KR20150028091A - Display apparatus and display method - Google Patents

Abstract

Disclosed is a display device. the device includes: a display unit which includes a plurality of pixel groups composed of a plurality of self-emitting pixels; and a control unit which turns off at least a pixel in the pixel groups individually in a saving mode.

Description

[0001] DISPLAY APPARATUS AND DISPLAY METHOD [0002]

The present invention relates to a display device and a display method, and more particularly, to a display device and a display method for turning off at least one of a plurality of self-luminous pixels.

In recent years, display devices having various forms and uses have been introduced. They are applicable not only to fixed display devices such as digital TVs but also to portable devices such as smart phones, tablet PCs, and PDAs.

Meanwhile, an organic electroluminescence display device is a display device for electrically exciting a fluorescent organic compound to emit light. The organic electroluminescence display device is capable of displaying images by voltage driving or current driving of a plurality of organic light emitting cells arranged in a matrix form. These organic light emitting cells have a diode characteristic and are called an organic light emitting diode (OLED). Such an organic light emitting display device has self-luminescence characteristics, and thus it does not require a separate light source, and has attracted attention as a next generation display device because of its advantages such as low power consumption, high luminance, and high reaction speed. Further, the organic electroluminescence display device has excellent electron mobility and can be applied to a high-speed operation circuit.

However, unlike a fixed display device, a portable device including such an organic light emitting display device is supplied with power by a rechargeable battery. Therefore, it is very important to increase the use time of the device by reducing power consumption.

It is an object of the present invention to provide a display device and a display method for turning off at least one of a plurality of self-luminous pixels when a power saving mode is executed.

In order to achieve the above object, a display device according to an embodiment of the present invention includes a display unit including a plurality of pixel groups each consisting of a plurality of self-emitting pixels, And turning off at least one pixel in the pixel.

The display device may further include a battery for supplying power to the display device, and the control unit may automatically execute the power saving mode when the power level of the battery is less than a predetermined level.

The control unit may divide the screen of the display unit into a plurality of screen areas and may turn off at least one pixel in each pixel group according to a power saving mode for a pixel group corresponding to at least one screen area among a plurality of screen areas have.

When the object is displayed on the display unit, the control unit turns on all the pixels for the pixel group corresponding to the display area in which the object is displayed. For the pixel group corresponding to the remaining area, at least one Lt; RTI ID = 0.0 > off. ≪ / RTI >

In addition, the object may be at least one of an icon, an OSD message, and a widget, and the remaining area may be a background screen in which an object is not displayed.

The controller may further include a sensing unit for sensing the external illuminance, and the control unit may execute the power saving mode when the external illuminance sensed by the sensing unit is less than a predetermined level.

Further, the display unit may display an inquiry message inquiring whether or not to display in the power saving mode.

In addition, the controller divides one image frame into a plurality of horizontal lines, sequentially scans a plurality of horizontal lines on the display unit, and for a portion where a difference in pixel values between adjacent pixels in a horizontal line to be scanned is equal to or less than a predetermined value The scan may be performed according to the power saving mode, and the power saving mode may be canceled for the portion exceeding the preset value.

In addition, the power saving mode is divided into a plurality of steps, and the control unit can adjust the number of pixels turned off in the pixel group for each step differently.

In addition, the pixel group is divided into four pixels arranged in a 2x2 form, and the power saving mode is divided into a first power saving mode, a second power saving mode, and a third power saving mode. In the first power saving mode, In the second power save mode, two pixels located in the diagonal direction among the four pixels are turned off, and in the third power save mode, three pixels out of the four pixels can be turned off.

According to another aspect of the present invention, there is provided a display method comprising: displaying an image through a display unit including a plurality of pixel groups each of which is composed of a plurality of self-emitting pixels; And turning off at least one pixel in each of the pixels.

The method may further include automatically executing the power save mode when the power level of the battery for supplying power to the display device is less than a predetermined level.

When the screen of the display unit is divided into the plurality of screen areas, turning off at least one pixel in each pixel group according to the power saving mode for a pixel group corresponding to at least one screen area among the plurality of screen areas .

When an object is displayed on the display unit, all the pixels are turned on for the pixel group corresponding to the display area where the object is displayed, and for at least one pixel in each pixel group for the pixel group corresponding to the remaining area, And turning off the power supply.

In addition, the object may be at least one of an icon, an OSD message, and a widget, and the remaining area may be a background screen in which an object is not displayed.

The method may further include the step of sensing the external illuminance and executing the power save mode when the sensed external illuminance is less than a predetermined level.

Also, the power saving mode is divided into a plurality of steps, and the number of pixels turned off in the pixel group can be adjusted differently for a plurality of steps.

In addition, the pixel group is composed of four pixels arranged in a 2x2 form, and the power saving mode is divided into a first power saving mode, a second power saving mode, and a third power saving mode. In the first power saving mode, Turning off one of the four pixels, turning off two pixels in the diagonal direction among the four pixels in the second power save mode, and turning off three pixels out of the four pixels in the third power save mode .

