DE2542254C3 - Color television camera with only one image pickup tube - Google Patents

Description

The discovery relates to a color television camera with only one image pickup tube according to the preamble of claim I.

Such a color television camera with a color stripe filter is basically already known from German Offenlegungsschrift 20 43 I 36. There are Schaltungsan-orders for delaying the signal generated by the image pickup tube signal by <ine horizontal scanning period, a Additionsschaliung and a first Sublrak · tion circuit / by adding and subtracting the delayed signal and the output signal of the image pickup tube and a demodulator for demo

dulating the output signal provided.

The known methods for color image recording with only one image recording tube work essentially according to the following principle: Eire optics reproduce the recorded scene on the light-sensitive layer of a recording tube. In the imaging plane, seen from the optics, in front of the recording layer, there is a dichroic strip filter for color coding. The stripe filter mainly contains two types of stripes that cross each other at an angle of preferably 45 ". Both types of stripes generally have the same width and spacing of stripes. and red components through (yellow filter or blue slope filter). Ks remains a signal corresponding to the incident light, which is reduced by the blue part (R-Ci extract). The second type of stripe, for example, re-reads the red part in the same way and leaves it only the green and blue pass (cyan filter oiler red stop filter). So Fs remains a signal that is reduced by the red component (fß-G 'excerpt).

If the CAN filters are arranged, for example, perpendicular to the scanning direction of the electron beam of the pickup tube, a frequency (usually approx. ¹ JMHz) that is modulated with the rot information is generated during scanning. Under this condition, at the points of the yellow filter - due to the inclination of 45 "- a frequency that is \ '2 lower, which is modulated with the blue line ISt (DT-PS 19 56 9 39).

Stand at the intersection of the filter strips Grüninscln, since the filters mutually block the red or blue component of the incident light and only the Gi ünanieil let pass.

If one sets a uniform spectral sensitivity distribution ahead of the pick-up tube for red and blue, the green islands provide additional, approximately same error signals for red and blue, since they contain frequencies that are identical to the blue carrier frequencies /. as well as with the red deer freqiicn / cover. Fine corresponding Fehlerigiuilbildung is also shown on the transparent islands. These error signals lead to color casts in the reproduced image special matrixing can only be eliminated in an unsatisfactory manner.

By suitable selection of the spectral sensitivity distribution the pick-up tube can be largely freed from the color cast in one of the color channels. That but means that the color cast is intensified in the / wide color channel. For example, if you choose a beto'U blue-sensitive pickup tube, the error signals from the green and transparent islands are transmitted reduce the now relatively small red and green minicile. In the red channel, on the other hand, the color cast is particularly large due to the relatively high proportion of blue.

Fin method, which has become known as "phase-selective", avoids the error signal formation described largely by using the color-coded signal from the image pickup tube taking advantage of the phase relationship splits the neighboring pixels into a red and blue signal. For this purpose, the sireile filter is used of the intake tube twisted in such a way that the filter strips make equal angles to the vertical of the picture. When scanning, two carriers are created with the same Frequency, but with a different phase position. The filter arrangement is chosen so that from line / ii Line a phase shift of the signals by

180 "results, with the one modulated signal being a positive, the other experiences a negative phase shift. By subtracting the signal of a line With the signal of the previous line, which is delayed by the time of one line, one of the color signals can be obtained after subsequent demodulation. Under the same conditions, but by forming the The second color signal results after demodulation.

The signals obtained in this way provide better color reproduction than those obtained after the frequency-selective one Process obtained signals. However, the disadvantage of the phase-selective processes is that they are relative high demands on the linearity of the deflection in the horizontal as well as in the vertical direction. Pillow directories are particularly uncomfortable Noticeable in the scanned image field, the effect of which is at the edge of a twisting of the strip filter equal. Fs then arise frequency shifts and closely adjacent color carriers, which in turn Generate difference frequencies that appear as a disturbing moire in the deniodulated color signals.

