JP2004029484A - Video display device and its method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To control the luminance level of the whole set because the control state of luminance in an image display block can be known by a luminance calculation part included in an image processing block and a luminance control part included in the video display block can be controlled and to realize the saving of power consumption while obtaining a luminance characteristic suitable for picture formation in the television set. <P>SOLUTION: The video display device is provided with a 1st video signal luminance control part for inputting a video signal outputted from a video signal processing part and controlling the luminance of a video signal, a 2nd video signal luminance control part for controlling the luminance of the video signal outputted from the 1st video signal luminance control part, a video display part for displaying the video signal outputted from the 2nd video signal luminance control part as an image, and an average video level detection part for detecting the average video level of the image displayed on the video display part and outputting the detected level to the 1st and 2nd video signal luminance control parts. Each of the 1st and 2nd video signal luminance control parts controls the luminance of the video signal in accordance with the inputted average video level and outputs the luminance controlled video signal. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a technology for displaying an image on a display device, and more particularly to a technology for displaying an image on a flat panel display device or the like using a pulse width driving method.
[0002]
[Prior art]
FIG. 7 is a diagram showing a conventional video display device.
[0003]
Reference numeral 11 denotes a block related to processing of a video signal. Reference numeral 12 denotes a block related to display of a video signal.
[0004]
Reference numeral 1 denotes a video processing unit. A video signal received by an antenna (not shown) is input to the video processing unit 1, where the video signal is processed and output. Reference numeral 22 denotes a brightness control unit (AGC1) that controls the brightness of the video signal output from the video processing unit 1. Reference numeral 31 denotes an APL (Average Picture Level) detection circuit. The APL detection circuit 31 outputs a small value for a dark image, and outputs a large value for a bright screen. The block 11 relating to the processing of the video signal is provided with the video processing unit 1, the brightness control unit 22, and the APL detection circuit 31.
[0005]
Reference numeral 21 denotes a brightness control unit (AGC). Reference numeral 32 denotes an APL detection circuit. Reference numeral 6 denotes a matrix display panel. Reference numeral 7 denotes a panel power supply circuit that supplies power to the matrix display panel 6, the X driver circuit 4, and the Y driver circuit 5, and displays an image. The block 12 relating to the display of a video signal is provided with a luminance control unit 21, an APL detection circuit 32, a matrix display panel 6, a panel power supply circuit 7, an X driver circuit 4, and a Y driver circuit 5.
[0006]
In a conventional video display device, for example, when displaying a bright video (entire white), when the video average level APL detection circuit 32 outputs a determination that the average level is high, the brightness control unit 21 outputs the information. In response, it worked to reduce the amplitude of the image. As a result, the brightness of the image displayed on the matrix panel 6 is reduced, and the power supplied from the panel power supply circuit 7 is suppressed to a certain value or less.
[0007]
[Problems to be solved by the invention]
However, in the conventional video display device, the brightness control unit 21 provided in the block 11 for processing the video signal and the brightness control unit 21 provided in the block 12 for displaying the video signal are independently provided. , Had to control the video level.
[0008]
In such a configuration, for example, when a bright image is input, the luminance control unit 22 operates to lower the image level by the operation of the image average level APL detection circuit 31. However, since the video level is reduced, the video average level APL detection circuit 32 determines that the average level has been reduced, and performs an operation of increasing the level in the luminance control unit 21. For this reason, since both perform the opposite operations at the same time, there has been a problem that it is difficult to control the video level to a desired level.
[0009]
For example, Japanese Patent Application Laid-Open No. 2000-330505 discloses a technique for obtaining the average luminance level of an input video signal, and for ensuring the luminance and contrast of a display screen of a display device and efficiently controlling power consumption. A technique has been proposed in which when detected, display luminance level control suitable for a display device is performed based on the average luminance level. However, in this proposal, the luminance control relating to the processing of the video signal and the luminance control relating to the display of the video signal are each independently controlling the level of the video. Japanese Patent Application Laid-Open Publication No. 2001-282176 discloses a matrix panel for controlling the power consumption and dramatically improving the quality of a display screen by reproducing a peak luminance. There has been proposed a technique for detecting an average luminance of a display image displayed on a matrix panel and controlling display of a matrix panel based on the detected average luminance. However, in this proposal, no brightness control relating to the processing of the video signal is proposed. Therefore, the above proposal has not yet been sufficient in a practical sense.
