JP2019120781A5 - - Google Patents

Description

FIG. 1 is a diagram showing an example of the overall configuration of the display device 1 to which the embodiment is applied. FIG. 2 shows a light source or a light source that determines the position of the display device and the ambient illuminance of the display device when the illuminance value measured by the illuminance sensor mounted on the display device is brighter than the actual ambient illuminance value. This is an example of the relative positional relationship with the position of the entrance of light from the outside. FIG. 3 shows a light source or a light source that determines the position of the display device and the ambient illuminance of the display device when the illuminance value measured by the illuminance sensor mounted on the display device is darker than the actual ambient illuminance value. This is an example of the relative positional relationship with the position of the entrance of light from the outside. FIG. 4 is a diagram showing the relationship between the ambient illuminance and the illuminance actually measured by the illuminance sensor in the relative positional relationship in FIGS. 2 and 3. 5 shows the relative positional relationship of FIG. 2 (B) in the case of the relative positional relationship of FIG. 2 (A) or FIG. 3 (A) in order to optimize the brightness of the display 61. And in the case of the relative positional relationship of FIG. 3B, the relationship between the measured value of the illuminance sensor and the brightness value set by the backlight control unit in the backlight 62 based on the user operation is It is a figure shown. FIG. 6 shows a case where the brightness value set in the backlight is adjusted by the user operation in addition to the brightness value set in the backlight corresponding to the measured value of the ambient illuminance measured by the illuminance sensor 5. , This is an example of the operation screen. FIG. 7 illustrates a method of calculating the position of the adjustment bar set by the user and the brightness value set in the backlight correspondingly. FIG. 8 is a flowchart showing a flow of processing for obtaining a brightness value set in the backlight corresponding to the position SL of the adjustment bar set by the user described with reference to FIG. 7. FIG. 9 is a diagram showing an example in which the backlight control unit adaptively calculates the brightness value set in the backlight when the position of the adjustment bar is +30 or −30. 10, in the current illuminance values illumination sensor 5 is determined, which is an example of a display of an operation screen when adjusting the only the brightness values to be set in the backlight.

On the other hand, FIG. 2B is an example in which the relative positional relationship between the illuminance sensor 5 and the illumination 201 is closer in the vertical direction than in FIG. 2A.

FIG. 3 shows the position of the display device 1 and the ambient illuminance of the display device 1 when the illuminance value measured by the illuminance sensor 5 mounted on the display device 1 is darker than the actual ambient illuminance value. This is an example of the relative positional relationship with the position of the light source or the entrance of light from the outside.

If the relative positional relationship of FIG. 2 (A) and FIG. 3 (A), the measured value of the illuminance sensor 5 to the peripheral illuminance, the normal value.

Similarly, when the measured value of the illuminance sensor 5 becomes darker than the normal value as in the line 403, if the brightness value set in the backlight 62 is set based on the measured value of the illuminance sensor 5, the display 61 can be displayed. brightness becomes darker than necessary.

Wherein the display device 1 of this embodiment, even if the measured value of the illuminance sensor 5 from the time of the user operating the operation unit 8 to adjust the brightness of the display 61 is changed, the change adjustments users around illuminance It is reflected adaptively accordingly, and the brightness of the display 61 can be optimally adjusted.

Hereinafter, by adaptively reflect the adjustments by a user operation, in response to changes in the measured value of the illuminance sensor 5 will be described how to optimally adjust the brightness of the display 61.

The display device 1 of the present embodiment has the illuminance sensor 5 and the illumination 201 in order to optimally adjust the brightness of the display 61 1 by adaptively reflecting the adjustment contents by the user even if the measured value of the illuminance sensor 5 changes. It is necessary to hold in advance information showing the relationship between the measured value of the illuminance sensor 5 and the brightness value set by the backlight control unit 42 in the backlight 62 by using the model case of the relative positional relationship with. There is.

The model case of the relative positional relationship between the illuminance sensor 5 and the illumination is, for example, in the case of the relative positional relationship of FIG. 2 (A) or FIG. 3 (A), the relative positional relationship of FIG. 2 (B). As in the case of the positional relationship and the relative positional relationship of FIG. 3B, the brightness of the display 61 is desirable in the case where the brightness of the display 61 is the same as the brightness based on the measurement of the illuminance sensor 5. In cases where it is desirable to adjust the brightness based on the measurement of the illuminance sensor 5 in the direction of darkening, adjust the brightness of the display 61 in the direction of brightening the brightness based on the measurement of the illuminance sensor 5. It is desirable to include three model cases where is desirable.

FIG. 7A shows the brightness value set in the backlight 62 when the adjustment bar 601 is positioned in the SL in the minus direction. Let a be the measured value of the illuminance sensor 5. Corresponding to the measured value a, the brightness value set in the backlight 62 on the setting curve MID502 is set to am. Further, the brightness value set in the backlight 62 on the setting curve LOW 501 is set to al in accordance with the measured value a.

In this example, the brightness value asl set in the backlight 62 is internally divided by the ratio of am and al by the ratio of 30 -SL according to the position (adjustment level) of the adjustment bar 601. Although it is calculated as a value, the calculation is not limited to this, and other methods may be used depending on the position (adjustment level) of the adjustment bar 601.

Further, in c2 is the maximum value of the measured values of the ambient brightness, the brightness value c 2 h to set the backlight 62 when the adjustment bar 601 is positioned at +30, when adjustment bar 601 is positioned at ± 0 It is almost the same as the brightness value c 2 m set in the backlight 62 of. On the other hand in the peripheral illuminance c2, brightness values c 2 l to set the backlight 62 when the adjustment bar 601 is positioned at -30, the brightness set to the backlight 62 when the adjustment bar 601 is positioned at ± 0 The value is considerably smaller than the value c 2 m.

Similarly, when the position of the adjustment bar 601 is -30, when the ambient illuminance is dark, the brightness of the backlight 62 does not change much (substantially the same) as compared with the case where the position of the adjustment bar 601 is ± 0, but the periphery When the illuminance is bright, it means that the brightness of the backlight 62 is adjusted more than when the position of the adjustment bar 601 is ± 0.

FIG. 10 is an example of the display of the operation screen when adjusting the brightness value set in the backlight 62 with respect to the current ambient illuminance value measured by the illuminance sensor 5.

Here, the setting curve m changes depending on the position of the adjustment bar 601. For example, when the adjustment bar 601 is located at ± 0, the setting curve m is the setting curve MID. For example, when the adjustment bar 601 is located at +30, the setting curve m is the setting curve HI. Also for example, when the adjustment bar 601 is positioned in the SL is set curve m is Ru Oh settings curve SL obtained from csl calculated in S807 or S809 of FIG. 8. In this way, the setting curve m changes according to the position of the adjustment bar 601.

Currently, with the brightness values dm a backlight 62 of the display device 1 is set, if the user wants to adjust the brightness of the display 61 to be al, for example, a line 1010 to the intersection M of the set curve m1001 The brightness of the display 61 can be adjusted by moving the display 61 up and down by user operation. Specifically, when it is desired to reduce the brightness of the display 61, the intersection M of the line 1010 and the setting curve m1001 may be moved downward.

The line 1002 of FIG. 10B is an example in which the intersection M of the line 1010 of FIG. 10A and the setting curve m1001 is moved downward by a user operation to be an intersection M−. By this user operation, the brightness value set in the backlight 62 can be changed from dm to dm− with respect to the current ambient illuminance value d measured by the illuminance sensor 5.