JP2000250008A - Backlight control device - Google Patents

Abstract

(57) [Summary] [PROBLEMS] When the backlight brightness can be changed by a user, changes in ambient temperature, changes over time of a lamp,
Brightness and color temperature change. SOLUTION: Two or more kinds of lamps 61 having different emission colors.
a, 62b, detecting means 61c, 62c for detecting the luminance of each lamp, target luminance setting means 8 capable of setting an upper limit luminance, and setting means 3 for setting a target color temperature. A configuration including a brightness control unit that controls the lamp to a predetermined brightness.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a backlight control device for a liquid crystal display device.

[0002]

2. Description of the Related Art A backlight control device in a conventional liquid crystal display device is proposed in, for example, Japanese Patent Application Laid-Open No. Hei 9-113871, and is configured as shown in FIG.

A liquid crystal panel 2 of the backlight 7 is provided by a backlight which emits at least two kinds of lights having different emission colors and a designation means for designating the color temperature of the backlight.
The control means 4 generates two kinds of luminance adjustment signals a and b corresponding to two kinds of light emission having different emission colors. The backlight 7 has storage means for storing color temperature information corresponding to the color temperature designated by the designation means, reads out the color temperature information designated by the designation means from the storage means, and outputs a luminance adjustment signal. By irradiating the liquid crystal panel 2 with light obtained by combining the above two types of light at a light emission ratio based on the brightness adjustment signals a and b generated by the control means 4 for generating and changing the color temperature of the liquid crystal panel. Is what you can do.

[0004]

However, when the backlight brightness can be changed by the user, the brightness and the color temperature are changed by the preset color temperature information due to the change of the ambient temperature and the aging of the lamp. There is a problem. In addition, the lamp has a service life and needs to be periodically replaced. However, there is a problem that the color temperature information needs to be reset when the lamp is replaced due to a variation in the color temperature of the lamp itself.

[0005]

In order to solve the above-mentioned problems, a backlight control device according to the present invention includes two or more types of lamps having different emission colors as a backlight source of a liquid crystal display device, and detects the brightness of each lamp. Detecting means, target luminance setting means capable of setting an upper limit luminance, setting means for setting a target color temperature, and luminance control means for controlling each lamp to a predetermined luminance, the target luminance and The above-described lamp luminance ratios are controlled by the luminance control means and the luminance detection means according to the color temperature set by the target color temperature setting means, thereby maintaining stable luminance and color temperature.

The brightness control means changes the brightness while keeping the light emission ratio of each lamp constant according to the brightness setting value by the target brightness setting means, so that the target brightness can be maintained without changing the color temperature. Is set. Further, the brightness control means sets the upper limit of the set brightness in the target brightness setting means, thereby changing the brightness while keeping the light emission ratio of each lamp constant, and any one of the lamps has the upper limit brightness. In this case, it is characterized in that the lamp temperature ratio is prevented from being changed and the color temperature is prevented from changing. Further, the luminance detecting means detects each lamp luminance by a light receiving element provided with a color filter corresponding to the color temperature of each lamp.

[0007]

According to the first aspect of the present invention, a back light source of a liquid crystal display device includes two or more types of lamps having different emission colors, a detecting means for detecting the brightness of each lamp, and a target brightness. Setting means, setting means for setting the target color temperature, and brightness control means for controlling each lamp to a predetermined brightness, the target brightness and, according to the color temperature by the target color temperature setting means, brightness control means, By controlling the lamp luminance ratio by the luminance detecting means, stable luminance and color temperature can be realized even when the backlight luminance can be changed by the user.

According to a third aspect of the present invention, a backlight light source of a liquid crystal display device includes two or more types of lamps having different emission colors, and a detecting means for detecting the brightness of each lamp, and setting an upper limit brightness. A target brightness setting means, a setting means for setting a target color temperature, and a brightness control means for controlling each lamp to a predetermined brightness, and according to the target brightness and the color temperature by the target color temperature setting means. ,
By controlling each of the lamp luminance ratios by the luminance control means and the luminance detection means, stable luminance can be achieved even when the backlight luminance can be changed by the user, and a constant color temperature can be realized even at the maximum luminance. Things.