[0010]
[Means for Solving the Problems]
A video display device according to the present invention includes: a video signal processing unit that performs video conversion of an input video signal and outputs the video signal; a video signal output from the video signal processing unit is input; A first video signal luminance control unit, a video signal output from the first video signal luminance control unit, and a second video signal luminance control unit that controls and outputs the luminance of the video signal; A video display unit that receives a video signal output from the second video signal luminance control unit and displays a video, and detects a video average level of the video displayed on the video display unit, and detects the first video. A signal brightness control unit and a video average level detection unit for outputting to the second video signal brightness control unit, wherein the first video signal brightness control unit and the second video signal brightness control unit are respectively input. The video average level It is configured to output by controlling the brightness of the video signal in response to.
[0011]
Also, the video display method according to the present invention is a video signal processing means for performing video conversion of an input video signal and outputting the video signal, and a video signal output from the video signal processing means being input and controlling the brightness of the video signal. First video signal brightness control means for outputting the video signal, and second video signal brightness control means for receiving the video signal output from the first video signal brightness control means and controlling and outputting the brightness of the video signal A video signal output from the second video signal luminance control means, a video display means for displaying a video, and a video average level of a video displayed on the video display means, And a video average level detection means for outputting to the second video signal brightness control means.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described with reference to the drawings.
[0013]
FIG. 1 is a schematic view of a video display device according to the present invention.
[0014]
Reference numeral 10 denotes a broadcast receiving unit. The broadcast receiving unit 10 receives and demodulates a broadcast (analog terrestrial broadcast, BS digital broadcast, CS digital broadcast, terrestrial digital broadcast, Internet broadcast, or the like) and outputs a video signal. Here, an example in which analog terrestrial broadcasting is received is used. Reference numeral 11 denotes a video processing block (drive circuit) that performs video processing. The video processing block (drive circuit) 11 receives a video signal output from the broadcast receiving unit 10 and outputs a video signal that has undergone video processing such as contour enhancement processing and resolution conversion. Reference numeral 12 denotes an image display block (panel module) for displaying an image. The video display block (panel module) 12 receives a video signal output from the video processing block (drive circuit) 11 and displays a video.
(First embodiment according to the present invention)
FIG. 2 is a configuration diagram according to the first embodiment of the video display device according to the present invention.
[0015]
Reference numeral 1 denotes a video processing unit. The video signal output from the broadcast receiving unit 10 is input to the video processing unit 1 as described above, image processing such as contour enhancement processing and resolution conversion is performed, and the processed video signal is output. Is done. Reference numeral 22 denotes a brightness control unit (AGC1). In a television set, it may be called ABL or the like. The video signal output from the video processing unit 1 and subjected to video processing is input to the brightness control unit 22, and a video signal whose brightness is controlled by the video processing block (drive circuit) 11 is output. The video processing unit 1 and the brightness control unit 22 are configured as the video processing block (drive circuit) 11 described with reference to FIG.
[0016]
Reference numeral 21 denotes a brightness control unit (AGC2). The luminance control unit 21 receives a video signal whose luminance has been controlled and output from the luminance control unit 22, and outputs a video signal whose luminance has been controlled on the video display block (panel module) side.
[0017]
Reference numeral 6 denotes a matrix display panel such as a plasma display in which a number of wirings are arranged vertically and horizontally. As an example of the matrix display panel 6, there is, for example, one in which 853 pixels are provided in the horizontal direction and 480 pixels are provided in the vertical direction so that an NTSC image can be displayed. Actually, one pixel is formed by three dots of red, green and blue, and 2559 dots are formed in the horizontal direction.
[0018]
Reference numeral 4 denotes an X driver circuit that supplies a video signal for each pixel to signal electrodes in the vertical direction of the matrix display panel 6. Reference numeral 5 denotes a Y driver circuit for supplying a write pulse to the horizontal signal electrodes of the matrix display panel 6 every horizontal scanning period. The X driver circuit 4 and the Y driver circuit 5 receive the video signal output from the luminance control unit 21 and display a video on the matrix display panel 6.
[0019]
Reference numeral 7 denotes a panel power supply circuit. The panel power supply circuit 7 operates the matrix display panel 6, the X driver circuit 4, and the Y driver circuit 5, and supplies power used for displaying an image. The power consumption of the matrix display panel 6 is detected by the panel power supply circuit 7. In current technology, in plasma displays, this power consumption can range from 300 W to 1 KW.
[0020]
Reference numeral 3 denotes an APL detection circuit (average picture level detection circuit). The APL detection circuit 3 is connected to the panel power supply circuit 7 and detects the average image level of the image displayed on the matrix display panel 6 based on the power consumption. The APL detection circuit 3 can obtain an average level for one screen (frame) of the video signal by performing a predetermined calculation or the like. The average image level detected here has a small value for a dark image as a whole, and has a large value for a bright screen.
