KR20110093463A - Method for controlling projector, and projector adopting the method - Google Patents

Abstract

PURPOSE: A projector control method and a projector adopting the same are provided to efficiently reduce illumination electricity by keeping a standard illumination. CONSTITUTION: A projector adopting a projector control method comprises an input signal processing part(11), an image processing part(12), a projection panel(14), a lighting system(13), an ambient illumination measurement part(16) and an illumination power control part(17). The input signal processing changes input video signal into digital video data. The image processing part generates the projecting image data by revising the second video data from the input signal processing. The projection panel displays the projecting image according to the data from the image processing unit.

Description

Method for controlling projector, and projector adopting the method

The present invention relates to a method of controlling a projector and a projector employing the method, and more particularly, an image to be projected on a projection display panel is displayed according to image data from an image processing unit, and light from an illumination system is projected to a display. A control method of a projector in which a projected image appears on a screen as it passes through a panel and a projection optical system, and a projector employing the method.

In a typical projector, an image to be projected on a projection display panel is displayed according to image data from an image processing unit, and a projection image appears on a screen as light from the illumination system passes through the projection display panel and the projection optical system.

In the above illumination system, the brightness of the red (R) light, the green (G) light, and the blue (B) light sequentially emitted in accordance with the driving period is constant as the reference brightness. When light having a constant brightness is incident on the projection panel in this manner, the projection brightness changes according to the gradation level at each pixel of the projection panel.

According to the conventional projector as described above, a clear image may appear on the screen in an environment where the ambient light is dark, but as the ambient light becomes brighter, an unclear image appears on the screen.

SUMMARY OF THE INVENTION An object of the present invention is to provide a control method of a projector that can improve the problem that an unclear image appears on a screen as the ambient illuminance becomes brighter, and a projector employing the method.

According to the method of the present invention, an image to be projected on a projection display panel is displayed according to image data from an image processing unit, and control of a projector in which a projection image appears on a screen as light from an illumination system passes through the projection display panel and a projection optical system. As a method, steps (a) and (b) are included.

In step (a) the ambient illuminance is measured.

In step (b), if the measured ambient illuminance falls within a range above the first threshold and below the second threshold, the brightness of the light from the illumination system is adjusted to be proportional to the ambient illuminance.

The projector of the present invention includes an input signal processor, an image processor, a projection panel, an illumination system, an ambient illuminance measuring unit, and an illumination power controller.

The input signal processor converts the input image signal into digital image data, and adjusts the digital image data to match the format of the image to be projected to generate second image data.

The image processing unit corrects the second image data from the input signal processing unit to generate data of an image to be projected.

The projection panel displays an image to be projected according to the data from the image processing unit.

The illumination system injects light generated by a driving current into the projection panel.

The ambient illuminance measuring unit measures the ambient illuminance to generate ambient illuminance data.

The illumination power control unit receives ambient illuminance data from the ambient illuminance measuring unit, and if the ambient illuminance is within a range larger than the first threshold and less than the second threshold, the brightness of the light from the illumination system is determined by the ambient illuminance. Adjust to proportional.

According to the control method of the projector of the present invention, and the projector employing this method, when the measured ambient illuminance is in a range larger than the first threshold value and less than the second threshold value, the brightness of the light from the illumination system is the ambient illuminance. Is proportional to.

Therefore, the brighter the ambient illuminance, the higher the average brightness of the image projected on the screen. Therefore, the problem that the unclear image appears on the screen may be improved as the ambient illuminance becomes brighter.

Furthermore, when the ambient illuminance is above the second threshold, for example, when the intense sunlight from the clear sky shines on the portable projector and the screen, the average luminance of the image projected on the screen increases even though Sharpness does not increase very much. Therefore, in this case, as the brightness of the light from the illumination system is not increased but only the reference brightness, the illumination power can be efficiently reduced.

In addition, when the ambient illuminance is darker than or equal to the first threshold value, as the brightness of the light from the illumination system becomes the reference brightness without being lowered, a clear image may be displayed on the screen in an environment where the ambient illuminance is dark.

1 is a view showing the configuration of a projector according to an embodiment of the present invention.
2 is a flowchart illustrating a control method of the lighting power controller of FIG. 1.
FIG. 3 is a graph showing data contents of a look-up table stored in the memory of FIG. 1.

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

1 shows a configuration of a projector according to an embodiment of the present invention.

Referring to FIG. 1, a projector according to an embodiment of the present invention may include an input signal processor 11, an image processor 12, a projection panel 14, an illumination system 13, an ambient illuminance measuring unit 16, and illumination power. The control unit 17 and the projection optical system 15 are included.

