JP2002351420A - Display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display device in which the performance to identify a screen saver and a normal operation is enhanced and as a result, the probability of inadvertently executing a power saving operation during a normal operation is reduced. SOLUTION: Video signals are inputted to a pixel converting section 3. In the section 3, a flat panel 6 is controlled based on the inputted video signals and various video images are displayed on a display screen 7 by varying the amount of light shielding from the light beams of a back light 8. A microcomputer 5 receives signal level comparison results from the section 3 and transmits luminance adjusting signals to a back light inverter 4. Moreover, the microcomputer 5 makes various settings for the section 3 and reads video signals being inputted into the section 3 from the section 3. The inverter 4 applies a prescribed voltage to the back light 8 based on the received luminance adjusting signals in order to adjust the luminance of the back light 8.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly to a display device that performs a power saving operation based on a signal level of an input video signal.

[0002]

2. Description of the Related Art A personal computer (hereinafter referred to as "P
Japanese Patent Application Laid-Open No. 6-95069 discloses a technique relating to power saving of a liquid crystal display (hereinafter, referred to as “LCD”) used as a monitor (also referred to as “display device”) such as “C”. There is a prior art that has been. This prior art is intended to save power by reducing the brightness of a backlight that emits light behind a transmissive LCD. Specifically, when the display screen has many portions that block the backlight, that is, when there are many black portions in the image on the display screen, the brightness of the backlight is not so required. Reduce brightness and reduce power consumption. If the portion that blocks the backlight is small, normal backlight luminance is set to ensure display quality. As described above, by adjusting the luminance of the backlight according to the display state of the display screen, power saving can be achieved without deteriorating display quality.

[0003]

By the way, recent PCs
For example, if there is no keyboard input for a certain period of time, various moving images are displayed on the display screen of the monitor by a function called "screen saver" in order to prevent burn-in of the monitor. At this time, the displayed image usually has many black portions, and the burn-in is prevented and the power consumption of the monitor is reduced. When a CRT (cathode ray tube) is used as a monitor, the luminance of the display screen is controlled by the value of the cathode current taken out by the electron gun. Power consumption can be reduced.

On the other hand, when an LCD is used as a monitor, the power consumption of the backlight is large. Therefore, the amount of light transmitted from the backlight is controlled on the LCD side, and only an image having a large black portion is displayed on the display screen. Thus, power saving cannot be achieved sufficiently, and it is necessary to reduce the luminance of the backlight in order to achieve desired power saving. As a technique for reducing the brightness of the backlight, Japanese Patent Application Laid-Open No.
There is a conventional technique disclosed in Japanese Patent Publication No. 95069. In this conventional technique, since the ratio of the portion that blocks the backlight in the entire display screen is used, when displaying an image having many black portions on the display screen in the normal operation, it is erroneously determined that the screen saver is working, and the normal operation is performed. There is a problem that the probability of reducing the luminance of the backlight is sometimes high.

Accordingly, the present invention has been made to solve the above-described problem, and improves the discrimination between a screen saver and a normal operation. As a result, a power saving operation is erroneously performed during a normal operation. It is an object to provide a display device that reduces the probability.

[0006]

Means for Solving the Problems Claim 1 of the present invention
The display device according to claim 1, further comprising a display unit having a display screen, and a display control unit that displays an image on the display screen based on an input video signal, wherein the display control unit is configured to perform a predetermined first display on the display screen. A power saving operation is performed based on the signal level of the input video signal corresponding to the video in the partial area.

According to a second aspect of the present invention, in the display device according to the first aspect, the first partial area of the display screen includes a plurality of second partial areas. , The display control unit, based on a signal level of the input video signal corresponding to the video of each of the second partial area,
A power saving operation is performed.

According to a third aspect of the present invention, there is provided a display device according to any one of the first and second aspects, wherein the first partial area includes the display screen. Is a peripheral area of

According to a fourth aspect of the present invention, a display device according to the first aspect is the display device according to any one of the first to third aspects, wherein the display control unit is configured to control the display screen. The power saving operation is performed based on the signal level of the input video signal corresponding to the video of the entire area.

A display device according to a fifth aspect of the present invention is the display device according to any one of the first to fourth aspects, wherein the power saving operation is performed by controlling the brightness of the image. It includes adjustment.