[0021]
The value of the video average level detected by the APL detection circuit 3 is output to the brightness control unit 22. The luminance control unit 22 controls and outputs the luminance of the video signal input from the video processing unit 1 according to the value of the input video average level. Further, the value of the video average level detected by the APL detection circuit 3 is output to the brightness control unit 21. Similarly, the brightness control unit 21 controls and outputs the brightness of the video signal input from the brightness control unit 22.
[0022]
In the embodiment of the present invention, in the video display block (panel module), the APL detection circuit 3 detects the video average level as described above, and if it is determined that the video average level is high, the brightness control unit By controlling the power supply 21 and lowering the video level, it is possible to realize the suppression of power consumption, the protection of the power supply circuit, and the like. Similarly, by passing the information to the luminance control unit 22 on the drive circuit side, the video processing block (drive circuit) 11 can control the luminance of the display panel of the video display block (panel module) 12 as well. It is possible to know whether the aperture is narrowed down, and it is possible to control the video signal output from the video processing block (drive circuit) 11 to the video display block (panel module) 12. For this reason, the luminance control unit 22 can control and output the luminance so as to be suitable for television picture creation, and output it.
(Second embodiment according to the present invention)
FIG. 3 is a configuration diagram of a video display device according to a second embodiment of the present invention. The same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0023]
The video processing unit 1 receives a video signal output from the broadcast receiving unit 10, performs video processing such as contour enhancement processing and resolution conversion, and outputs a video signal on which the video processing has been performed. The video signal output from the video processing unit 1 is input to the brightness control unit 21 (AGC). The luminance control unit 21 controls the luminance of the input video signal and outputs the video signal.
[0024]
As described above, the X driver circuit 4 and the Y driver circuit 5 receive the video signal output from the luminance control unit 21 and display the video on the matrix display panel 6. The panel power supply circuit 7 operates the matrix display panel 6, the X driver circuit 4, and the Y driver circuit 5, and supplies power used for displaying an image. The APL detection circuit 3 detects the average image level of the image displayed on the matrix display panel 6 based on the power consumption.
[0025]
Reference numeral 23 denotes a luminance calculator. The value of the image average level detected by the APL detection circuit 3 is output to the luminance calculation unit 23 provided in the image processing block (drive circuit) 11.
[0026]
The luminance calculator 23 calculates how much the luminance of the video signal is reduced, and controls the luminance controller 21 provided in the video display block (panel module) 12.
[0027]
The brightness control unit 21 controls the brightness of the input video signal according to the control of the brightness calculation unit 23, outputs the video signal, and displays the video on the matrix display panel 6 as described above.
[0028]
In the embodiment of the present invention, the brightness calculation unit 23 provided in the video processing block (drive circuit) 11 knows the control state of the brightness in the video display block (panel module) 12, and determines the video display block (panel Since the brightness control unit 21 provided in the module 12 can be controlled, the brightness level of the entire set including the video processing block (drive circuit) 11 and the video display block (panel module) 12 can be controlled. Becomes possible.
(Third embodiment according to the present invention)
FIG. 4 is a configuration diagram of a video display device according to a third embodiment of the present invention. The same components as those in the first and second embodiments are denoted by the same reference numerals, and description thereof is omitted.
[0029]
The video processing unit 1 receives a video signal output from the broadcast receiving unit 10, performs video processing such as contour enhancement processing and resolution conversion, and outputs a video signal on which the video processing has been performed.
[0030]
Reference numeral 32 denotes an APL detection device. The video signal output from the video processing unit 1 is input to the APL detection device 32, and the average level of the video (video average level) is obtained using the output level of the video processing circuit 1 in the drive circuit that performs signal processing for television. Is detected and output.
[0031]
Reference numeral 23 denotes a luminance calculator. The value of the video average level output from the APL detection circuit 32 is input to the luminance calculator 23, where an appropriate luminance value is calculated and output.
[0032]
Reference numeral 22 denotes a brightness control unit (AGC1). The video signal subjected to the video processing output from the video processing unit 1 is input to the brightness control unit 22. In addition, an appropriate luminance value output from the luminance calculator 23 is input. The brightness control unit 22 controls and outputs the brightness of the video signal input from the video processing unit 1 according to the appropriate brightness value input from the brightness calculation unit 23.
[0033]
The video processing unit 1, the APL detection device 32, the brightness calculation unit 23, and the brightness control unit (AGC1) 22 are provided in the video processing block (drive circuit) 11.
