KR19990074539A - Multi-window liquid crystal display and its driving method - Google Patents

Abstract

The present invention is to express the multi-window on the screen by directly processing the analog signal without receiving the analog image signal and converting it into a digital signal, the analog signal processing unit 100, 120, phase synchronizer 200, timing control unit 300 ), A source driver 400, a gate driver 420, and an LCD panel 500. Two analog image signals are respectively input to an analog signal processor, and each analog signal processor outputs a composite synchronization signal. The composite synchronization signal is input to the phase synchronization unit, and the phase synchronization unit outputs a common synchronization signal by matching the two synchronization signals. The common synchronization signal is input to the timing controller, and the timing controller outputs a control signal for driving the source driver and the gate driver. The source driver and the gate driver receive a control signal and operate to display a plurality of images on the LCD panel in a multi-window format. Here, all the source driving circuits in the source driving unit operate by receiving a control signal directly from the timing controller.

Description

Multi-window liquid crystal display and its driving method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display (hereinafter referred to as an LCD) for a multi window and a method of driving the same. More specifically, the present invention relates to a digital signal obtained by receiving an analog video signal. It is for expressing multiple windows on the screen by directly processing analog signals without converting them into digital signals.

The display of the LCD panel is performed by a source driver that lowers the voltage value transmitted to each pixel at a line interval and a gate driver that turns on the gate so that the voltage value of each pixel can be transmitted to the pixel. To drive this drive, a control signal is required, which is not generated directly by the graphics controller, but by the timing controller.

The source driver commands a horizontal start signal (STH) for loading data signals from the timing controller into the source driver, and the data are converted into analog in the source driver and applied to the panel. It operates in synchronization with a load signal and a clock for shifting data in the source driver.

The gate driver receives a gate-on signal into the gate line of the LCD panel in the gate driver. The gate driver sequentially executes a gate start signal (STV) and a gate-on signal to each gate line. It operates in synchronization with the clock.

On the other hand, when two or more images are to be displayed on one LCD panel, each analog image signal is input, converted into a digital signal, stored in each memory, and data manipulation for multiple windows is conventional. It's digital.

1 is a block diagram of a liquid crystal display device having a conventional multi-window function, and includes an analog-to-digital converter 10, a digital image processing unit 20, a source driver 30, a gate driver 32, and a digital-analog converter 40. And an LCD panel 50.

Here, the timing controller 22 is built in the digital image processing unit 20.

As shown in FIG. 1, when two analog image signals are input to a liquid crystal display having a multi-window function, the two digital signals R1.G1.B1 and R2.G2.B2 are respectively passed through an analog-to-digital converter 10. Is converted to). The converted two digital data are input to the digital image processing unit 20. Here, the digital data R1.G1.B1 and R2.G2.B2 are stored in two memories, respectively, so that the processing for the multi-window is performed. Various algorithms are used for such a multi-window processing, and implementations vary depending on the algorithm. After this process, the timing controller 22 in the digital image processor 20 outputs a control signal for driving the source driver 30 and the gate driver 32. The source driver 30 and the gate driver 32 operate by receiving the control signal and the processed digital signal. The digital signal processed for the multi-window is converted into an analog signal by the digital analog converter 40 and displayed on the LCD panel 50.

Here, since the digital image processing unit 20 stores the received digital data in the memory, the more the digital data, the more memory is required, and the implementation is complicated because it performs a multi-window function using various algorithms on the digital data stored in the memory. There is a costly and expensive problem.

The present invention is to solve the above problems, and to provide a method for implementing a multi-window by directly processing an analog signal instead of digital image processing for the multi-window.

1 is a block diagram of a liquid crystal display device having a conventional multi-window function.

2 is a block diagram of a liquid crystal display device having a multi-window function according to an embodiment of the present invention.

3 is a view showing a method of driving a source driver according to an embodiment of the present invention.

4 is an exemplary diagram of a multi-window screen represented by a liquid crystal display according to an embodiment of the present invention.

4A is each image,

4B is a diagram in which the image of (a) is displayed together on the LCD panel.

4C is a diagram in which the image of (a) is superimposed on the LCD panel.

Output.

Accordingly, according to the liquid crystal display and the driving method thereof of the multi-window function of the present invention for achieving the above object,

A plurality of analog image signals are received, and each composite synchronization signal is output, and each composite synchronization signal is matched to output a common synchronization signal to the timing controller. The common synchronization signal is input to the timing controller, and the timing controller outputs a control signal for driving the source driver and the gate driver.

Here, since the plurality of source driving circuits in the source driver are all directly connected to the timing controller, the timing controller directly controls the plurality of source driving circuits in the source driver. That is, when a plurality of images are input, the timing controller selects a plurality of start signals for each image from among a plurality of source driving circuits in the source driver to adjust the width of the window and the position of each image for the plurality of images. Can be.

Hereinafter, with reference to the drawings will be described in detail an embodiment of the present invention.

2 is a block diagram of a liquid crystal display device having a multi-window function according to an exemplary embodiment of the present invention, which includes an analog signal processing unit 100 and 120, a phase synchronization unit 200, a timing control unit 300, a source driver 400, The gate driver 420 and the LCD panel 500 are included.