The display device according to a sixth aspect of the present invention is the display device according to the fifth aspect, wherein the power saving operation further includes an operation other than the brightness adjustment of the image. The display control unit selects one of the brightness adjustment and the operation other than the brightness adjustment.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIG. 1 is a block diagram showing a configuration of the display device 100 according to the first embodiment. As shown in FIG. 1, the display device 100 includes a display unit 1 and a display control unit 2. The display unit 1 includes a flat panel 6 having a display screen 7 composed of a plurality of pixels (not shown), and a backlight 8 for irradiating the flat panel 6 with light. Part three,
Backlight inverter 4 for driving backlight 8
And a microcomputer 5. Also,
The flat panel 6 is, for example, a transmissive LCD.

In the display device 100 according to the first embodiment, an input video signal (hereinafter simply referred to as “video signal”) is input to the pixel conversion unit 3 from the outside. The pixel conversion unit 3 controls the flat panel 6 based on the input video signal and changes the amount of light blocking from the backlight 8 to display various images on the display screen 7.

The microcomputer 5 receives a signal level comparison result to be described later from the pixel conversion unit 3 and sends a brightness adjustment signal to the backlight inverter 4. Further, the microcomputer 5 can perform various settings for the pixel conversion unit 3 and read a video signal input to the pixel conversion unit 3 from the pixel conversion unit 3. Then, the backlight inverter 4 applies a predetermined voltage to the backlight 8 based on the received brightness adjustment signal, and adjusts the brightness of the backlight 8.

When the display device 100 having the above-described configuration is employed as, for example, a monitor of a PC, a video signal input to the pixel conversion unit 3 is sent from, for example, a PC main body, not shown in FIG. When an image is displayed on the display screen 7 based on an input image signal when the above-described screen saver is operating on the PC, an image having a large black portion is generally displayed over almost the entire area of the display screen 7. .

In addition, W, which is adopted as the OS of a PC,
An image called a “task bar” is displayed on the display screen 7 during normal operation in Windows (registered trademark). In the task bar, for example, a button for switching an application running on the PC is displayed on a gray bar. FIG. 2 shows a display screen 7 according to the first embodiment.
FIG. 6 is a diagram showing an area where a task bar is displayed in FIG.
As shown in FIGS. 2A to 2D, the task bar is displayed in one of the peripheral areas of the partial areas 10a to 10d.
Normally, when the screen saver is operating, the task bar is not displayed, and the partial area 1 of the display screen 7 is not displayed.
In 0a to 10d, an image having many black portions is displayed.

The above-described task bar is displayed on the display screen 7 during normal operation. However, even when the setting for hiding the task bar is performed, the task bar is thinner than before the setting for hiding.
Partial areas 10a to 10d of the display screen 7 as gray bands
Is displayed in any of the peripheral areas. That is, the task bar is always displayed on the display screen 7 in the normal operation, although the size of the displayed area is changed. Also, the brightness of the task bar is generally higher than the brightness of the video displayed in the partial areas 10a to 10d of the display screen 7 when the screen saver is working.

As described above, the partial area 10a of the display screen 7
10 to 10d, the task bar displayed during the normal operation has a higher overall brightness than the image displayed when the screen saver is operating.
By detecting the luminance of the video displayed on 0a to 10d, it is possible to identify whether the video signal input to the display device 100 is due to a screen saver or a normal operation. Also, if the signal level of the video signal is
Since it represents the brightness of the image displayed on the display screen 7,
By detecting the signal level of the video signal, it is possible to identify whether the input video signal is due to a screen saver or a normal operation. Then, the display device 100 performs a power saving operation based on the identification result.

Next, the display device 10 according to the first embodiment
The power saving operation of 0 will be described in detail. FIG. 3 is a flowchart showing a power saving operation in display device 100 according to the first embodiment. FIG. 4 is a diagram showing an area for detecting a signal level in the power saving operation shown in FIG. 3. In which of the partial areas 10a to 10d in FIG. In the first embodiment, the partial area 10
The partial area 10 including all of the areas a to 10d is used.

Steps S1 to S3 in FIG. 3 are steps for discriminating whether an input video signal is due to a screen saver or a normal operation. Steps S4 and S5 are steps for actually executing a power saving operation. This is the step to be performed.

