and audio signals output from the analog device 120, and selectively switches the converted signal. A source device such as a set top box to transmit to the display device 100.

In the conventional apparatus having such a configuration, the plurality of digital devices 110 and the source device 130 are connected by, for example, an IEEE 1394 cable or the like, and the digital device 110 reproduces a predetermined playback medium or the like. A signal and an audio signal are output as a transmission packet stream, and the output predetermined transmission packet stream is transmitted to the source device 130 through an IEEE 1394 cable or the like.

In addition, the analog device 120 and the source device 130 are connected by a coaxial cable. The analog device 120 reproduces a predetermined playback medium and outputs an analog video signal or an analog R, G, B signal, and an analog audio signal. The generated analog video signal or the analog R, G, and B signals and the analog audio signal are transmitted to the source device 130 through a coaxial cable.

The source device 130 receives a digital broadcast signal through an ATSC (Advanced Television Systems Committee) tuner or the like, transmits a packet packet stream of the received digital broadcast signal, and a transmission packet input from the digital device 110. Converts the stream into analog video signals and analog audio signals, selectively converts the converted analog video signals and analog audio signals, and analog video signals and audio signals input from the analog device 120 according to a user's selection And transmit it to the display device 130.

Here, the source device 130 transmits the analog R, G, B signals and the audio signals of the L and R channels to the display device 100 through the respective cables or through the dedicated integrated cable, the analog R, G, The B signal and the analog audio signals of the L channel and the R channel are transmitted to the display device 100.

In addition, a separate control / response cable is connected between the display device 100 and the source device 130, and a predetermined control signal and a response signal according to the control signal are transmitted to each other through the control / response cable. have.

However, since the display device 100 and the source device 130 are connected by a predetermined cable, the above-described conventional technology is installed when the display device 100 is mounted on a wall as a wall type and the source device 130 is installed on a shelf or the like. A cable for transmitting analog R, G, B signals and an analog audio signal, a cable for transmitting control signals and response signals, etc. are exposed to a wall exposed between the display device 100 and the source device 130. The exposed cable is thick and does not look good.

Therefore, in Patent Application No. 2002-5941, filed by the present applicant, the display device and the source device are connected with an optical fiber that is hardly discernible from a distance because of a thin thickness, and the source device is a video signal, an audio signal, a control signal, Signal characteristics, voice signal characteristics, and the like are transmitted as optical signals to the display device through the optical fiber, and the display devices receive and process the optical signals.

In order for the source device to transmit a video signal, an audio signal, a control signal, an image signal characteristic, and an audio signal characteristic to the display device as an optical signal through an optical fiber, 8-bit data is converted into 10-bit data so as to be suitable for transmitting an optical signal. In addition, since the optical signal cannot be transmitted in parallel data, the optical signal must be converted into serial data in a predetermined format and transmitted.

Therefore, the source device selects and encodes the video signal, the audio signal, the control signal, the video signal characteristic and the audio signal characteristic in the order of a predetermined format, converts 8-bit parallel data into 10-bit data, and encodes the 10-bit data. After converting the parallel data of the serial data to the optical signal is transmitted through the optical fiber.

2 is a diagram illustrating a format structure of serial data in which a source device transmits a video signal, an audio signal, a control signal, a video signal characteristic, and an audio signal characteristic to a display device as a packet. Here, reference numeral 200 denotes a video signal packet having the largest data capacity. Each of the video signal packets 200 includes a video signal of one horizontal line, and in front of the video signal, the blanking header is provided when the video signal is a blanking section, and the video signal is active. Active header is provided, and the tail is continuously provided after the video signal.

The audio signal packet 202, the control signal packet 204, the video signal characteristic packet 206, and the audio signal characteristic packet 208 each having a header and a tail before and after each of the video signal packets 200 are provided. To be located. Here, the arrangement order of the audio signal packet 202, the control signal packet 204, the video signal characteristic packet 206 and the audio signal characteristic packet 208 may be changed.

The serial data of this format is encoded so that 8-bit data is converted into 10-bit data suitable for the transmission of the optical signal, and is modulated by the optical signal transmitter into the optical signal and then transmitted to the display device 100 through the optical fiber.

At this time, the horizontal synchronizing signal and the vertical synchronizing signal, and the horizontal and vertical active signals cannot be transmitted, and thus the display device 100 is capable of transmitting the horizontal synchronizing signal and the vertical synchronizing signal and the horizontal and vertical active signals in the serial data of the format described above. The signal must be restored.

It is therefore an object of the present invention to provide an active signal / synchronization signal recovery apparatus for recovering a horizontal synchronizing signal and a vertical synchronizing signal, and a horizontal active signal and a vertical active signal from an optical signal received from a source device.

