DE3712730A1 - Optical filter arrangement - Google Patents

Abstract

Known optical filter arrangements possess invariable optical properties. The invention creates an optical filter arrangement in which the optical properties can be controlled. The optical filter arrangement consists of a colour-selective translucent (light-transmitting) liquid crystal cell having at least two transparent electrodes which enclose liquid crystal molecules, preferably in the nematic phase. Connected to the electrodes is an electronic control circuit, by means of which voltages of adjustable level can be applied to the electrodes. In a preferred embodiment, additional dye molecules are dissolved inside the liquid crystal molecules.

Description

The invention relates to an optical filter arrangement according to the preamble of claim 1.

Optical filter arrangements are in the form of Inter reference or absorption filters for optical Ge advise in use. They are used e.g. in the Measuring technology (spectrometer), to compensate for not linear properties of optical receivers or sen the, to hide interfering spectral components (UV filter in photography) or color image disassembly and composition (color television, color printing).

The known optical filter arrangements include filters with unchangeable optical properties.  

If the use case requires several different ones optical properties, e.g. with a color distant vision camera, the color images in red, green and blue Disassembled drawing files, so the respective op components assigned to properties be available. A well-known color television camera has three tubes for this purpose one for red, one for green and one for blue part pictures. The one falling through a common lens Beam of light arrives at an arrangement under one Angles of 45 ° color dividers that have an up division of the spectral range on transmission and Re make flexion. The transmitted spectral component plants itself along the optical axis to a first Recording tube continues, the reflected portions deflected at 90 ° to the optical axis and arrive after a further diversion to a second or third recording tube. The arrangement is structural agile, requires a lot of space and requires a very precise adjustment around the separately disassembled part to match images.

Another known design includes color sensitive or image segments with filters, which are divided into so-called  called color triples are divided. With restrictions the base area of the image segments decrease due to the triple color per unit area edible image segments, reducing the resolution of the camera is restricted.

The Erfin is based on this state of the art the general task, an optical one Filter arrangement so that the optical Eigen are controllable.

This task is accomplished with an optical filter arrangement according to the preamble of claim 1 by the in the kenn drawing part specified features solved.

The configuration of the optical filter according to the invention arrangement allows the color selectivity of the liquid crystal cell by changing the orientation of the To control liquid crystal molecules. The liquid crystal cells can change from a color-selective state into one color neutral condition and vice versa. This makes it possible to stand the liquid crystal cell dig in the beam path and the change the optical properties only by voltage  to effect change. This is compared to a mecha solution is structurally simpler, faster and more energy-efficient more economical.

In applications where different optical Properties in quick succession can be requested, several liquid crystal cells can also be arranged one behind the other so that an optical receiver or transmitter only once must be available. This can be in all operating states which are controlled like a monochrome device.

From the publication "On the way to a flat picture screens "from Merck are colored liquids known crystal cells, but these are exclusive intended for display purposes.

In a first embodiment of the invention several electrodes behind each other in the optical axis arranged differently and simultaneously with different Tensions applied.

This configuration comes with liquid crystal alone molecules made up by different fields  Experienced bending of their preferred direction. Doing so by interference formation of light part of the Ge entire spectrum wiped out, so that the remaining An parts appear in color and the liquid crystal cell pass undiminished.

In a second embodiment of the invention are in the Liquid crystal cell additionally anisotropic conductive salt ions arranged.

In this case too, the color is selected Interference formation, caused by scattering Be range within the liquid crystal cell in a row of a current flow.

In a third embodiment of the invention the electronic control circuit at least two Fre frequency generators of different frequencies, by means of the overlapping alternating voltages to the elec treads.

In this embodiment, the color selection is carried out Interference formation due to the dependence of the electrical anisotropy of the liquid crystal molecules depending on the applied electrical changes  fields.

In a fourth embodiment of the invention are in the liquid crystal cell also dye moles arranged cool.

The dye molecules are preferably in Solution in a lower concentration than the liquid crystal molecules. Between the liquid crystals tall molecules and the dye molecules Host-guest relationship. The dye molecules, which Spectral components of the incoming light depending on absorb in a preferred direction and in the other Pass direction, follow the liquid crystal moles cool when the electric field changes. On this way is on the detour via the relocation the desired orientation of the liquid crystal molecules of the dye molecules.

In a further development of the invention, the height of the chip voltage or the amplitude of the alternating voltage between two extreme values changeable. The two extreme values can be zero and a maximum value, for example and the change can be made gradually or in stages consequences.  

