DE1173513B - Method and arrangement for recording television images with storage tubes - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 04 η

German class: 21 al -32/35

Number: 1173 513

File number: F 37445 VIII a / 21 al

Filing date: July 28, 1962

Opening day: July 9, 1964

The invention relates to a method for operating image storage tubes for television cameras and particularly of superorthicon tubes. In particular, it relates to a method of improvement the reproduction of details in images with a high level of basic brightness and low contrast.

In normal studio operation as well as in scientific and technical TV recordings, lighting conditions occasionally occur in which the peak brightness by far exceeds the control range of the brightness characteristic of the storage tube. For example, in superorthicons, the illuminance on the photocathode is often reduced ^{by a factor of 10 4} to 10 ^{5 by stopping down and switching on filters.}

If all gray levels between black and white are present in the transmitted image and have to be reproduced, this strong light attenuation does not mean any disadvantage. On the other hand, the situation is different if the image to be transmitted has a high basic brightness level on which the actual image details with low contrast are superimposed. An example of this is the image of the starry sky during the day. The blue of the sky represents a high level of basic brightness, from which the brightness levels of the stars' diffraction disks hardly stand out. The same applies to very distant landscapes, the contrast of which is often only slightly different from the basic brightness of the atmosphere. If L denotes the fundamental holiness and dL the amplitude of the picture details that exceeds this, it is evident that the picture signal dB ^{corresponding to the detail contrast after fading down by a factor of 10 4} is often too small to be perceived in the television image. Although it is possible to increase the contrast using amplifiers with a gamma greater than 1, and at the same time the signal level corresponding to the basic brightness can be cut off, the increase in noise soon sets a limit for this method. In any case, it means the loss of information if the image amplitude dB corresponding to the brightness amplitude dL is initially weakened by filters and diaphragms and then increased again by amplification.

The object of the invention is therefore to provide an operating method by which the creation of an image signal B corresponding to the basic brightness L can be suppressed in the tube and the control range of the brightness characteristic can thus be fully used to generate an image signal dB corresponding to the detail contrast dL . On the procedure and arrangement for recording
of television pictures with storage tubes

Applicant:
TV G. mb H.,
Darmstadt, Am Alten Bahnhof 6

Named as inventor:

Dr. Friedrich Michels, Darmstadt,

HansJDieter Schneider, Gross-Gerau

Suppression of an image signal corresponding to the basic brightness is to be avoided per se an image interference signal in supericonoscopes known measure of sprinkling the storage electrode used with slow electrons. With Superikonoskopen with the help of such trickle electrons Compensates for irregularities in the image signal due to scattered electrons. One also has the photocathode of the image converter system is used to generate such trickle electrons and during the frame retrace time is given a flash of light on this photocathode, at the same time the storage electrode was keyed negatively.

It is also already known to depend on the intensity of the trickle cathode in supericonoscopes to regulate the temperature-variable emission of the photocathode so that the trickle current is constant remain.

Deviating from this known method, in the method according to the invention for recording of television pictures with a superorthicon tube the intensity of a current slower, the storage disk Sprinkling electrons depending on the respective basic brightness of the televised transmitted Scene controlled in such a way that the charging caused by the basic brightness is reduced, is preferably practically neutralized.

To carry out the process you can, for. B. in a superorthicon tube, which is particularly suitable for the procedure because of its high sensitivity comes, provide an auxiliary cathode, which is at the potential of the beam cathode and its Emission is controllable. This emission can be adjusted so that the electrons reach the storage electrode irrigate evenly and that the amount of negative charge reaching the storage electrode

409 629/142

image with a superorthicon already by a flash illumination during a hundredth of the line duration can generate. Since the time available during the line return is about 10 micro-5 Seconds, in most cases a sufficient amount of charge can be applied during this time the storage electrode are brought.

To further explain the invention, reference is now made to the drawings. It shows

1 shows a diagram of a brightness characteristic of superorthicons,

2 shows an orthicon construction with an auxiliary cathode,

Fig. 3 is a circuit diagram with a Superorthikon-

4 shows a circuit example of a control device to stabilize the mode of operation according to the invention.

In FIG. 1, the illuminance of the photocathode L is plotted in logarithmic units on the abscissa and the image signal B, likewise in logarithmic units, is plotted on the ordinate. The schematized orthicon characteristic is made up of the

fertilizing is proportional to the basic brightness of the scene. A control signal can, for. B. from an auxiliary photocell which absorbs part of the luminous flux emanating from the scene.