[0034]
The video signal output from the brightness control unit 22 is input to the brightness control unit 21 (AGC2). The luminance control unit 21 controls the luminance of the input video signal and outputs the video signal.
[0035]
As described above, the X driver circuit 4 and the Y driver circuit 5 receive the video signal output from the luminance control unit 21 and display the video on the matrix display panel 6. The panel power supply circuit 7 operates the matrix display panel 6, the X driver circuit 4, and the Y driver circuit 5, and supplies power used for displaying an image.
[0036]
Reference numeral 31 denotes an APL detection circuit provided in a video display block (panel module). The APL detection circuit 31 detects and outputs the average image level of the image displayed on the matrix display panel 6 based on the power consumption.
[0037]
The value of the video average level detected by the APL detection circuit 31 is output to the brightness calculation unit 23. The luminance calculator 23 calculates and outputs an appropriate luminance value according to the input image average level value. The appropriate brightness value output from the brightness calculation unit 23 is output by controlling the brightness of the video signal input from the video processing unit 1 as described above. Further, the value of the video average level detected by the APL detection circuit 31 is input to the brightness control unit 21. Similarly, the brightness control unit 21 controls and outputs the brightness of the video signal input from the brightness control unit 22.
[0038]
FIG. 5 is a diagram showing characteristics of the video display block (panel module) 12.
[0039]
Here, the vertical axis indicates the gain, which is normalized and set to 1.0 as the maximum luminance. The horizontal axis is the average level APL of the input signal.
[0040]
FIG. 6 is a diagram showing luminance characteristics of the entire set according to the embodiment of the present invention.
[0041]
5 and 6, when the characteristics of the panel module are as shown in FIG. 5, the whole set ((video processing block (drive circuit) 11 and video display block (panel module) 12)) ) Have power consumption characteristics for realizing power saving as shown in FIG.
[0042]
As described above, by knowing the state of the video display block (panel module) 12 on the video processing block (drive circuit) 11 side, the total characteristics can be controlled.
[0043]
In the embodiment of the present invention, the brightness calculation section 23 provided in the video processing block (drive circuit) 11 knows the control state of the brightness in the video display block (panel module) 12 and determines the video display block (panel module). Since the brightness control unit 21 provided in the module 12 can be controlled, the brightness level of the whole set can be controlled.
[0044]
【The invention's effect】
As described above, in the embodiment of the present invention, the brightness calculation unit provided in the video processing block knows the control state of the brightness in the video display block and controls the brightness control unit provided in the video display block. Therefore, the luminance level of the entire set can be controlled. For this reason, power consumption can be saved while obtaining appropriate luminance characteristics for picture making of a television set.
[Brief description of the drawings]
FIG. 1 is a schematic view of a video display device according to the present invention.
FIG. 2 is a configuration diagram according to a first embodiment of the video display device according to the present invention.
FIG. 3 is a configuration diagram according to a second embodiment of the video display device according to the present invention.
FIG. 4 is a configuration diagram according to a third embodiment of the video display device according to the present invention.
FIG. 5 is a diagram showing characteristics of a video display block (panel module).
FIG. 6 is a diagram showing luminance characteristics of the entire set according to the embodiment of the present invention.
