JP2008263403A - Video display apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video display apparatus capable of automatically setting a suitable picture quality parameter corresponding to connected external equipment even when the external equipment connected to an external input terminal is switched and capable of eliminating the necessity of adjusting picture quality, i.e. setting a picture quality parameter in each switching of the external equipment connected to the external input terminal. <P>SOLUTION: An external equipment specification part 21 specifies the external equipment 3 connected to the external input terminal 2 on the basis of a video signal V inputted from the external input terminal 2, and a microcomputer 25 sets a picture quality parameter for adjusting picture quality according to the specified external equipment 3. Further, the external equipment specification part 21 specifies the external equipment 3 by measuring a synchronizing signal in the video signal V and/or waveforms (amplitude, width, and the width of a front porch and a back porch) before and after the synchronizing signal. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a video display device that displays video, and more particularly to a video display device that displays a video signal from an external device connected to an external input terminal.

  In addition to the basic function of receiving and displaying broadcast waves with a built-in tuner, a television device, which is a video display device that displays video, has a function of displaying a video signal from an external device connected to an external input terminal. Also have.

As an external device connected to the external input terminal, various products such as a hard disk recorder, a DVD player, a game machine, and a video camera are targeted. When the input signal from the external device is an analog signal, the external input terminal When the product category of the external device connected to the device or, in some cases, the output level of the luminance signal or color difference signal may vary due to individual differences in the external device itself, and when the external device is a game machine It is necessary to consider the feeling of eye fatigue that leads to eye strain, so it is desirable to view in a certain lighting environment, or when the external device is a DVD player or the like, Because it is expected to watch on
In order to realize a comfortable listening environment, it is necessary to adjust image quality such as output level and brightness.

  The adjustment of the image quality such as the output level and brightness, that is, the setting of the image quality parameter is generally performed by the user during the audition, and the image quality parameter setting must be changed every time the input channel is switched. It is complicated. Therefore, a video display device has been proposed in which the image quality parameters set for each broadcasting station and external input terminal are stored so that the image quality parameters need not be set again even when the input channel is switched ( For example, see Patent Document 1).

However, many television devices that are video display devices have external input terminals that are assumed to be freely replaced and connected to a plurality of external devices at the front and side portions. On the other hand, even if the image quality parameters are stored as in the prior art, it is necessary to adjust the image quality, that is, to set the image quality parameters every time the external device is replaced. There was a problem that parameters could not be reused.
JP 9-37174 A

  The present invention has been made in view of such problems, and an object of the present invention is to provide an appropriate image quality according to the connected external device even if the external device connected to the external input terminal is replaced. It is an object of the present invention to provide a video display device that can automatically set parameters and that does not require image quality adjustment, that is, image quality parameter setting every time an external device connected to an external input terminal is replaced.

In order to solve the above problems, the present invention has the following configuration.
The video display device of the present invention is a video display device that displays a video signal from an external device connected to an external input terminal, and identifies the external device based on the video signal input from the external input terminal. And an image quality parameter setting means for setting an image quality parameter for image quality adjustment according to the external device specified by the external device specification means.

  Furthermore, the video display device of the present invention is characterized in that the external device specifying means specifies the external device by measuring a synchronization signal and / or a waveform before and after the synchronization signal in the video signal.

  Furthermore, in the video display device according to the present invention, when the image quality parameter setting unit is identified by the external device identifying unit as the external device that has been previously connected, The image quality parameter used at the time of setting is set.

  Furthermore, the video display device of the present invention monitors the maximum value and the minimum value of the output level of each of the luminance signal and the color difference signal based on the video signal, and based on the maximum value, the gain of the luminance signal and the color difference signal Level adjustment means for adjusting the offset of the luminance signal and the color difference signal based on the minimum value is provided.

  The video display device of the present invention specifies an external device connected to the external input terminal based on a video signal input from the external input terminal, and sets an image quality parameter for image quality adjustment according to the specified external device. By configuring so that the image quality parameters corresponding to the external device connected to the external input terminal can be set, even if the external device connected to the external input terminal is replaced, it will remain connected. Appropriate image quality parameters can be automatically set according to the external device, and there is no need to adjust the image quality, that is, to set the image quality parameter each time the external device connected to the external input terminal is replaced. There is an effect.

