KR200411890Y1 - Control apparatus for LCD - Google Patents

Abstract

The present invention is a liquid crystal monitor control device, which is an integrated integrated circuit chip, which includes the following, the scaler is used to perform the reduction and enlargement processing of the video screen to the input video signal, and outputs the output video signal, the liquid crystal accelerator driver Is connected to the scaler and used to adjust the output image signal, accelerate the display response speed of the liquid crystal panel, and convert the adjusted output image signal into an interface signal and output it.

Liquid crystal, accelerator, receiver, transmitter, delta sigma, scaler, interface signal

Description

Liquid crystal monitor control device {Control apparatus for LCD}

1 is a block diagram of a conventional liquid crystal monitor control device

2 is a configuration diagram in which a liquid crystal accelerator is installed between a conventional liquid crystal monitor controller and a liquid crystal panel module;

3 is a configuration diagram of an embodiment of a liquid crystal monitor control device of the present invention;

4 is another embodiment configuration of the liquid crystal monitor control device of the present invention

5 is a configuration of another embodiment of a liquid crystal monitor control device of the present invention

** Explanation of symbols for main parts of drawings **

100: liquid crystal monitor controller 12: scaler

14: Interface signal transmitter 16: LCD panel module

161 ： interface signal receiver 20 ： liquid crystal accelerator

201: Interface signal receiver 202: Interface signal transmitter

22: memory 300: liquid crystal monitor control device

32: scaler 34: liquid crystal acceleration driver

36: Interface signal transmitter 38: Memory

40: liquid crystal panel module 42: delta sigma analog to digital converter

44: microprocessor 400: liquid crystal monitor controller

500: LCD monitor control device

The present invention relates to a liquid crystal monitor control device, and more particularly, to a liquid crystal monitor control device having a liquid crystal acceleration driver, which is integrated into a single integrated circuit chip.

In general, a television or computer monitor is displayed only at a specific resolution, and the input source image data is provided through an image control device (for example, a video card, a video signal decoder, a digital camera, etc.), and the resolution of the source image data. Is already set.

Therefore, the input source image data must be adjusted so that the monitor screen accurately outputs the image data with the image data having a proper resolution through scaling (reduction / enlargement).

Referring to FIG. 1, this is a configuration diagram of a liquid crystal monitor control apparatus. Input source image data is first transmitted to the scaler 12 of the liquid crystal monitor control apparatus 100, and the scaler 12 scales (reduces) the source image screen. The image data is converted into image data having an appropriate resolution, and then converted into image signals through an interface signal transmitter 14 and outputted.

Then, the liquid crystal panel module 16 receives the interface signal through the corresponding interface signal receiver 161.

As an interface signal between the liquid crystal monitor controller 100 and the liquid crystal panel module 161, a transistor-transistor logic (TTL) or a low-voltage differential signal (TTL), which is frequently found LVDS), Swing-Attenuated Differential Signals (RSDS) and Point-to-point Differential Singal (PPDS).

In recent years, liquid crystal monitors have already replaced the market of traditional CRT monitors. One layer of liquid crystal is put in the middle of two glass substrates, the upper glass substrate is filled with a color filter, and the lower glass substrate is attached with a transistor.

When the transistor switch of one pixel is turned on and the voltage is applied to the liquid crystal molecules, the liquid crystal molecules are twisted and rotated, thereby changing the polarization of the light beam, and again determining the contrast state of the pixel using a polarizing plate and adjusting the color filter. In combination, one pixel of the liquid crystal panel is formed, and the video screen is composed of all the pixels.

When a liquid crystal panel (LCD) displays a screen moving at a high speed, afterimage is likely to occur because the liquid crystal molecules must pass a certain time when the voltage is applied to the liquid crystal, depending on where the set target moves to reach the set target. Because of this, the display of the optical brightness cannot keep up with the change in voltage, which slows down the screen.

Referring to FIG. 2, in order to accelerate the response speed of the liquid crystal display, a liquid crystal accelerator 20 is installed between the liquid crystal monitor control device 100 and the liquid crystal panel module 16.

The liquid crystal accelerator 20 has an interface signal receiver 201 to receive an interface signal from the liquid crystal monitor controller 100, and the liquid crystal accelerator 20 receives image frame data in the interface signal. The pixel data to be stored in the memory 22 and accelerated and rotated through the liquid crystal through comparison between the image frame of the current screen and the image frame data of the previous screen, and the image frame data is adjusted according to the pixel data. In addition, the interface signal transmitter 202 transmits the interface signal having the image frame data to the liquid crystal panel module 16, and the adjusted image frame data drives the liquid crystal panel circuit to transmit an appropriate voltage to a specific liquid crystal control transistor. The liquid crystal twists and rotates more quickly, increasing the twisting voltage of the liquid crystal. I will be reaching for the purpose of fast response speed.