This auxiliary cathode can, for. B. Orthikons in an annular compartment within the main anode be attached, the scanning beam travels back and forth through the central opening of the ring. That The beam of rays from the auxiliary cathode is then moved back and forth over the target by the deflection field, it io but is so broad and diffuse that all areas of the target are rained during a large part of the image period will. The cessation of the emission can e.g. B. be done by adjusting the heating.

Another embodiment of the tube according to the invention for carrying out the method according to the invention, which does not require any constructive approach or modification of the orthicon, consists in the
Photocathode of the image converter system itself as
To use trickle cathode. For that purpose, that will
Potential of the photocathode and possibly the 20th
adjacent electrode during the retrace period with a pulse of such magnitude positive
sensed that the photocathode almost reaches the target potential, and at the same time the photocathode
Illuminated diffusely with a flash of light. Through the selected 25 curves 1 and 1 'together. The curve 1 is extended by the dashed line 2, which is triggered by the slow return of the line. If at photoelectron a negative charge may be of sol of a normal operation of the Superorthikonröhre chem amount transferred to the storage electrode advertising a basic brightness L with one of these superimposed to that which is offered by the basic brightness during a brightness dL of image detail, so is the line period generated positive charge just grains - one is compensated because the saturation point is exceeded. By scanning the previous tes of the image signal amplitude B is forced to weaken the luminous flux, so that instead of the image signal B, the maximum image signal B 'is obtained. The image signal 1B obtained from the image details is reduced to AB '. If, on the other hand, according to the invention, the image signal B is compensated by sprinkling the taget with slow electrons, then the detail signal I B can be obtained in its original size and thus a substantial

Therefore, on days the sky blue becomes black or deep. Increase in the sensitivity of the camera appear gray, while the stars achieve each other as compared to the detail signal. Night observation as bright points of this. A construction of an orthicon tube with which a

Lift off the ground. the compensation of the signal of the basic brightness

It is advantageous to achieve a current of slow electrons to adjust the light flux the scanned light source or the intensity of the 45 can be shown in FIG. 2. In this figure, 3 is the discharging photocurrent onto the respective existing bulb of a superorthicon tube, which has a basic photo brightness or medium brightness control switching cathode 4, a storage electrode 5 with a glazing used, with the help of which either the ampli-foil with a network arranged in front of it, and also a tude of the auxiliary exposure, the pulse duration, the pulse jet system 6 and a main anode 7 contains. the voltage at the cathode and / or other quantities g & - 50 Focusing and deflecting means are the better Deutregelt are omitted for comparison, either for the sake of electricity. In such a tube an auxiliary photocathode or the photocurrent of the is at the end facing the beam system Orthiconcathode provided during the scan or the main anode an annular compartment that Current of the target electrode or finally the image consists of an annular diaphragm 8 and a grid 10, signal itself can be used. A border 55 In this compartment there is one on the cathode end Procedure can be indirectly heated hot cathode 9, There are conductivity of the photocathode, as in the case of the one facing the storage electrode 5 large basic brightness of the required compensation side emits electrons. Since only a very small one If an electron current is not required during the line retrace, the heating temperature can be applied can be. This photocurrent must be kept so low that 60 temperature of the cathode in itself already a multiple of that during the ab- practically no light from this cathode through the be scanning time flowing photocurrent, since the storage electrode 5 through to the photocathode 4 charge of the target by secondary emission multiplication. To adjust the strength of the trickle infill of normal photocurrent is generated. In Stroms, the heating temperature of the cathode can be determined Cases can be helped by applying the 65, so that each of the Grundhellig return time enlarged and thereby generated at the expense of the speed of the image to be transferred Image width coped with even greater basic brightness. attempts to come through the slow electrons of this cathode have shown, however, that you can be a single-pensioner.

existing top-up is completely deleted. After that, an even structure of an image can be achieved with the image details exceeding the basic brightness.