The input signal processor 11 converts the input image signal Dim1 into digital image data, and adjusts the digital image data to match the format of the image to be projected to generate the second image data Dim2.

The image processor 12 generates data Dim3 of the image to be projected by correcting the second image data Dim2 from the input signal processor 11. Here, the image processor 12 performs noise removal, image quality correction, and gamma correction on the second image data Dim2 from the input signal processor 11.

The projection panel 14 displays an image to be projected in accordance with the data Dim3 from the image processor 12.

The illumination system 13 injects the light Lp generated by the driving current into the projection panel 14.

The ambient illuminance measuring unit 16 generates the ambient illuminance data Icur by measuring the ambient illuminance using an illuminance sensor or a camera.

The illumination power control unit 17 receives the ambient illuminance data Icur from the ambient illuminance measuring unit 16, and when the ambient illuminance is larger than the first threshold and less than the second threshold, the adjustment current signal ( Scur) adjusts the brightness of the light from the illumination system to be proportional to the ambient illuminance.

The projection optical system 15 enlarges the projection image Ip1 from the projection panel 14 and provides the enlarged image Ip2 to the screen.

According to the projector as described above, when the measured ambient illuminance is in a range larger than the first threshold value and less than the second threshold value, the brightness of the light Lp from the illumination system 13 is adjusted to be proportional to the ambient illuminance.

Therefore, the brighter the ambient illuminance, the higher the average luminance of the image Ip2 projected on the screen (not shown). Therefore, the problem that the unclear image appears on the screen may be improved as the ambient illuminance becomes brighter.

Furthermore, when the ambient illuminance is above the second threshold, for example, when the intense sunlight from the clear sky shines on the portable projector and the screen, the ambient illuminance even if the average brightness of the image Ip2 projected on the screen becomes high The sharpness does not increase much. Therefore, in this case, as the brightness of the light Lp from the illumination system 13 is not increased but only the reference brightness, the illumination power can be efficiently saved.

In addition, when the ambient illuminance is darker than the first threshold value, as the brightness of the light Lp from the illumination system 13 becomes the reference brightness without being lowered, a clear image may be displayed on the screen in an environment where the ambient illuminance is dark. .

FIG. 2 shows a control method of the illumination power control unit 17 of FIG. 1.

1 and 2, the control method of the lighting power control unit 17 will be described.

First, the illumination power control unit 17 receives an ambient illuminance Icur from the ambient illuminance measuring unit 16 (step S1).

Next, the illumination power control unit 17 determines whether the ambient illuminance falls within a range larger than the first threshold value and less than the second threshold value (step S2).

If the ambient illuminance is not within the range greater than the first threshold and less than the second threshold, the illumination power control unit 17 sets the adjustment current to be the reference current (step S3) to set the adjustment current signal Scur to the illumination system. (13) (step S6).

In step S3, the adjustment coefficient of the reference current is "1" (see Fig. 3).

When the ambient illuminance falls within a range greater than the first threshold and less than the second threshold, the illumination power control unit 17 finds an adjustment coefficient of the drive current from a look-up table (LUT) stored in the memory 18. (Step S4). The contents of the look-up table (LUT) stored in the memory 18 will be described in detail with reference to FIG. 3.

Next, the illumination power control unit 17 sets the adjustment current so as to be a result of the multiplication of the reference current and the adjustment coefficient (step S5), and inputs the adjustment current signal Scur to the illumination system 13 (step S6).

All of the above steps are repeated in frame periods until an end signal is generated (step S7).

3 shows the data contents of a look-up table (LUT) stored in the memory 18 of FIG. In Fig. 3, the adjustment coefficient of the reference current is "1.0". 3, the adjustment coefficient of the drive current of the illumination system (13 of FIG. 1) is set according to ambient illumination. In FIG. 3 the first threshold is 200 lux and the second threshold is 500 lux.

The data contents of the look-up table (LUT) stored in the memory 18 of FIG. 1 will be described with reference to FIGS. 1 and 3 as follows.

When the ambient illuminance is in the range of more than 200 lux as the first threshold and less than 500 lux as the second threshold, the adjustment current signal Scur causes the drive current of the illumination system 13 to depend on the ambient illuminance. The adjustment factors (1.1, 1.2, 1.3) are set for each of the ranges of ambient illuminance so as to be proportional.

More specifically, when the ambient illuminance falls in the range of 201 lux to 300 lux, the adjustment coefficient is set to 1.1.

If the ambient illuminance falls in the range of 301 lux to 400 lux, the adjustment factor is set to 1.2.

If the ambient illuminance falls in the range of 401 lux to 499 lux, the adjustment factor is set to 1.3.