FIG. 7 is a diagram showing a conventional video display device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Video processing part 3 ... APL detection circuit 4 ... X driver circuit 5 ... Y driver circuit 6 ... Matrix display panel 7 ... Power supply circuit for panel 10 ... Broadcast receiving part 11 ... Video processing block (drive circuit)
12 ... Video display block (panel module)
21: Brightness control unit (AGC2)
22 ... brightness control unit (AGC1)
23 ... luminance calculating section 31 ... APL detecting circuit 32 ... APL detecting device

Claims (9)

A video signal processing unit that performs video conversion of the input video signal and outputs the video signal,
A first video signal luminance control unit to which a video signal output from the video signal processing unit is input, and controls and outputs the luminance of the video signal;
A second video signal brightness control unit to which a video signal output from the first video signal brightness control unit is input and which controls and outputs the brightness of the video signal;
A video display unit to which a video signal output from the second video signal luminance control unit is input and a video is displayed;
An image average level detection unit that detects an image average level of an image displayed on the image display unit and outputs the average image level to the first image signal luminance control unit and the second image signal luminance control unit; The video display device according to claim 1, wherein the video signal brightness control unit and the second video signal brightness control unit control and output the brightness of the video signal according to the input video average level, respectively. The first video signal luminance control unit is provided integrally with the video signal processing unit; the second video signal luminance control unit and the video average level detection unit are provided integrally with the video display unit; 2. The video signal brightness control section and the second video signal brightness control section each control and output the brightness of a video signal according to the input video average level. Video display device. Video signal processing means for performing video conversion of the input video signal and outputting the video signal;
A first video signal luminance control unit to which a video signal output from the video signal processing unit is input and which controls and outputs the luminance of the video signal;
A second video signal luminance control unit to which a video signal output from the first video signal luminance control unit is input and which controls and outputs the luminance of the video signal;
Video display means for receiving a video signal output from the second video signal luminance control means and displaying a video,
A video average level detection unit that detects an average video level of the video displayed by the video display unit and outputs the average video level to the first video signal luminance control unit and the second video signal luminance control unit. Video display method. A video signal processing unit that performs video conversion of the input video signal and outputs the video signal,
A video signal output from the video signal processing unit is input, a video signal brightness control unit that controls and outputs the brightness of the input video signal,
A video display unit in which a video signal output from the video signal luminance control unit is input and a video is displayed,
A video average level detection unit that detects and outputs a video average level of a video displayed on the video display unit,
A video average level output from the video average level detection unit, and a brightness calculation unit that calculates and outputs brightness according to the video average level, and wherein the video signal brightness control unit is An image display device, characterized in that the luminance of an input video signal is controlled and output according to the output calculated luminance. The video signal brightness control unit and the video average level detection unit are provided integrally with the video display unit, and the video signal brightness control unit controls the video signal input according to the calculated brightness output from the brightness calculation unit. 5. The video display device according to claim 4, wherein the output is performed by controlling brightness. Video signal processing means for performing video conversion of the input video signal and outputting the video signal;
A video signal output from the video signal processing unit is input, a video signal luminance control unit that controls and outputs the luminance of the video signal,
Video display means for receiving a video signal output from the video signal luminance control means and displaying a video,
Image average level detection means for detecting and outputting the image average level of the image displayed by the image display means,
A video average level output from the video average level detection means, and a brightness calculation means for calculating and outputting a brightness corresponding to the video average level, wherein the video signal brightness control means is provided from the brightness calculation means. A video display method, characterized in that the brightness of an input video signal is controlled and output according to the output calculated brightness. A video signal processing unit that performs video conversion of the input video signal and outputs the video signal,
A first video signal luminance control unit to which a video signal output from the video signal processing unit is input, and controls and outputs the luminance of the video signal;
A first video average level detection unit that receives a video signal output from the video signal processing unit, detects and outputs a video average level,
A video average level output from the first video average level detection unit, and a brightness calculation unit that calculates brightness according to the video average level and controls the first video signal brightness control unit;
A second video signal brightness control unit to which a video signal output from the first video signal brightness control unit is input and which controls and outputs the brightness of the video signal;
A video display unit to which a video signal output from the second video signal luminance control unit is input and a video is displayed;
A second image average level detection unit that detects an image average level of an image displayed on the image display unit, and outputs the average image level to the luminance calculation unit and the second image signal luminance control unit; The video signal brightness control unit controls and outputs the brightness of the video signal according to the input video average level, and the first video signal brightness control unit controls the brightness of the video signal under the control of the brightness calculation unit. An image display device characterized in that the image is output after being output. The first video signal brightness control unit, the first video average level detection unit, the first video average level detection unit, and the brightness calculation unit are provided integrally with the video signal processing unit, and the second video signal brightness is provided. The control unit and the video average level detection unit are provided integrally with the video display unit, and the second video signal brightness control unit controls and outputs the brightness of the video signal according to the input video average level. An image display device, wherein the first image signal luminance control unit controls and outputs the luminance of the image signal under the control of the luminance calculation unit. Video signal processing means for performing video conversion of the input video signal and outputting the video signal;
A first video signal luminance control unit to which a video signal output from the video signal processing unit is input and which controls and outputs the luminance of the video signal;
First video average level detection means to which a video signal output from the video signal processing means is inputted, and which detects and outputs a video average level;
A video average level output from the first video average level detection unit, and a brightness calculation unit that calculates brightness according to the video average level and controls the first video signal brightness control unit;
A second video signal luminance control unit to which a video signal output from the first video signal luminance control unit is input and which controls and outputs the luminance of the video signal;
Video display means for receiving a video signal output from the second video signal luminance control means and displaying a video,
And a second video average level detection unit that detects an average video level of the video displayed by the video display unit and outputs the average video level to the luminance calculation unit and the second video signal luminance control unit. Video display method.

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