JPH09189893A - Liquid crystal projector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the contrast and the tone reproduction in an liquid crystal device. SOLUTION: An input light is controlled to the maximum luminance value in one frame in a luminance adjusting liquid crystal panel 3 and then passes through a video displaying liquid crystal panel 2 to be driven with the signal which is obtained by dividing data of a frame buffer 5 by the maximum value in one frame in a divider 7 to be projected to a screen. Thus. the improving of the contrast, the improving of the tone reproduction, the preventing of the contrast reduction due to brightness adjustments and the preventing of the contrast reduction due to white balance adjustments are attained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal projector, and more particularly to a liquid crystal projector having a high contrast.

[0002]

2. Description of the Related Art A liquid crystal projector converts a video signal into a video and projects it on a screen. Conventionally, its configuration is roughly as shown in FIG. In the figure, input light is converted into an image by passing through the polarizing plate 1, the image display liquid crystal panel 2, and the polarizing plate 1. Liquid crystal projectors using one of these devices for red, green, and blue light have been put into practical use.

[0003]

In this conventional liquid crystal projector, black light is difficult to reproduce when an image is projected on the screen because light leaks even when the liquid crystal panel is in a state where light does not pass therethrough. . Further, the characteristics of the voltage-transmittance correction table of the liquid crystal panel impair the gradation reproducibility.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a liquid crystal projector in which leakage light at the time of black display is reduced, contrast is improved, and gradation reproducibility is improved.

[0005]

In order to solve the above-mentioned problems, a high-contrast liquid crystal projector according to the present invention adjusts the brightness with an image display liquid crystal panel which always uses the entire range of liquid crystal transmittance change. It is combined with a liquid crystal panel for brightness adjustment.

In the present invention, when displaying black, the leakage light from the brightness adjusting liquid crystal panel is further reduced by passing through the image displaying liquid crystal panel. Regardless of the brightness of the video signal input, adjusting the brightness adjustment liquid crystal panel will always use the entire voltage-transmittance correction table for the video display panel, improving gradation reproducibility. It

[0007]

Next, the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an example of an embodiment of the present invention. In FIG. 1, the brightness adjusting liquid crystal panel 3 is a liquid crystal shutter that can similarly change the transmittance of the entire surface. The image display liquid crystal panel 2 is a dot matrix type liquid crystal panel which is generally used. The A / D converter 4 converts the video signal into a digital value. The frame buffer 5 can store a video signal for one frame. A maximum brightness value detector 6 is connected to the frame buffer 5 to detect the maximum brightness value within one frame. The divider 7 can divide the data output by the frame buffer 5. V / T converter 8
Linearly corrects the relationship between the liquid crystal transmittance and the voltage. D
The / A converter 9 converts a digital value into an analog value.

Next, the operation will be described. The input video signal is first converted into a digital value by the A / D converter 4 and stored in the frame buffer 5. Here, at the same time, the maximum brightness value detector 6 detects the maximum brightness value in the frame. The detected maximum brightness value is subjected to transmittance correction by the V / T converter 8 and then converted into an analog value by the D / A converter 9 to drive the brightness adjusting liquid crystal panel 3. As a result, the input light of the video display liquid crystal panel 2 is limited to the maximum brightness value in the video signal. The output of the frame buffer 5 is divided by the maximum brightness value in the frame by the divider 7. As a result, when the output of the frame buffer 5 corresponds to the maximum luminance value within the frame, the pixels of the video display liquid crystal panel 2 are converted to have a transmittance of 100%.
As a result, when, for example, a frame having a maximum brightness of 50% is input, the input light is first attenuated to 50% in the brightness adjusting liquid crystal panel 3 and is transmitted when the pixel brightness is 50% in the image displaying liquid crystal panel. When the ratio is 100% and the pixel brightness is 25%, the transmittance is 50%. Therefore, when the pixel brightness is 50%, 50% .10 on the screen.
The image is projected with 0% = 50% brightness, and when the pixel brightness is 25%, it is projected with 50% .50% = 25% brightness.

FIG. 2 is a block diagram showing another embodiment of the present invention. In FIG. 2, the brightness adjusting liquid crystal panel 10 is a horizontal stripe type liquid crystal shutter that can change the transmittance for each horizontal line. The image display liquid crystal panel 2 is a dot matrix type liquid crystal panel which is generally used. A / D converter 4
Converts the video signal into a digital value. Line buffer 1
1 can store a video signal for one horizontal line.
Further, the maximum brightness value detector 6 is connected to the line buffer 11 and detects the maximum brightness value in one horizontal line. The divider 7 can divide the data output by the line buffer 11. The V / T converter 8 linearly corrects the relationship between the transmittance of the liquid crystal and the voltage. The D / A converter 9 converts a digital value into an analog value.

