KR20100071845A - Liquid crystal display device - Google Patents

Abstract

PURPOSE: A liquid crystal display device is provided to calculate the value of power consumption using the pulse width modulation signal of an inverter. CONSTITUTION: A histogram analysis unit(104) generates a histogram based on the gradation difference of an RGB pixel data which is input from the outside. A gain value extraction unit(105) outputs a gain value based on the histogram analysis result. A dimming signal generator(106) generates dimming signal based on the gain value. A pulse width modulation signal in which a duty rate is varied is generated using the dimming signal. A power consumption calculator(108) calculates a power consumption value which is corresponds to the pulse width modulation signal. A power consumption display data is output to a timing control unit(103).

Description

[0001] LIQUID CRYSTAL DISPLAY DEVICE [0002]

The present invention relates to a liquid crystal display device, and in particular, it is possible to measure power consumption without providing a power consumption measuring device that directly measures power consumption, and to display the power consumption on a screen of a liquid crystal panel in various ways. It relates to a possible liquid crystal display device.

In general, the liquid crystal display device has a trend that the application range is gradually widened due to the characteristics such as light weight, thin, low power consumption. Accordingly, the liquid crystal display device is widely used as a portable computer such as a notebook PC, office automation equipment, audio / video equipment, and the like.

In general, a liquid crystal display device displays a desired image on a screen by adjusting the amount of light transmitted according to image signals applied to a plurality of control switching elements arranged in a matrix.

The liquid crystal display device includes a liquid crystal panel in which a color filter substrate as an upper substrate and a thin film transistor array substrate as a lower substrate are opposed to each other, and a liquid crystal layer is filled between the two substrates, and a scan signal and image information are supplied to the liquid crystal panel to provide a liquid crystal. It comprises a drive unit for operating the panel.

In the liquid crystal display device having such a configuration, consumer expectation for a model in which power consumption is minimized has recently increased, and various methods for minimizing power consumption have been attempted.

Among the various methods for minimizing the power consumption as described above, the most widely used method is to control the lighting time or emission luminance of the backlight which consumes the most power in driving the liquid crystal display, and is a linear dimming method. Linear dimming adjusts the magnitude of the input current supplied to the lamp of the backlight, i.e., the amplitude level of the input current, and the burst dimming method adjusts the on / off time interval of the lamp of the backlight, That is, the on duty width of the input current is adjusted.

When the power consumption is minimized as described above, in order to check the degree of power saving, the voltage measurement unit is connected in parallel to a power cable connected to the system of the liquid crystal display to measure the voltage, and the power cable is cut. The current was measured by connecting the current measuring unit in series, and the power consumption value was found by multiplying the measured voltage value with the current value.

That is, referring to FIG. 1, in order to measure a power consumption value in a conventional general liquid crystal display device 10, a power consumption measuring apparatus 11 including a voltage measuring unit 11a and a current measuring unit 11b may be used. Separately provided, the power consumption display device 12 for finding and displaying the power consumption value by multiplying the voltage value and the current value measured by the power consumption measuring device 11 is also provided separately.

The conventional liquid crystal display device as described above has a problem in that the power cable 13 connected to the system of the liquid crystal display device 10 must be cut in order to measure the power consumption value. Therefore, there is a demand for a method of measuring power consumption without cutting the power cable 13.

Accordingly, the present invention is to solve the above problems, an object of the present invention is to indirectly measure the power consumption using the pulse width modulated signal of the inverter without separately providing a power consumption measuring device for measuring the power consumption. It is possible to provide a liquid crystal display device capable of displaying the power consumption in various ways on a screen of a liquid crystal panel.

Another object of the present invention is to provide a liquid crystal display device capable of measuring power consumption without cutting a power cable supplied to a system of the liquid crystal display device.