  Furthermore, the video display device of the present invention is configured to identify an external device by measuring a synchronization signal and / or a waveform before and after the synchronization signal in the video signal, so that the video signal is an analog signal. Also has an effect that an external device can be specified.

  Further, the video display device according to the present invention is configured to set the image quality parameter used when previously connected when it is specified that the external device has been previously connected. There is an effect that the image quality parameter adjusted by the user can be automatically set according to the change of the external device connected to the external input terminal.

  Furthermore, the video display device of the present invention monitors the maximum value and the minimum value of each output level of the luminance signal and the color difference signal based on the video signal, and adjusts the gain of the luminance signal and the color difference signal based on the maximum value. Since the offset adjustment of the luminance signal and the color difference signal is performed based on the minimum value, automatic adjustment can be performed according to the characteristics of the signal that differs for each external device, thereby reducing the burden on the user. Play.

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

  FIG. 1 is a block diagram showing a configuration of an embodiment of a video display device according to the present invention, FIG. 2 is a diagram showing waveforms used for determination by an external device specifying unit shown in FIG. 1, and FIG. FIG. 4 is a diagram showing an example of waveform information stored in the external device specifying unit shown in FIG. 1, FIG. 4 is a block diagram showing the configuration of the level adjusting unit shown in FIG. 1, and FIG. 5 is shown in FIG. It is a figure which shows the example of image quality parameter setting information memorize | stored in a setting memory | storage part.

  The video display apparatus according to the present embodiment is a television apparatus 1. Referring to FIG. 1, a tuner 12 that selects a broadcast wave signal received by an antenna 11 and generates an intermediate frequency signal, and an intermediate frequency signal An intermediate frequency processing unit 13 for extracting and outputting the video signal V and the audio signal S by amplification and detection, and the video signal V and the audio signal S input from the intermediate frequency processing unit 13 or the external input terminal 2 An AV selector 14 for selecting a video signal V and an audio signal S externally input from the connected external device 3; an audio amplifier 16 for amplifying the audio signal S selected by the AV selector 14 and outputting it from the speaker 15; A Y / C separation unit 17 that separates the video signal V selected by the AV selector 14 into a luminance signal Y and a color signal C; A chroma decoder 18 that outputs the color difference signal UV, an LCD (liquid crystal display) 19 that is a display means, an RGB processor 20 that converts the luminance signal Y and the color difference signal UV into RGB signals, and displays them on the LCD 19; An external device specifying unit 21 for specifying the external device 3 connected to the input terminal 2, a level adjusting unit 22 for adjusting the levels of the luminance signal Y and the color difference signal UV output from the chroma decoder 18, and an external input terminal A command storage unit 23 that stores image quality parameters set for each external device 3 connected to 2 and a command converted into an infrared modulation signal or the like output from a remote control device 4 that functions as an operation unit of the television device 1 A receiving unit 24 that receives signals and a microcomputer 25 that is a system controller that controls various operations of the television apparatus 1 are provided. To have.

  The remote control device 4 is provided with various operation buttons 41 composed of a plurality of key groups (ten keys, cross keys, etc.), and when the operation buttons 41 are operated, corresponding command signals are output as infrared modulation signals. The

  The external device specifying unit 21 specifies the external device 3 connected to the external input terminal 2 based on the video signal V input from the external input terminal 2, and notifies the level adjustment unit 22 and the microcomputer 25 of the specifying result. To do. The external device 3 connected to the external input terminal 2 is identified by the synchronization signal as shown in FIG. 2 that varies depending on the external device 3 when the video signal V input from the external input terminal 2 is an analog signal. This is performed based on waveforms before and after the synchronization signal (amplitude and width, width of front porch and back porch). The external device specifying unit 21 measures the synchronization signal in the video signal V input from the external input terminal 2 and / or the waveform before and after the synchronization signal (amplitude and width, width of the front porch and back porch), and previously connected. By comparing with the measurement result of the external device 3 that has been connected, if the connected external device 3 has never been connected before, that is, it does not match any of the measurement results of the external device 3 that was previously connected In this case, as shown in FIG. 3, a unique ID is assigned to the external device 3 connected for the first time, and the measurement result is stored as waveform information. If the connected external device 3 has been connected before, that is, if it matches any of the measurement results of the previously connected external device 3, the connected external device 3 is specified. The unique ID for this is notified to the level adjusting unit 22 and the microcomputer 25 as a specific result. Although various modes are conceivable depending on the external device 3 connected to the external input terminal 2, since the number of external devices 3 to be specified for home use or personal use is relatively small, the synchronization signal and / or Alternatively, it is possible to easily identify the external device 3 based on waveforms before and after the synchronization signal (amplitude and width, width of front porch and back porch).