From the German Offenlegungsschrift 21 04 48b isi a color television camera with only one image pickup tube is known, in which two optical raster filters are underneath are arranged at a certain angle to each other and the density jeu, ■> Kasters is so rooted that the frequency generated by both filters is räutiili. h modulated Images is identical in the scanning direction. When scanning, a common electrical carrier frequency is used generated. The densities and the angle are chosen so that nested spectra are obtained will.

From the German Offenlegungsschrill 21 Ob 5 JO is a color television camera with color coding stripe filters known for coding certain colors, in which the strips of the cutter have the same pitch (spatial Frequency) and the stripes of one (jitter at equal angles opposite to one common reference line are arranged like the stripes of the other Giiier. so that when scanning the coded image on the imaging surface in the direction two amplitude modes perpendicular to the reference line Carrier components with essentially the same frequency during the discharge interval and one The rabbit change from sampling interval to abiastine interval be generated.

Finally, from the German interpretation document 1244 237 is a color television camera with an image pickup tube and a color stripe filter arranged in front of it known, in which delay elements are also used to separate the signals, of which at least one corresponding to the delay period of one of the scanning periods of a strip width; Line interval having. The coded signals occurring at different times are represented by the Delay elements so delayed that this Signals behind the delay elements are available at the same time.

The known color television cameras with only one image pickup tube are relatively sensitive to this Errors in the deflection linearity Iv.w. do not assign one insignificant tendency to color casts and moiré disturbances on.

The flow is based on the task of cmc To create a color television camera with only one image pickup tube, which is capable of dealing with errors in the deflection linearity is relatively insensitive and has only a slight tendency to color tints and moiré disturbances.

In order to achieve the object, those specified in the characterizing part of claim 1 are provided according to the invention Measures proposed.

Fs has proven to be advantageous to select a crossing angle of the strip filter arrangements of approx. 45 / u. The strip filter arrangements can be inclined by about 5-15 or 30-40 "relative to the perpendicular to the scanning line.

In addition, the pick-up tube should have a maximum of the spectral single-sensitivity wedge distribution in the Have area of the carrier that delivers the color signal with only one color component.

Practical tests have shown that this increases the sensitivity to errors in the deflection linearity. the tendency to color casts and moiré disturbances can be reduced quite considerably. The relative simple and unproblematic inventive arrangement enables excellent reproduction with good resolution in the luminance channel at the same time.

The Frfindiing is referred to below on the / eichnungsfiguren for example explained. Fs shows

F'i g. 1 an ingeniously used tape filler,

F i g. 2 cmc basic representation of the I .π bsigna-Ic in de ¹ ! Image points I to I) of the I ig. I in the original and modilizicrien state and

F i g. i a block diagram of the ingenious people Color television camera.

Fig. 1 shows a filter arrangement. , in I land which the signal formation is to be shown in the course of an arbitrarily selected line. In the following, for the sake of simplification, the red signal inn II . The blue signal with // and the (irüiisignal with CI) CZCuIiIiCt.

Corresponding to the one when using a filicran arrangement I "i g. I resulting signal curve is in I i g. 2 shown. In columns 1 to Γ "> the .ι series becomes the Signal distribution in points I to 15 correspond accordingly Fig. I shown.

In row b, the signal relay of row .ι is shown delayed by one image point in each case. By creating a Sunimen, in the signals of the series, ι and b, one receives a signal corresponding to the series c. It can be seen without further ado that there is a very even distribution of signals here. When using a low-pass filter, one obtains a practically pure Ii f 2 C " l · // signal.

The processing of the signals according to the invention required circuit arrangement is in I ι g. i as Block diagram shown. Fine optics IH forms the recorded scene on the light-sensitive Layer of the vidicon 18. which is provided with a strip filter 17 for color coding. The video amplifier 19 gives the processed signal to a Tiefpal! 20 mil iiaehschaltem l.aiilzeitair.glcich 21, at a 1 hole pass 22 with working as demodulator 23 rectifier and this downstream low-pass filter 2-1,, into one Delay run 25, to a Dillerenzsiule 2b as well to a graduation school 30.

This can be seen at the output of the running line compensation 21 l. luminance signal V / ur available.

