KR102284049B1 - Display device - Google Patents

Abstract

A display device according to the present invention includes: a pixel unit including a plurality of pixels; a timing controller for outputting a driving voltage control signal related to a voltage level corresponding to a variable frame frequency; a driving voltage generator configured to generate a gate-on voltage in response to the driving voltage control signal; and a gate driver outputting a gate signal having an amplitude corresponding to the gate-on voltage to the pixel unit.

Description

display device {DISPLAY DEVICE}

An embodiment of the present invention relates to a display device, and more particularly, to a display device capable of reducing power consumption.

With the development of information technology, the importance of a display device, which is a connection medium between a user and information, has been highlighted. In response to this, flat panel displays such as Liquid Crystal Display Device (LCD), Organic Light Emitting Display Device (OLED), and Plasma Display Panel (PDP), etc. FPD) is on the rise.

In general, a display device includes a data driver for supplying data signals to data lines, a gate driver for supplying gate signals to gate lines, and a pixel portion including gate lines and a plurality of pixels connected to the data lines. The pixels included in the pixel unit are selected when the gate signal is supplied to the gate line and receive the data signal from the data line. The pixels receiving the data signal display an image while generating light of a predetermined luminance corresponding to the data signal.

Various technologies have been studied for power consumption reduction technology of the data driver, which accounts for a large portion of the power consumption of the display device, but the technology for reducing power consumption of the gate driver is relatively limited. A more effective power consumption reduction technology applied to the gate driver is required.

Accordingly, it is an object of the present invention to provide a display device capable of reducing power consumption of a gate driver.

A display device according to an embodiment of the present invention includes: a pixel unit including a plurality of pixels; a timing controller for outputting a driving voltage control signal related to a voltage level corresponding to a variable frame frequency; a driving voltage generator configured to generate a gate-on voltage in response to the driving voltage control signal; and a gate driver outputting a gate signal having an amplitude corresponding to the gate-on voltage to the pixel unit.

In an embodiment, the timing controller may control the driving voltage generator to lower the voltage level of the gate-on voltage as the frame frequency decreases. In an embodiment, the apparatus further includes a lookup table (LUT) in which a voltage level corresponding to each of a plurality of frame frequencies is preset, wherein the timing controller selects the voltage level corresponding to the frame frequency by referring to the lookup table. there is.

In an embodiment, the timing controller may control the driving voltage generator to turn off power in a blank section of an image frame when the frame frequency is equal to or less than a reference value. In an embodiment, the reference value may be 30 Hz.

In an embodiment, the apparatus may further include a host that provides frequency information regarding one selected frame frequency to the timing controller. In an embodiment, a data driver for outputting a data signal to the pixel unit may be further included.

According to the present invention, power consumption can be reduced by outputting a gate signal having a reduced voltage level in response to a low frame frequency.

1 is a schematic configuration diagram of a display device according to an embodiment of the present invention.
FIG. 2A is a curve showing the relationship between the gate-on voltage corresponding to the frame frequency, and FIG. 2B is a diagram for explaining that the voltage level of the gate signal is variably controlled according to the frame frequency.
3 shows values set in a lookup table according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a display device according to an embodiment of the present invention.

Referring to FIG. 1 , a display device according to an exemplary embodiment includes a pixel unit 10 , a timing controller 20 , a driving voltage generator 30 , a gate driver 40 , and a data driver 50 . do.

The pixel unit 10 includes a plurality of pixels PX positioned at intersections of the gate lines Gn and the data lines Dm. The pixels PX store a data signal supplied from the data lines Dm when a gate signal is supplied from the gate lines Gn, and emit light with a luminance corresponding thereto.

The timing controller 20 controls the driving voltage generator 30 , the gate driver 40 , and the data driver 50 . Specifically, the timing controller 20 receives image data RGB and a clock signal CLK for controlling display thereof from the host 21 . The timing controller 20 may image-process the input image data RGB to generate image data RGB' corrected to be suitable for image display of the pixel unit 10, and the corrected image data RGB' may be generated. is provided to the data driver 50 . Also, the timing controller 20 generates and outputs driving control signals GCS and DCS for controlling the driving of the gate driver 40 and the data driver 50 based on the clock signal CLK.

Also, the timing controller 20 receives frequency information FF regarding the selected frame frequency from the host 21 . Here, the frame frequency is the number of gate signals supplied per one frame. The frame frequency may be changed according to user settings. The timing controller 20 controls the driving voltage generator 30 by outputting a driving voltage control signal VCS related to a voltage level corresponding to a variable frame frequency. The display device of the present embodiment may further include a lookup table (LUT) 25 in which voltage levels corresponding to a plurality of settable frame frequencies are set in advance, and the timing controller 20 refers to the lookup table 25 and A voltage level corresponding to any one set frame frequency can be selected.

The driving voltage generator 30 generates a gate-on voltage Von and a gate-off voltage Voff in response to the driving voltage control signal VCS of the timing controller 20 . Then, the generated gate-on voltage Von and gate-off voltage Voff are output to the gate driver 40 . Here, the gate-on voltage Von corresponds to a turn-on voltage that turns on a switching transistor (not shown) of the pixels PX, and the gate-off voltage Voff turns off the switching transistor. - Corresponds to the off voltage.

