JPH0789662B2 - Light valve controller - Google Patents

Description

The present invention relates to a light valve control device in which writing is performed by a video signal.

[Conventional technology]

In recent years, writing is performed by making an electron beam incident on an electro-optic crystal to accumulate charges on the surface, and a refractive index distribution image generated in the electro-optic crystal corresponding to the accumulated charge distribution is
A light valve that irradiates the surface opposite to the charge storage surface and reads it from the reflected light is attracting attention.
The write control of the light valve is performed by directly modulating the electron beam with the input video signal.

[Problems to be solved by the invention]

However, in such a method of directly controlling the writing of the light valve by the input video signal, there is a problem that a faithful read output with respect to the input video signal cannot be obtained due to the influence of the shading of the light valve, the writing characteristics and the like.

An object of the present invention is to solve the above problems, and an object of the present invention is to provide a light valve control device that can always obtain a read output that is faithful to an input video signal without being affected by shading or changes in characteristics of the light valve. .

[Means for solving problems]

Therefore, the light valve control device of the present invention includes a light valve that modulates the intensity of an electron beam by an input video signal and irradiates an electro-optic crystal on which a high-resistance dielectric mirror is formed for scanning to perform writing, and a high-resistance light valve. Part of the reflected reading light from the dielectric mirror is received and converted into an electrical signal,
A monitor unit that monitors the light valve output, a video signal difference calculation circuit that inputs the input video signal and the monitor unit output video signal, and outputs a difference video signal between the input video signal and the monitor unit output video signal, and a video signal And a feedback system for applying the output of the difference calculation circuit as a write signal to the light valve.

[Action]

The light valve control device of the present invention monitors the output of the light valve, obtains the difference between the monitor output and the input video signal, modulates the electron beam with the difference video signal, and makes the monitor output video signal and the input video signal equal. By writing until the above, the output can be made equal to the input video signal at the end of writing.

〔Example〕

 Hereinafter, embodiments will be described with reference to the drawings.

First, a light valve having an electro-optic crystal according to the present invention will be described.

FIG. 2 is a view showing the structure of a light valve, in which 1 is a light valve, 2 is an electro-optic crystal, 21 is a high resistance dielectric mirror, 3 is an electron gun, 4 is a deflection coil, and 5 is a video signal source. ,
6 is a beam splitter, 7 is a polarizer, 8 is an analyzer, 10 is a collimating lens, 11 is a screen, 12 is a light source,
13 is a lens.

An electron gun 3 and an electro-optic crystal 2 are enclosed in the vacuum container of the light valve 1. A high resistance dielectric mirror 21 is provided on the surface (charge storage surface) of the electro-optic crystal 2 facing the electron gun 3. The electron gun 3 has a video signal source 5
The image information signal from is added. The electron beam whose intensity is modulated by this signal is deflected by the polarization magnetic field generated by the deflection coil 4, is given to each part of the high resistance dielectric mirror 21 of the electro-optic crystal 2, and is accumulated. A refractive index distribution is formed in the electro-optic crystal 2 corresponding to the distribution of the accumulated charges.

The reading light from the light source 12 is the collimating lens 10
Is converted into parallel rays by means of a polarizer 7, passes through a beam splitter 6 and is incident on the electro-optic crystal 2. The light that is incident on the electro-optic crystal 2 and reaches the high-resistance dielectric mirror 21 is reflected here, is reflected by the beam splitter 6, and is projected onto the screen 11 via the analyzer 8 and the lens 13. At this time, the image information from the video signal source 5 is sent to and written in the high resistance dielectric mirror 21 of the light valve 1 by the interlaced scanning at the video rate, and erasing is performed at the last vertical return of one frame shown in FIG. It is performed in a period corresponding to the line erase period. Here, one frame is 1/30 second.

FIG. 3 is a diagram showing the periods of writing and erasing. By changing the erase mode and the voltage applied to the crystal, a uniform electron beam is applied to the entire surface of the high-resistance dielectric mirror 21 of the electro-optic crystal 2 simultaneously with the accumulated charge pattern, and the secondary electron from the high-resistance dielectric mirror 21 is applied. It is performed by utilizing electron emission.

A light valve control device of the present invention using such a light valve will be described with reference to FIG.

FIG. 1 is a block diagram showing the configuration of the light valve control device of the present invention, and the same reference numerals as those in FIG. 2 indicate the same contents. In the figure, 14 is a beam splitter, 15 is a light receiving unit,
Reference numeral 16 is a video signal difference calculation circuit.

In the figure, a beam splitter 14 is for projecting a part of the read-out light onto the screen 11 and for making a part of the light-receiver 15 incident on the screen 11. The light-receiver 15 is composed of, for example, a CCD, and the read-out light is converted into an electric signal. These are what make up the light valve monitor. The video signal difference calculation circuit 16 calculates the difference (V _cant ) between the input video signal (V _VD ) and the monitor output video signal (V _mon ) and the output thereof becomes a write signal to the light valve. The input video signal, the monitor output video signal, and the differential video signal are synchronized. For that purpose, the synchronizing signal of the light valve and the light receiving portion (CCD camera or the like) may be taken from the input video signal.

Next, the operation will be described. A parallel light beam is made incident on the light valve 1 through the beam splitter 6, a part of the reflected light is projected on the screen 11 by the beam splitter 14, and a part of the reflected light is an electric signal at the light receiving unit 15. Is converted to. Receiver 15
The monitor output video signal from is applied to the video signal difference calculation circuit 16 and the difference from the input video signal is calculated. The electron beam of the light valve is modulated by this difference output, and writing is performed until V _cant = 0, that is, V _mon = V _VD . Thus, while writing, a part of the output is constantly monitored, the electron gun is controlled by the differential video signal between the monitor output video signal and the input video signal, and writing is performed until the monitor output video signal becomes equal to the input video signal. At the end of writing, the read output of the light valve will be equal to the input video signal. Therefore, the read output written to the light valve is
It is always true to the input video signal.

〔The invention's effect〕

As described above, according to the present invention, an output that is faithful to the input video signal is always obtained without being affected by the shading and characteristics of the light valve, and therefore the output image quality can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a configuration of a light valve control device of the present invention, FIG. 2 is a diagram showing a basic configuration of a light valve, and FIG. 3 is writing and erasing of a light valve. It is a figure for explaining the period of. 1 ... Light valve, 2 ... Electro-optic crystal, 21 ... High-resistance dielectric mirror, 3 ... Electron gun, 4 ... Deflection coil, 5
…… Video signal source, 6 …… Beam splitter, 7 …… Polarizer, 8 …… Analyzer, 10 …… Collimating lens,
11 …… screen, 12 …… light source, 13 …… lens, 14 ……
Beam splitter, 15 ... Light receiving part, 16 ... Video signal difference calculation circuit.

Claims (1)

[Claims] 1. A light valve for intensity-modulating an electron beam in accordance with an input video signal, irradiating an electro-optic crystal on which a high resistance dielectric mirror is formed while scanning to perform writing, and reflection from the high resistance dielectric mirror. A part of the reading light is received and converted into an electrical signal, and the monitor part that monitors the light valve output and the input video signal and the monitor output video signal are input, and the input video signal and the monitor output video signal A light valve control device comprising: a video signal difference calculation circuit that outputs a difference video signal; and a feedback system that applies the output of the video signal difference calculation circuit as a write signal to the light valve.