The active signal / synchronous signal recovery apparatus of the present invention having the above object includes an optical signal receiver for receiving an optical signal from a source device through an optical fiber, and serial / parallel conversion unit for serial data of the optical signal received by the optical signal receiver. Converts to parallel data, and the decoder decodes the parallel data output by the serial / parallel converter to convert 10-bit parallel data into 8-bit parallel data, and among the signals decoded by the decoder, the video signal processor is configured to Processing to separate the video signal, the header and the tail, and process the video signal characteristic packet to recognize the resolution information of the video signal, the clock signal generator generates a clock signal according to the resolution information recognized by the video signal processor, Header, tail and resolution information of horizontal active signal / synchronization signal recovery unit from image signal processor Receives a horizontal synchronization signal and a horizontal active signal, and restores the vertical active signal / synchronization signal recovery unit receives the header and resolution information from the image signal processing unit and receives the horizontal synchronization signal from the horizontal active signal / synchronization signal generator A vertical sync signal and a vertical active signal are restored, and the video signal output unit receives the video signal separated by the video signal processor and outputs the video signal according to the horizontal active signal restored by the horizontal active signal / synchronized signal recovery unit.

The horizontal active signal / synchronization signal recovery unit is configured to generate a horizontal active signal as the image signal reception recognizer recognizes the reception of the image signal with the header and the tail separated by the image signal processor. The signal / synchronization signal generation unit controls the generation of the horizontal active signal and counts a predetermined number of clock signals according to the resolution information based on the horizontal active signal to control the generation of the horizontal synchronization signal, and the horizontal active signal / synchronous signal The horizontal active signal / synchronization signal generator generates a horizontal active signal and a horizontal synchronization signal under the control of the generation control unit.

The vertical active signal / synchronization signal recovery unit recognizes whether a header input unit is a blanking header or an active header input from the image signal processing unit, and the vertical active signal / synchronization signal generation control unit is vertical according to the output signal of the header recognition unit. Controlling the generation of the active signal and counting a predetermined number of horizontal synchronizing signals according to the resolution information based on the vertical active signal to control the generation of the vertical synchronizing signal, and under the control of the vertical active signal / synchronization signal generation control unit. The vertical active signal / synchronization signal generator may generate a vertical active signal and a vertical synchronization signal.

Hereinafter, an active signal / synchronous signal recovery apparatus of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 3 to 7.

3 is a block diagram showing the configuration of the restoration apparatus of the present invention. As shown therein, an optical signal receiver 300 for receiving an optical signal from a source device through an optical fiber, and a serial / parallel converter for converting serial data of the optical signal received by the optical signal receiver 300 into parallel data. And a decoder 320 for converting the output data of the serial / parallel converter 310 into 10-bit parallel data and 8-bit parallel data, and a video signal in the output signal decoded by the decoder 320. A video signal processor 330 for separating the video signal, the header and the tail from the packet, and recognizing the resolution information of the video signal as a video signal characteristic packet, and a clock signal according to the resolution information recognized by the video signal processor 330. A clock active generator 340 for generating a signal and a horizontal active signal for receiving a header, tail and resolution information from the image signal processor 330 and restoring a horizontal synchronization signal and a horizontal active signal; A vertical sync signal and a vertical signal are received from the call / synchronization signal recovery unit 350 and the image signal processing unit 330 and the horizontal sync signal from the horizontal active signal / synchronization signal generator 350. A vertical active signal / sync signal restorer 360 for restoring an active signal and a horizontal active signal restored by the horizontal active signal / sync signal restorer 350 by receiving the separated video signal by the video signal processor 330 The video signal output unit 370 outputs according to the signal.

The active signal / synchronization signal restoration apparatus of the present invention configured as described above converts the serial signal of a predetermined format from the source device to the optical signal receiver 300 and receives the optical signal transmitted through the optical fiber, and the serial data of the received optical signal. The serial / parallel converter 310 converts the data into 10-bit parallel data and outputs the converted data. The 10-bit parallel data output by the serial / parallel converter 310 is decoded by the decoder 320 and converted into 8-bit parallel data, and among the output signals of the decoder 320, the image signal processor 330 performs an image. The signal packet is processed to separate the header, tail and the video signal, and the video signal characteristic packet is processed to recognize the resolution information of the video signal.

In this case, the resolution information may be recognized using the header. That is, the number of horizontal lines is different depending on the resolution of the video signal, and the video signal processor 330 may count the number of active headers and recognize the resolution information by counting the number of active headers.

The resolution information output from the image signal processor 330 is input to the clock generator 340. The clock generator 340 generates a clock signal having a predetermined frequency according to the resolution information to restore the horizontal active signal / synchronous signal. Input to the 350 and the video signal output unit 370.