This measure allows intermediate values between the Extreme values of maximum absorption and color neutral Permeability of the liquid crystal cell set will. The edges of the absorption curve are like this flatter. The setting of intermediate values helps the variation and mixing possibilities of farbselek tive filters to expand very much.

If necessary, the dye molecules from one Mixture of molecules of different spectral absorption exist.

In this way, the optical properties the optical filter arrangement the requirements of Adjust optimally if necessary. In particular can so high pass, low pass, band pass or band stop filter different spectral cutoff frequency who created the.

One way of changing the spectralab Sorption areas consists of the dye moles cool so that their individual spectral overlap absorption areas.  

In this way, e.g. the range of one Bandpass or a band lock affect.

In a further training there are several cells on one common optical axis arranged one behind the other.

This configuration is made possible in that the If necessary, liquid crystal cells controlled in a color-neutral manner and then a beam of light passing through practically no longer influence. Based on these Arrangement can be very different realize optical properties while this in the known arrangement with reflective spie would quickly reach a spatial limit. The arrangement is very space-saving because the liquid crystal cells can be made extremely flat and in the lateral and elongated sense only through their dimensions take up predetermined space. Op Table errors caused by misalignment are practically out closed because the light in all modes same optical filter arrangement happens. Should be there there are small optical distortions these do not interfere as they operate in all species are the same.  

In a further development of the aforementioned embodiment, the Common electrodes for neighboring cells forms.

This solution helps to simplify the cells construction and control in and further reduced any residual absorption losses still present, wel through the formation of transparent electrodes stand.

In a preferred embodiment, the elec tronic control circuit a multiplex circuit, with of the individual liquid crystal cells cyclically are controllable.

In addition to a mixture of the different properties the liquid crystal cell is also a time-shift Sequence of the optical properties of each one Given cell. This is a prerequisite for a cer Laying of colored pictures in monochrome drawing files. The control and reaction of the liquid crystal cells is almost inertia, so that one is essential can achieve higher multiplex rate than with an on order in which the optical filters are based on mechanical Paths removed from the beam path and then in  these are reintroduced. Particularly advantageous is the direct controllability with elek trical signals, which are easy integration the optical filter arrangement in electronic switching circles enabled.

In a particularly advantageous application, the optical filter arrangement in the beam path of a color arranged image recording or playback device, the device being synchronized by the multiplex circuit is controlled.

In this combination, the properties of the op table filter arrangement especially to carry because probably in the commercial as well as in the entertainment area the trend towards miniaturization of the devices continues. Compared to known color image recording and playback facilities for the individual drawing files in 3 copies are available, which enables optical filter arrangement a reduction essential Components by a factor of 3 without one Loss of quality would have to be accepted.

A further development provides for the optical filter order in the beam path of a CCD camera.  

Such cameras can be used with good recording quality training very compact. However, they do require photosensitive picture elements a certain minimum area, so that the given Image-bearing active layer only one ver relatively small number of CCD picture elements can be accommodated up there. Becomes such a camera trained to take color images, so there is the possibility of three picture elements at a time Summarize color triples. The resolution diminishes but by a factor of 3. With the invention According to the filter arrangement, the original on solution area restored without losing ab Accept the compactness of the CCD camera to have to.

According to another development, the optical fil teranordnung in the beam path of an LCD screen arranges.

Also in this case, given a construction size of the LCD screen over a version with color triples by a factor of 3 elevated. The resolution is therefore comparable to an LCD Black and white screen.  

Further developments and advantageous embodiments of the Invention result from the claims, the others Description and the drawing, the execution games of the subject of the invention illustrated.

The drawing shows:

Fig. 1 is a plan view of an op diagram filter assembly according to the invention,

Fig. 2 is a 0uerschnitt by a liquid crystal cell of the optical filter arrangement,

Fig. 3 shows a cross section through a series circuit of several liquid crystal cells and

Fig. 4 shows an application example for optical filter arrangement as an RGB filter in a CCD camera.

The filter arrangement shown in FIG. 1 consists of a liquid crystal cell 10 , in which liquid crystal molecules and color molecules are enclosed, and an electronic control arrangement 18 . The liquid crystal cell 10 is translucent perpendicular to the plane of the drawing. If there is no voltage, it appears continuously in the color of the outer region 36 , in which there are no electrodes. Depending on the type of dye molecules used, this can be, for example, red, blue, green or a mixed color. If a voltage is applied to the electrodes, the inner region 38 becomes neutral in color, ie white or monochrome light is transmitted unchanged.