According to various embodiments of the present invention, the visibility of the user on the display screen can be ensured and the power consumption of the display device can be reduced.

1 is an example of a block diagram of a display device according to an embodiment of the present invention,
FIG. 2 illustrates an example of a plurality of screen areas according to an exemplary embodiment of the present invention,
3-6 illustrate an example of a display screen according to various embodiments of the present invention,
FIG. 7 illustrates an example of a display screen according to another embodiment of the present invention,
8 is an example of a detailed configuration of a display unit according to an embodiment of the present invention,
9 is an example of a flowchart of a display method according to an embodiment of the present invention,
10 to 12 show another example of a display screen according to various embodiments of the present invention,
13 is an example of a block diagram of a display apparatus according to another embodiment of the present invention.

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

1 is an example of a block diagram of a display device 100 according to an embodiment of the present invention. Referring to FIG. 1, a display device 100 according to an exemplary embodiment of the present invention includes a control unit 120 and a display unit 110.

The display unit 110 may display an image frame under the control of the control unit 120. [ Here, the image frame may be a still image, a moving image, or the like.

In addition, the display unit 110 may include a plurality of self-emitting pixels. A plurality of pixels can be grouped in a predetermined number of pixels. That is, the display unit 110 includes a plurality of pixel groups, and each pixel group includes a plurality of pixels that self-emit light. Each pixel may be composed of a self-luminous element. Here, the self-luminous element may not be an element that indirectly emits light by a backlight, but may be an element capable of expressing an image by directly emitting light by itself. As such, the self-luminous element may be an OLED (Organic Light Emitting Diode), an AMOLED (Active Matrix OLED) or the like.

On the other hand, each of the plurality of self-emitting pixels may be individually turned on or off by the control unit 120. That is, one of the plurality of pixels may be turned on by the control unit 120, and the other may be turned off by the control unit 120. Accordingly, the display unit 110 can display one image frame by a plurality of pixels that are individually turned on or off.

The control unit 120 may control the display unit 110 including a plurality of pixels that self-emit light. In particular, the controller 120 may turn off at least one of the plurality of pixels when the display device 100 is in the power saving mode. That is, when the display device 100 is in the non-power saving mode or the general mode, the display device 100 turns on all of the plurality of pixels, and when the display device 100 is in the power saving mode, One can be turned off.

On the other hand, two or more pixels may be grouped to form one pixel group, and one formed pixel group may form one screen region. One pixel group may form one screen area, and each of the plurality of screen areas may include the same number of pixels. In addition, an image corresponding to one screen area can be displayed while each pixel included in one screen area is turned on or off. Therefore, a plurality of screen areas can form a full screen. This will be described in detail in FIG.

2 is an example of a plurality of screen areas according to an embodiment of the present invention.

As shown in FIG. 2, the entire screen of the display unit 110 may be divided into a plurality of screen areas. That is, the control unit 120 may divide the entire screen of the display unit 110 into a plurality of screen regions, and may turn on / off the pixels individually in the pixel groups corresponding to the respective screen regions.

Referring to FIG. 2, the display unit 110 is divided into n screen regions in the horizontal direction and m screen regions in the vertical direction. Accordingly, the entire screen of the display unit 110 can have m * n screen areas.

The plurality of divided screen areas can display an image corresponding to each screen area. In this case, the controller 120 can adjust the pixel level corresponding to at least one of the plurality of divided screen areas. That is, the control unit 120 turns on all the pixels in the pixel group in some screen regions among the plurality of screen regions, and turns on only a part of the pixels in the pixel group in another screen region, It is possible to adjust the average pixel value or the luminance value to be different.

Accordingly, the 1-1 screen area 110-1-1 and the 1-2 screen area 110-1-2 may have the same pixel level according to the image frame displayed in each screen area, You can also have a level. The power saving mode will be described in detail in Fig. 3 to Fig.

In FIG. 2, a boundary line is shown for the purpose of distinguishing the boundary of the screen area, but such a boundary line is only shown for the sake of explanation. That is, the boundary between the screen areas shown in FIG. 2 only means the boundary between the pixel groups. Specifically, the entire screen of the display unit 110 is composed of a plurality of screen areas, and one screen area is composed of a plurality of pixels. The number of pixels included in one screen area can be arbitrarily set. More specifically, one screen area is n ² (N is a natural number) pixels, and preferably one screen region may include four pixels. FIG. 2 shows a case where four pixels are included in one screen area. In this case, one pixel group may be composed of 4 pixels arranged in 2x2 form. If nine pixels are included in one screen area, one pixel group may include nine pixels arranged in a 3x3 form.

