KR101057783B1 - Liquid crystal display and its brightness adjusting method - Google Patents

Abstract

The present invention provides a liquid crystal display and a method of adjusting the brightness thereof. The liquid crystal display according to the exemplary embodiment of the present invention includes a liquid crystal panel, a backlight unit, an inverter, a brightness adjusting input unit, and a driving circuit, and the inverter corresponds to an average of gray level of image data within a luminance setting voltage range input by a user. Therefore, the brightness level of the backlight unit is adjusted. According to an exemplary embodiment of the present invention, there is provided a method of adjusting a brightness of a liquid crystal display device, the method including receiving a brightness setting voltage, providing a brightness variable signal, and inverting a gray level of image data within a brightness setting voltage range input by a user. And adjusting the brightness level of the backlight unit according to the average.

Liquid crystal display, luminance level, inverter

Description

Liquid crystal display and method for controlling brightness thereof

1 is a block diagram of a conventional liquid crystal display.

2 is a block diagram of a liquid crystal display according to an exemplary embodiment of the present invention.

(Explanation of symbols for the main parts of the drawing)

100: liquid crystal panel 200: drive circuit

210: timing controller 220: luminance variable signal providing unit

230: connector 300: brightness control input

400: inverter 410: luminance signal selector

500: backlight unit

The present invention relates to a liquid crystal display and a brightness adjusting method thereof, and more particularly, to adjust a brightness level of a backlight unit according to an average of gray level levels of image data within a brightness setting voltage range input by a user by an inverter. The present invention relates to a liquid crystal display device and a brightness adjusting method thereof.

In today's information society, the role of electronic displays has become very important, and various electronic displays have been widely used in various industrial fields. In the electronic display device field, electronic display devices having new functions suitable for the demands of the information society, which have been continuously developed and diversified, are continuously being developed. In general, an electronic display device refers to a device that transmits various pieces of information to a human through vision. That is, an electronic display device refers to an electronic device that converts an electronic information signal output from various electronic devices into an optical information signal that can be recognized by a human vision. It can be said.

In such an electronic display device, when an optical information signal is displayed by a light emitting phenomenon, it is referred to as a light emitting display device, and when it is displayed by light modulation due to reflection, scattering, or interference phenomenon, it is called a light receiving display device. Light emitting displays, also called active display devices, include cathode ray tubes (CRTs), plasma display panels (PDPs), organic electroluminescent displays (OELDs), light emitting diodes ( Light Emitting Diode (LED) etc. can be mentioned. The light receiving display device, which is called a passive display device, may include a liquid crystal display (LCD), an electrophoretic image display (EPID), and the like.

Cathode ray tube display device, which is used for television and computer monitor, and has the longest history, has the highest market share in terms of economy, but has many disadvantages such as heavy weight, large volume and high power consumption. .

Recently, due to the rapid progress of semiconductor technology, there is a demand for a flat panel display device as an electronic display device suitable for a new environment in accordance with the trend of lowering and lowering power of various electronic devices and miniaturization, thinning, and lightening of electronic devices. It is rapidly increasing. Accordingly, flat panel display devices such as a liquid crystal display (LCD), a plasma display device (PDP), an organic EL display device (OELD), and the like have been developed, and among these flat panel display devices, it is easy to miniaturize, light weight, and thinner. In particular, liquid crystal display devices having low power consumption and low driving voltage are drawing attention.

Since the liquid crystal display is not a light emitting display as described above, a light source such as a backlight is required. There are two types of backlights for liquid crystal display devices, a direct type type and a light guide plate type. The direct type places several lamps in the plane. A diffuser plate is provided between the lamp and the liquid crystal panel to keep the liquid crystal panel and the lamp constant. In the light guide plate system, a lamp is installed outside the flat plate, and light is incident from the lamp onto the entire surface of the liquid crystal panel using a transparent light guide plate.

With reference to FIG. 1, the conventional liquid crystal display device is demonstrated. 1 is a block diagram of a conventional liquid crystal display. The conventional liquid crystal display device includes a liquid crystal panel 10, a driving circuit 20, a brightness control input unit 30, an inverter 40, and a backlight unit 50.