The present invention for achieving the above object is a liquid crystal panel; A backlight including at least one lamp supplying light to the liquid crystal panel; A timing controller which generates a control signal for driving the liquid crystal panel using signals input from the outside and rearranges and outputs pixel data of three colors input from the outside; A histogram analyzer for generating a histogram according to the gradation difference of the pixel data of the three colors input from the timing controller; A gain value extraction unit for outputting a gain value by using the histogram from the histogram analyzer and a saturation setting value set by a user; A dimming signal generator for generating a dimming signal according to a gain value received from the gain value extracting unit; An inverter configured to receive a dimming signal from the dimming signal generator to generate a pulse width modulated signal having a variable duty ratio and to control an on / off time of a lamp according to the pulse width modulated signal; A power consumption lookup table that stores at least a maximum power consumption value when the duty ratio of the pulse width modulated signal is maximum and a minimum power consumption value when the duty ratio of the pulse width modulated signal is minimum; A power consumption display memory for storing power consumption display data for displaying a power consumption value on a liquid crystal panel; And calculating a power consumption value corresponding to the pulse width modulated signal from the inverter with reference to the power consumption lookup table, selecting power consumption display data corresponding to the calculated power consumption value from the power consumption display memory, and outputting the same to the timing controller. A power consumption calculator; Characterized in that configured to include.

In the liquid crystal display according to the preferred embodiment of the present invention having the above-described configuration, it is possible to find a power consumption value by using a pulse width modulated signal of an inverter without separately providing a power consumption measuring device for measuring power consumption. There are possible advantages.

In addition, the present invention as described above has the advantage that it is possible to display the power consumption value found by using the pulse width modulation signal of the inverter in various ways on the screen of the liquid crystal panel.

In addition, the present invention as described above has the advantage of not having to cut the power cable supplied to the system that has been conventionally problem because the power consumption value is determined using the pulse width modulation signal of the inverter.

Hereinafter, a liquid crystal display according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, a liquid crystal display according to a preferred embodiment of the present invention includes a liquid crystal panel 101; A backlight (102) comprising at least one lamp for supplying light to the liquid crystal panel (101); A timing controller 103 generating a control signal for driving the liquid crystal panel 101 using signals input from the outside and rearranging and outputting pixel data of three colors (R, G, B) input from the outside; A histogram analyzing unit 104 generating a histogram according to the gradation difference between pixel data of three colors R, G, and B input from the outside; A gain value extracting unit 105 for outputting a gain value using the histogram analysis result from the histogram analyzing unit 104; Generates a dimming signal according to a gain value received from the gain value extracting unit 105, and uses a dimming signal to change a duty ratio of a pulse width modulation signal. A dimming signal generator 106 generating a PWM signal; An inverter 107 for controlling an ON / OFF time of a lamp according to the pulse width modulation signal; A power consumption lookup table (LUT) 109 which stores at least a maximum power consumption value when the duty ratio of the pulse width modulated signal is maximum and a minimum power consumption value when the duty ratio of the pulse width modulated signal is minimum; A power consumption display memory 110 in which power consumption display data for displaying the power consumption value on the liquid crystal panel 101 is stored; And a power consumption value corresponding to the pulse width modulated signal from the inverter 107 with reference to the power consumption lookup table 109, and displays the power consumption display data corresponding to the calculated power consumption value in the power consumption display memory ( And a power consumption calculator 108 selected from the 110 and output to the timing controller 103.

Each component included in the liquid crystal display according to the preferred embodiment of the present invention having such a configuration will be described in detail as follows.

Referring to FIG. 2, gate lines GL1 to GLn and data lines GL1 to GLm are formed on the liquid crystal panel 101 so as to cross each other vertically and horizontally to define a plurality of pixels. A thin film transistor is formed in a region where the GL1 to GLn and the data lines GL1 to GLm cross and are connected to the gate lines GL1 to GLn and the data lines GL1 to GLm. The plurality of pixels defined in the liquid crystal panel 101 are redefined as unit pixels including red, green, and blue subpixels, and the red, green, and blue subpixels.

A liquid crystal display according to a preferred embodiment of the present invention is provided with a backlight 102 for supplying light to the liquid crystal panel 101. Although not shown in detail in the drawing, the backlight 102 includes a lamp for emitting light and And an optical sheet for diffusing and condensing light from the lamp and supplying the light to the liquid crystal panel 101.