The liquid crystal cell 10 can be introduced into the beam path of an optical device and optionally switched between color selectivity and color neutrality. The change between the two operating modes is almost inertia, compared to a mechanical arrangement in which the filter for the intended purpose would have to be removed from the beam path much faster. In addition, a continuous transition from color selectivity to color neutrality is possible by varying the voltage applied.

Fig. 2 shows a cross section through a liquid crystal cell 10 of the optical filter arrangement. This consists of two outer glass plates 40 , 42 , two transparent electrodes 12 , 14 , which is vapor-deposited as an indium or tin oxide layer on the glass plates 40 , 42 , two polyimide layers 44 , 46 for insulation as well as a chamber formed by spacers 48 50 . At the electrodes 12 , 14 connections 52 , 54 are introduced , via which a voltage can be applied by means of the electronic control circuit, not shown here. In the chamber 50 there are liquid crystal molecules 16 and dye molecules 20 which are present in a lower concentration than the liquid crystal molecules 16 and are dissolved in the liquid formed by the liquid crystal molecules 16 . The dye molecules 20 determine the color selectivity of the liquid crystal cell 10 when there is no voltage at the electrodes 12 , 14 .

Instead of a single type of dye molecules 20 , a mixture of dye molecules 20 of different types can also be used. So can be achieved by specifically composed mixtures of different dye molecules 20, for example optical filters with high-pass, low-pass, band-pass or band-stop characteristics.

As the drawing in Fig. 2 shows, the dye molecules 20 are arranged in the spaces between the liquid crystal molecules 16 and aligned in the same way. The liquid crystal molecules 16 are referred to as host molecules and the dye molecules 20 as guest molecules. If there is no voltage at the electrodes 12 , 14 , the orientation of the liquid crystal molecules 16 and the dye molecules 20 corresponds to the position shown. As soon as voltage is applied to the electrodes 12 , 14 , an electric field is formed which imprints its direction on the liquid crystal molecules 16 . These then pivot by 90 ° in a direction perpendicular to the electrodes 12 , 14 . The dye molecules 20 , which themselves have no polar properties, are carried along by the liquid crystal molecules 16 and also pivoted through 90 °. Since in the axial direction of the dye molecules 20 no absorption of the light takes place, this passes unaffected by the liquid crystal cell 10 , ie white light appears white, all other colors are let through without weakening.

After switching off the voltage, the liquid crystal molecules 16 and the dye molecules 20 return to the horizontal position. If the voltage is slowly increased, the liquid crystal molecules 16 and the dye molecules 20 take an intermediate position. The absorption is then less pronounced. This effect can be used to electronically change the degree of absorption of the liquid crystal cell and in this way to enable a different color mixture when using several liquid crystal cells connected in series.

Only a small electrical power is required to control the liquid crystal cell 10 . The optical filter arrangement according to the invention is therefore also particularly useful for non-stationary devices which draw their energy from batteries or rechargeable batteries.

The liquid crystal cells 10 in the structure according to FIG. 2 can also be connected in series to several, in order to be able to selectively produce different optical properties. This will be the case if colored images are to be broken down into monochrome partial images, for example in multi-color printing, in color television, or also in three-dimensional image reproduction using the anaglyph method. In this case, each liquid crystal cell 10 is provided with different color molecules so as to obtain different optical properties.

When cascading several liquid crystal cells 10 , a further reduction in the spatial dimensions can be obtained if the liquid crystal cells are formed in accordance with FIG. 3. In this example, three liquid crystal cells 22 , 24 , 26 are connected in series. Instead of assigning electrodes to each cell, adjacent liquid crystal cells 22 , 24 and 24 , 26 are given common electrodes 28 , 30 . With this configuration, however, the voltages at the other electrodes have to be tracked. This results in a somewhat higher amount of circuitry on the part of the electronic control circuit 18 , but this is offset by the advantages associated with the lower weight, the flatter dimensions and the simpler structure.

Finally, an application example is illustrated in FIG. 4. The arrangement comprises a CCD camera 34 , in the beam path of which the optical filter arrangement according to the invention comprising three liquid crystal cells is inserted behind an objective 56 . The Filteranord voltage consists of a liquid crystal cell 22 for red fields, a liquid crystal cell 24 for green fields and a liquid crystal cell 26 for blue fields. The assignment to the different colors is illustrated with the capital letters RGB. The electronic control circuit 18 includes a multiplex circuit 32 , with which the individual liquid crystal cells 22 , 24 , 26 are cyclically driven. The CCD camera 34 is synchronized with the multiplex circuit 32 in such a way that the respective liquid crystal cell is driven during the scanning of an image.