For reference, the adjustment coefficients when the ambient illuminance is in the range of more than 200 lux as the first threshold and less than 500 lux as the second threshold are linear equations or sigmoids (S-shaped). Functions can also be created using.

Therefore, the brighter the ambient illuminance, the higher the average luminance of the image Ip2 projected on the screen (not shown). Therefore, the problem that the unclear image appears on the screen may be improved as the ambient illuminance becomes brighter.

Furthermore, when the ambient illuminance is at least 500 lux as the second threshold, for example, when the intense sunlight from the clear sky shines on the portable projector and the screen, the average of the image Ip2 projected on the screen Even if the luminance is increased, the sharpness of the ambient illuminance is not so high. Therefore, in this case, by setting the adjustment coefficient to 1 so that the drive current of the illumination system 13 becomes the reference current, the illumination power can be efficiently reduced.

In addition, when the ambient illuminance is less than or equal to 200 lux as the first threshold value, the adjustment coefficient is set to 1 so that the driving current of the illumination system 13 becomes the reference current, so that a clear image in an environment with low ambient illumination is obtained. May appear on the screen.

As described above, according to the control method of the projector according to the present invention, and the projector employing this method, when the measured ambient illuminance is in a range larger than the first threshold value and less than the second threshold value, light from the illumination system The brightness of is adjusted to be proportional to the ambient illuminance.

Therefore, the brighter the ambient illuminance, the higher the average brightness of the image projected on the screen. Therefore, the problem that the unclear image appears on the screen may be improved as the ambient illuminance becomes brighter.

Furthermore, when the ambient illuminance is above the second threshold, for example, when the intense sunlight from the clear sky shines on the portable projector and the screen, the sharpness of the ambient illuminance even if the average brightness of the image projected on the screen becomes high Does not get too high. Therefore, in this case, as the brightness of the light from the illumination system is not increased but only the reference brightness, the illumination power can be efficiently saved.

In addition, when the ambient illuminance is dark below the first threshold value, as the brightness of the light from the illumination system is not lowered and becomes the reference brightness, a clear image may appear on the screen in an environment having a dark ambient illuminance.

The present invention is not limited to the above embodiments, but may be modified and improved by those skilled in the art within the spirit and scope of the invention as defined in the claims.

It can be used for a general video display device.

11 input signal processor, 12 image processor,
13 lighting system, 14 projection panel,
15 ... projection optics, 16 ... peripheral illuminance measurement unit,
17 ... light power control, 18 ... memory.

Claims (10)

A control method of a projector in which an image to be projected on a projection display panel is displayed according to image data from an image processing unit, and a projection image appears on a screen as light from an illumination system passes through the projection display panel and a projection optical system.
(a) measuring ambient illuminance; And
(b) adjusting the brightness of the light from the illumination system to be proportional to the ambient illuminance if the measured ambient illuminance is in a range larger than the first threshold and less than the second threshold. The method of claim 1, wherein in step (b),
And a brightness of light from the illumination system is adjusted by adjusting a driving current of the illumination system. The method of claim 2, wherein in step (b),
And if the measured ambient illuminance is below the first threshold or above the second threshold, the drive current of the illumination system is equal to a reference current. The method of claim 2, wherein in step (b),
And when the measured ambient illuminance is larger than the first threshold and less than the second threshold, the driving current of the illumination system is equal to the multiplication result of the reference current and the adjustment coefficient. An input signal processor converting an input image signal into digital image data and generating second image data by adjusting the digital image data to match a format of an image to be projected;
An image processor which generates data of an image to be projected by correcting the second image data from the input signal processor;
A projection panel which displays an image to be projected according to data from the image processor;
An illumination system for injecting light generated by a driving current into the projection panel;
An ambient illuminance measurement unit measuring ambient illuminance to generate ambient illuminance data; And
Illumination power for adjusting the brightness of the light from the illumination system to be proportional to the ambient illuminance when the ambient illuminance data is input from the ambient illuminance measuring unit and the ambient illuminance is in a range larger than the first threshold and less than the second threshold. Projector with control unit. The method of claim 5,
And a projection optical system for enlarging a projection image from the projection panel onto a screen. The method of claim 5, wherein the image processing unit,
And a projector for performing noise removal, image quality correction, and gamma correction on the second image data from the input signal processor. The method of claim 5,
And the brightness of light from the illumination system is adjusted by the illumination power control unit adjusting the driving current of the illumination system. The method of claim 8,
And if the measured ambient illuminance is below the first threshold or above the second threshold, the drive current of the illumination system is equal to a reference current. The method of claim 8,
And when the measured ambient illuminance is in a range larger than the first threshold and less than the second threshold, the driving current of the illumination system is equal to the multiplication result of the reference current and the adjustment coefficient.

Images