Referring to FIG. 2, a liquid crystal display according to an exemplary embodiment of the present invention includes various elements such as a timing controller 103, a gate driver 111, and a data driver 112 to drive pixels of the liquid crystal panel 101. Drive means are provided.

The timing controller 103 generates a gate control signal for controlling the gate driver 111 using signals input from an external device (eg, a system), and generates a data control signal for controlling the data driver 112. The pixel data from the outside is rearranged and supplied to the data driver 112.

Referring to FIG. 2, the histogram analyzer 104 frames a histogram for each gray level using a gray level difference of three color (R, G, B) data of each unit pixel input from the outside. Extract every time. That is, the histogram analysis unit 104 detects the maximum gray value and the minimum gray value of the three-color (R, G, B) data corresponding to each unit pixel, and uses the difference between the maximum gray value and the minimum gray value. By counting the number of pixels for each gray level difference, a histogram for each gray level difference is extracted.

Referring to FIG. 2, the gain value extractor 105 obtains a gain value k according to Equation 1 below using the histogram analysis result from the histogram analyzer 104.

In Equation 1, k is a gain value, and gray _max is a maximum gray value corresponding to the number of bits of pixel data of three colors. Then, the point at which the equation data_ _max is the highest gray level of one frame in the case that the gray level saturation set value is set by a user, than the gray level saturation set value in the case by a user with the gray scale saturation set value set The gray scale value of.

Referring to FIG. 2, the dimming signal generator 106 generates a dimming signal according to a gain value received from the gain value extracting unit 105, and uses a duty ratio using the dimming signal. A pulse width modulation signal (PWM signal) having a variable duty rate is generated.

Referring to FIG. 2, the inverter 107 controls the on / off time of the lamp according to a pulse width modulation signal (PWM signal) from the dimming signal generator 106. In this case, a high section of the pulse width modulation signal is a section for turning on the lamp and a low section is a section for turning off the lamp.

Referring to FIG. 2, the power consumption lookup table 109 includes at least a maximum power consumption value when the duty rate of the pulse width modulated signal is maximum and a minimum value when the duty ratio of the pulse width modulated signal is minimum. The power consumption value is stored. However, the present invention is not limited thereto, and the power consumption lookup table 109 includes the maximum power consumption value and the minimum power consumption value as described above, and at least between the maximum duty ratio and the minimum duty ratio of the pulse width modulated signal. Various examples are possible without departing from the gist of the present invention, such as an intermediate power consumption value for one duty ratio.

Although not shown in detail in the drawing, the maximum power consumption value, the minimum power consumption value, and the intermediate power consumption value stored in the power consumption lookup table 109 may be used in advance by using the power consumption measurement device when the LCD is manufactured. As a value obtained by measuring, connect the voltage measurement unit of the power consumption measuring device in parallel to the power cable connected to the system of the liquid crystal display, measure the voltage, and connect the power cable connected to the system of the liquid crystal display. It is the value obtained by multiplying the measured voltage value and the current value after cutting and measuring the current by connecting the current measuring part of the power consumption measuring device in series. As described above, the operation of obtaining the maximum power consumption value, the minimum power consumption value, and the intermediate power consumption value of the power consumption lookup table using the power consumption measurement device is performed in the manufacturing process of the liquid crystal display device. It does not need to be performed.

Referring to FIG. 2, the power consumption display memory 110 stores power consumption display data for directly displaying the power consumption value calculated by the power consumption calculator 108 on the screen of the liquid crystal panel 101.

Referring to FIG. 2, the power consumption calculator 108 calculates and calculates a power consumption value corresponding to the current pulse width modulated signal from the inverter 107 with reference to the power consumption lookup table 109. Power consumption display data corresponding to the power consumption value is selected from the power consumption display memory 110 and output to the timing controller 103. That is, the power consumption calculator 108 calculates the current power consumption value by substituting the current pulse width modulation signal into a proportional expression using the maximum power consumption value and the minimum power consumption value stored in the power consumption lookup table 109. do. As such, it is possible to calculate the current power consumption value by substituting the current pulse width modulation signal into a proportional expression using the maximum power consumption value and the minimum power consumption value stored in the power consumption lookup table 109. This is because the duty rates of the width modulated signals are linear to each other.