Image data R, G, and B are displayed on the liquid crystal panel 10, the backlight unit 50 provides light to the liquid crystal panel 10, the inverter 40 drives the backlight unit 50, The brightness adjustment input unit 30 receives a brightness adjustment start signal Enable and a brightness setting voltage Ext_VBR by a user.

The driving circuit 20 is composed of a timing controller 21, a luminance variable signal providing unit 22, a connector 23, and a luminance signal selecting unit 24. The timing controller 21 provides the image data R, G, and B, and the luminance variable signal providing unit 22 receives the luminance adjustment start signal Enable from the luminance adjustment input unit 30 to receive the image data R, G, and B. The luminance variable signal Int_VBR is provided according to the average of the gray level of G and B, and the luminance signal selector 24 receives the luminance set voltage Ext_VBR and the luminance variable signal Int_VBR and receives the luminance set voltage Ext_VBR. In the case where the voltage of the luminance variable signal Int_VBR is smaller than the voltage of the luminance variable signal Int_VBR, the luminance variable signal Int_VBR is provided to the backlight unit 50 as the driving voltage VBROut, and the luminance variable signal Int_VBR is higher than the luminance setting voltage Ext_VBR. In the case where the magnitude of the voltage is large, the luminance setting voltage Ext_VBR is provided to the backlight unit 50 as the driving voltage VBROut. The connector 23 transmits the luminance adjustment start signal Enable to the luminance variable signal providing unit 22, transfers the image data R, G, and B to the liquid crystal panel 10, and generates a luminance setting voltage ( Ext_VBR is transmitted to the luminance signal selector 24, and the driving voltage VBROut is transmitted to the inverter 40.

However, in the conventional liquid crystal display, the driving circuit 20 receives the luminance adjustment start signal Enable and the luminance variable signal Int_VBR through the connector 23, and drives the driving voltage VBROut through the connector 23. It was provided to the inverter 40. The driving circuit 20 receives the luminance setting voltage Ext_VBR and the luminance variable signal Int_VBR, and when the voltage of the luminance variable signal Int_VBR is smaller than the luminance setting voltage Ext_VBR, the luminance variable signal Int_VBR. Is supplied to the backlight unit 50 as the driving voltage VBROut, and the luminance setting voltage Ext_VBR is applied to the backlight unit 50 when the voltage of the luminance variable signal Int_VBR is greater than the luminance setting voltage Ext_VBR. Including the luminance signal selector 24 provided at the driving voltage VBROut, the size of the driving circuit 20 is increased, so that the size of the printed circuit board (PCB) on which the driving circuit 20 is mounted is increased. Area also increased. In addition, since the three pins of the connector 23 of the drive circuit 20 must be used to adjust the brightness level of the backlight unit 50, the utilization of the connector 23 pin of the drive circuit 20 has been disadvantageous. In particular, when the liquid crystal display device is mounted on a portable electronic device such as a notebook computer, the pins of the connector 23 of the drive circuit 20 are limited to 30, which is further disadvantageous.

Therefore, the technical problem to be achieved by the present invention is to simplify the driving circuit of the liquid crystal display device by adjusting the luminance level of the backlight unit according to the average of the gradation levels of the image data within the luminance setting voltage range input by the user by the inverter. An object of the present invention is to provide a liquid crystal display device which can effectively improve the utility of the connector pin of the driving circuit of the liquid crystal display device required to adjust the brightness level of the backlight unit.

Another object of the present invention is to provide a brightness control method of the liquid crystal display device described above.