In step S1, the pixel converter 3 detects a signal level of a video signal corresponding to each pixel of the partial area 10 on the display screen 7. Then, in step S2,
The pixel conversion unit 3 compares each of the signal levels detected in step S1 with a reference value x set by the microcomputer 5. Here, the reference value x is a value set based on the signal level of the video signal corresponding to each pixel on the task bar displayed during normal operation, for example. Note that the result of comparison between each signal level and the reference value x is referred to as “signal level comparison result x”. Then, the pixel conversion unit 3 sends the signal level comparison result x to the microcomputer 5.

In step S3, the microcomputer 5 calculates a reference value x from the received signal level comparison result x.
The number of pixels corresponding to the lower signal level is
The ratio of 0 to the total number of pixels is calculated. And
When the number of pixels corresponding to the signal level lower than the reference value x is equal to or more than A% of the total number of pixels in the partial area 10, the microcomputer 5 determines that the input video signal is due to the screen saver, and the backlight inverter. 4
A luminance adjustment signal is sent so as to obtain the luminance at the time of the screen saver. The backlight inverter 4 lowers the brightness of the backlight 8 based on the received brightness adjustment signal. As a result, the power consumption of the display device 100 is reduced. Also,
When the number of pixels corresponding to the signal level lower than the reference value x is less than A% of the total number of pixels in the partial area 10, the microcomputer 5 determines that the input video signal is due to the normal operation, and the backlight 5 A luminance adjustment signal during normal operation is sent to the inverter 4. Then, the backlight inverter 4 sets the brightness of the backlight 8 during normal operation.
Here, the above-mentioned numerical value “A” is based on the setting method of the reference value x,
This is a value determined by the ratio of the task bar displayed during the normal operation to the partial area 10 or the like.

As described above, in the power saving operation of the display device 100 according to the first embodiment, the signal level of the video signal corresponding to the video in the partial area 10 of the display screen 7 instead of the entire area of the display screen 7 , It is determined whether the input video signal is due to the screen saver or the normal operation, so that the distinction between the screen saver and the normal operation is improved. As a result, the probability of erroneously performing the power saving operation during the normal operation is reduced.

Specifically, the above-mentioned Japanese Patent Application Laid-Open No. 6-95069 is described.
In the related art disclosed in Japanese Patent Application Laid-Open Publication No. H11-157, the brightness of the backlight is adjusted using the entire display screen. In the power saving operation of the display device 100 according to the first embodiment, Instead, the luminance of the backlight is adjusted using the partial area 10. Here, the first embodiment
In the normal operation, like the task bar used in, the area where the brightness is higher than the image displayed when the screen saver is working, that is, the area where the screen saver can be distinguished from the normal operation is referred to as the “identifiable area. ". Further, an area including an identifiable area and used when discriminating between the screen saver and the normal operation, such as the partial area 10 used in the first embodiment, is referred to as an “identification target area”. The ratio of the identifiable area to the identification target area is determined by displaying the identification target area on the display screen 7.
Is larger when set in the partial area 10 of the display screen 7 than when set in the entire area of the display area 7. If the screen saver and the normal operation are distinguished from each other, the distinguishability is improved. As a result, as described above, the probability of erroneously lowering the backlight brightness during normal operation, that is, the probability of performing a power saving operation,
This is reduced compared to the prior art disclosed in JP-A-6-95069.

The display device 10 according to the first embodiment
In the power saving operation of FIG. 3, in step S4 of FIG.
However, the power consumption of the display device 100 may be reduced by completely turning off the backlight, and the reduction of the brightness of the backlight and the turning off of the backlight may be performed by the user. The selection may be made by setting, the power consumption of the display device 100 may be reduced, and power saving operation may be performed.

FIG. 5 shows a display device 10 according to the first embodiment.
0 is a block diagram illustrating a configuration of a modification example of FIG. 0, in which a display device 101 shown in FIG.
Instead of the function of adjusting the brightness of the backlight, it has a function of completely turning off the backlight. FIG.
Is a block diagram showing a configuration of a modified example of the display device 100 according to the first embodiment, and the display device 102 in FIG.
The display device 100 illustrated in FIG. 1 has a function of completely turning off the backlight in addition to a function of adjusting the luminance of the backlight.

As shown in FIG. 5, the display control unit 2 of the display device 101 further includes a switch 9. A backlight inverter power supply (hereinafter, referred to as “inverter power supply”) is supplied to the switch 9 from outside the display device 101.
The backlight inverter 4 is supplied with inverter power via a switch 9.