Next, the operation will be described. The input video signal is first converted into a digital value by the A / D converter 4 and stored in the line buffer 11. Here, at the same time, the maximum brightness detector 6 detects the maximum brightness value in the horizontal line. The detected maximum brightness value is converted into an analog value by the D / A converter 9 after being subjected to the transmittance correction by the V / T converter 8, and drives one horizontal line of the brightness adjusting liquid crystal panel 10. As a result, the input light for one horizontal line of the image display liquid crystal panel 2 is limited to the maximum brightness value within one horizontal line. Further, the output of the line buffer 11 is divided by the maximum luminance value in one horizontal line by the divider 7. Thus, when the output of the line buffer 11 corresponds to the maximum brightness in one horizontal line, the pixels of the video display panel 8 are converted so as to have a transmittance of 100%. as a result,
For example, when a horizontal line with a maximum brightness of 50% is input, the input light is 50% on the brightness adjustment liquid crystal panel.
When the pixel brightness is 50%, the transmittance is 100% and the pixel brightness is 25%.
At that time, the transmittance is 50%. Therefore, when the pixel brightness is 50%, 50% / 100% = 50 on the screen.
50% when the pixel brightness is 25%
Projected with a brightness of 50% = 25%.

As shown in FIG. 3, in the high contrast liquid crystal projector according to the present invention, the light narrowed down by the brightness adjusting liquid crystal panels 3 and 10 is further narrowed down by the image displaying liquid crystal panel 2 as shown in FIG. Can be reduced.

Further, the liquid crystal projector performs the voltage-transmittance correction with the conversion table having the characteristics shown in FIG. 4, but when the input values to the conversion table are different but the output values are equal in the portion where the inclination of the graph is small. Therefore, gradation reproducibility is impaired. However, in the high-contrast liquid crystal projector according to the present invention, by adjusting the brightness adjustment liquid crystal panel, the image display liquid crystal panel always uses the entire conversion table, so that the gradation reproducibility is improved. FIG. 5 shows the voltage transmittance correction when the maximum brightness is 50% of that of full white. It can be seen that the inclination of the graph is larger than that of the conventional liquid crystal projector.

Further, by adjusting the brightness of the screen without using the video display liquid crystal panel, and by using the brightness adjustment liquid crystal panel, the brightness can be adjusted without reducing the contrast of the video display liquid crystal panel.

Further, in the case of color display, when the present invention is used for each of the red, blue, and green optical paths, the brightness adjustment liquid crystal panel is adjusted to adjust the white balance without reducing the contrast of the image display panel. You can

[0015]

As described above, according to the present invention, by incorporating the brightness adjusting liquid crystal panel, the transmittance changing range of the image displaying liquid crystal panel can be effectively utilized, and the contrast is improved and the gradation reproducibility is improved. In addition, there are effects such as improvement of the brightness, prevention of decrease in contrast by adjusting brightness, and prevention of decrease in contrast by adjusting white balance.

[Brief description of the drawings]

FIG. 1 is a block diagram of a liquid crystal display device according to an embodiment of the present invention.

FIG. 2 is a block diagram of another liquid crystal display device according to an embodiment of the present invention.

FIG. 3 is a schematic diagram showing leakage light during black display.

FIG. 4 is a graph showing characteristics of a voltage-transmittance correction table of a liquid crystal panel.

FIG. 5 is a graph comparing the voltage-transmittance correction of the conventional liquid crystal projector with the voltage-transmittance correction of the liquid crystal projector according to the present invention when the maximum brightness is 50% of full white.

FIG. 6 is a schematic view showing a conventional liquid crystal display device.

[Explanation of symbols]

 1 polarizing plate 2 TFT-TN type dot matrix liquid crystal panel 3 TN type whole change liquid crystal panel 4 A / D converter 5 frame buffer memory 6 maximum value detector 7 divider 8 liquid crystal transmittance characteristic corrector 9 D / A converter 10 TFT-TN type horizontal stripe liquid crystal panel 11 Line buffer memory

Claims (6)

[Claims] 1. A liquid crystal projector provided with a liquid crystal panel for image display and a liquid crystal panel for brightness adjustment in one optical path. 2. The liquid crystal projector according to claim 1, wherein the brightness adjusting liquid crystal panel and the image display liquid crystal panel are driven with different transmittances. 3. Brightness adjustment, white balance adjustment,
The liquid crystal projector according to claim 1, wherein the brightness adjusting liquid crystal panel is used. 4. The liquid crystal projector according to claim 1, wherein the number of pixels of the brightness adjusting liquid crystal panel is equal to or less than the number of pixels of the image displaying liquid crystal panel. 5. The liquid crystal according to claim 1, further comprising a detecting unit for detecting a maximum value of an input video signal in a predetermined period, and controlling the brightness adjusting liquid crystal panel based on the detected maximum value. projector. 6. The liquid crystal projector according to claim 5, wherein the level of the video signal is corrected according to the detected maximum value, and the video display liquid crystal panel is controlled at the corrected level.