The timing controller 103 which receives the power consumption display data from the power consumption calculator 108 supplies the power consumption display data to the data driver 112 so that the power consumption value is displayed on the liquid crystal panel 101. In this case, the power consumption display data includes pixel data of three colors (R, G, B).

In addition, the power consumption value displayed on the liquid crystal panel 101 may be displayed in various ways, such as numbers or graphs, and may be displayed in various ways in terms of size, position, and color.

In the description of the present invention, only the current power consumption is displayed on the screen of the liquid crystal panel 101 as an example. However, the present invention is not limited thereto. Various examples are possible without departing from the gist of the present invention, such as by calculating and displaying the consumed power consumption and the electric charge.

The liquid crystal display according to the preferred embodiment of the present invention as described above has the advantage that it is possible to find the power consumption value by using the pulse width modulated signal of the inverter without separately providing a power consumption measuring device for measuring the power consumption. There is this.

In addition, the present invention as described above has the advantage that it is not necessary to cut the power cable supplied to the system that has been conventionally problem because the power consumption value is determined by using the pulse width modulation signal of the inverter.

In addition, the present invention as described above has the advantage that it is possible to display the power consumption value found by using the pulse width modulation signal of the inverter in various ways on the screen of the liquid crystal panel.

1 is a block diagram illustrating a conventional general liquid crystal display and a power consumption measuring device.

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

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

101: liquid crystal panel 102: backlight

103: timing controller 104: histogram analysis unit

105: gain value extraction section 106: dimming signal generator

107: inverter 108: power consumption calculator

109: power consumption lookup table 110: power consumption display memory

111: gate driver 112: data driver

Claims (6)

A liquid crystal panel; A backlight including at least one lamp supplying light to the liquid crystal panel; A timing controller which generates a control signal for driving the liquid crystal panel using signals input from the outside and rearranges and outputs pixel data of three colors input from the outside; A histogram analyzer for generating a histogram according to a gray level difference of pixel data of three colors input from the outside; A gain value extraction unit for outputting a gain value using the histogram analysis result from the histogram analyzer; A dimming signal generator for generating a dimming signal according to a gain value received from the gain value extracting unit, and generating a pulse width modulated signal having a variable duty ratio using the dimming signal; An inverter controlling an on / off time of a lamp according to a pulse width modulation signal from the dimming signal generator; A power consumption lookup table that stores at least a maximum power consumption value when the duty ratio of the pulse width modulated signal is maximum and a minimum power consumption value when the duty ratio of the pulse width modulated signal is minimum; A power consumption display memory for storing power consumption display data for displaying the power consumption value on the liquid crystal panel; And The power consumption value corresponding to the pulse width modulated signal from the inverter is calculated by referring to the power consumption lookup table, and power consumption display data corresponding to the calculated power consumption value is selected from the power consumption display memory and output to the timing controller. Power consumption calculator; Liquid crystal display device comprising a. The liquid crystal display of claim 1, wherein the timing controller supplies the power consumption display data input from the power consumption calculator to the liquid crystal panel so that the power consumption value is displayed on the liquid crystal panel. The liquid crystal display device according to claim 2, wherein the power consumption value displayed on the liquid crystal panel is a number or a graph. The liquid crystal display device according to claim 2, wherein the size, position, and color of power consumption values displayed on the liquid crystal panel can be adjusted. The liquid crystal display of claim 1, wherein a duty ratio and power consumption of the pulse width modulated signal are linear to each other. The liquid crystal display of claim 1, wherein the power consumption lookup table stores an intermediate power consumption value for at least one duty ratio between a maximum duty ratio and a minimum duty ratio of a pulse width modulated signal.

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