That is, the display device uses different clock signal frequencies depending on the resolution of the image signal, and the clock generator 340 generates a clock signal having a predetermined frequency corresponding to the resolution recognized by the image signal processor 330.

The header, tail, and resolution information output by the image signal processor 330 is input to the horizontal active signal / synchronization signal recovery unit 350, and the horizontal active signal / synchronization signal recovery unit 350 is applied to the header and tail. Accordingly, the horizontal active signal is generated in synchronization with the clock signal, and the horizontal synchronization signal is generated using the horizontal active signal, the resolution information, and the clock signal.

The horizontal active signal generated by the horizontal active signal / synchronization signal recovery unit 350 includes an image signal output unit together with an image signal output by the image signal processor 330 and a clock signal generated by the clock generator 340. As input to 370, the image signal output unit 370 outputs an image signal according to the clock signal in an active section of the horizontal active signal.

In addition, the horizontal synchronizing signal generated by the horizontal active signal / synchronization signal restoration unit 350 is input to the vertical active signal / synchronization signal restoration unit 360 together with the header and resolution information output by the image signal processing unit 330. The vertical active signal / synchronization signal recovery unit 360 determines whether the header is a blanking header or an active header, generates a vertical active signal according to the determined header type, and generates the vertical active signal, resolution information, and clock signal. By using the vertical synchronization signal is generated.

4 is a detailed block diagram showing the configuration of the vertical active signal / synchronous signal recovery unit 360 in the restoration apparatus of the present invention. As shown in the drawing, the video signal processing unit 330 separates the video signal reception recognition unit 400 to recognize the reception of the video signal by the header and the tail, and the video signal reception recognition unit 400 receives the video signal. The horizontal active signal / synchronous signal generation control unit 410 controls generation of the horizontal active signal and controls generation of the horizontal synchronization signal by counting a predetermined number of clock signals according to the resolution information based on the horizontal active signal. And a horizontal active signal / synchronization signal generator 420 for generating a horizontal active signal and a horizontal synchronizing signal under the control of the horizontal active signal / synchronization signal generation control unit 410.

The horizontal active signal / synchronization signal restoration unit 350 configured as described above outputs the recognition signal by receiving the image signal reception recognition unit 400 by the header and tail input from the image signal processing unit 330. The output recognition signal is input to the horizontal active signal / synchronization signal generation control unit 410.

Then, the horizontal active signal / synchronization signal generation controller 410 controls the horizontal active signal / synchronization signal generator 420 according to the recognition signal to generate the horizontal active signal as shown in FIG. 5A.

The horizontal active signal / synchronization signal generation control unit 410 determines the resolution of the video signal based on the resolution information input from the video signal processing unit 330, and then counts the clock signal from the point of time where the video signal is not received, that is, the tail position. When the predetermined number of clock signals are counted according to the resolution, the horizontal active signal / synchronization signal generator 420 is controlled to generate a horizontal synchronization signal as shown in FIG. 5B.

6 is a detailed block diagram showing the configuration of the vertical active signal / synchronous signal recovery unit 360 in the restoration apparatus of the present invention. As shown in the drawing, the header input unit 600 recognizes whether a header input from the image signal processing unit 330 is a blanking header or an active header, and a vertical active signal according to an output signal of the header recognition unit 600. A vertical active signal / synchronization signal generation control unit 610 for controlling generation and controlling generation of a vertical synchronization signal by counting a predetermined number of horizontal synchronization signals according to resolution information based on the vertical active signal; The vertical active signal / synchronization signal generator 620 generates a vertical active signal and a vertical synchronization signal under the control of the synchronous signal generation controller 610.

The vertical active signal / synchronization signal recovery unit 360 of the present invention configured as described above recognizes whether the header inputted from the image signal processing unit 330 is a blanking header or an active header and recognizes the recognition signal. The output recognition signal is input to the vertical active signal / synchronization signal generation control unit 610.

Then, the vertical active signal / synchronization signal generation controller 610 controls the vertical active signal / synchronization signal generator 620 according to the recognition signal to generate the vertical active signal as shown in FIG. 7A. That is, a vertical active signal is generated during the period in which the active header is continuously recognized and in the blanking state during the period in which the blanking header is continuous.

The vertical active signal / synchronization signal generation control unit 610 determines the resolution of the video signal using the resolution information input from the video signal processing unit 330, and counts the horizontal synchronization signal from the time when the blanking state starts. When the predetermined number of horizontal synchronization signals are counted, the vertical active signal / synchronization signal generator 620 is controlled to generate the vertical synchronization signals as shown in FIG. 7B.

