KR100327200B1 - Method and apparatus for sending/receiving image signal - Google Patents

Abstract

PURPOSE: A method and a system for transmitting and receiving video signals are provided to transmit and receive video signals between a computer and a monitor in the case where the computer and monitor are located in the distance from each other. CONSTITUTION: A multiplexer(2) converts a parallel video signal from a computer into a serial video signal. An optical signal generator converts the serial video signal into an optical signal. An optical cable(4) transmits the optical signal to a monitor. A light detector converts the optical signal transmitted through the optical cable into the serial video signal. A demultiplexer converts the serial video signal from the light detector into the parallel video signal to input the parallel video signal to the monitor. The optical signal generator includes a laser driver(31) for generating a driving signal corresponding to the serial video signal from the multiplexer, and a laser beam generator for generating a laser beam according to the driving signal.

Description

Method and apparatus for transmitting and receiving image signal {Method and apparatus for sending / receiving image signal}

The present invention relates to a method and apparatus for transmitting and receiving image signals, and more particularly, to an image signal transmitting and receiving method and apparatus for processing an image signal from a computer and inputting the same to a monitor.

Signals output from a general computer to a monitor are roughly divided into image signals and control signals. The picture signal is divided into a red picture signal (R), a green picture signal (G) and a blue picture signal (B). Each image signal R, G, B is a parallel digital signal of 6 to 8 bits. The control signal includes a vertical synchronizing signal, a horizontal synchronizing signal, an enable signal, and a clock signal. In this way, the signal output from the computer to the monitor is directly input to the monitor through a wired cable of a plurality of channels. This signal transmission and reception method is suitable when the computer and the monitor are located close to each other, but the following problems will arise when located far from each other.

First, since a voltage drop occurs in a signal being transmitted due to the line resistance of the transmission cable, line drivers are required to compensate for this.

Secondly, since a number of channels must be transmitted, the material of the transmission cable is used a lot.

It is an object of the present invention to provide a method and apparatus for transmitting and receiving image signals suitable when the computer and the monitor are located far from each other.

1 is a block diagram illustrating a transmitter of an image signal transmission and reception apparatus according to an embodiment of the present invention.

2 is a block diagram illustrating a receiver of an image signal transceiver according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

2 ... multiplexer, 31 ... laser drive,

32 ... laser diode array, 4 ... optical cable,

5 photodiode array, 6 amplification unit,

7. Demultiplexer.

An image signal transmission and reception method of the present invention for achieving the above object comprises the step of converting a parallel image signal from a computer into a serial image signal. Next, the converted serial image signal is converted into an optical signal. Next, the converted optical signal is transmitted to the position of the monitor through the optical cable. Next, the transmitted optical signal is converted into a serial image signal. Next, the converted serial image signal is converted into a parallel image signal. Then, the converted parallel image signal is input to the monitor.

In addition, the image signal transmission and reception apparatus of the present invention for achieving the above object includes a multiplexer, an optical signal generator, an optical cable, an optical detector and a demultiplexer. The multiplexer converts parallel image signals from a computer into serial image signals. The optical signal generator converts the serial image signal from the multiplexer into an optical signal. The optical cable is provided for transmitting the optical signal from the optical signal generator to the position of the monitor. The optical detector converts an optical signal transmitted through the optical cable into a serial image signal. The demultiplexer converts a serial image signal from the light detector into a parallel image signal and inputs the same to the monitor.

The image signal transmission / reception method and apparatus of the present invention can minimize the line voltage drop by converting a parallel image signal from a computer into a serial image signal and then transmitting the same to a monitor through an optical cable. Accordingly, line drivers are not necessary even when the computer and the monitor are located far from each other, and the number of channels of the transmission cable can be minimized.

Hereinafter, preferred embodiments of the present invention will be described in detail.

1 shows a transmitter of an apparatus by an image signal transmission / reception method according to the present invention. 2 shows a receiving unit of the apparatus by the image signal transmission and reception method according to the present invention.

1 and 2, an image signal transmitting and receiving device according to the present invention includes a multiplexer 2, an optical signal generator 3, an optical cable 4, an optical diode array 5 as an optical detector, and an amplifier 6 And a demultiplexer 7. The optical signal generator 3 includes a laser driver 31 and a laser diode array 32 as a laser light generator.