The microcomputer 5 controls the supply of the inverter power to the backlight inverter 4 by turning on / off the switch 9. When the supply of the inverter power to the backlight inverter 4 is stopped, no voltage is output from the backlight inverter 4 to the backlight 8, and the backlight 8 is turned off. When the supply of the inverter power to the backlight inverter 4 is started, a predetermined voltage is output from the backlight inverter 4 to the backlight 8, and the backlight 8 is turned on. Other configurations are the same as those of the above-described display device 100, and thus description thereof is omitted here.

Further, as shown in FIG.
The display control unit 2 further includes a switch 9. The switch 9 is supplied with inverter power from outside the display device 102, and the backlight inverter 4 is supplied with inverter power via the switch 9.

The microcomputer 5 controls the supply of the inverter power to the backlight inverter 4 by turning on / off the switch 9. Further, similarly to the display device 100 described above, the microcomputer 5 can send a brightness adjustment signal to the backlight inverter 4. The microcomputer 5 includes the display device 1
Based on a selection signal input from the outside of the device 02, whether to turn on / off the switch 9 or to send a brightness adjustment signal to the backlight inverter 4 is selected. Here, the selection signal is, for example, a signal transmitted when a user of the PC performs a predetermined operation. That is, the microcomputer 5 selects whether the switch 9 is turned on / off or sends a brightness adjustment signal to the backlight inverter 4 in accordance with the user's request, that is, the backlight 8 is turned on / off.
A selection is made as to whether to turn off or adjust the brightness of the backlight 8. For other configurations, the above-described display device 10
Since it is the same as 0, the description is omitted here.

As described above, instead of the function of adjusting the luminance of the backlight 8, the display device 101 replaces the function of the backlight 8.
When the power saving operation shown in FIG. 3 is applied to the display device 101, instead of lowering the luminance of the backlight 8 in step S4 shown in FIG. By completely turning off the power, power can be saved.

Further, the display device 102 has a function of adjusting the luminance of the backlight 8 and a function of turning on / off the backlight 8, and it is possible to select which function to use based on a selection signal. When the power saving operation shown in FIG. 3 is applied to the display device 102, in step S4 shown in FIG. 3, power saving is achieved by lowering the brightness of the backlight 8 or turning off the backlight 8. Can be selected according to the user's request. When the backlight 8 is turned off, no image is displayed on the display screen 7. Therefore, in order to save power while displaying an image on the display screen 7, the backlight 8
Needs to be reduced.

Since the normal task bar is displayed in the peripheral area of the display screen 7, it is effective to set the identification target area in the partial area 10 which is the peripheral area of the display screen 7 as in the first embodiment. It is.

Also, in the first embodiment, based on the ratio of the number of pixels corresponding to the signal level lower than the reference value x to the total number of pixels in the partial area 10, the input video signal is converted by a screen saver. Although it is determined whether the operation is based on the normal operation, the method of the present invention is not limited to this. For example, the determination can be made by integrating the signal level of the video signal corresponding to each pixel of the partial region 10 over all the pixels of the partial region 10 and comparing the integrated value with a reference value. .

Embodiment 2 FIG. 7 is a flowchart showing a power saving operation in display device 100 according to the second embodiment. In the above-described power saving operation in the first embodiment, since it is not known in which of the partial areas 10a to 10d the area where the task bar is displayed is displayed, all the areas of the partial areas 10a to 10d are displayed. The screen saver was distinguished from the normal operation using the included partial area 10. In the power saving operation according to the second embodiment, the reference value y and the signal level of the video signal are compared for each of the partial regions 10a to 10d.

In step S11 in FIG. 7, the pixel converter 3 detects the signal level of the video signal corresponding to each pixel in the partial area 10a. Similarly, the partial regions 10b, 10c,
In each of 10d, the signal level of the video signal corresponding to each pixel is detected. Then, in step S12, the pixel conversion unit 3 compares each of the signal levels detected in step S11 with the reference value y set by the microcomputer 5 in each of the partial regions 10a to 10d. Here, the reference value y is a value set based on the signal level of the video signal corresponding to each pixel on the task bar displayed during normal operation, for example. Note that the result of comparison between each signal level and the reference value y is referred to as “signal level comparison result y”. Then, the pixel converter 3 sends the signal level comparison result y to the microcomputer 5.