The 1-1 screen area 110-1-1 includes a first pixel 110-1-1-1 through a fourth pixel 110-1-1-4, and the first pixel 110-1 -1-1) to the fourth pixel 110-1-1-4 may form one pixel group. In this case, the controller 120 may turn off at least one pixel in each pixel group according to the power save mode for a pixel group corresponding to at least one of the plurality of screen regions. In other words, the controller 120 controls at least one of the first pixel 110-1-1-1 through the fourth pixel 110-1-1-4 of the 1-1 screen area 110-1-1 Can be turned off. Specifically, the controller 120 may turn on all of the first pixels 110-1-1-1 through 110-1-1-4, and may turn off at least one of the first pixels 110-1-1-1 through the fourth pixels 110-1-1-4. The same applies to the remaining screen areas. In addition, all the pixels are turned on in the 1-1 screen area 110-1-1, only one pixel is turned off in the 1-2 screen area 110-1-2, In the 2-1 screen region 110-2-1, two pixels may be turned off. Accordingly, a plurality of screen areas can display an image corresponding to each screen area.

Hereinafter, the operation of each pixel included in one screen area according to the power saving mode will be described.

3 to 6 show an example of a display screen according to various embodiments of the present invention.

3 to 6 show the operation of each pixel in the various power saving modes and the entire screen of the display unit 110 accordingly. That is, the power saving mode can be divided into a plurality of steps, and when four pixels are included in one screen area, the power saving mode can be classified into a non-power saving mode, a first power saving mode, a second power saving mode, have. Similarly, when nine pixels are included in one screen area, it may be classified into a non-power saving mode and a first power saving mode to an eighth power saving mode. Accordingly, the controller 120 may adjust the number of pixels to be turned off within one screen region, for each step.

FIG. 3 shows the entire screen of the display unit 110 according to the operation of each pixel included in one screen area in the non-power saving mode. Referring to FIG. 3, in the non-power saving mode, all the four pixels included in the 1-1 screen area 110-1-1 are turned on. That is, the non-power saving mode may mean that an image frame is displayed when all the pixels are turned on. Accordingly, in the non-power saving mode, the controller 120 may turn on all the plurality of pixels to display image frames. That is, since all the pixels are turned on in the non-power saving mode, the pixel level of the displayed image frame is the highest, and may be the state consuming the most power.

4 is a view showing the entire screen of the display unit 110 according to the operation of each pixel included in one screen area in the first power saving mode. Referring to FIG. 4, in the first power save mode, one of the four pixels included in the 1-1 screen area 110-1-1 is turned off. That is, the first power saving mode may mean that an image frame is displayed in a state where one pixel among a plurality of pixels included in one screen area is turned off. Accordingly, in the first power save mode, the controller 120 may turn off one of the plurality of pixels included in one screen area to display an image frame.

Here, the position of one pixel turned off in any one screen region may be the same as the position of one pixel turned off in another screen region. For example, if a pixel turned off in the 1-1 screen area 110-1-1 is the first pixel 110-1-1-1 in the 1-1 screen area 110-1-1 , And a pixel turned off in the first-n screen region may also be the first pixel 110-1-n-1 of the first-n screen region 110-1-n. Similarly, when the pixel turned off in the 1-1 screen area 110-1-1 is the second pixel 110-1-1-2 in the 1-1 screen area 110-1-1, A pixel turned off in the 1-n screen region 110-1-n may also be the second pixel 110-1-n-2 in the first-n screen region 110-1-n.

Accordingly, in the first power saving mode, since one of the plurality of pixels included in one screen area is turned off, the pixel level of the displayed image frame is lower than the non-power saving mode, It may be in a state of consuming less power than the power consumption. That is, when the right drawing of FIG. 3 showing the display screen in the non-power saving mode is compared with the right drawing of FIG. 4 showing the display screen in the first power saving mode, The screen of the display unit 110 is entirely darkened, but the visibility of the user is ensured, and at the same time, less power can be consumed.

FIG. 5 shows the entire screen of the display unit 110 according to the operation of each pixel included in one screen area in the second power save mode. Referring to FIG. 5, in the second power save mode, two pixels among the four pixels included in the 1-1 screen area 110-1-1 are turned off. That is, the second power saving mode may mean that an image frame is displayed in a state where two pixels among a plurality of pixels included in one screen area are turned off. Accordingly, in the second power save mode, the controller 120 may turn off two pixels among a plurality of pixels included in one screen area to display an image frame.

Here, the two pixels to be turned off may be positioned diagonally to each other. Referring to FIG. 5, the first pixels 110-1-1-1 and the fourth pixels 110-1-1-4 located in diagonal directions are turned off, and the second pixels 110-1-1-1 and 110-1-1-4, The pixels 110-1-1-2 and the third pixels 110-1-1-3 are turned on. However, the present invention is not limited to this, and the second pixels 110-1-1-2 and the third pixels 110-1-1-3 located in the diagonal directions may be turned off, It goes without saying that the first pixel 110-1-1-1 and the fourth pixel 110-1-1-4 may be turned on.

