JP4475008B2 - Brightness adjustment device, display device, and program - Google Patents

Description

    The present invention relates to a brightness adjusting device, a display device, and a program for adjusting the brightness of, for example, a liquid crystal display device.

Conventionally, a liquid crystal display device having a backlight is mounted on an in-vehicle device such as a car navigation system.
The brightness of the backlight in this liquid crystal display device needs to be adjusted according to the ambient brightness. That is, when the periphery of the liquid crystal display device is bright, it becomes difficult to see the display unless the brightness of the backlight is increased to some extent. Conversely, when the surroundings are dark, such as at night, if the brightness of the backlight is too high, the screen will be white and visibility will be poor.

Therefore, a brightness adjusting device for adjusting the brightness of the backlight is used (see Patent Document 1).
JP 2002-117999 A

  However, since the brightness of the surroundings of the liquid crystal display device constantly changes according to the time, etc., in order to keep the visibility of the liquid crystal display device good, the brightness of the backlight is changed by the user every time the surrounding brightness changes. Has to be adjusted frequently and was cumbersome.

  The present invention has been made in view of the above points. A brightness adjusting device, a display device, and a program that can adjust the brightness of a display device so that visibility is always improved according to ambient brightness. The purpose is to provide.

(1) The invention of claim 1 is provided with external light detection means, and when the control means determines that the external light detection means is normal, the display device is based on the brightness detected by the external light detection means. Brightness adjustment can be performed. When the control means determines that the external light detection means is abnormal, the brightness of the display device is adjusted based on the time information without using the external light detection means. As a result, when the external light detection means is abnormal (failed), the luminance of the display device is not set to an inappropriate value due to an erroneous signal output from the external light detection means. .
Time when adjusting the brightness of the display device in accordance with the time information, along with if ambient is bright time (e.g. day) increases the brightness of the display device, the ambient is dark time (e.g., morning, evening, night) If so, the brightness of the display device is lowered. As a result, the brightness adjusting device of the present invention can always maintain good visibility of the display device.
As a method for determining normality / abnormality of the external light detection means, for example, in a situation where the surroundings should be bright (for example, a situation where the time is daytime), the external light detection means outputs an output signal corresponding to a dark environment Can be considered abnormal when it continues for a certain period of time, and normal otherwise.
Examples of the external light detection means include a known sensor that outputs an electrical signal corresponding to the intensity of light.

  Examples of the display device include a display device included in an in-vehicle device such as a car navigation system, and a product (for example, a liquid crystal television, a mobile phone, a personal computer, a game machine, etc.) used indoors and outdoors.

Examples of the display device include a liquid crystal display, an organic EL display, and a CRT display.
(2) In the invention of claim 2, the visibility of the display device is always kept good by increasing the brightness of the display device when the surroundings of the display device are bright and decreasing the brightness when the surroundings are dark. it is possible.

(3 ) In the invention of claim 3 , time information, area information (for example, country name), date information (for example, the current month) is acquired, and the brightness of the display device is adjusted according to the time information, area information, and date information. Can be adjusted. Specifically, when the time information, the area information, and the date information correspond to a situation where the surroundings are bright, the brightness of the display device is increased, and if the information corresponds to a situation where the surroundings are dark, the display device Reduce brightness. As a result, the brightness adjusting device of the present invention can always maintain good visibility of the display device.
( 4 ) In the invention of claim 4 , when the time information, the area information, and the date information correspond to a situation where the surroundings are bright, the brightness of the display device is increased, and when the surroundings are dark, the brightness is decreased. By doing so, the visibility of the display device can always be kept good .
( 5 ) In the invention of claim 5 , the visibility of the liquid crystal display device can always be kept good by adjusting the luminance of the backlight.
( 6 ) The display device according to claim 6 includes the brightness adjusting device according to any one of claims 1 to 5 , and thereby can provide the operational effects of the brightness adjusting device.
(7) The program according to claim 7 can be a computer to function as a control device in a display device having any one of claims 1-5.