On the other hand, while the present invention has been shown and described with respect to specific preferred embodiments, various modifications and changes of the present invention without departing from the spirit or field of the invention provided by the claims below It can be easily understood by those skilled in the art. For example, in the above, the source device and the display device use the optical fiber as a physical medium for transmitting the video signal as an example, but in the embodiment of the present invention, the source device and the display device can transmit a clock signal in addition to the optical fiber. When the video signal is transmitted through various physical media that do not exist, it can be simply applied.

As described in detail above, the present invention restores the horizontal synchronizing signal and the horizontal active signal, the vertical synchronizing signal and the vertical active signal by using a signal received through a physical medium that cannot transmit a clock signal. By accurately restoring the active signal, the vertical synchronizing signal, and the vertical active signal, a clear image can be displayed on the display screen without noise or shaking.

1 is a view showing a connection relationship between a conventional source device and a display device as an example,

2 is a diagram illustrating a format structure of serial data in which a source device transmits a video signal, an audio signal, a control signal, a video signal characteristic, and an audio signal characteristic to a display device as a packet.

3 is a block diagram showing the configuration of the restoration apparatus of the present invention,

4 is a detailed block diagram showing the configuration of a horizontal active signal / synchronous signal recovery unit in the restoration apparatus of the present invention.

5A and 5B are waveform diagrams showing a horizontal active signal and a horizontal synchronization signal restored by the horizontal active signal / synchronization signal recovery unit of FIG.

6 is a detailed block diagram showing the configuration of a vertical active signal / synchronous signal recovery unit in the restoration apparatus of the present invention.

7A and 7B are waveform diagrams illustrating a vertical active signal and a vertical synchronization signal restored by the vertical active signal / synchronization signal recovery unit of FIG. 6.

* Description of the symbols for the main parts of the drawings *

300: optical signal receiver 310: serial / parallel converter

320: decoder 330: image signal processing unit

340: clock generator 350: horizontal active signal / synchronization signal recovery unit

360: vertical active signal / synchronous signal recovery unit

370: video signal output unit 400: video signal reception recognition unit

410: horizontal active signal / synchronization signal generation control unit

420: horizontal active signal / synchronization signal generator

600: header recognition unit

610: vertical active signal / synchronization signal generation control unit

620: vertical active signal / synchronization signal generator

Claims (4)

An optical signal receiver for receiving an optical signal from a source device through an optical fiber; A serial / parallel converter for converting serial data of the optical signal received by the optical signal receiver into parallel data; A decoder for decoding the parallel data output by the serial / parallel converter; A video signal processor which processes a video signal packet from signals decoded by the decoder to separate the video signal, a header and a tail, and recognizes the resolution information of the video signal by processing the video signal characteristic packet; A clock signal generator for generating a clock signal according to the resolution information recognized by the image signal processor; A horizontal active signal / synchronization signal recovery unit for receiving a header, tail and resolution information from the image signal processing unit to restore a horizontal synchronization signal and a horizontal active signal; A vertical active signal / synchronization signal recovery unit which receives the header and resolution information from the image signal processing unit and receives a horizontal synchronization signal from the horizontal active signal / synchronization signal generator to restore the vertical synchronization signal and the vertical active signal; And And a video signal output unit configured to receive the video signal separated by the video signal processor and output the video signal according to the horizontal active signal restored by the horizontal active signal / synchronous signal recovery unit. The method of claim 1, wherein the recognition of the resolution information; And recognizing the number of consecutive active headers in the video signal packet. 2. The apparatus of claim 1, wherein the horizontal active signal / synchronization signal recovery unit; A video signal reception recognizing unit recognizing reception of a video signal by a header and a tail separated by the video signal processing unit; The image signal reception recognizer controls generation of a horizontal active signal as the reception of the image signal is received, and counts a predetermined number of clock signals according to resolution information based on the horizontal active signal to control generation of a horizontal synchronization signal. A horizontal active signal / synchronization signal generation control unit; And And a horizontal active signal / synchronization signal generator for generating a horizontal active signal and a horizontal synchronizing signal under the control of the horizontal active signal / synchronization signal generation control unit. The method of claim 1, wherein the vertical active signal / synchronization signal recovery unit; A header recognizing unit recognizing whether a header input from the image signal processing unit is a blanking header or an active header; Vertical active signal / synchronous that controls generation of a vertical active signal according to the output signal of the header recognition unit and counts a predetermined number of horizontal synchronization signals according to resolution information based on the vertical active signal. A signal generation controller; And And a vertical active signal / synchronization signal generator for generating a vertical active signal and a vertical synchronization signal under the control of the vertical active signal / synchronization signal generation control unit.