However, although increasing the liquid crystal accelerator between the LCD monitor controller and the LCD panel module increases the response speed of the LCD monitor, in addition to having a circuit of pixel data for accelerating the rotation of the liquid crystal by twisting the liquid crystal, Since the LCD monitor controller and the interface signal receiver and the interface signal transmitter of the LCD panel module must be provided, the LCD accelerator significantly increases the cost of the LCD monitor, and furthermore, it becomes a negative factor in the profit gain in manufacturing the LCD monitor.

The main purpose of the present invention is to provide a liquid crystal monitor control device, while not having to increase the cost of the liquid crystal monitor while having the function of the liquid crystal accelerator driver.

Still another object of the present invention is to provide a liquid crystal monitor control device of an integrated liquid crystal accelerator driver.

In order to achieve the above object, the present invention provides a liquid crystal monitor control apparatus, which includes the following, wherein the scaler performs the reduction and enlargement processing of the image screen on the input image signal, outputs the output image signal, and accelerates the liquid crystal. The driver is connected to the scaler to adjust an output video signal, accelerate the liquid crystal display response speed, and convert the adjusted output video signal into an interface signal to output.

The liquid crystal accelerator driver connects and connects a memory, which stores pixel data of an output image signal.

The interface signal is a transistor-transistor logic signal (TTL), a low voltage differential signal (LVDS), a swing attenuated (low wave width) differential signal (RSDS), and a end-to-end differential signal (PPDS).

In addition, the present invention provides a liquid crystal monitor control device, an integrated integrated circuit chip, including the following, the scaler performs the reduction and enlargement process of the video screen to the input video signal, and outputs the output video signal, the liquid crystal The accelerator driver is connected to the scaler to adjust an output video signal, and accelerates the response speed of the liquid crystal display. The interface signal transmitter is connected to the liquid crystal accelerator driver to convert the adjusted output video signal into an interface signal, and outputs the interface signal. The memory stores pixel data of the output video signal.

The scaler, the liquid crystal accelerator driver, and the interface signal transmitter are formed on a first chip die, and the memory is formed on a second chip die and connected to the first chip die.

Hereinafter, the technical contents, features, and functions of the present invention will be described in detail with reference to the following examples and drawings.

Referring to Figure 3, which is an embodiment of a liquid crystal monitor control device of the present invention.

The liquid crystal monitor control device 300 of this embodiment includes a scaler (reduction / enlargement) 32, a liquid crystal accelerator driver 34, and an interface signal transmitter 36. The scaler 32 receives the input source image data, scales (enlarges / reduces) the source image data to image data having an appropriate resolution, and transmits the source image data to the liquid crystal accelerator driver 34.

The liquid crystal accelerator driver 34 is connected to the memory 38 to store pixel data constituting an image frame among the image data in the memory 38, and to store pixel data constituting the image frame among them. Some may store all of the memory or only some of the pixel data.

The liquid crystal accelerator driver 34 compares and contrasts the pixel data of the current screen image frame with the image frame of the previous screen stored in the memory 38 to determine the pixel data for accelerating and rotating the liquid crystal and by using the pixel data. Adjust the frame data, and transmit the liquid crystal driving circuit on the liquid crystal panel module to the liquid crystal to accelerate the rotation by twisting a specific voltage to increase the twisting voltage of the liquid crystal, thereby causing the liquid crystal to twist and rotate and recover faster. Reach the goal of speeding up.

The interface signal transmitter 36 converts the image data adjusted by the liquid crystal accelerator driver 34 into an interface signal corresponding to the liquid crystal panel module 40 and outputs the interface signal.

The above-described interface signal is any one of a transistor-transistor logic signal (TTL), a low voltage differential signal (LVDS), a swing attenuated (low wave width) differential signal (RSDS), and an end-to-end differential signal (PPDS). (36) also supports several types of interface signals at the same time.

In a relatively specific embodiment of the present invention, the interface signal transmitter 36 includes an interface signal driver, which is used to convert image data into an interface signal, which is one or several kinds of interface signal types described above. .

Referring to Figure 4, which is another embodiment of the liquid crystal monitor control device of the present invention.