  Hereinafter, examples (examples) of the form of the brightness adjusting device, the display device, and the program of the present invention will be described.

a) First, the configuration of the liquid crystal display device 1 according to the first embodiment will be described with reference to the block diagram of FIG.
The liquid crystal display device 1 displays an image and functions as a liquid crystal panel 3 that also functions as a touch panel, a backlight 5 that irradiates light to the liquid crystal panel 3, a drive circuit 7 that drives the backlight 5, and a drive circuit 7. A power supply circuit 9 for supplying power, a CPU, a ROM, a RAM, and the like (not shown) are provided to control other parts, and a control circuit (control means) 11 that executes processing to be described later, and detects the brightness of external light An external light sensor (external light detection means) 13, an external input device 15 through which a user can input various types of information, a memory 17, and a GPS receiving antenna 19 are provided.

  The memory 17 determines the DUTY value of the backlight 5, the date storage unit 21 for storing the date, the country name storage unit 23 for storing the country name to which the liquid crystal display device 1 is shipped, the time storage unit 25 for storing the time. A DUTY value table storage unit 27 that stores the DUTY value table is provided. This DUTY value table is created for each country as shown in FIG. 2 (FIG. 2 is a DUTY value table for Japan). If the date (month) and time are determined, the early morning, evening, and daytime Which time zone it belongs to is decided. The DUTY value is set to a low value of 50% in the early morning and evening time zones where the surroundings of the liquid crystal display device 1 are relatively dark, and the DUTY value is set to a high value of 90% in the daytime hours when the surroundings are bright. .

In addition, the memory 17 includes a program storage unit 29 that stores a program for the control unit 11 to perform processing to be described later.
In the liquid crystal display device 1, the control circuit 11, the external light sensor 13, the external input device 15, and the memory 17 correspond to the brightness adjusting device.

  In addition, the liquid crystal display device 1 of the first embodiment can realize various functions such as outputting image data to the liquid crystal panel 3 and displaying an image, but is omitted because it is not related to the present invention. .

b) Next, a process in which the control circuit 11 of the liquid crystal display device 1 of the first embodiment adjusts the luminance of the backlight 5 will be described with reference to the flowchart of FIG.
This process is started by turning on the power of the liquid crystal display device 1. Further, when the liquid crystal display device 1 is an in-vehicle device such as a car navigation system, it may be started when the ignition of the vehicle is turned on.

  In step 100, it is determined whether or not the automatic light control by the external light sensor 13 is to be performed regarding the luminance of the backlight. Specifically, the menu screen shown in FIG. 4 is displayed on the liquid crystal panel 3, and when the user presses the ON switch 31, it is determined that automatic dimming control is performed by the external light sensor 13, and the process proceeds to Step 110. . If the user presses the OFF switch 33, it is determined that the automatic light control by the external light sensor 13 is not performed, and the process proceeds to Step 180.

In step 110, it is determined whether or not a failure of the external light sensor 13 is detected. If no failure is detected, the process proceeds to step 120. If a failure is detected, the process proceeds to step 130.
The processing executed in step 110 will be described using the flowchart of FIG.

  In step 200, it is determined whether or not the tail is ON. Here, “Tail ON” means that the tail lamp of the vehicle is ON. Note that when the surroundings of the vehicle are dark, the tail is turned on, and when the surroundings of the vehicle are bright, the tail is not turned on.

If it is determined in step 200 that the tail is not ON, the process proceeds to step 210. If it is Tail ON, the process proceeds to step 250.
In step 210, it is determined whether or not the state where the output of the external light sensor 13 is the lowest continues for a certain period of time. If so, go to Step 220. If not, the process proceeds to step 250.

  In step 220, it is determined whether the time is daytime. Specifically, it is determined whether it is daytime or not based on time information included in GPS information received by the GPS antenna 19. If it is determined that it is daytime, the process proceeds to step 230. If it is not daytime, the process proceeds to step 250.

  In step 230, it is determined whether or not GPS information can be received by the GPS antenna 19. If it can be received, the process proceeds to step 240. If reception is impossible, the process proceeds to step 250.

  In step 240, it is determined that the external light sensor 13 has failed. That is, since the tail is not turned on in step 200, the surroundings are bright, and it is determined that the current time is daytime in step 220, but the output of the external light sensor 132 is the lowest in step 210. Since the GPS signal can be received in Step 230 and the time information can be taken in by GPS in Step 230 and the determination that “now is daytime” in Step 220 is accurate, the external light sensor 13 Judge that it is broken. When step 240 ends, the process of FIG. 5 ends, and the process proceeds to step 130 in FIG.