According to a fifth aspect of the present invention, a back light source of a liquid crystal display device is provided with a light receiving element provided with two or more types of lamps having different emission colors and a color filter corresponding to the color temperature of each lamp. Detecting means for detecting the brightness of each lamp, target brightness setting means capable of setting an upper limit brightness, setting means for setting a target color temperature, and brightness control for controlling each lamp to a predetermined brightness. Means for controlling the backlight brightness ratio by the brightness control means and the brightness detection means according to the target brightness and the color temperature set by the target color temperature setting means, so that the user can vary the backlight brightness. A stable brightness and color temperature are realized even when the ambient temperature changes or the lamp changes over time. Conversion in which can achieve stable luminance and color temperature without requiring reconfiguration of the color temperature information at the time of replacement be required.

A backlight control device according to an embodiment of the present invention will be described below with reference to FIGS.

(Embodiment 1) In FIG. 1, a target luminance is inputted by a luminance setting volume 8 and a target color temperature is inputted to a microcomputer 1 by a color temperature switch 3. Next, the color temperature ratio of each lamp is read from the memory 2 as the color temperature data of each lamp according to the color temperature, and a luminance control signal a and a luminance control signal b to be given to the inverter are output. Here, the inverter 7
In the dimming circuit, the luminance control signal a and the luminance control signal b are compared with the lamp current detection signal from the resistor for detecting the lamp current, and the lamp lighting circuit is controlled so that the two coincide with each other to be the target. Set brightness and color temperature.

FIG. 2 shows the change of the brightness setting volume and the actual lamp brightness at this time, with the maximum value being 100%. Here, the brightness setting volume is 50%
, And y1 ′ and y2 ′, and when the luminance setting volume is 100%, the respective lamp luminances are y1 and y2.
Assuming that 2, y1 ′: y2 ′ = y1: y2, the emission luminance ratio of each lamp becomes the same, and it can be seen that a constant color temperature can be obtained even when the luminance setting volume is changed.

Although the case where two lamps having different color temperatures are used is described here, the same applies to the case where three or more lamps are used. Further, the lamp current is detected and stabilized for dimming, but the present invention is not particularly limited to this means.

(Embodiment 2) In FIG. 3, a target luminance is inputted by the luminance setting volume 8 and a target color temperature is inputted to the microcomputer 1 by the color temperature switch 3. Next, the color temperature ratio of each lamp is read from the memory 2 as the color temperature data of each lamp according to the color temperature, and a luminance control signal a and a luminance control signal b to be given to the inverter are output. Here, the inverter 7
In the dimming circuit, the lamp lighting circuit is controlled according to the luminance control signal a and the luminance control signal b to set the target luminance and color temperature. At this time, the maximum value of the change in the luminance setting volume and the actual lamp luminance is set to 1
FIG. 4 shows the value as 00%.

Here, assuming that the lamp luminances when the luminance setting volume is 75% are y1 'and y2' and the lamp luminances when the luminance setting volume is 100% are y1 and y2, y1 ': y2 ′ ≠ y1: y2, and the light emission luminance ratios of the lamps are different, indicating that the luminance ratios of the lamps are broken. Therefore, the brightness control signal a when the brightness setting volume is 75%, and
The brightness control signal b is set in the memory as an upper limit, and when the brightness control signal is set when the brightness setting volume is 75% or more, the brightness control signal a and the brightness control signal b are set to the upper limit previously set in the memory. Thus, a constant color temperature can be obtained in the entire range of the brightness setting volume.

Further, when the microcomputer monitors the lamp current detection signal a and the lamp current detection signal b and changes the luminance control signal a and the luminance control signal b,
Lamp current detection signal a and lamp current detection signal b
The same effect can be obtained by setting the point at which the ratio of.

Although the case where two lamps having different color temperatures are used is described here, the same applies to the case where three or more lamps are used. Further, the lamp current is detected and stabilized, but the invention is not particularly limited to this means.

(Embodiment 3) In FIG. 5, a target luminance is input by a luminance setting volume 8, and a target color temperature is input to the microcomputer 1 by a color temperature switch 3. Next, the color temperature ratio of each lamp is read from the memory 2 as the color temperature data of each lamp according to the color temperature, and a luminance control signal a and a luminance control signal b to be given to the inverter are output.