  Referring to FIG. 4, the level adjustment unit 22 includes an amplifier 30a for adjusting the gain of the luminance signal Y output from the chroma decoder 18, and a clamp circuit 31a for adjusting the offset of the luminance signal Y output from the chroma decoder 18. The A / D converter 32a that converts the output from the amplifier 30a into a digital signal, the amplifier 30b that adjusts the gain of the color difference signal UV output from the chroma decoder 18, and the color difference signal UV output from the chroma decoder 18 A clamp circuit 31b for adjusting the offset and an A / D conversion unit 32b for converting the output from the amplifier 30b into a digital signal, and the luminance signal Y converted into a digital signal by the A / D conversion unit 32a are provided. The maximum and minimum values of the output level and converted into digital signals by the A / D converter 32b Memory 33 in which the maximum value and minimum value of the output level of difference signal UV are stored, luminance signal maximum value memory 34a, luminance signal minimum value memory 35a, color difference signal maximum value memory 34b, and color difference signal minimum value memory 35b.

  The maximum value of the output level of the luminance signal Y accumulated in the memory 33 is stored in the luminance signal maximum value memory 34a when the maximum value is larger than 100 ire in a certain period. The maximum value stored in the luminance signal maximum value memory 34a is fed back to the amplifier 30a, and the amplifier 30a performs gain adjustment on the luminance signal Y so that the maximum value stored in the luminance signal maximum value memory 34a becomes 100 ire. Is done. In the luminance signal maximum value memory 34a, the maximum value of the output level of the luminance signal Y is stored for each external device 3 specified by the external device specifying unit 21, and the external device 3 is specified by the external device specifying unit 21. Then, the maximum value corresponding to the specified external device 3 is updated.

  In the luminance signal minimum value memory 35a, when the minimum value of the output level of the luminance signal Y accumulated in the memory 33 is smaller than 0ire during a certain period, the minimum value is stored. The minimum value stored in the luminance signal minimum value memory 35a is fed back to the clamp circuit 31a. The clamp circuit 31a causes the minimum value stored in the luminance signal minimum value memory 35a to be 0 ire with respect to the luminance signal Y. Offset adjustment is performed. In the luminance signal minimum value memory 35a, the minimum value of the output level of the luminance signal Y is stored for each external device 3 specified by the external device specifying unit 21, and the external device 3 is specified by the external device specifying unit 21. Then, the minimum value corresponding to the specified external device 3 is updated.

  The color difference signal maximum value memory 34b stores the maximum value when the maximum value of the output level of the color difference signal UV accumulated in the memory 33 is larger than 100 ire in a certain period. The maximum value stored in the color difference signal maximum value memory 34b is fed back to the amplifier 30b, and the amplifier 30b performs gain adjustment on the color difference signal UV so that the maximum value stored in the color difference signal maximum value memory 34b becomes 100 ire. Is done. In the color difference signal maximum value memory 34b, the maximum value of the output level of the color difference signal UV is stored for each external device 3 specified by the external device specifying unit 21, and the external device 3 is specified by the external device specifying unit 21. Then, the maximum value corresponding to the specified external device 3 is updated.

  The color difference signal minimum value memory 35b stores the minimum value when the minimum value of the output level of the color difference signal UV accumulated in the memory 33 is smaller than 0ire in a certain period. The minimum value stored in the color difference signal minimum value memory 35b is fed back to the clamp circuit 31b, and the clamp circuit 31b applies the color difference signal UV so that the minimum value stored in the color difference signal minimum value memory 35b becomes 0ire. Offset adjustment is performed. In the color difference signal minimum value memory 35b, the minimum value of the output level of the color difference signal UV is stored for each external device 3 specified by the external device specifying unit 21, and the external device 3 is specified by the external device specifying unit 21. Then, the minimum value corresponding to the specified external device 3 is updated.