In addition, the positions of two pixels turned off in one screen area may be the same as the positions of two pixels turned off in the other screen area. For example, a pixel turned off in the 1-1 screen area 110-1-1 is divided into a first pixel 110-1-1-1 in the 1-1 screen area 110-1-1, The pixels turned off in the first-n screen area 110-1-n are also turned off in the first pixel area 110-1-n of the first-n screen area 110-1-n, (110-1-n-1) and the fourth pixel 110-1-n-4. Similarly, a pixel turned off in the 1-1 screen area 110-1-1 is the second pixel 110-1-1-2 in the 1-1 screen area 110-1-1, The pixels turned off in the first-n screen region 110-1-n are also displayed in the second pixels 110-1-n of the first-n screen region 110-1-n, -1-n-2 and the third pixel 110-1-n-3.

Therefore, in the second power saving mode, two pixels out of the plurality of pixels included in one screen area are turned off, so that the pixel level of the displayed image frame is lower than that of the first power saving mode, Mode may consume less power than the mode. That is, when the right drawing of FIG. 4 showing the display screen in the first power saving mode is compared with the right drawing of FIG. 5 showing the display screen in the second power saving mode, The screen of the display unit 110 is entirely darkened, but the visibility of the user is ensured, and at the same time, less power can be consumed.

6 is a view showing the entire screen of the display unit 110 according to the operation of each pixel included in one screen area in the third power saving mode. Referring to FIG. 6, in the third power save mode, three pixels among the four pixels included in the 1-1 screen area 110-1-1 are turned off. That is, the third power saving mode may mean that an image frame is displayed in a state where three pixels among a plurality of pixels included in one screen area are turned off. Accordingly, in the third power save mode, the controller 120 may turn off three pixels among a plurality of pixels included in one screen area to display an image frame.

Here, the positions of three pixels turned off in any one screen region may be the same as the positions of three pixels turned off in another screen region. For example, when a pixel turned off in the 1-1th screen area 110-1-1 is the first pixel 110-1-1-1 in the 1-1 screen area 110-1-1, The pixels turned off in the first-n screen area 110-1-n are also turned off in the first pixel area 110-1-n of the first-n screen area 110-1-n, (110-1-n-1) to the third pixel 110-1-n-3.

Accordingly, in the third power saving mode, three pixels among the plurality of pixels included in one screen area are turned off, so that the pixel level of the displayed image frame is lower than that of the second power saving mode, Mode may consume less power than the mode. That is, when the right drawing of FIG. 5 showing the display screen in the second power saving mode and the right drawing of FIG. 6 showing the display screen in the third power saving mode are compared with each other, The screen of the display unit 110 is entirely darkened, but the visibility of the user is ensured, and at the same time, less power can be consumed.

7 is an example of a display screen according to another embodiment of the present invention.

Referring to FIG. 7, the entire screen of the display unit 110 may be divided into a plurality of screen areas. The plurality of divided screen areas can display an image corresponding to each screen area. In this case, the control unit 120 may adjust the pixel levels of the plurality of screen regions equally or may be different from each other. In addition, as shown in FIG. 7, the entire screen of the display unit 110 may be divided into a plurality of horizontal lines and a plurality of vertical lines to form a plurality of screen areas. As described above, a plurality of pixels can be included in a plurality of screen areas. This is the same as that described in Fig.

The control unit 120 can sequentially scan a plurality of horizontal lines by dividing one image frame into a plurality of horizontal lines. That is, the control unit 120 controls the first to eighth screen areas 110-1-1, the first to eighth screen areas 110-1-2, the first to eighth screen areas 110-1-3, You can scan sequentially in order. In this case, the control unit 120 controls the first pixel 110-1-1-1 of the 1-1 screen area 110-1-1, the first pixel 110-1-1-1 of the 1-1 screen area 110-1-1, 2 pixels 110-1-1-2, the first pixel 110-1-2-1 of the 1-2nd screen area 110-1-2, the 1-2nd screen area 110-1- 2, the first pixel 110-1-3-1 of the first to third screen areas 110-1-3, the first to third screen areas 110-1 to 11-3, And the second pixel 110-1-3-1 of the second pixel 110-1-3. Thereafter, the control unit 120 controls the third pixel 110-1-1-3 of the 1-1 screen area 110-1-1, the third pixel 110-1-1-3 of the 1-1 screen area 110-1-1, 4 pixels 110-1-1-4, the third pixel 110-1-2-3 of the 1-2nd screen area 110-1-2, the 1-2nd screen area 110-1- 2, the third pixel 110-1-3-3 of the first to third screen areas 110-1-3, the first to third screen areas 110-1 to 1-3, And the fourth pixel 110-1-3-4 of the second pixel 110-1-3.

