JP2013125157A - Video display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To maintain visibility of an OSD and prevent black floating when the OSD is additionally displayed in a screen in a state in which a video signal of black signal is displayed, while reducing power consumption.SOLUTION: A black signal determination unit 14 determines whether a video signal is a black signal. A video processing unit 17 receives a display instruction of on-screen display in a liquid crystal panel 19. When determining that the video signal is a black signal and receiving a display instruction of OSD, a light source brightness control unit 15 sets the brightness of a light source to be greater than the brightness of the light source when determining that the video signal is a black signal and not receiving a display instruction of OSD, and smaller than the brightness of the light source when the video signal is a signal other than a black signal.

Description

  The present invention relates to a video display device, and more specifically, includes a display unit that displays a video signal, and a light source that illuminates the display unit by receiving power, and when the video signal is a black signal, The present invention relates to a video display device that reduces the luminance as compared with the luminance when the video signal is not a black signal.

  Conventionally, in a video display device equipped with an LED (Light Emitting Diode) backlight, when the video signal is a black signal, the current value passed through the LED is smaller than the dimming processing performed at the time of a normal signal. Alternatively, the contrast ratio is improved and the power consumption is reduced by reducing the lighting rate of the backlight (including turning off the light), or both.

  7 and 8 are diagrams for explaining the light control processing in the prior art. In this dimming process, when the video signal is not a black signal but a normal signal as shown in FIG. 8A, as shown in FIG. 7, the dimming level (-16 to +16) set by the user is shown. ), The value of the current flowing through the LEDs constituting the backlight and the duty ratio of the current are set.

  8B, when the video signal is a black signal, as shown in FIG. 7, the current value is a signal other than the black signal and the user dimming is performed. It is set to a smaller value (10 mA) than the current value (36 mA to 100 mA) when it is performed. Also, the duty ratio of the current is set to a smaller value (0.1%) than the duty ratio (100%) when user dimming is performed.

  Patent Document 1 discloses a liquid crystal display device in which the emission luminance of the backlight source of the light source is reduced as the APL becomes smaller when the APL (Average Picture Level) of the video signal is smaller than a predetermined value. .

Japanese Patent No. 398276

  However, in the above-described prior art, as shown in FIG. 8C, an on-screen display (hereinafter referred to as “OSD”) such as an input setting display and a volume level is displayed in a state where a black signal is displayed. If the same dimming process as the dimming process for the black video signal is performed, the OSD display becomes dark and difficult to see. On the other hand, if the same dimming process as the dimming process for the video signal other than the black signal is performed, black floating occurs and power consumption increases.

  In view of the above circumstances, the present invention prevents the black float and reduces the power consumption while maintaining the visibility of the OSD when the video signal of the black signal is displayed and the OSD is further displayed on the screen. An object of the present invention is to provide a video display device that enables the above.

  In order to solve the above problems, a first technical means of the present invention includes a display unit that displays a video signal, and a light source that illuminates the display unit by receiving power, and the video signal is a black signal. And a black signal determination for determining whether or not the video signal is a black signal, wherein the luminance of the light source is lower than that when the video signal is not a black signal. A video processing unit that receives an instruction to display an on-screen display in the display unit, and the light source when the video signal is determined to be a black signal and the display instruction to the on-screen display is received. Greater than the brightness of the light source when it is determined that the video signal is a black signal and a display instruction for the on-screen display is not accepted. Each time the A, characterized in that it comprises a light source luminance control unit that sets a smaller luminance than the luminance of the light source when the image signal is a signal other than black signal.

  The second technical means of the present invention is the first technical means, further comprising an illuminance sensor that measures the ambient illuminance of the video display device, and the light source luminance control unit determines that the video signal is a black signal. And when the display instruction of the on-screen display is received, the luminance of the light source is set based on the ambient illuminance measured by the illuminance sensor.

  According to the present invention, it is determined whether or not the video signal is a black signal, the display instruction of the on-screen display in the display unit is received, the video signal is determined to be the black signal, and the display of the on-screen display is performed. When the instruction is accepted, the brightness of the light source is determined to be that the video signal is a black signal, and the brightness of the light source is greater than the brightness of the light source when the on-screen display display instruction is not accepted, Since the luminance is set to be lower than the luminance of the light source when the video signal is a signal other than the black signal, the OSD is further displayed on the screen while the video signal of the black signal is displayed. , While maintaining the visibility of the OSD, it is possible to prevent black floating and reduce power consumption.

1 is a block diagram illustrating a configuration of a liquid crystal display device according to a first embodiment of the present invention. It is a figure explaining an example of the light control table which concerns on 1st Embodiment. It is a figure explaining an example of the current control performed according to the display state of an image | video. It is a block diagram which shows the structure of the liquid crystal display device which concerns on the 2nd Embodiment of this invention. It is a figure which shows an example of the light control table which concerns on 2nd Embodiment. It is a figure which shows the relationship between the brightness | luminance of a backlight unit, and ambient illuminance. It is a figure explaining the light control process in a prior art. It is a figure explaining the light control process in a prior art.