In FIG. 4, the phase is illustrated, in a red sub-image is sampled. The liquid crystal cell 22 is therefore controlled for red color selectivity, while the other two liquid crystal cells 24 and 26 are color neutral controlled. In a subsequent cycle, the liquid crystal cell 24 is then controlled for green color selectivity and the other two liquid crystal cells 22 and 26 are controlled in a color-neutral manner. This is followed by a corresponding activation of the liquid crystal cell 26 and a control of the liquid crystal cells 22 and 24 for color neutrality. Then the cycle starts all over again.

In order to be able to process the corresponding partial images separately, a further multiplex circuit 60 is connected downstream of the output 58 of the CCD camera 34 . The various partial images can be tapped at its output connections 62 . The assignment is again illustrated by the capital letters RGB.

The embodiment described has the advantage that, in contrast to a CCD camera with color triples, all picture elements 64 can be used for all colored partial images. For a given size of the image elements 64 receiving base area of the CCD camera 34 and thus the maximum possible number of image elements 64 , the resolution is improved. In comparison with a multi-tube camera, in which there is a separate recording tube for each of the colored partial images and the deflection of the beams by mirrors, the invention reduces the construction effort and the construction size by a factor of 3. In addition, problems with the exact adjustment of the recording tube are eliminated for exact coverage of the drawing files. In addition, the absorption is the same for all colored fields, so that differences do not have to be compensated for by additional gray filters. Moreover, the total absorption is also lower, which makes the CCD camera more suitable for taking low-light subjects.

Claims (16)

1. Optical filter arrangement, characterized by at least one color-selective translucent liquid liquid crystal cell ( 10 ) with at least two transparent electrodes ( 12 , 14 ) enclosed liquid crystal molecules ( 16 ), preferably in ne matic phase and by one connected to the electrodes ( 12 , 14 ) electronic control circuit ( 18 ) by means of which voltages of variable height can be applied to the electrodes ( 12 , 14 ). 2. Optical filter arrangement according to claim 1, characterized in that several electrodes in the optical axis arranged one behind the other and  be at the same time with different voltages are opened. 3. Optical filter arrangement according to claim 1 or 2, characterized in that in the liquid crystal cell additionally arranged anisotropic conducting salt ions are. 4. Optical filter arrangement according to one of the An Proverbs 1-3, characterized in that the elec tronic control circuit at least two frequency generators of different frequencies includes, by means of the superimposed alternating voltages to the elec treads are put on. 5. Optical filter arrangement according to one of claims 1-4, characterized in that in the liquid crystal cell ( 10 ) additional dye molecules are arranged ( 20 ). 6. Optical filter arrangement according to one of the An sayings 1-5, characterized in that the height the voltage or the amplitude of the alternating voltages between two extreme values, e.g. between zero and a maximum voltage or maximum amplitude continuously  or is continuously changeable. 7. Optical filter arrangement according to claim 5 or 6, characterized in that the dye molecules ( 20 ) consist of a mixture of molecules of different spectral absorption properties. 8. Optical filter arrangement according to claim 7, characterized in that the spectral absorption areas of the dye molecules ( 20 ) overlap each other. 9. Optical filter arrangement according to claim 7 or 8, characterized in that the spectral absorption areas spectral windows low Ab limit sorbtion. 10. Optical filter arrangement according to one of claims 1-9, characterized in that a plurality of liquid crystal cells ( 22 , 24 , 26 ) are arranged one behind the other on a common optical axis ( 28 ). 11. Optical filter arrangement according to claim 10, characterized in that the liquid crystal cells ( 22, 24, 26 ) have different spectral absorption areas. 12. Optical filter arrangement according to claim 10 or 11, characterized in that adjacent liquid crystal cells ( 22 , 24 , 26 ) have common electrodes ( 28 , 30 ). 13. Optical filter arrangement according to one of claims 10-12, characterized in that the electronic control circuit ( 18 ) comprises a multiplex circuit ( 32 ) by means of which the individual liquid crystal cells ( 22 , 24 , 26 ) can be controlled cyclically. 14. Optical filter arrangement according to one of claims 10-13, characterized in that it is arranged in the beam path of a color image recording device ( 34 ) and / or color image reproduction device and that the color image recording or reproduction device is controlled synchronously by the multiplex circuit ( 32 ). 15. Optical filter arrangement according to claim 14, characterized in that the color image recording device is a CCD sensor ( 34 ). 16. Optical filter arrangement according to claim 14, characterized in that the color image reproduction device is an LCD screen.