In step S13, the microcomputer 5 determines, from the received signal level comparison result y, the number of pixels corresponding to the signal level higher than the reference value y in each of the partial regions 10a to 10d.
The ratio of each of 10d to the total number of pixels is calculated. Then, in each of the partial regions 10a to 10d, when there is no partial region in which the number of pixels corresponding to the signal level higher than the reference value y is B% or more of the total number of pixels in each of the partial regions 10a to 10d,
The microcomputer 5 determines that the input video signal is due to the screen saver, and sends a luminance adjustment signal to the backlight inverter 4 so as to obtain the luminance at the time of the screen saver. The backlight inverter 4 lowers the brightness of the backlight 8 based on the received brightness adjustment signal. As a result, the power consumption of the display device 100 is reduced. Also, in each of the partial regions 10a to 10d, when there is a partial region in which the number of pixels corresponding to the signal level higher than the reference value y is B% or more of the total number of pixels in each of the partial regions 10a to 10d, The microcomputer 5 determines that the input video signal is due to normal operation, and sends a backlight adjustment signal to the backlight inverter 4 during normal operation. Then, the backlight inverter 4 sets the luminance of the backlight 8 to the luminance during normal operation. Here, the above-described numerical value “B” indicates the setting method of the reference value y and the task bar displayed during the normal operation is displayed in the partial area 1.
This value is determined by the ratio of the area to any one of 0a to 10d.

As described above, in the power saving operation of the display device 100 according to the second embodiment, the partial area 1 of the display screen 7
Based on the signal level of the video signal corresponding to the video in each of the partial areas 10a to 10d, instead of the partial area 10 including all of the areas 0a to 10d, whether the input video signal is based on the screen saver or based on the normal operation Therefore, the distinction between the screen saver and the normal operation is further improved.

More specifically, the ratio of the identifiable area such as the task bar displayed during the normal operation to the identification target area is smaller than that when the identification target area is set to the partial area 10a. 10 to 10d are larger in any one of the partial regions 10a to 10d. Therefore, it is better to distinguish between the screen saver and the normal operation using each of the partial regions 10a to 10d than to distinguish between the screen saver and the normal operation using the partial region 10.
The discrimination is improved.

The power saving operation in the second embodiment is performed by lowering the luminance of the backlight 8. However, when the power saving operation in the second embodiment is applied to the display device 101 described above. By turning off the backlight 8, power can be saved. Also,
When the power saving operation according to the second embodiment is applied to the above-described display device 102, whether the power saving is achieved by lowering the luminance of the backlight 8 or the backlight 8 is turned off is performed. It can be selected according to the user's request.

Embodiment 3 FIG. 8 is a flowchart showing a power saving operation in display device 100 according to the third embodiment. The power saving operation shown in FIG. 8 is a process of comparing the signal level of the video signal corresponding to the video in the entire area of the display screen 7 with the reference value z and using the comparison result in the first embodiment. Further provisions are made.

Steps S1 and S2 in FIG. 8 are the same as steps S1 and S2 in FIG. 3, and a description thereof will be omitted. In step S3, the microcomputer 5 calculates the ratio of the number of pixels corresponding to the signal level lower than the reference value x to the total number of pixels in the partial area 10 from the received signal level comparison result x. And the reference value x
The number of pixels corresponding to the lower signal level is
When the total number of pixels is 0 or more than A%, the microcomputer 5 determines that the input video signal is due to the screen saver, and sends a luminance adjustment signal to the backlight inverter 4 so as to obtain the luminance at the time of the screen saver. The backlight inverter 4 lowers the brightness of the backlight 8 based on the received brightness adjustment signal. as a result,
The power consumption of the display device 100 is reduced. If the number of pixels corresponding to the signal level lower than the reference value x is less than A% of the total number of pixels in the partial region 10, step S21
Move on to

In step S21, the pixel conversion section 3 detects the signal level of the video signal corresponding to each pixel in the entire area of the display screen 7. Then, in step S22, the pixel conversion unit 3 compares each of the signal levels detected in step S21 with the reference value z set by the microcomputer 5. Here, the reference value z is a value set based on, for example, the signal level of a video signal corresponding to each pixel in the entire screen displayed during normal operation. In addition,
The comparison result between each signal level and the reference value z is referred to as “signal level comparison result z”. Then, the pixel converter 3 sends the signal level comparison result z to the microcomputer 5.