The driving voltage generator 30 converts a power voltage input from a predetermined power supply unit (not shown) to generate a gate-on voltage Von and a gate-off voltage Voff. The driving voltage generator 30 may include a voltage level transformation circuit to vary the voltage levels of the gate-on voltage Von and the gate-off voltage Voff. The driving voltage generator 30 decreases the voltage level of the gate-on voltage Von as the frame frequency decreases under the control of the timing controller 20 .

The gate driver 40 is connected to the plurality of gate lines Gn, generates a gate signal in response to the gate control signal GCS of the timing controller 20 , and outputs the generated gate signal to the gate lines Gn. do. In this case, the gate driver 40 outputs a gate signal having an amplitude corresponding to the gate-on voltage Von to the pixel unit 10 . The gate driver 40 may include a plurality of stage circuits, and when gate signals are sequentially supplied to the gate lines Gn, the pixels PX are selected in units of horizontal lines.

The data driver 50 is connected to the plurality of data lines Dm, generates a data signal in response to the data control signal DCS of the timing controller 20 , and outputs the generated data signal to the data lines Dm. do. The data signal supplied to the data lines Dm is supplied to the pixels PX selected by the gate signal whenever the gate signal is supplied. Then, the pixels PX of the pixel unit 10 are charged with a voltage corresponding to the data signal.

FIG. 2A is a curve showing the relationship between the gate-on voltage corresponding to the frame frequency, FIG. 2B is a diagram for explaining that the voltage level of the gate signal is variably controlled according to the frame frequency, and FIG. 3 is an embodiment of the present invention. These are the values set in the follow-up lookup table.

2A and 2B , as the frame frequency (Frame Freq) decreases, the required gate-on voltage (Von) decreases, and as the frame frequency increases, the required gate-on voltage (Von) also increases. When the frame frequency is low, one horizontal period (1H time) of the gate-on voltage Von in one frame increases, and when the frame frequency is high, one horizontal period in one frame decreases. In the pixel unit 10, pixel charging should be performed within one horizontal period. When the frame frequency is low, one horizontal period is increased, so that the pixel charging is sufficiently performed even with the gate-on voltage Von of a lower voltage level, so that the magnitude of the gate-on voltage Von can be reduced.

The display device of the present invention can reduce power consumption by outputting a gate signal having a reduced voltage level in response to a low frame frequency. Specifically, the timing controller 20 outputs a driving voltage control signal VCS related to a voltage level corresponding to the frame frequency, and the driving voltage generator 30 controls the frame frequency by the control of the timing controller 20 . As it becomes lower, the voltage level of the gate-on voltage Von is decreased. In addition, the gate driver 40 outputs a gate signal having a magnitude corresponding to the gate-on voltage Von to the pixel unit 10 .

For example, when the frame frequency is set to 60 Hz, the gate driver 40 outputs the gate-on voltage Von having the first voltage level V1, and when the frame frequency is set to 30 Hz, the gate driver 40 outputs a gate-on voltage Von having a second voltage level V2 smaller than the first voltage level V1. Accordingly, it is possible to reduce power consumption during low-frequency driving.

Referring to FIG. 3 , an appropriate gate-on voltage Von matching a frame frequency settable by the display device is previously stored in the lookup table 25 . Here, the magnitude of the gate-on voltage Von may be calculated by an experimental/statistical method according to a panel model of the display device. The timing controller 20 controls the driving voltage generator 30 to output the gate-on voltage Von corresponding to the currently set frame frequency with reference to the lookup table 25 .

Meanwhile, when the frame frequency is equal to or less than the reference value, the timing controller 20 may control the driving voltage generator 30 to turn off the power in a blank section of the image frame. Here, the reference value may be set to 30 Hz. That is, when the frame frequency is 30 Hz or less, power consumption can be further reduced by not generating a gate signal in a blank section in which no data signal is input.

Although the technical spirit of the present invention has been specifically described according to the above preferred embodiments, it should be noted that the above-described embodiments are for explanation and not for limitation. In addition, those of ordinary skill in the art will understand that various modifications are possible within the scope of the technical spirit of the present invention.

10: pixel unit 20: timing control unit
21: host 25: lookup table
30: driving voltage generating unit 40: gate driving unit
50: data driving unit

Claims (7)

a pixel unit including a plurality of pixels;
a timing controller for outputting a driving voltage control signal related to a voltage level corresponding to a variable frame frequency;
a driving voltage generator configured to generate a gate-on voltage in response to the driving voltage control signal; and
a gate driver outputting a gate signal having an amplitude corresponding to the gate-on voltage to the pixel unit;
The timing control unit,
and controlling the driving voltage generator so that power is turned off in a blank section of an image frame when the frame frequency is less than or equal to a reference value. The method of claim 1,
and the timing controller controls the driving voltage generator to lower the voltage level of the gate-on voltage as the frame frequency decreases. The method of claim 1,
Further comprising a lookup table (LUT) in which the voltage level corresponding to each of the plurality of frame frequencies is set in advance,
and the timing controller selects the voltage level corresponding to the frame frequency by referring to the lookup table. delete The method of claim 1,
The reference value is a display device, characterized in that 30Hz. The method of claim 1,
The display device of claim 1, further comprising: a host that provides frequency information regarding the selected one frame frequency to the timing controller. The method of claim 1,
and a data driver outputting a data signal to the pixel unit.

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