When using tiering fil''Tanordniing according to FIG. 22 sifted blue signals for verliigiing.

When calculating the difference, tics in tier delay stage 25 delayed and deeply reformed signals

(C i g. 2, rows a and b) in the Diffcren / .siufc 26 results in a .Signalsequence corresponding to row d of the I 'i g. 2. After this signal has been demodulated by the second demodulator 27 and the hand width is limited to 50OkH / by means of a pass pass 28, a signal flow R - \ B arises. 2 is the signal distribution after demodulation and in series f the I'ig. 2 shows the minimal signal distribution after the low-pass filter 28. By forming the difference between the (R -ι / i / signal and the B signal, to which a higher-frequency color carrier is assigned when the strip filter is used and which can therefore be obtained from the total signal via the high-pass filter 22), a K signal is produced in a second differential stage 29 .

The instantaneous signal and the signal delayed by one image point are added in a summing-point 30. The summing signal is fed to a low-pass filter 31 which suppresses the high-frequency components of the signal. At its output there is a pure (R + 2 G + B) signal (Γ i g. 2nd row h). In a third differential stage 32, the R and W signals are subtracted from the (R + 2 G + B) signal and a pure (7 signal is thus obtained.

As already mentioned above, an I.cuchtdichlesignal with a bandwidth of approx. 3 MHz is obtained from the overall signal with the help of the low-pass filter 20, which is further processed after the compensation of the I.aiifzeitdifferenzcn by means of an I.aiif / eihuisgleichs 21 with the color signals RB can. By turning the yellow filter by a small angle in the direction of the vertical of the scanned l'eldi, a relatively high frequency of the bearings is generated. B keeping the circular pattern, the cyan filter is compulsorily compressed and a corresponding red triangle frequency is generated. By choosing the Wink, any frequency difference between the two carriers can be set within the limits of approx. 0 to 1.5 ml. A differential frequency of preferably 1 MIIz is provided for the anointing according to the invention, ie the interference frequencies that arise in the Scitenbändein at a distance of approx. The color signal is transmitted ir 500 kHz, the first attenuation pole d low-pass filter being matched to the moiré frequency.

Practical tests have shown that with this relatively simple and unproblematic arrangement excellent color reproduction can be achieved with good resolution in the luminance channel at the same time

For this purpose 3 sheets of drawings

Claims (4)

Patent claims: 1. Color television camera with only one image pickup tube with located in front of the recording layer .Strip filter arrangements with for white light and for light of a first color range as well as for white light and light of a wide range of hues allow transparent tires, the stripes in the repeating sequence of »white, first color range« and »white, / further color range« are arranged and the first strip filter arrangement of the / wide superimposed and opposite this is rotated by such an angle that during the Abiasiung by the different The angle of inclination of the one / a strip filter arrangement with respect to the scanning direction is different, with dun associated color tone signal modulated carrier frequencies result in such a way that at least one of the corresponding color carriers is flawless filled out and an I-color signal as well as from the remaining baseband of the color-coded signal the pickup tube a Lcuchtdichiesigna! is obtained, furthermore the output signal of the Intake tube is partially delayed by a certain time, summation and difference formations / between delayed and un / delayed signal and finally the signals obtained in this way are demodulated, d a by g e k e η η /. e i e h net. that a delay of one color tire width corresponding time interval that takes place by forming the difference between the undocumented and delayed signal a 2-color signal as well as adding the delayed and delayed signals Signal a 3-color signal is obtained and then I, 2 and 3-color signals through Matri / ieriing three basic color signals (e.g. red, Grün, Mau) can be won. 2. Color television camera according to claim I, characterized in that the strip filter arrangements cross at an angle of approximately 45 '. 3. Color television camera according to claim I or 2, characterized in that the Slreifenfilteran- (irdiuingen by about 5 to I 5 or JO to 40 "from the perpendicular to the scanning direction are inclined. 4. Color television camera according to one of claims I to 3, characterized in that the receiving tube a maximum of the spectral sensitivity distribution in the area of the carrier (/ .. IJ. des Blau-Triigers), which delivers the color signal with only one color component.