Two analog image signals are input to the analog signal processing units 100 and 120, respectively, and each of the analog signal processing units 100 and 120 outputs composite sync signals c-sync1 and c-sync2. The composite sync signals c-sync1 and c-sync2 are input to the phase synchronizer 200, and the phase synchronizer 200 matches two sync signals c-sync1 and c-sync2 to provide a common sync signal. Output The common synchronization signal is input to the timing controller 300, and the timing controller 300 outputs a control signal for driving the source driver 400 and the gate driver 420. The source driver 400 and the gate driver 420 operate by receiving a control signal to express a plurality of images on the LCD panel 500 in a multi-window format.

Here, the analog-to-digital converter 10 and the digital-to-analog converter 50 of FIG. 1 are omitted since the analog image signal is received from the beginning and processed without being converted into a digital signal. On the other hand, the analog signal processor 100 and 120 and the phase synchronizer 200 for analog image signal processing are added.

In addition, the analog method converts an analog signal received as a digital method into digital data and stores it in a memory or does not perform various image processing on the stored digital data, but simply synchronizes the input analog image signal and outputs the timing controller. Since the source driver is operated by the control signal, the timing controller controls the screen processing for the multi-window.

3 is a diagram illustrating a method of driving a source driver according to an exemplary embodiment of the present invention, and FIGS. 4A, 4B, and 4C are exemplary diagrams of a multi-window screen expressed by a liquid crystal display according to an exemplary embodiment of the present invention. 4A is a respective image and FIG. 4B is a diagram in which the image of FIG. 4A is displayed together on the LCD panel, and FIG. 4C is a diagram in which the image of FIG. 4A is superimposed on the LCD panel.

An operation of the source driver 400 for implementing such a multi-window screen will be described with reference to FIGS. 2 and 3.

All of the source driving circuits IC10 to IC60 in the source driver 400 operate by receiving a control signal from the timing controller 300. That is, in order to display two images, the timing controller 300 outputs two start signals STH1 and STH2 to the source driving circuits IC10 to IC60 in the source driver 400.

In order for the image 1 and the image 2 of FIG. 4A to be displayed on the screen as shown in FIG. 4B, if the image 1 is displayed based on the circuit 10 (IC10) and the image 2 is displayed based on the circuit 40 (IC40), the timing controller 300 ) Outputs a start signal STH1 to circuit 10 IC10 and a start signal STH2 to circuit 40 IC40 simultaneously. In addition, the timing controller 300, when the circuit 10 (IC10) receiving the start signal 1 (STH1) and the circuit 40 (IC40) receiving the start signal 2 (STH2) complete the operation, the circuit 20 (IC20), which is the next circuit, respectively. ) And a control signal for driving the circuit 50 (IC50).

In order for the image 1 and the image 2 of Fig. 4A to be displayed on the screen as shown in Fig. 4C, after the image 1 is first displayed by the start signal 1 (STH1), the image 1 is half-corrected by the start signal 2 (STH2). Should be marked from its marked position. That is, when the timing controller outputs the start signal STH2 at the circuit 40 (IC40) at which the image 1 is displayed based on the circuit 20 (IC20) and the image 1 is half displayed, the image 2 starts to be output.

Therefore, it is expressed as shown in Fig. 4C in which the first displayed image 1 is displayed halfway and then the image 2 is displayed.

As such, all of the source driving circuits IC10 to IC60 in the source driving unit 400 are connected to the timing controlling unit 300 to directly receive a control signal, so that the timing controlling unit 300 sets the window width and the respective widths for the respective images. The position at which the image of is displayed can be controlled.

According to the present invention, in order to display a multi-window, the analog image signal is not converted into a digital signal and processed directly as an analog signal, thereby eliminating elements for digitization. It is effective to adjust the position of.

Claims (3)

In the driving method of a liquid crystal display device having a multi-window function for displaying a plurality of images, Receiving a first analog image signal and a second analog image signal and outputting a first synchronization signal and a second synchronization signal, respectively; Receiving the first synchronization signal and the second synchronization signal, outputting a common third synchronization signal in phase with each other; Receiving the third synchronization signal and outputting a control signal for driving all of the source driving circuits in the source driver; And displaying the plurality of images in a multi-window format on an LCD panel by the source driver and the gate driver. A first analog signal processor configured to receive a first analog image signal and output a first synchronization signal; A second analog signal processor configured to receive a second analog image signal and output a second synchronization signal; A phase synchronizer configured to receive the first synchronization signal and the second synchronization signal and output a third synchronization signal; A timing controller which outputs a control signal by the third synchronization signal; A source driver for each of the internal circuits receiving the control signal directly from the timing controller and outputting a data voltage for displaying an image on each pixel; A gate driver which receives the control signal from the timing controller and outputs a gate on signal; And a LCD panel displaying an image by the source driver and the gate driver. The method of claim 1 or 2, Wherein the first synchronization signal and the second synchronization signal are composite synchronization signals, and the third synchronization signal is a common synchronization signal in which phases of the first synchronization signal and the second synchronization signal are aligned. Liquid crystal display device.