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

(First embodiment)
FIG. 1 is a block diagram showing a configuration of a liquid crystal display device 1 according to the first embodiment of the present invention. The tuner 12 of the liquid crystal display device 1 selects a broadcast signal received by the antenna 11. The decoder 13 decodes and demultiplexes the broadcast signal selected by the tuner 12 and outputs a video signal for driving the liquid crystal panel 19.

  The video signal separated by the decoder 13 is subjected to various video processing such as synthesis of an on-screen display (hereinafter referred to as OSD) by the video processing unit 17 and then the liquid crystal panel 19 is driven and controlled. Input to the LCD controller 18. When the video processing unit 17 receives an OSD display instruction, the video processing unit 17 notifies the light source luminance control unit 15 that the display instruction has been received.

  The LCD controller 18 outputs a liquid crystal drive signal to a gate driver and a source driver (not shown) of the liquid crystal panel 19 based on the input video signal, whereby an image according to the video signal is displayed on the liquid crystal panel 19.

  The video signal separated by the decoder 13 is also output to the black signal determination unit 14. The black signal determination unit 14 determines whether the video signal output from the decoder 13 is a black signal. The determination result is notified to the light source luminance control unit 15.

  The backlight unit 16 is configured by arranging, for example, a plurality of color LED (Light Emitting Diode) light sources in a housing attached to the back surface of the liquid crystal panel 19. The light emission luminance of the LED light source can be controlled by adjusting the current passed through each LED light source. The backlight unit 16 obtains a control signal indicating a current value and a duty ratio of a current flowing through the LED light source from the light source luminance control unit 15, and supplies a current to the LED light source according to the control signal.

  The dimming table 22 is a table that stores the display state of the video and the setting information of the current flowing through the LED light source in association with each other. FIG. 2 is a diagram for explaining an example of the dimming table 22 according to the first embodiment, and FIG. 3 is a diagram for explaining an example of current control performed in accordance with a video display state.

  The dimming table 22 has a current value (36 mA to 100 mA) to be passed through the LED light source and a current duty ratio (100) in association with a default or user-set dimming level (−16 to +16). %) Is set. The value set here is used when the video signal is a signal other than the black signal. The “normal video” in FIG. 3 shows an example in which the user dimming is set to “−16” and the current value is 36 mA.

  In the dimming table 22, a current value (10 mA) and a current duty ratio (0.1%) when the video signal is a black signal and the OSD is not displayed are set. This current value and duty ratio are when the video signal is a signal other than a black signal (that is, when a current value and a duty ratio corresponding to a dimming level of −16 to +16 are applied in the dimming table 22). The brightness of the LED light source is set to a value smaller than the brightness of the LED light source. “Black detection” in FIG. 3 shows a time change of the current value in this case.

  Further, in the dimming table 22, a current value (24 mA) and a current duty ratio (50%) when the video signal is a black signal and OSD display is set. The current value and the duty ratio are set to values at which the luminance of the LED light source is smaller than the luminance of the LED light source when the video signal is a signal other than a black signal, and the video signal is a black signal. In addition, the luminance of the LED light source is set to be larger than the luminance of the LED light source when the OSD display is not performed.

  By setting the current value and the duty ratio as described above, black floating can be prevented and power consumption can be reduced while maintaining the visibility of the OSD. “Black detection + OSD” in FIG. 3 shows the time variation of the current value in this case.

  The dimming table 22 is stored in advance in a table storage memory 21 such as a ROM, and the light emission luminance of the backlight unit 16 is controlled by the dimming table 22.

  The light source luminance control unit 15 controls the light emission luminance of the LED light source based on the dimming table 22. For example, when the video signal is a signal other than the black signal, the light source luminance control unit 15 sets the current value and the current duty ratio corresponding to the dimming level set by default or by the user to the dimming table 22. And a control signal indicating the current value and the duty ratio is output to the backlight unit 17.

  The light source luminance control unit 15 also determines the current value and current when the video signal is a black signal and the OSD is not displayed when the video signal is a black signal and the OSD is not displayed. Is read from the dimming table 22 and a control signal indicating the current value and the duty ratio is output to the backlight unit 17.

  Furthermore, when the video signal is a black signal and the OSD display is performed, the light source luminance control unit 15 determines the current value and current when the video signal is the black signal and the OSD display is performed. Is read from the dimming table 22 and a control signal indicating the current value and the duty ratio is output to the backlight unit 17.

  Further, the liquid crystal display device 1 includes a remote control light receiving unit 23 for receiving a remote control signal transmitted from the remote control device 24. The remote control light receiving unit 23 is constituted by, for example, a light receiving LED for receiving a remote control operation signal using infrared rays. The remote control operation signal received by the remote control light receiving unit 23 is input to the input control unit 20, and the input control unit 20 performs predetermined control according to the input remote control operation signal.

  For example, the remote control device 24 receives an input for setting the dimming level of the display screen from the user. In this case, the input control unit 20 outputs information on the light control level set by the user to the light source luminance control unit 15.

  Further, the remote control device 24 receives an input for instructing display of the OSD from the user. In this case, the input control unit 20 outputs the OSD display instruction information made by the user to the video processing unit 17.

