JPH0741269Y2 - LCD projection device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal projection device, and more particularly to an automatic white balance adjusting device in a liquid crystal projection system that projects an image formed on a liquid crystal panel.

2. Description of the Related Art A liquid crystal panel has a function of light modulation by applying a voltage equal to or more than a threshold value between electrodes sandwiching a liquid crystal layer, and has recently been widely used as various display devices. Since the liquid crystal panel has a light modulation characteristic, it is used not only as such a display device but also as an optical filter. One of them is a liquid crystal projection system. This device is configured as a system for directly projecting an image formed on a liquid crystal panel as it is, enlarging and projecting the image on a projection surface such as a screen through the liquid crystal panel and observing the projected image.

The above-mentioned liquid crystal projection system, which uses a liquid crystal panel as an optical filter, reflects or transmits light from a light source on the liquid crystal panel on which an image is formed and forms a projected image that can be observed on a screen. Make them image. Therefore, as an observer, the image is viewed as an image on the screen, and the image being observed is influenced not only by the state of the light source but also by the reflection characteristics of the screen, and the white balance is properly maintained. It was not always possible to say that I was able to observe images in natural colors.

The present invention has been made in view of the problems in the above-described conventional liquid crystal projection system, and an object of the present invention is to provide a liquid crystal projection system having an automatic white balance adjustment function and capable of observing images in natural colors.

Means for Solving the Problems In order to achieve the above object, the present invention provides a liquid crystal projection device for projecting an image formed on a liquid crystal panel, which detects a color temperature by receiving reflected light from a projection surface. And a circuit which receives the output of the detection means and controls the white balance, thereby forming a liquid crystal projection device.

Action Receives the reflected light from the projection surface, detects the color temperature, forms a signal for white balance control based on the detection result, and changes the gain of each R, G, B signal to automatically The white balance manually. Therefore, a white-balance-adjusted image is displayed on the projection surface regardless of the light source or the background color of the projection surface.

Embodiment FIG. 1 shows a liquid crystal projection system according to an embodiment of the present invention.

In the figure, the image projected from the liquid crystal projection device A is projected on the surface of the screen B. In such a liquid crystal projection device A, three liquid crystal panels 6a, 6b, 6c for three colors R, G, B are provided in an optical path of a light source 2 having a reflecting mirror 1 through an optical system 3 such as a lens. Are arranged. That is, in the light of the light source 2 emitted from the optical system 3, for example, only the light of the R color component is reflected by the first dichroic mirror 4a, and the rest is transmitted and incident on the second dichroic mirror 4b. The R color component separated by the first dichroic mirror 4a is adjusted in the optical path of the mirror 5, is incident on the first liquid crystal panel 6a, and is subjected to optical modulation corresponding to a signal separately given to the liquid crystal panel 6a. Is output to. The remaining light component transmitted through the first dichroic mirror 4a is incident on the second dichroic mirror 4b, reflects the G color component, and transmits the remaining B color component to be separated. The G color component of the separated light is incident on the second liquid crystal panel 6b, and the B color component is incident on the third liquid crystal panel 6c. The video signals of the respective color components formed by the video signal processing circuit 11 are input to the first, second, and third liquid crystal panels 6a, 6b, 6c according to the color components of the respective liquid crystal panels, and are incident on the liquid crystal panels. The output light is formed by performing the modulation corresponding to the light of the respective color components thus generated.

The light of the R color component modulated by the first liquid crystal panel 6a and the light of the G color component modulated by the second liquid crystal panel 6b are then combined by the third tachoroic mirror 4c, and further the fourth dichroic mirror 4d. In (3), the light of the B color component modulated by the third liquid crystal panel 6c is combined and output as a color image. The output light combined by the fourth dichroic mirror 4d is magnified through the optical system 7 and focused on the screen B surface to obtain a projection image.

Here, in the liquid crystal projection device of this embodiment, a white balance adjusting device C is provided integrally with the liquid crystal projection device A for projecting the image. That is, the sensor 9 for detecting the color temperature is installed at the position of the liquid crystal projection device where the reflected light L from the screen B forms an image through the optical system 8. The sensor 9
Can use a phototransistor. For example, a photodetection semiconductor device having pn junctions with different depths as shown in FIG. 2a can be used, and this photodetection semiconductor device is as shown in FIG. Since the color temperature characteristic is exhibited, the color temperature of the incident light can be detected. That is, in the photodetection semiconductor device, short wavelength light is absorbed near the surface of the silicon semiconductor substrate, and long wavelength light is absorbed in the deep portion. Each pn
Assuming that the output currents at the junctions are I _PD2 and I _PD1 , respectively, between the wavelength λ and the sensitivity ratio I _PD1 / I _PD2 , there is 1 between the output from both pn junctions and the wavelength as shown in FIG. : 1 correspondence is obtained,
Information on the color temperature can be obtained from the output of the light detection semiconductor device C.

The output of the sensor 9 is a control circuit including an operational amplifier and the like.
A signal for white balance control corresponding to the color temperature input and detected at 10 is formed and output to the video signal processing circuit 11. In the video signal processing circuit 11, the R, G, and B color signals transferred from the central processing unit, etc. are subjected to proper gain adjustment based on the white balance control signal, and this white balance processing is performed. The video signal is transferred to each of the first, second and third liquid crystal panels described above,
The image is projected on the screen B. With such a white balance mechanism, it is possible to obtain a projection screen in an appropriate white balance state even if the white balance changes due to the change of the light source with time or the change of the screen.

As described above, according to the present invention, by adding a simple structure, it is possible to obtain a projection image whose white balance is automatically adjusted regardless of the state of the light source or the projection surface. It is possible to improve the projected image quality, relax the restrictions on the use of the liquid crystal projection system, and expand the applicable range.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention, FIG. 2 is a diagram showing an example of a sensor of the embodiment, and FIG. 3 is a characteristic diagram thereof. 2 …… Light source, 4a, 4b, 4c, 4d …… Dichroic mirror, 6a, 6
b, 6c, 6d …… Liquid crystal panel, 9 …… Sensor, 10 …… Control circuit, 1
1 …… Video signal processing circuit.

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Claims (1)

[Scope of utility model registration request] 1. In a liquid crystal projection device for projecting an image formed on a liquid crystal panel, a means for receiving a reflected light from a projection surface to detect a color temperature, and an output of the detecting means to give a white balance. And a circuit for controlling the liquid crystal display device.