The technical problem to be achieved by the present invention is not limited to the technical problems mentioned above, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

According to an exemplary embodiment of the present invention, a liquid crystal panel includes a liquid crystal panel in which pixels are formed at intersections of a plurality of gate lines and a plurality of data lines, a backlight unit providing light to the liquid crystal panel; Intensity adjustment for receiving a drive voltage to the backlight unit to drive the backlight unit, a brightness adjustment start signal for starting the adjustment of the brightness level of the backlight unit and a brightness setting voltage for setting the brightness level of the backlight unit And a driving circuit which receives the luminance adjustment start signal from an input unit and the luminance adjustment input unit, and provides a luminance variable signal according to an average of gray level levels of image data displayed on pixels of the liquid crystal panel, wherein the inverter adjusts the luminance. The luminance setting voltage is transmitted from an input unit When the brightness variable signal is received from the driving circuit and the magnitude of the voltage of the brightness variable signal is smaller than the brightness setting voltage, the brightness variable signal is provided to the backlight unit as the driving voltage, and the brightness setting voltage is provided. When the magnitude of the voltage of the luminance variable signal is larger, the luminance setting voltage is provided to the backlight unit as the driving voltage.

A liquid crystal display according to an exemplary embodiment of the present invention includes a timing controller for providing image data displayed on a pixel of the liquid crystal panel to the liquid crystal panel by the driving circuit, and receiving the luminance control start signal from the luminance control input unit. A luminance variable signal providing unit providing the luminance variable signal and the luminance adjustment start signal to the luminance variable signal providing unit according to an average of gray level of image data displayed on the pixel of the liquid crystal panel, and transmitting the pixel of the liquid crystal panel And a connector for transmitting the image data displayed on the LCD panel to the liquid crystal panel and transmitting the luminance variable signal to the inverter.

According to another aspect of the present invention, there is provided a method of adjusting a brightness of a liquid crystal display according to an exemplary embodiment of the present invention, wherein a brightness adjustment start signal for starting adjustment of a brightness level of a backlight unit and a brightness setting for setting the brightness level of the backlight unit are performed. Receiving a voltage through a luminance adjustment input unit, and a driving circuit receiving the luminance adjustment start signal from the luminance adjustment input unit and providing a luminance variable signal according to an average of gray level levels of image data displayed on a pixel of a liquid crystal panel; And when the inverter receives the luminance setting voltage from the luminance adjusting input unit, receives the luminance variable signal from the driving circuit, and the voltage of the luminance variable signal is smaller than the luminance setting voltage, the inverter outputs the luminance variable signal. To the backlight unit If available, and the voltage of the brightness variable signal is greater than the brightness setting voltage, and a step of providing the brightness setting voltage as the driving voltage to the backlight unit.

A brightness control method of a liquid crystal display according to an exemplary embodiment of the present invention includes a timing controller for providing image data displayed on a pixel of the liquid crystal panel to the liquid crystal panel by the driving circuit, and starting the brightness control from the brightness adjustment input unit. A luminance variable signal providing unit providing the luminance variable signal according to an average of gray level of image data displayed on the pixel of the liquid crystal panel and a luminance adjustment start signal to the luminance variable signal providing unit And a connector for transmitting the image data displayed on the pixels of the liquid crystal panel to the liquid crystal panel and transmitting the luminance variable signal to the inverter.

Specific details of other embodiments are included in the detailed description and the drawings. Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. Like reference numerals refer to like elements throughout.

Referring to FIG. 2, a liquid crystal display and a brightness adjusting method thereof according to an exemplary embodiment will be described. 2 is a block diagram of a liquid crystal display according to an exemplary embodiment of the present invention.

As shown in FIG. 2, the liquid crystal display according to the exemplary embodiment of the present invention includes a liquid crystal panel 100, a backlight unit 500, an inverter 400, a brightness control input unit 300, and a driving circuit 200. do.

In the liquid crystal panel 100, pixels are formed at intersections of a plurality of gate lines and a plurality of data lines, and receive image data R, G, and B from the timing controller 210 through the connector 230. Image data R, G, and B are displayed on these pixels. The backlight unit 500 provides light to the liquid crystal panel 100, and the inverter 400 supplies the driving voltage VBROut to the backlight unit 500 to drive the backlight unit 500.

The brightness adjustment input unit 300 inputs a brightness adjustment start signal Enable to start adjustment of the brightness level of the backlight unit 500 by a user and a brightness setting voltage Ext_VBR for setting the brightness level of the backlight unit 500. In response, the luminance adjustment start signal Enable is provided to the luminance variable signal providing unit 220 through the connector 230, and the luminance setting voltage Ext_VBR is provided to the inverter 400. That is, the user adjusts the luminance level of the liquid crystal display according to the surrounding environment such as the ambient brightness of the liquid crystal display by inputting the luminance control start signal Enable and the luminance setting voltage Ext_VBR through the luminance control input unit 300. Can be.