Thereafter, the control unit 120 displays the 2-1 screen area 110-2-1, the 2-2 screen area 110-2-2, the 2-3 screen area 110-2-3, In order. The scan sequence may be performed in the same manner as described above.

On the other hand, as shown in FIG. 7, the screen of the display unit 110 on which the image frame is displayed has a low pixel level for one area at the upper left of the displayed image frame, and a relatively high pixel level for the remaining area. In this case, the controller 120 performs a scan according to the power saving mode for a portion where the difference of pixel values between adjacent pixels in a horizontal line to be scanned is equal to or less than a preset value, and performs a power saving mode for a portion exceeding a preset value So that the scan can be performed.

The control unit 120 scans the first horizontal line. Here, the pixel level of the image frame corresponding to the first pixel 110-1-1-1 of the 1-1 frame region 110-1-1 is lower than the pixel level of the remaining image frames of the entire image frame . Accordingly, the controller 120 may turn off the first pixel 110-1-1-1 of the 1-1 screen area 110-1-1. The first pixel 110-1-1-1 of the 1-1th screen area 110-1-1 to the second pixel 110-1-1 of the 1-2nd screen area 110-1-2, -2-2), there is no difference in pixel level. Therefore, the first pixel 110-1-1-1 of the 1-1th screen area 110-1-1 to the second pixel 110-1-1 of the 1-2th screen area 110-1-2, -2-2) may be turned off.

On the other hand, at least 50% of the image frame corresponding to the first pixel 110-1-3-1 of the 1-3 frame region 110-1-3 displays an image frame corresponding to a lower pixel level as a whole . Accordingly, the first pixel 110-1-3-1 of the first-third screen area 110-1-3 is positioned at the second pixel 110- The control unit 120 controls the first pixel 110-1-3-3 of the first to third screen areas 110-1-3 so that it is less than 50% 1) can be turned off.

On the other hand, at least 50% of the image frames corresponding to the second pixels 110-1-3-2 of the first-third image area 110-1-3 display an image frame corresponding to a high pixel level as a whole . Accordingly, the second pixel 110-1-3-2 of the first-third screen area 110-1-3 is positioned at the first pixel 110- 1-3-1 of the first to third screen areas 110-1-3, the controller 120 determines that the second pixel 110-1-3- 2) can be turned on.

On the other hand, the control unit 120 may sequentially scan a plurality of vertical lines by dividing one image frame into a plurality of vertical lines. That is, the control unit 120 controls the display unit 110-1-1, the 2-1 screen area 110-2-1, the 3-1 screen area 110-3-1, You can scan sequentially in order. In this case, the control unit 120 controls the first pixel 110-1-1-1 of the 1-1 screen area 110-1-1, the first pixel 110-1-1-1 of the 1-1 screen area 110-1-1, 3 pixels 110-1-1-3, the first pixel 110-2-1-1 of the second-1-th screen region 110-2-1, the second-1-th screen region 110-2- The first pixel 110-3-1-1 of the third-first screen region 110-3-1, the third pixel 110-2-1-3 of the third-first screen region 110-3-1, And the third pixel 110-3-1-3 of the second pixel 110-3-1. This scan order can be similarly applied to a scan for a subsequent vertical line. In addition, the manner in which the control unit 120 turns off or turns on each pixel is the same as that described above, so the details will be omitted.

8 is an example of a detailed configuration of the display unit 110 according to an embodiment of the present invention.

8, the display unit 110 may further include processing circuitry such as a timing controller 111, a gate driver 112, a data driver 113, a voltage driver 114, and the like in addition to the display panel 115 .

Although not shown in FIG. 8, the display unit 110 may further include a frame buffer and the like. The timing controller 111 receives a clock signal suitable for the display panel 115 from the outside, a horizontal synchronizing signal Hsync and a vertical synchronizing signal Vsync and outputs a gate control signal (scanning control signal), a data control signal And outputs them to the gate driver 112 and the data driver 113, respectively.

The voltage driver 114 is a configuration for transmitting a driving voltage to the gate driver 112, the data driver 113, the display panel 115, and the like. Specifically, the power supply voltage VDD and the ground voltage VSS necessary for the display panel 115 can be provided. In addition, the gate-on voltage (Vgh) can be generated and provided to the gate driver 112. The gate driver 112 is connected to the display panel 115 through the scan lines S1, S2, S3, ..., Sn.

The gate driver 112 applies the gate on / off voltage Vgh / Vgl supplied from the voltage driver 114 to the display panel 115 in accordance with the gate control signal generated by the timing controller 111. The data driver 113 is connected to the display panel 115 through the data lines D1, D2, D3, ..., Dm. The data driver 113 inputs the RGB data of the video image frame to the display panel 115 in accordance with the data control signal generated by the timing controller 111. [

The display panel 115 is formed in such a manner that a plurality of gate lines GL1 to GLn and data lines DL1 to DLn cross each other to form a pixel region 116. [ When the display panel 115 is an OLED type, R, G and B self-luminous elements such as OLEDs may be formed in each pixel region 116. In each pixel region 116, a switching element, that is, a TFT (not shown) is formed. In addition, detection sensors (not shown) for detecting the user's operation using the user's body or pen may be disposed below each pixel region 116. That is, the detection sensor (not shown) is disposed together with the display unit 110, and can detect a user operation on a pixel-by-pixel basis.