  As described above, the black signal determination unit 14 determines whether or not the video signal is a black signal, the video processing unit 17 receives an OSD display instruction on the liquid crystal panel 19, and the video signal is a black signal. And the display instruction of the on-screen display is received, the light source luminance control unit 15 determines the luminance of the light source, the video signal is a black signal, and the display instruction of the on-screen display. Since the brightness of the light source when not accepted and the brightness of the light source when the video signal is a signal other than the black signal are set to be different, the video signal of the black signal is displayed Thus, when the OSD is further displayed on the screen, it is possible to prevent black floating and reduce power consumption while maintaining the visibility of the OSD.

(Second Embodiment)
In the first embodiment, when the video signal is a black signal and an OSD display instruction is given, the current value and the duty ratio of the current are set to specific values. The current value of the current supplied to the LED light source and the duty ratio of the current may be changed according to the ambient illuminance of the device 1.

  FIG. 4 is a block diagram showing a configuration of the liquid crystal display device 1 according to the second embodiment of the present invention. 1 is different from the liquid crystal display device 1 shown in FIG. 1 in the presence / absence of the illuminance sensor 25 and the configuration of the dimming table 22. In the following, the difference between the liquid crystal display device 1 shown in FIG. 4 and the liquid crystal display device 1 shown in FIG. 1 will be mainly described.

  The illuminance sensor 25 of the liquid crystal display device 1 shown in FIG. 4 measures the ambient illuminance of the liquid crystal display device 1. As the illuminance sensor 25, for example, a photodiode can be applied. The illuminance sensor 25 outputs the measured illuminance information to the input control unit 20.

  The input control unit 20 outputs the OSD display instruction information given by the user to the video processing unit 17. Further, the input control unit 20 acquires information on the ambient illuminance measured by the illuminance sensor 25 and outputs the information to the light source luminance control unit 15.

  FIG. 5 is a diagram illustrating an example of the dimming table 22 according to the second embodiment, and FIG. 6 is a diagram illustrating a relationship between the luminance of the LED light source and the ambient illuminance. In the dimming table 22 shown in FIG. 5, the video signal is a signal other than a black signal in association with information on ambient illuminance (0 lx to 20 lx,..., 150 lx to 170 lx,..., 300 lx). In this case, the current value (36 mA to 100 mA) of the current flowing through the LED light source and the current duty ratio (100%) are set.

  In the dimming table 22, a current value (30 mA) when the video signal is a black signal and a duty ratio (0.1%) of the current are set. The current value and the duty ratio are set to values at which the luminance of the LED light source is smaller than the luminance of the LED light source when the video signal is a signal other than the black signal and user dimming is performed.

  Further, in the light control table 22, the video signal is a black signal in association with ambient illuminance information (0lx to 20lx,..., 150lx to 170lx,. When OSD is displayed, a current value (10 mA to 24 mA) flowing through the LED light source and a current duty ratio (40%) are set.

  The current value and the duty ratio are values in which the luminance of the LED light source is smaller than the luminance of the LED light source when the video signal is a signal other than the black signal (see the luminance of “normal video” in FIG. 6) ( The luminance of the LED light source is higher than that of the LED light source when the video signal is a black signal and the OSD is not displayed. Set to a larger value.

  By setting the current value and the duty ratio as described above, black floating can be prevented and power consumption can be reduced while maintaining the visibility of the OSD. Furthermore, the optimal brightness of the screen can be set by setting the current value and the duty ratio according to the ambient illuminance.

  Note that the present invention is not limited to the above-described embodiment, and various modifications and corrections are possible without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 ... Video display apparatus, 11 ... Antenna, 12 ... Tuner, 13 ... Decoder, 14 ... Black signal determination part, 15 ... Light source luminance control part, 16 ... Backlight unit, 17 ... Video processing part, 18 ... LCD controller, 19 DESCRIPTION OF SYMBOLS ... Liquid crystal panel, 20 ... Input control part, 21 ... Table storage memory, 22 ... Light control table, 23 ... Remote control light-receiving part, 24 ... Remote control apparatus, 25 ... Illuminance sensor.

Claims (2)

A display unit that displays a video signal; and a light source that receives power to illuminate the display unit. When the video signal is a black signal, the luminance of the light source is determined so that the video signal is not a black signal. A video display device that is smaller than the brightness of the case,
A black signal determination unit for determining whether the video signal is a black signal;
A video processing unit for receiving an instruction to display an on-screen display in the display unit;
When it is determined that the video signal is a black signal and a display instruction for the on-screen display is received, the luminance of the light source is determined, and the video signal is determined to be a black signal, and A light source brightness that is set to a brightness that is greater than the brightness of the light source when a display instruction on the screen display is not received and that is less than the brightness of the light source when the video signal is a signal other than a black signal A control unit;
A video display device comprising:   Further comprising an illuminance sensor that measures the ambient illuminance of the video display device, the light source luminance control unit is determined that the video signal is a black signal, and when a display instruction of the on-screen display is received, The video display device according to claim 1, wherein the luminance of the light source is set based on ambient illuminance measured by the illuminance sensor.

Images