The driving circuit 200 receives the luminance adjustment start signal Enable from the luminance adjustment input unit 300 through the connector 230, and the gray level of the image data R, G, and B displayed on the pixels of the liquid crystal panel 100. The luminance variable signal Int_VBR, which may adjust the luminance level of the backlight unit 500 according to the average of the levels, is provided to the inverter 400 through the connector 230.

The driving circuit 200 includes a timing controller 210, a luminance variable signal providing unit 220, and a connector 230, and the timing controller 210 includes image data R displayed on pixels of the liquid crystal panel 100. , G, B are provided to the liquid crystal panel 100 through the connector 230, and the luminance variable signal providing unit 220 receives a luminance adjustment start signal (Enable) from the luminance adjustment input unit 300 and receives the liquid crystal panel ( A luminance variable signal Int_VBR for adjusting the luminance level of the backlight unit 500 is provided according to an average of gray level levels of the image data R, G, and B displayed on the pixel of 100. The connector 230 transmits a luminance adjustment start signal Enable from the luminance adjustment input unit 300 to the luminance variable signal providing unit 220, and is displayed on the pixels of the liquid crystal panel 100 from the timing controller 210. The image data R, G, and B are transferred to the liquid crystal panel 100, and the luminance variable signal Int_VBR is transferred from the luminance variable signal providing unit 220 to the inverter 400. The connector 230 has 30 pins in the case of a liquid crystal display device mounted in a portable electronic device such as a notebook computer, one of which is connected to a ground power source.

The inverter 400 receives the luminance setting voltage Ext_VBR from the luminance adjustment input unit 300, receives the luminance variable signal Int_VBR from the driving circuit 200 through the connector 230, and then receives the luminance setting voltage Ext_VBR. The driving voltage VBROut is provided to the backlight unit 500 within the range. In detail, when the voltage of the luminance variable signal Int_VBR is smaller than the luminance setting voltage Ext_VBR, the inverter 400 provides the luminance variable signal Int_VBR as the driving voltage VBROut to the backlight unit 500. When the voltage of the luminance variable signal Int_VBR is greater than the luminance setting voltage Ext_VBR, the luminance setting voltage Ext_VBR is provided to the backlight unit 500 as a driving voltage VBROut. That is, the inverter 400 provides the brightness variable signal Int_VBR to the backlight unit 500 as the driving voltage VBROut when the voltage of the brightness variable signal Int_VBR is smaller than the brightness setting voltage Ext_VBR. The luminance level of the backlight unit 500 may be adjusted according to the gradation level of the image data R, G, and B displayed on the pixel of the liquid crystal panel 100, and the luminance variable signal Int_VBR is greater than the luminance setting voltage Ext_VBR. When the magnitude of the voltage is large, the luminance setting voltage Ext_VBR is provided to the backlight unit 500 as the driving voltage VBROut, so that the backlight is turned on by the luminance setting voltage Ext_VBR input by the user through the luminance adjusting input unit 300. The luminance level of the unit 500 can be maintained.

According to an exemplary embodiment of the present invention, a liquid crystal display and a brightness adjusting method thereof may include an average of gray level levels of image data R, G, and B within a range of a luminance setting voltage Ext_VBR input by a user by the inverter 400. By adjusting the brightness level of the backlight unit 500, the driving circuit 200 of the liquid crystal display device can be simplified, and the area of the printed circuit board on which the driving circuit 200 is mounted is adjusted. Can be effectively reduced. In addition, since the number of pins of the connector 230 of the driving circuit 200 required to adjust the brightness level of the backlight unit 500 can be reduced, the efficiency of the pins of the connector 230 of the driving circuit 200 can be effectively improved. Can be. In particular, when the liquid crystal display device is mounted in a portable electronic device such as a notebook computer, the utility of the connector 230 pin of the driving circuit 200 can be more effectively improved.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. I can understand that. Therefore, the above-described embodiments will be described in detail so that the disclosure of the present invention may be completed, and those skilled in the art may easily implement the technical idea of the present invention. Since it is provided to fully inform those skilled in the art the scope of the invention, it should be understood that it is illustrative in all respects and is not limited, and this invention is defined by the scope of a claim. It is only.