When the power saving mode is started, the control unit 120 transmits to the timing controller 111 a control signal for adjusting the number of pixels turned on in accordance with the power saving mode. The timing controller 111 may turn off the predetermined pixel according to the control signal, and adjust the image quality as shown in FIGS.

9 is an example of a flowchart of a display method according to an embodiment of the present invention.

The display apparatus 100 displays an image through a display unit 110 including a plurality of pixel groups each consisting of a plurality of self-luminous pixels (S910).

Here, the image may refer to an image frame, and the image frame may be related to a still image or a moving image. Also, the display unit 110 may include a self-luminous element, and a plurality of pixels included in the plurality of pixel groups may be self-luminous elements.

Meanwhile, the display device 100 may turn off at least one pixel in the power saving mode, respectively (S920). The power saving mode can be divided into a plurality of steps, and when four pixels are included in one screen area, the power saving mode can be classified into a non-power saving mode, a first power saving mode, a second power saving mode, and a third power saving mode. That is, in the power saving mode, the display device 100 can turn off at least one of the plurality of pixels, and in the non-power saving mode, the display device 100 can turn on all of the plurality of pixels.

In the non-power saving mode, all the four pixels included in the 1-1 screen area 110-1-1 are all turned on. That is, the non-power saving mode may mean that an image frame is displayed when all the pixels are turned on. Therefore, in the non-power saving mode, since all the pixels are turned on, the pixel level of the displayed image frame is the highest and may be the state consuming the most power.

In the first power save mode, one of the four pixels included in the 1-1 screen area 110-1-1 is turned off. That is, the first power saving mode may mean that an image frame is displayed in a state where one pixel among a plurality of pixels included in one screen area is turned off. Accordingly, in the first power saving mode, since one of the plurality of pixels included in one screen area is turned off, the pixel level of the displayed image frame is lower than the non-power saving mode, It may be in a state of consuming less power than the power consumption.

In the second power save mode, two of the four pixels included in the 1-1 screen area 110-1-1 are turned off. That is, the second power saving mode may mean that an image frame is displayed in a state where two pixels among a plurality of pixels included in one screen area are turned off. Therefore, in the second power saving mode, two pixels out of the plurality of pixels included in one screen area are turned off, so that the pixel level of the displayed image frame is lower than that of the first power saving mode, Mode may consume less power than the mode.

In the third power save mode, three pixels out of the four pixels included in the 1-1 screen area 110-1-1 are turned off. That is, the third power saving mode may mean that an image frame is displayed in a state where three pixels among a plurality of pixels included in one screen area are turned off. Accordingly, in the third power saving mode, three pixels among the plurality of pixels included in one screen area are turned off, so that the pixel level of the displayed image frame is lower than that of the second power saving mode, Mode may consume less power than the mode.

10 to 12 are still other examples of display screens according to various embodiments of the present invention. 10 to 12 will be sequentially described below.

The display device 100 according to an embodiment of the present invention may further include a battery (not shown) that supplies power to the display device 100. A battery (not shown) is charged by receiving electric charge from an external charging device (not shown), and discharges by supplying power to each configuration of the display device 100. Therefore, when the user uses the display device 100, the battery (not shown) may be discharged.

When the power of the battery (not shown) is lower than a preset power level due to the operation of the display device 100, the display device 100 may display a message informing the user of the power. Therefore, as shown in the left side of FIG. 10, an inquiry message 110-M inquiring whether to execute the power saving mode due to insufficient remaining amount of the battery (not shown) may be displayed. 10, the inquiry message 110-M inquiring whether to execute the power saving mode is displayed when the power level of the battery (not shown) is less than 5% But is not limited thereto.

On the other hand, the displayed inquiry message 110-M may include a selection screen as to whether or not the user selects the power saving mode. If the user selects the power saving mode, the inquiry message 110-M disappears and the entire screen of the display unit 110 becomes the power saving mode, as shown in the right side of FIG. On the other hand, if the user does not select the power save mode, the inquiry message 110-M disappears and the entire screen of the display unit 110 becomes the non-power saving mode.

In FIG. 10, the inquiry message 110-M is displayed, and the user selects the power saving mode or the non power saving mode. However, the present invention is not limited thereto. That is, when the power of the battery (not shown) is lower than a predetermined power level due to the operation of the display device 100, the control unit 120 of the display device 100 displays the inquiry message 110- , The power saving mode can be automatically executed. Accordingly, when the power of the battery (not shown) is lower than the predetermined power level, the power saving mode is automatically performed, and the entire screen of the display unit 110 can be as shown in the right side of FIG.