Here, in the dimming circuit of the inverter 7,
The lamp lighting circuit is controlled in accordance with the luminance control signal a and the luminance control signal b to set target luminance and color temperature. At this time, the actual luminance is detected by the light receiving element equipped with a color filter corresponding to each lamp luminance, the light emission luminance ratio of each lamp is monitored, and the luminance control given to the inverter so that the luminance ratio of each lamp becomes constant. A signal a and a brightness control signal b are output. Therefore, since the brightness of each lamp is directly detected and controlled, there is no need to reset the color temperature ratio in the memory 2 even when the lamp brightness fluctuates and the lamp is replaced.
In addition, a color temperature can be obtained.

Although the case where two lamps having different color temperatures are used is described here, the same applies to the case where three or more lamps are used. The means for detecting the lamp luminance is not limited to this means.

[0021]

As described above, the contents of claims 1 and 3 can realize stable luminance and color temperature when the backlight luminance can be changed by the user. The contents described in claim 5 realize stable luminance and color temperature even when the ambient temperature changes or the lamp changes over time, and even when the lamp needs to be replaced periodically due to lamp life, the color is not changed when the lamp is replaced. It is possible to realize stable luminance and color temperature without requiring resetting of temperature information.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a backlight control device according to an embodiment of the present invention.

FIG. 2 is a characteristic diagram showing the operation of one embodiment of the present invention.

FIG. 3 is a configuration diagram of a backlight control device according to an embodiment of the present invention.

FIG. 4 is a characteristic diagram showing the operation of one embodiment of the present invention.

FIG. 5 is a characteristic diagram showing the operation of one embodiment of the present invention.

FIG. 6 is a configuration diagram of a conventional backlight control device.

[Explanation of symbols]

 1 signal processing circuit 2 LCD panel 3 changeover switch 4 microcomputer 5 memory 6 inverter 7 backlight 8 brightness setting volume

Claims (6)

[Claims] 1. A backlight source for a liquid crystal display device comprising two or more types of lamps having different emission colors, detecting means for detecting the luminance of each lamp, target luminance setting means, and setting for setting a target color temperature. Means, and brightness control means for controlling each lamp to a predetermined brightness, according to the target brightness and the color temperature by the target color temperature setting means,
A backlight control device characterized by maintaining stable luminance and color temperature by controlling each of the lamp luminance ratios by a luminance control means and a luminance detection means. 2. The method according to claim 1, wherein the luminance control means changes the luminance in accordance with the luminance set value by the target luminance setting means while keeping the light emission ratio of each lamp constant, so that the target luminance is maintained without changing the color temperature. 2. The backlight control device according to claim 1, wherein 3. A backlighting light source for a liquid crystal display device, comprising two or more types of lamps having different emission colors, detecting means for detecting the luminance of each lamp, and target luminance setting means capable of setting an upper limit luminance. Setting means for setting a target color temperature, and brightness control means for controlling each lamp to a predetermined brightness, wherein the brightness control means and the brightness detection are performed in accordance with the target brightness and the color temperature by the target color temperature setting means. A backlight control device characterized by maintaining stable luminance and color temperature by controlling each lamp luminance ratio by means. 4. The brightness control means sets the upper limit of the set brightness in the target brightness setting means, thereby changing the brightness while keeping the light emission ratio of each lamp constant. 4. The backlight control device according to claim 3, wherein, in the case of, the lamp temperature ratio is prevented from changing and the color temperature is prevented from changing. 5. A back light source for a liquid crystal display device comprising two or more types of lamps having different emission colors, and a light receiving element provided with a color filter corresponding to the color temperature of each lamp to increase the brightness of each lamp. Detecting means for detecting, target luminance setting means capable of setting an upper limit luminance, setting means for setting a target color temperature, and luminance control means for controlling each lamp to a predetermined luminance,
Backlight characterized by maintaining stable luminance and color temperature by controlling each lamp luminance ratio by luminance control means and luminance detection means according to target luminance and color temperature by target color temperature setting means. Control device. 6. The backlight control device according to claim 5, wherein said luminance detecting means detects each lamp luminance by a light receiving element provided with a color filter corresponding to the color temperature of each lamp.