According to an exemplary embodiment of the present invention, a liquid crystal display and a brightness adjusting method thereof adjust brightness levels of a backlight unit according to an average of gray level levels of image data within a brightness setting voltage range input by a user. By adjusting, the driving circuit of the liquid crystal display device can be simplified, and the area of the printed circuit board (PCB) on which the driving circuit is mounted can be effectively reduced.

In addition, since the number of connector pins of the driving circuit required to adjust the brightness level of the backlight unit can be reduced, the utility of the connector pins of the driving circuit can be effectively improved. In particular, when the liquid crystal display device is mounted in a portable electronic device such as a notebook computer, the utility of the connector pin of the drive circuit can be improved more effectively.

Claims (4)

A liquid crystal panel in which pixels are formed at intersections of the plurality of gate lines and the plurality of data lines; A backlight unit providing light to the liquid crystal panel; An inverter configured to provide a driving voltage to the backlight unit to drive the backlight unit; A brightness adjustment input unit configured to receive a brightness adjustment start signal for starting adjustment of the brightness level of the backlight unit and a brightness setting voltage for setting the brightness level of the backlight unit; And A driving circuit which receives the luminance adjustment start signal from the luminance adjustment input unit and provides a luminance variable signal according to an average of gray level levels of image data displayed on pixels of the liquid crystal panel; When the inverter receives the brightness setting voltage from the brightness adjustment input unit and receives the brightness variable signal from the driving circuit, the inverter converts the brightness variable signal into a voltage smaller than the brightness setting voltage. And providing the backlight unit with the driving voltage and providing the luminance setting voltage as the driving voltage to the backlight unit when the voltage of the luminance variable signal is greater than the luminance setting voltage. The method of claim 1, The driving circuit A timing controller for providing image data displayed on pixels of the liquid crystal panel to the liquid crystal panel; A luminance variable signal providing unit receiving the luminance adjustment start signal from the luminance adjustment input unit and providing the luminance variable signal according to an average of gray level of image data displayed on the pixel of the liquid crystal panel; And And a connector for transmitting the luminance adjustment start signal to the luminance variable signal providing unit, transferring image data displayed on pixels of the liquid crystal panel to the liquid crystal panel, and transmitting the luminance variable signal to the inverter. Liquid crystal display. Receiving a brightness adjustment start signal for starting adjustment of the brightness level of the backlight unit and a brightness setting voltage for setting the brightness level of the backlight unit through the brightness adjustment input unit; A driving circuit receiving the luminance adjustment start signal from the luminance adjustment input unit and providing a luminance variable signal according to an average of gray level levels of image data displayed on pixels of a liquid crystal panel; And When the inverter receives the luminance setting voltage from the luminance adjusting input unit and receives the luminance variable signal from the driving circuit, the inverter outputs the luminance variable signal when the voltage of the luminance variable signal is smaller than the luminance setting voltage. Providing the backlight unit with the driving voltage and providing the brightness setting voltage as the driving voltage to the backlight unit when the magnitude of the voltage of the brightness variable signal is greater than the brightness setting voltage. Method of adjusting the brightness of the liquid crystal display device. The method of claim 3, wherein The driving circuit A timing controller for providing image data displayed on pixels of the liquid crystal panel to the liquid crystal panel; A luminance variable signal providing unit receiving the luminance adjustment start signal from the luminance adjustment input unit and providing the luminance variable signal according to an average of gray level of image data displayed on the pixel of the liquid crystal panel; And And a connector for transmitting the luminance adjustment start signal to the luminance variable signal providing unit, transferring image data displayed on pixels of the liquid crystal panel to the liquid crystal panel, and transmitting the luminance variable signal to the inverter. The brightness control method of the liquid crystal display device.

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