10, the case where the entire screen of the display unit 110 is in the power saving mode has been described, but the present invention is not limited thereto. That is, when the object 110-S is displayed on the display unit 110, the control unit 120 turns on all the pixels for the pixel group corresponding to the screen area on which the object 110-S is displayed, And at least one pixel in each pixel group may be turned off according to the power saving mode.

Referring to FIG. 11, an object 110-S may be displayed on the entire screen of the display unit 110. In this case, the object 110-S may be at least one of an icon, an OSD message, and a widget. 11, an object 110-S for searching at least one of a plurality of contents stored in the display device 100 is displayed. Referring to the left side of FIG. 11, both the entire screen of the display unit 110 and the object 110-S are displayed in the non-power saving mode. In this case, since the user mostly concentrates on the displayed object 110-S, executing the non-power saving mode on the screen other than the object 110-S may increase power consumption.

Accordingly, as shown in the right side of FIG. 11, the non-power saving mode may be executed for the displayed object 110-S, and the power saving mode may be executed for the remaining screens. In this case, the remaining screen on which the power saving mode is executed may be a background screen on which the object 110-S is not displayed. On the other hand, when the object 110-S displayed in the non-power saving mode is removed, only the background screen can be displayed. In this case, the background screen can be displayed and executed in the non-power saving mode.

11, the power saving mode is executed for the object 110-S displayed on the display unit 110, but the present invention is not limited thereto. That is, when at least two or more divided screens are displayed on the display unit 110, the control unit 120 turns on all the pixels for the pixel group corresponding to at least one screen area, And at least one pixel in each pixel group may be turned off according to the power saving mode for the group.

In FIG. 12, the first screen region 110-A and the second screen region 110-B are displayed when the entire screen is divided. Referring to the left side of FIG. 12, both the first screen area 110-A and the second screen area 110-B are displayed in the non-power saving mode. At this time, the user may be interested in the second screen area 110-B rather than the first screen area 110-A, and by reducing the pixel level for the first screen area 110-A It may be desired to slow the discharge of the battery (not shown). In such a case, executing the non-power saving mode for the first screen area 110-A may increase power consumption.

Therefore, as shown in the right side of FIG. 12, the power saving mode can be executed for the displayed first screen area 110-A, and the non-power saving mode can be executed for the second screen area 110-B. In this case, the user can preselect and set a screen area in which the power saving mode is executed. If the screen area where the power saving mode is executed is set in advance in the second screen area 110-B, the first screen area 110-A is executed in the non-power saving mode, and the second screen area 110- B) can be executed in the power saving mode.

In the above description, the entire screen of the display unit 110 is divided into two screen areas, but the present invention is not limited thereto. That is, the entire screen of the display unit 110 can be divided into n screen areas. In this case, the user can set the non-power saving mode for at least one screen area and execute the power saving mode for the remaining screen areas It is possible.

13 is an example of a block diagram of a display device 200 according to another embodiment of the present invention. Referring to FIG. 13, the display device 200 may include a display unit 210, a control unit 220, a sensing unit 230, and a battery 240.

The sensing unit 230 may be formed on one side of the display device 200 to sense an external illuminance.

In this case, the control unit 220 may be connected to the sensing unit 230 to adjust the pixel level of the screen of the display unit 210 according to the external illuminance sensed by the sensing unit 230. That is, when the external illuminance sensed by the sensing unit 230 is lower than a predetermined level, the controller 220 can execute the power saving mode. On the other hand, when the external illuminance exceeds a predetermined level, the non-power saving mode, that is, the normal mode can be executed.

For example, when the external illuminance sensed by the sensing unit 230 exceeds the first level, the controller 220 can execute the non-power saving mode. When the external illuminance sensed by the sensing unit 230 exceeds the second level and is equal to or lower than the first level, the controller 220 can execute the first power saving mode. When the external illuminance sensed by the sensing unit 230 exceeds the third level and is equal to or lower than the second level, the controller 220 can execute the second power saving mode. When the external illuminance sensed by the sensing unit 230 is equal to or lower than the third level, the controller 220 can execute the third power saving mode. Here, it is assumed that the external illuminance is lower in order from the first level to the third level. According to this method, since the pixel level of the screen of the display unit 210 can be adjusted according to the external illuminance, the visibility of the user can be secured and the power consumption can be reduced.

The battery 240 is charged by receiving charge from an external charging device (not shown), and discharges by supplying power to each configuration of the display device 200. Therefore, when the user uses the display device 200, the battery 240 can be discharged.

If the power of the battery 240 is lower than a predetermined power level due to the operation of the display device 200, the display device 200 may display a message informing the user of the power.