The liquid crystal monitor controller 400 has a delta sigma analog-digital converter (Δ∑ ADC) 42, which is used to convert a delta sigma analog signal into a digital signal. 400 converts the source video signal of the delta sigma into a digital video signal using the delta sigma analog-to-digital converter 42, and the scaler 32 again reduces or enlarges the digital video signal to obtain an appropriate resolution.

The LCD monitor 400 having a delta sigma analog-to-digital converter 42 has a capability of processing digital video signals and delta sigma video signals.

Referring to Figure 5, which is another embodiment of the liquid crystal monitor control device of the present invention.

The liquid crystal monitor controller 500 has a microprocessor 44, which is used to control the entire liquid crystal monitor controller 500.

For example, the scaler 32 controls the ratio in the reduction or enlargement process with respect to the video signal, and controls the type of the interface signal transmitted by the interface signal transmitter 36.

The liquid crystal accelerator driver of the present invention is integrated in the liquid crystal monitor controller to form a single integrated circuit chip, so that the conventional independent liquid crystal accelerator can not be compared with the manufacturing cost of the liquid crystal monitor controller having the interface signal transmitter. This is possible and lower than the manufacturing cost of the general liquid crystal monitor controller and liquid crystal accelerator.

In one embodiment of the present invention, the memory 38 used in combination with the scaler 32, the liquid crystal accelerator driver 34, and the interface signal transmitter 34 is manufactured on another chip die, and thus, a technique in which several chip dies are packaged. This results in a liquid crystal monitor controller that integrates memory by packaging two chip dies into a single chip, which not only saves on the cost of the package, but also significantly increases the transfer speed between the memory and the liquid crystal accelerator driver.

The foregoing is a specific embodiment of the present invention, which in no way limits the scope of the present invention, and any changes or modifications made within the technical spirit of the present invention fall within the scope of the present invention.

The present invention has the effect of reducing the cost of the liquid crystal monitor having a function of the liquid crystal accelerator driver.

Claims (15)

A scaler for reducing and enlarging the video screen to the input video signal and outputting an output video signal; A liquid crystal accelerator driver connected to the scaler to adjust the output image signal and to accelerate a response speed of the liquid crystal display; And an interface signal transmitter connected to the liquid crystal accelerator driver and converting the adjusted output image signal into an interface signal and outputting the interface signal. The LCD monitor of claim 1, further comprising a memory configured to store pixel data of the output image signal and to be connected to the scaler and the liquid crystal accelerator driver. The liquid crystal monitor control device according to claim 1, wherein the interface signal is a transistor-transistor logic signal (TTL). The liquid crystal monitor control apparatus according to claim 1, wherein the interface signal is a low voltage differential signal (LVDS). The liquid crystal monitor control device according to claim 1, wherein the interface signal is a swing attenuation (low wave width) differential signal (RSDS). The apparatus of claim 1, wherein the interface signal is a end-to-end differential signal (PPDS). The LCD monitor of claim 1, further comprising a delta sigma analog-to-digital converter connected to the scaler to convert a delta sigma analog video signal into a digital video signal and input the same to the scaler. 3. The liquid crystal monitor control device according to claim 2, wherein the memory and the liquid crystal monitor control device are packaged in a single integrated circuit chip. The liquid crystal monitor controller of claim 1, further comprising a microprocessor for controlling the liquid crystal monitor controller. The apparatus of claim 1, wherein the interface signal transmitter comprises an interface signal driver for driving an interface signal. A scaler for reducing and enlarging the video screen to the input video signal and outputting an output video signal; A liquid crystal accelerator driver connected to the scaler to adjust an output video signal and to accelerate a response speed of the liquid crystal display; An interface signal transmitter connected to the liquid crystal accelerator driver to convert the adjusted output image signal into an interface signal and output the interface signal; And a memory configured to store pixel data of an output image signal, wherein the scaler, the liquid crystal accelerator driver, and the interface signal transmitter are formed on a first chip die, and the memory is formed on a second chip die. Liquid crystal monitor control device characterized in that connected to the chip die. 12. The liquid crystal monitor control device according to claim 11, wherein the first chip die and the second chip die are formed of a single integrated circuit chip. 12. The method of claim 11, wherein the interface signal is a transistor-transistor logic signal (TTL), a low voltage differential signal (LVDS), a swing attenuated (low wave width) differential signal (RSDS), or an end-to-end differential signal (PPDS). LCD monitor control device. 12. The LCD monitor of claim 11, wherein the first chip die is connected to a scaler to convert a delta sigma analog video signal into a digital video signal and to input the sigma analog digital converter to the scaler. . 12. The liquid crystal monitor control device according to claim 11, further comprising a microprocessor for controlling the liquid crystal monitor control device.

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