On the other hand, if the process proceeds from step 200 to 230 to step 250, it is determined that the external light sensor 13 is not broken, the process in FIG. 5 is terminated, and the process proceeds to step 120 in FIG.
Returning to FIG. 3, in step 120, the DUTY value of the backlight 5 is set according to the output signal of the external light sensor 13. Specifically, the higher the signal output from the external light sensor 13, the higher the DUTY value of the backlight 5, and the lower the signal output from the external light sensor 13, the lower the DUTY value of the backlight 5.

  In step 130, the date (date information) is read from the date storage unit 21 of the memory 17. The date information can be recorded in advance in the input date storage unit 21 from the external input device 15 or the touch panel of the liquid crystal panel 3 by the user.

  In step 140, the country name (region information) is read from the country name storage unit 23 of the memory 17. Note that the country name can be recorded in advance in the country name storage unit 23 before shipping the liquid crystal display device 1. Further, the user may input the country name in which the liquid crystal display device 1 exists at that time from the external input device 15 or the touch panel of the liquid crystal panel 3.

  In step 150, the time is read from the time storage unit 25 of the memory 17. The time received by the GPS receiving antenna 19 can be recorded in the time storage unit 25. Further, the time information input from the external input device 15 or the touch panel of the liquid crystal panel 3 by the user may be appropriately updated by a clock function (not shown).

In step 160, the DUTY value table is read from the DUTY value table unit 27 of the memory 17.
In step 170, the DUTY value of the backlight 5 is set. Specifically, it is as follows. First, the one corresponding to the country name read in step 140 is selected from the DUTY value table read in step 160. For example, when the read country name is Japan, the Japanese DUTY value table shown in FIG. 2 is selected.

  Next, in the DUTY value table, the DUTY value corresponding to the date read in step 130 and the time read in step 150 is set. For example, if the read date is May and the read time is 5:00, it belongs to the early morning time zone (situation where the surroundings are dark) in the DUTY value table of FIG. (50%) is set.

  Also, for example, when the read date is May and the read time is 12:00, it belongs to the daytime time zone (situation where the surroundings are bright) in the DUTY value table of FIG. Set a high value (90%).

  In addition, when the read date and time do not belong to any of early morning, evening, and daytime in the DUTY value table (that is, at night), the luminance of the backlight 5 is the luminance of the instrument included in the instrument panel of the vehicle. Identical. When step 170 ends, the process returns to step 150.

  On the other hand, if the automatic light control by the external light sensor 13 is turned off in step 100, the process proceeds to step 180 to determine whether or not to manually adjust the brightness of the backlight 5. Specifically, when the screen shown in FIG. 6 is displayed on the liquid crystal panel 3 and the user presses the YES switch 35, it is determined that the brightness of the backlight 5 is manually adjusted, and the process proceeds to step 190. If the user presses the NO switch 37, it is determined that manual brightness adjustment of the backlight 5 is not performed, and the process proceeds to step 130.

  In step 190, the brightness of the backlight 5 is adjusted according to the manual input by the user. Specifically, the manual adjustment screen shown in FIG. 7 is displayed on the liquid crystal panel 3, and when the user presses the down switch 39 once, the brightness of the backlight 5 is decreased by one step. When the user presses the up switch 41 once, the luminance of the backlight 5 is increased by one level. In the manual adjustment screen of FIG. 7, the indicator 43 displays the luminance of the backlight 5 so that the user can know the luminance at that time.

c) Next, effects produced by the liquid crystal display device 1 of the first embodiment will be described.
(i) The liquid crystal display device 1 according to the first embodiment acquires the date, country name, and time, and adjusts the luminance of the backlight 5 based on the information. Specifically, when the date, country name, and time correspond to a situation where the surroundings are bright (for example, daytime), the brightness of the backlight 5 is increased and the surroundings are dark (for example, early morning or evening). If it corresponds to the above, the brightness of the backlight 5 is lowered. As a result, the liquid crystal display device 1 of the first embodiment can always keep the visibility of the liquid crystal panel 5 good.