Meanwhile, when the power of the battery 240 is lower than a predetermined power level due to the operation of the display device 200, the control unit 220 of the display device 200 may automatically execute the power saving mode. Therefore, when the power of the battery 240 is lower than the preset power level, the power saving mode can be automatically executed.

Meanwhile, the program for carrying out the method according to various embodiments of the present invention described above can be stored and used in various types of recording media.

The code for performing the above-described method includes a RAM 121 (Random Access Memory), a flash memory, a ROM 122 (Read Only Memory), an EPROM 122 (Erasable ProgRAM 121 mable ROM 122, Such as a hard disk, a removable disk, a memory card, a USB memory, a CD-ROM 122, and the like, which are readable by a terminal Type recording medium.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: display device
110: Display unit 110-1-1: 1-1 Screen area
110-1-1-1: first pixel 110-1-1-2: second pixel
110-1-1-3: third pixel 110-1-1-4: fourth pixel
120: control unit 130:

Claims (18)

A display unit including a plurality of pixel groups each consisting of a plurality of pixels self-emitting; And
And a controller for turning off at least one pixel in the plurality of pixel groups in the power save mode. The method according to claim 1,
And a battery for supplying power to the display device,
Wherein,
Wherein the power saving mode is automatically executed when the power level of the battery is less than a predetermined level. The method according to claim 1,
Wherein,
A screen of the display unit is divided into a plurality of screen areas,
And turns off at least one pixel in each pixel group according to the power saving mode for a pixel group corresponding to at least one screen region among the plurality of screen regions. The method according to claim 1,
Wherein,
When an object is displayed on the display unit, all the pixels are turned on for the pixel group corresponding to the display area where the object is displayed, and for the pixel group corresponding to the remaining area, at least one And turns off the pixel. 5. The method of claim 4,
Wherein the object is at least one of an icon, an OSD message, and a widget,
And the remaining area is a background screen on which the object is not displayed. The method according to claim 1,
And a sensing unit for sensing an external illuminance,
Wherein,
And the power saving mode is executed when the external illuminance sensed by the sensing unit is lower than a predetermined level. The method according to claim 1,
The display unit includes:
Displays an inquiry message inquiring whether or not to display in the power saving mode. The method according to claim 1,
Wherein,
One image frame is divided into a plurality of horizontal lines, the plurality of horizontal lines are sequentially scanned on the display unit,
The scan is performed according to the power saving mode for a portion where a difference between pixel values of neighboring pixels in a horizontal line to be scanned is equal to or less than a predetermined value and the power saving mode is canceled for a portion exceeding the predetermined value, To the display device. 9. The method according to any one of claims 1 to 8,
The power saving mode is divided into a plurality of steps,
Wherein,
And adjusts the number of pixels to be turned off in the pixel group differently for each step. 9. The method according to any one of claims 1 to 8,
The pixel group is composed of four pixels arranged in a 2x2 form,
The power saving mode is divided into a first power saving mode, a second power saving mode, and a third power saving mode,
Wherein,
Wherein one of the four pixels is turned off in the first power save mode and two pixels located in diagonal directions of the four pixels are turned off in the second power save mode, And turns off three pixels out of the four pixels. A display method of a display device,
A method of displaying an image, the method comprising: displaying an image through a display unit including a plurality of pixel groups each consisting of a plurality of self-emitting pixels; And
And turning off at least one pixel in the plurality of pixel groups in a power save mode, respectively. 12. The method of claim 11,
And automatically executing the power saving mode when the power level of the battery for supplying power to the display device is less than a predetermined level. 12. The method of claim 11,
Turning off at least one pixel in each pixel group according to the power saving mode for a pixel group corresponding to at least one screen area of the plurality of screen areas if the screen of the display part is divided into a plurality of screen areas; ≪ / RTI > 12. The method of claim 11,
When an object is displayed on the display unit, all the pixels are turned on for the pixel group corresponding to the display area where the object is displayed, and for the pixel group corresponding to the remaining area, at least one Further comprising: turning off the pixel. 15. The method of claim 14,
Wherein the object is at least one of an icon, an OSD message, and a widget,
And the remaining area is a background screen on which the object is not displayed. 12. The method of claim 11,
Sensing external illuminance; And
And executing the power save mode if the sensed external illuminance is less than a predetermined level. 17. The method according to any one of claims 11 to 16,
The power saving mode is divided into a plurality of steps,
Wherein the number of pixels that are turned off within the pixel group is adjusted differently for each of the plurality of steps. 17. The method according to any one of claims 11 to 16,
The pixel group is composed of four pixels arranged in a 2x2 form,
The power saving mode is divided into a first power saving mode, a second power saving mode, and a third power saving mode,
Wherein turning off the pixel comprises:
Wherein one of the four pixels is turned off in the first power save mode and two pixels located in diagonal directions of the four pixels are turned off in the second power save mode, And turning off three of the four pixels.

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