In step S23, the microcomputer 5 determines from the received signal level comparison result z that the ratio of the number of pixels corresponding to the signal level lower than the reference value z to the total number of pixels in the entire area of the display screen 7 Is calculated. Then, the number of pixels corresponding to the signal level lower than the reference value z is the total pixel number C in the entire area of the display screen 7.
When the value is not less than%, the microcomputer 5 determines that the input video signal is due to the screen saver, and sends a luminance adjustment signal to the backlight inverter 4 so as to obtain the luminance at the time of the screen saver. The backlight inverter 4 lowers the brightness of the backlight 8 based on the received brightness adjustment signal. As a result, the power consumption of the display device 100 is reduced. When the number of pixels corresponding to a signal level lower than the reference value z is less than C% of the total number of pixels in the entire area of the display screen 7, the microcomputer 5 determines that the input video signal is due to normal operation. Judgment is made, and a luminance adjustment signal during normal operation is sent to the backlight inverter 4. Then, the backlight inverter 4 sets the brightness of the backlight 8 during normal operation. Here, the above numerical value “C” is a value determined by the setting method of the reference value z, the ratio of the image displayed during the normal operation to the entire area of the display screen 7, and the like.

FIG. 9 shows a display device 10 according to the third embodiment.
0 is a flowchart showing a power saving operation at 0,
The above-described second embodiment further includes a step of comparing the signal level of the video signal corresponding to the video in the entire area of the display screen 7 with the reference value z and using the comparison result.

Steps S11 and S12 in FIG.
The steps are the same as steps S11 and S12 in FIG. In step S13, the microcomputer 5 determines from the received signal level comparison result y that the number of pixels corresponding to a signal level higher than the reference value y in each of the partial regions 10a to 10d is equal to the partial region 10a to 1d.
The ratio of each of 0d to the total number of pixels is calculated. Then, in each of the partial regions 10a to 10d, when there is no partial region in which the number of pixels corresponding to the signal level higher than the reference value y is B% or more of the total number of pixels in each of the partial regions 10a to 10d, The microcomputer 5 determines that the input video signal is due to the screen saver, and sends a luminance adjustment signal to the backlight inverter 4 so as to obtain the luminance at the time of the screen saver. The backlight inverter 4 lowers the brightness of the backlight 8 based on the received brightness adjustment signal. As a result, the power consumption of the display device 100 is reduced. Also, in each of the partial regions 10a to 10d, when there is a partial region in which the number of pixels corresponding to the signal level higher than the reference value y is B% or more of the total number of pixels in each of the partial regions 10a to 10d, Move to step S21. Steps S21 to S23 are described in FIG.
The steps are the same as steps S21 to S23 in FIG.

As described above, in the power saving operation of the display device 100 according to the third embodiment, in addition to the signal level of the video signal corresponding to the video of each of the partial area 10 or the partial areas 10a to 10d, Since the signal level of the video signal corresponding to the video in the entire area of the screen 7 is used, the distinguishability between the screen saver and the normal operation is further improved.

For example, even when the images in the partial areas 10a to 10d when the screen saver is operating have a luminance equal to or higher than the luminance of the task bar displayed during normal operation, Since the identification is performed using the entire area of the display screen 7, it is possible to identify the screen saver from the normal operation.

The power saving operation in the third embodiment is performed by lowering the brightness of the backlight 8. However, when the power saving operation in the third embodiment is applied to the display device 101 described above. By turning off the backlight 8, power can be saved. Also,
When the power saving operation according to the third embodiment is applied to the above-described display device 102, it is determined whether the brightness of the backlight 8 is reduced to save power or the backlight 8 is turned off to save power. It can be selected according to the user's request.

In the first to third embodiments, the flat panel 6 illuminated by the backlight 8 is used as the display unit 1. However, a CRT, a plasma display panel, and an EL (including an organic EL) are used. , LE
D, VFD (Vaccum Fluorescence)
Display), FED (Field Emiss)
A self-luminous flat panel such as an ion display may be used. When a CRT is used for the display unit 1, the brightness of an image on the display screen of the CRT can be adjusted by adjusting a cathode current value taken out by an electron gun. When a plasma display panel is used for the display unit 1, the brightness of an image on the display screen of the plasma display panel can be adjusted by adjusting the number of discharges in the discharge cells. The brightness of the other displays described above can be adjusted by a predetermined method.