  The setting storage unit 23 is connected to a preset AV mode (dynamic, movie, game) as shown in FIG. 5A and the external input terminal 2 as shown in FIG. 5B. It is a storage means for storing image quality parameters set by the user for the external device 3 (recorder A, game machine B).

Next, the level automatic adjustment operation of the present embodiment will be described in detail with reference to FIG.
FIG. 6 is a flowchart for explaining the level automatic adjustment operation of the embodiment of the video display apparatus according to the present invention.

  When the display of the video signal V input from the external input terminal 2 is instructed by operating the operation button 41 of the remote control device 4, the microcomputer 25 causes the external device specifying unit 21 to connect to the external device connected to the external input terminal 2. 3 is specified, and the AV selector 14 is instructed to select the video signal V and the audio signal S input from the external device 3 connected to the external input terminal 2.

  The external device specifying unit 21 measures the amplitude and width of the synchronization signal of the video signal V input from the external input terminal 2 and the widths of the front porch and the back porch (step A1), and the external device 3 connected before is measured. By comparing with any of the measurement results, it is specified whether or not the external device 3 has been connected before (step A2).

  If the measurement result of step A1 does not match any of the measurement results of the previously connected external device 3, and if it is determined in step A2 that it is not the external device 3 that has been previously connected, The device specifying unit 21 specifies that the external device 3 connected to the external input terminal 2 is a newly connected external device 3, assigns a new unique ID, and stores the measurement result (step) A3) Notifying the level adjusting unit 22 of the newly assigned unique ID.

  The level adjustment unit 22 notified of the newly assigned unique ID initializes the memory 33 and stores the maximum value and the minimum value of the luminance signal Y and the color difference signal UV corresponding to the notified unique ID. Accordingly, the luminance signal maximum value memory 34a, the color difference signal maximum value memory 34b, the luminance signal minimum value memory 35a, and the color difference signal minimum value memory 35b are initialized (step A4).

  If any of the measurement results of step A1 and the measurement results of the external device 3 connected previously match and it is determined in step A2 that the external device 3 has been connected before, the external device 3 The device specifying unit 21 notifies the level adjusting unit 22 of the unique ID of the specified external device 3.

  The level adjusting unit 22 notified of the unique ID initializes the memory 33, specifies the maximum value and the minimum value of the luminance signal Y and the color difference signal UV corresponding to the notified unique ID, and specifies the specified luminance. The luminance signal maximum value memory 34a, the color difference signal maximum value memory 34b, the luminance signal minimum value memory 35a, and the color difference signal minimum value memory 35b are updated to the maximum value and the minimum value of the signal Y and the color difference signal UV, respectively (step A5).

  Next, the maximum value and the minimum value of the output level of the luminance signal Y converted into a digital signal by the A / D conversion unit 32a stored in the memory 33 are monitored (step A6), and the luminance signal stored in the memory 33 is stored. When it is detected that the maximum value of the output level of Y is larger than 100 ire in a certain period (step A7), the maximum value is stored in the luminance signal maximum value memory 34a and fed back to the amplifier 30a. By 30a, gain adjustment is performed on the luminance signal Y so that the maximum value stored in the luminance signal maximum value memory 34a becomes 100 ire (step A8). If it is detected that the minimum value of the output level of the luminance signal Y accumulated in the memory 33 is smaller than 0ire in a certain period (step A9), the minimum value is stored in the luminance signal minimum value memory 35a. Then, the feedback is fed back to the clamp circuit 31a, and the clamp circuit 31a performs offset adjustment on the luminance signal Y so that the minimum value stored in the luminance signal minimum value memory 35a becomes 0 ire (step A10).

  Similarly, the maximum value and the minimum value of the output level of the color difference signal UV converted into a digital signal by the A / D conversion unit 32b stored in the memory 33 are monitored (step A6), and the color difference signal stored in the memory 33 is displayed. When it is detected that the maximum value of the UV output level is larger than 100 ire in a certain period (step A7), the maximum value is stored in the color difference signal maximum value memory 34b and fed back to the amplifier 30b. By 30b, gain adjustment is performed on the color difference signal UV so that the maximum value stored in the color difference signal maximum value memory 34b becomes 100 ire (step A8). When it is detected that the minimum value of the output level of the color difference signal UV accumulated in the memory 33 is smaller than 0ire in a certain period (step A9), the minimum value is stored in the color difference signal minimum value memory 35b. Then, the offset is adjusted to the color difference signal UV so that the minimum value stored in the color difference signal minimum value memory 35b becomes 0ire by the feedback to the clamp circuit 31b.