The personal computer 1 is provided with each 8-bit parallel image signal ( , , ), Vertical sync signal ( ), Horizontal sync signal ( ), Enable signal ( ) And the first clock signal ( )

The multiplexer 2 is a parallel image signal from the personal computer 1 ( , , To a serial image signal ( , , ). Inside the multiplexer 2, parallel / serial shift registers and a clock multiplier are provided. Each parallel / serial shift register has its own 8-bit parallel image signal ( , , ) Is entered. The clock multiplier includes a first clock signal ( Raise the frequency of 8 times to apply to the parallel / serial shift registers. The multiplexer 2 is a parallel image signal from the personal computer 1 ( , , To a serial image signal ( , , ). In addition, the input enable signal ( ) According to the input vertical sync signal ( ) And the horizontal sync signal ( ), So that the synthesized sync signal ( Output as And, the input enable signal ( ), The first clock signal ( ) To process the second clock signal ( )

The optical signal generation section 3 is a serial image signal from the multiplexer 2 ( , , ), The composite sync signal ( ) And the first clock signal ( ) Is converted into an optical signal. Here, the laser driver 31 is a serial image signal from the multiplexer 2 ( , , ), The composite sync signal ( ) And the first clock signal ( Generates driving signals corresponding to Accordingly, the laser diode array 32 generates five laser light signals by the drive signal from the laser driver. Each laser light signal is transmitted via the optical cable 4 to the position of the flat panel monitor 8.

As above, the parallel image signal from the personal computer 1 ( , , Is transmitted in the state converted by the multiplexer 2 into a serial image signal, so that the number of channels of the transmission cable can be minimized. In addition, since the serial image signal is converted into an optical signal by the optical signal generator 3 and transmitted to the flat panel monitor 8 through the optical cable 4, the line voltage drop can be minimized. Thus, line drivers are unnecessary even when the personal computer 1 and the monitor 8 are located far from each other.

A photo-diode array 5 converts each optical signal transmitted through the optical cable 4 into an electrical serial image signal. The amplifier 6 amplifies the serial image signal from the photodiode array 5 to produce a serial image signal ( , , ), The composite sync signal ( ) And the second clock signal ( )

The demultiplexer 7 is a serial image signal from the amplifier 6 , , Parallel image signal ( , , ) To be input to the flat panel monitor 8. In addition, the input synthesized synchronization signal ( ) To separate the vertical sync signal ( ) And the horizontal sync signal ( ) Is input to the flat panel monitor 8. Then, the input synthesized synchronization signal ( ) And the second clock signal ( ), The enable signal ( ) And the first clock signal ( ) Is input to the flat panel monitor 8.

As described above, the serial image signal transmitted in the form of an optical signal through the optical cable 4 is transferred by the photodiode array 5 to the electrical serial image signal ( , , Is converted to). In addition, this electrical serial image signal ( , , ) Is amplified by the amplifier 6 with a predetermined degree of amplification, and then the demultiplexer 7 performs parallel image signals ( , , Is converted to). This parallel image signal ( , , Is input to the flat panel monitor 8, so that the flat panel monitor 8 can perform normal display.

As described above, according to the image signal transmission and reception method and apparatus according to the present invention, a parallel image signal from a personal computer ( , , Is transmitted in a state where it is converted into a serial image signal by the multiplexer, so that the number of channels of the transmission cable can be minimized. In addition, since the serial image signal is converted into an optical signal by the optical signal generator and transmitted to the flat panel monitor through the optical cable, the line voltage drop can be minimized. Thus, line drivers are unnecessary even when the personal computer and the monitor are located far from each other.

The present invention is not limited to the above embodiments, and modifications and improvements are possible at the level of those skilled in the art.

Claims (4)

Converting the parallel image signal from the computer into a serial image signal; Converting the converted serial image signal into an optical signal; Transmitting the converted optical signal to the position of the monitor through the optical cable; Converting the transmitted optical signal into a serial image signal; Converting the converted serial image signal into a parallel image signal; And And converting the converted parallel image signal into the monitor. A multiplexer for converting parallel image signals from a computer into serial image signals; An optical signal generator for converting a serial image signal from the multiplexer into an optical signal; An optical cable for transmitting an optical signal from the optical signal generator to a position of a monitor; A light detector for converting an optical signal transmitted through the optical cable into a serial image signal; And And a demultiplexer which converts the serial image signal from the light detector into a parallel image signal and inputs the same to the monitor. The method of claim 2, wherein the optical signal generation unit, A laser driver for generating a drive signal corresponding to the serial image signal from the multiplexer; And And a laser light generator for generating a laser light signal in response to a drive signal from the laser driver. The method of claim 2, And an amplifier which amplifies the serial image signal from the light detector and inputs the demultiplexer to the demultiplexer.