  In particular, in this embodiment, the brightness of the surroundings is determined including not only the time but also the date and country name. Therefore, the brightness changes at the same time depending on the season, or the brightness changes at the same time depending on the country. Even in this case, it is possible to accurately grasp the brightness of the surroundings and appropriately control the luminance of the backlight 5.

  That is, the DUTY value table as shown in FIG. 2 is created for each country name, and is selected based on the read country name information. As a result, the brightness of the surroundings can be accurately grasped in any country, and the luminance of the backlight 5 can be appropriately controlled.

  In addition, as shown in FIG. 2, the DUTY value table appropriately sets the early morning, evening, and daytime time zones for each month, so that the brightness of the surroundings can be accurately grasped in any month. The brightness of the light 5 can be appropriately controlled.

(ii) When the liquid crystal display device 1 of the first embodiment detects a failure of the external light sensor 13 in step 110 of FIG.
Therefore, when the external light sensor 13 is out of order, the luminance of the backlight 5 is not set to an inappropriate value due to an erroneous signal output from the external light sensor 13.

(iii) In the liquid crystal display device 1 of the first embodiment, the user can manually adjust the brightness of the backlight 5 by selecting manual adjustment in step 100 and step 180 of FIG.
Needless to say, the present invention is not limited to the above-described embodiments, and can be implemented in various modes without departing from the scope of the present invention.

  For example, in the above embodiment, the liquid crystal display device 1 is not limited to a vehicle-mounted device display device, and may be a product used indoors or outdoors (eg, a liquid crystal television, a mobile phone, a personal computer, a game machine, etc.). Good.

  Further, the present invention can be used not only for adjusting the luminance of the backlight of a liquid crystal display device but also for adjusting the luminance of an organic EL display or a CRT display.

2 is a block diagram illustrating a configuration of a liquid crystal display device 1. FIG. It is explanatory drawing showing a DUTY value table. It is a flowchart showing the process in which a control circuit adjusts the brightness | luminance of a backlight. It is explanatory drawing showing the screen which selects the automatic adjustment by an external light sensor. It is a flowchart showing the process which detects the failure of an external light sensor. It is explanatory drawing showing the screen which selects brightness | luminance adjustment by manual. It is explanatory drawing showing the screen displayed in the case of manual adjustment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Liquid crystal display device 3 ... Liquid crystal panel 5 ... Backlight 7 ... Drive circuit 9 ... Power supply circuit 11 ... Control circuit 13 ... External light sensor 15 ... External input Device 17 ... Memory 19 ... GPS receiving antenna 21 ... Date storage unit 23 ... Country storage unit 25 ... Time storage unit 27 ... DUTY value table unit storage unit 29 ... Program storage Part

Claims (7)

A brightness adjusting device for adjusting the brightness of a display device,
Control means for acquiring time information and adjusting the brightness of the display device based on the time information ;
Outside light detecting means for detecting the brightness of outside light;
Equipped with a,
The control means determines whether or not the outside light detection means is normal, and if it is determined to be normal, adjusts the luminance based on the brightness detected using the outside light detection means,
A brightness adjusting device that adjusts the brightness of the display device based on the time information when it is determined that the outside light detection unit is abnormal .   2. The brightness adjustment according to claim 1, wherein the control unit increases the brightness when the time information corresponds to a time when the surrounding is bright and decreases the brightness when the time information corresponds to a time when the surrounding is dark. apparatus. The control means obtains regional information and / or date information in addition to the time information,
The brightness adjusting device according to claim 1, wherein the brightness of the display device is adjusted based on the time information and the area information and / or date information. The control means increases the luminance when the time information and the area information and / or date information correspond to a bright environment, and decreases the luminance when the environment corresponds to a dark environment. The brightness adjusting apparatus according to claim 3 , wherein: Together with the display device is a liquid crystal display device, the control unit, the brightness adjusting device according to any one of claims 1 to 4, characterized in that to adjust the brightness of the backlight of the liquid crystal display device. Display device having a brightness adjusting device according to any one of claims 1-5. A program that causes a computer as a control device in one of the brightness adjusting device according to claim 1-5.

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