Next, the image quality parameter setting operation of the present embodiment will be described in detail with reference to FIG.
FIG. 7 is a flowchart for explaining the image quality parameter setting operation of the video display apparatus according to the embodiment of the present invention.

  When the display of the video signal V input from the external input terminal 2 is instructed by operating the operation button 41 of the remote control device 4, the microcomputer 25 causes the external device specifying unit 21 to connect to the external device connected to the external input terminal 2. 3 is instructed, the AV selector 14 is instructed to select the video signal V and the audio signal S externally input from the external device 3 connected to the external input terminal 2, and the previous time from the external input terminal 2 The image quality parameter used when the input video signal V is displayed is set.

  The external device specifying unit 21 measures the amplitude and width of the synchronization signal of the video signal V input from the external input terminal 2 and the widths of the front porch and the back porch, and any of the measurement results of the external device 3 connected before. The external device 3 is identified by comparing with (step B1), it is determined whether or not the external device 3 connected to the external input terminal 2 has been changed (step B2), and connected to the external input terminal 2 If the connected external device 3 is changed, it is determined whether or not the external device 3 has been previously connected (step B3). In addition, when the external device 3 is connected by HDMI, IEEE1394, etc., the external device 3 can be specified by communication. For example, if it is a connection by HDMI, inter-device authentication is performed by EDID, and the external device 3 is externally connected. The device 3 can be specified.

  If it is determined in step B2 that the external device 3 has been changed and it is determined in step B3 that the external device 3 has been previously connected, the external device specifying unit 21 determines whether the specified external device 3 is unique. The microcomputer 25 is notified of the ID. The microcomputer 25 reads the image quality parameter corresponding to the notified unique ID, that is, the image quality parameter corresponding to the external device 3 connected to the external input terminal 2 from the setting storage unit 23, and reads the set image quality parameter. (Step B4), and the display of the video signal V input from the external input terminal 2 is controlled using the changed image quality parameter.

  If it is determined in step B2 that the external device 3 has not been changed, the external device specifying unit 21 notifies the microcomputer 25 that the external device 3 has not been changed, and the microcomputer 25 has been set. The display of the video signal V input from the external input terminal 2 is controlled using the current image quality parameter (step B5).

  If it is determined in step B3 that the external device 3 is not previously connected, the external device specifying unit 21 assigns a new unique ID and notifies the microcomputer 25 of the new unique ID. Since the image quality parameter corresponding to the new unique ID is not stored in the setting storage unit 23, the display of the video signal V input from the external input terminal 2 is controlled using the set current image quality parameter. At the same time (step B 5), the set current image quality parameter corresponding to the new unique ID is stored in the setting storage unit 23.

  When the image quality parameter is changed by the user while the video signal V input from the external input terminal 2 is being displayed, the microcomputer 25 assigns the changed image quality parameter to the unique ID (external input terminal 2). It is stored in the setting storage unit 23 in correspondence with the connected external device 3). As a result, in the external device 3 that has been connected to the external input terminal 2, the image quality parameter adjusted by the user according to preferences is stored in the setting storage unit 23, and changes in the external device 3 connected to the external input terminal 2 occur. Accordingly, the image quality parameter adjusted by the user according to preference is automatically set.

  Further, any one of AV modes set in advance may be set according to the specified external device 3. That is, the AV mode is automatically set such that the game mode is set when the external device 3 is specified as a game machine, and the movie mode is set when the external device 3 is specified as a DVD player. Thus, the user can view with the recommended image quality parameter, and it is not necessary to adjust the image quality parameter, and the burden on the user can be reduced. Further, when the user changes to an AV mode different from the AV mode automatically set or the image quality parameter is changed, the AV mode set by the user according to his / her preference by the above-described image quality parameter setting operation. It is preferable that the adjusted image quality parameter is automatically set.