[0051]

According to the display device of the first aspect of the present invention, when the signal level of the input video signal is used to determine whether the input video signal is due to a screen saver or a normal operation, a display screen is used. On the display screen, the brightness of the video displayed by the normal operation is higher than the brightness of the video displayed by the screen saver, rather than performing the identification based on the signal level of the input video signal corresponding to the video of the entire area. It is a normal operation to set a first partial area in a partial area including at least an area (identifiable area) and perform identification based on a signal level of an input video signal corresponding to an image of the first partial area. And the discriminability between them is improved. Therefore, it is reduced that the power saving operation is performed by mistake during the normal operation.

According to the display device of the present invention, when the first partial area includes an area other than the identifiable area, the identifiable area included in any of the second partial areas is included. Since the area is larger than the first partial area, the screen saver and the normal operation are distinguished from each other based on the input signal level of the input video signal corresponding to the image of the first partial area. Performing discrimination based on the signal level of the corresponding input video signal further improves the discriminability between the screen saver and normal operation.

According to the display device of the third aspect of the present invention, the identifiable area is usually set in the peripheral area of the display screen in many cases. Therefore, the amount of the area other than the identifiable area included in the first partial area is reduced. Therefore, the distinguishability between the screen saver and the normal operation is further improved.

According to the display device of the present invention, the signal level of the input video signal corresponding to the video of the first partial area on the display screen and the input video signal corresponding to the video of the entire area are displayed. Since the screen saver can be distinguished from the normal operation based on both the signal level of the screen saver and the normal operation, the distinguishability between the screen saver and the normal operation is further improved.

Further, according to the display device of the fifth aspect of the present invention, it is possible to perform the power saving operation with the image displayed on the display screen.

According to the display device of the sixth aspect of the present invention, it is possible to select any one of the brightness adjustment and the operation other than the brightness adjustment as the power saving operation. A display device that meets the needs of the user can be provided.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a display device 100 according to a first embodiment.

FIG. 2 is a diagram showing an area where a task bar is displayed on a display screen 7 according to the first embodiment.

FIG. 3 is a flowchart showing a power saving operation in the display device 100 according to the first embodiment.

FIG. 4 is a diagram showing an area for detecting a signal level in the power saving operation of the display device 100 according to the first embodiment.

FIG. 5 is a block diagram showing a configuration of a modification of the display device 100 according to the first embodiment.

FIG. 6 is a block diagram showing a configuration of a modified example of the display device 100 according to the first embodiment.

FIG. 7 is a flowchart showing a power saving operation in the display device 100 according to the second embodiment.

FIG. 8 is a flowchart showing a power saving operation in the display device 100 according to the third embodiment.

FIG. 9 is a flowchart showing a power saving operation in the display device 100 according to the third embodiment.

[Explanation of symbols]

1 display unit, 2 display control unit, 6 flat panel, 7
Display screen, 8 backlights, 100-102 display device.

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI theme coat ゛ (Reference) G09G 5/10 G09G 5/10 Z F-term (Reference) 2H093 NC42 NC50 ND39 5C006 AB03 BB11 EA01 FA47 5C080 AA01 AA10 BB05 DD26 EE29 JJ01 JJ02 JJ07 5C082 AA01 BD01 CA11 CA81 CB01 MM10

Claims (6)

[Claims] 1. A display device comprising: a display unit having a display screen; and a display control unit for displaying an image on the display screen based on an input video signal, wherein the display control unit includes a first predetermined partial area on the display screen. A display device that performs a power saving operation based on a signal level of the input video signal corresponding to the video. 2. The display device according to claim 1, wherein the first partial area of the display screen includes a plurality of second partial areas, and the display control unit determines a signal level of the input video signal corresponding to the video of each of the second partial areas. The display device according to claim 1, wherein the display device performs a power-saving operation based on the following. 3. The display device according to claim 1, wherein the first partial area is a peripheral area of the display screen. 4. The display control unit according to claim 1, wherein the display control unit performs a power saving operation based on a signal level of the input video signal corresponding to an image of the entire area on the display screen. The display device according to any one of the above. 5. The display device according to claim 1, wherein the power saving operation includes adjusting a luminance of the image. 6. The power saving operation further includes an operation other than the luminance adjustment of the video, and the display control unit selects one of the luminance adjustment and the operation other than the luminance adjustment. 6. The display device according to 5.