  As described above, according to the present embodiment, the external device specifying unit 21 specifies the external device 3 connected to the external input terminal 2 based on the video signal V input from the external input terminal 2. The microcomputer 25 sets the image quality parameter corresponding to the external device 3 connected to the external input terminal 2 by configuring the image quality parameter for image quality adjustment according to the specified external device 3. Therefore, even if the external device 3 connected to the external input terminal 2 is replaced, an appropriate image quality parameter according to the connected external device 3 can be automatically set. Each time the external device 3 connected to 2 is replaced, there is an effect that it is not necessary to adjust image quality, that is, to set image quality parameters.

  Furthermore, according to the present embodiment, the external device specifying unit 21 measures the synchronization signal in the video signal V and / or the waveform before and after the synchronization signal (amplitude and width, width of the front porch and back porch). By configuring the external device 3 to be specified, the external device 3 can be specified even if the video signal V is analog.

  Further, according to the present embodiment, when the external device specifying unit 21 specifies that the external device 3 has been connected before, the microcomputer 25 is used when connected previously. By configuring so as to set the image quality parameter, it is possible to automatically set the image quality parameter adjusted by the user according to preference in accordance with the change in the external device connected to the external input terminal.

  Furthermore, according to the present embodiment, the maximum value and the minimum value at the output levels of the luminance signal and the color difference signal based on the video signal are monitored, and the gain adjustment of the luminance signal and the color difference signal is performed based on the maximum value. By providing the level adjustment unit 22 that performs the offset adjustment of the luminance signal and the color difference signal based on the minimum value, automatic adjustment can be performed according to different signal characteristics for each external device 3, thereby reducing the burden on the user. There is an effect.

  Note that the present invention is not limited to the above-described embodiments, and it is obvious that the embodiments can be appropriately changed within the scope of the technical idea of the present invention. In addition, the number, position, shape, and the like of the constituent members are not limited to the above-described embodiment, and can be set to a suitable number, position, shape, and the like in practicing the present invention. In each figure, the same numerals are given to the same component.

It is a block diagram which shows the structure of embodiment of the video display apparatus concerning this invention. It is a figure which shows the waveform which the external apparatus specific | specification part shown in FIG. 1 uses for determination. It is a figure which shows the example of the waveform information memorize | stored in the external device specific | specification part shown in FIG. It is a block diagram which shows the structure of the level adjustment part shown in FIG. It is a figure which shows the image quality parameter setting information example memorize | stored in the setting memory | storage part shown in FIG. It is a flowchart explaining the level automatic adjustment operation | movement of embodiment of the video display apparatus based on this invention. 6 is a flowchart illustrating an image quality parameter setting operation performed by the video display apparatus according to the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Television apparatus 2 External input terminal 3 External apparatus 4 Remote control apparatus 11 Antenna 12 Tuner 13 Intermediate frequency processing part 14 AV selector 15 Speaker 16 Audio | voice amplifier 17 Y / C separation part 18 Chroma decoder 19 LCD (liquid crystal display)
20 RGB processor 21 External device identification unit 22 Level adjustment unit 23 Setting storage unit 24 Reception unit 25 Microcomputer 30a, 30b Amplifier 31a, 31b Clamp circuit 32a, 32b A / D conversion unit 33 Memory 34a Luminance signal maximum value memory 34b Color difference signal maximum Value memory 35a Luminance signal minimum value memory 35b Color difference signal minimum value memory

Claims (4)

A video display device for displaying a video signal from an external device connected to an external input terminal,
External device specifying means for specifying the external device based on the video signal input from the external input terminal;
An image display device comprising image quality parameter setting means for setting image quality parameters for image quality adjustment according to the external device specified by the external device specifying means.   2. The video display device according to claim 1, wherein the external device specifying unit specifies the external device by measuring a synchronization signal and / or a waveform before and after the synchronization signal in the video signal.   The image quality parameter setting unit sets the image quality parameter used when the external device was previously connected when the external device specifying unit identifies the external device that has been connected before. The video display device according to claim 1, wherein the video display device is a video display device.   The maximum value and the minimum value at the respective output levels of the luminance signal and the color difference signal based on the video signal are monitored, and the gain adjustment of the luminance signal and the color difference signal is performed based on the maximum value, and based on the minimum value 4. The video display device according to claim 1, further comprising level adjusting means for performing offset adjustment of the luminance signal and the color difference signal.

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