By the process of discharging the storage electrode with the help of slow electrons is so practically the black level is set to the basic brightness. In the case of sky observation at

5 6

Another method for compensating the fluctuations in the basic brightness or the inten basic brightness, in which no structural changes to the auxiliary light source can be made. It tion of the Orfhikonröhre is required, Fig. 3 is based on the principle that the size of the Komin this figure is 4 in turn the photocathode and pensational charge on the storage electrode itself- 4 a ring-shaped acceleration electrode, which 5 normally acts on the largest possible AC voltage about 200 volts more positive than the photo amplitude is set. There are two variants of the cathode. possible, namely either the readjustment of the

During normal operation, the photocathode 4 lies on the auxiliary light source or the change in the point of impact. B. -500 volts and the electrode 4 a on the speed of the photoelectrons during the - 300 volts. The image to be transmitted is reversed with the io. In the latter method, the Tat optics 19 is projected onto the photocathode 4 and takes advantage of the fact that the amount of the electrons from the PhotoHier, the negative label generated by the storage electrode 5 electrons on the target are accelerated and there by secondary emission from the The speed of impact of the electrosis on a mountain of charges is essentially dependent on positive charges. The amount of charge per corresponding to the differences in the brightness of the single pulse becomes smaller, the more the pixelated pixels are generated. In order to carry out the doneness of the electrons, the voltage value for the method according to the invention is approximated to 1, which is approximately 50 volts for cathode 4 and acceleration electrode 4 a over a glass target. By regulating the device 15 to be discussed later, a positive pulse of the potential of the photocathode during the duration of the auxiliary exposure can be supplied via the capacitors 13 and 14 ao of the auxiliary exposure between 0 and 50 volts, which the potential of these electrodes one the size of the compensation charge in wide during change the line returns by 500 volts of positive limits.

gropes. The photocathode 4 thus has approximately In the circuit shown, the BA signal

Ground potential and the acceleration electrode 4 a of the superorthicon tube taken at 21 and above a potential of +200 volts. While the reverse is fed to an amplifier 22 of a blanking stage 23, a flash lamp 17 is also runtime, via which its cathode is sensed with slightly wider blanking pulses high-voltage device 16, an ignition voltage negative. The image signal obtained in this way carries with it, which triggers a flash of light that arrives over the defined blanking interval to a clamping semi-permeable mirror 18 and the optics 19 to circuit 26, 27 with which the negative signal peaks the photocathode 4 falls. The pulse required for synchronization 30 of the amplifier 22 entder flash lamp via the capacitor 25 can, for. B. sampled from the signal taken to a fixed potential from the line deflection device of the orthicon camera. The positive alternating voltage amplitudes are men, with generally no additional amplification of the signal being rectified by the diode 38, which is necessary to also increase the potential and charge the capacitor 37. The Klemnider photocathode in the desired way to 35 impulses, which scan through the AC voltage signals. A photocell or a photo-half phase splitter stage 27, 28, 29 is supplied so that the compensation of the basic brightness can be formed during the line scanning period, even if the double diode 26 is kept in phase opposition even when the overall illumination fluctuates. That is provided on Konleiter 20, which intercepts a part of the direct current signal occurring from the capacitor 37 and strengthens the 40 and applies it to the grid of a triode 33, which feeds the photovoltage to the control device 15. In the part of a sem device fed with positive tactile pulses, z. B. the duration or intensity of the voltage divider 31, 32, 33 is. The strobe pulses can be controlled from the line deflection device 30 for the deflection in accordance with the basic brightness. Another way is to take coils 36 from the superorthicon tube to determine the amplitude of the probe pulse at the photocathode 45. The changes that occur there during the line retrace in order to thereby change the speed of the positive pulses having an approximately sinusoidal arc-shaped photoelectronic shape reaching the storage electrode; with the help of a VDR resistor 32 can influence NEN. the top of the pulse will be flattened. The on

The method of the invention can be used with advantage in all cases of regulated pulses tapped off by resistor 32, in which the base 50 is fed to the photocathode 4 and the acceleration brightness of the image to be transmitted a multiple of the electrode 4 a. In addition, the differences in brightness of the pulses to be transmitted for igniting the flash lamp 17 can be determined via the ignition image details. Examples of this are those used on lighting device 16.

screen designed images of x-rays, the superorthicon tube is now through the basic

in which the brightness of the scene generated by the scattered radiation is heavily overdriven, so occurs on Brightness much greater than that of the image details output 21 has only a little image signal voltage. There is. Furthermore, the method for the detection from the control circuit does not come from any substantial output When scenes in fog or heavy haze are emitted under tension, the tube 33 remains in place. The attachment of the flashlamp to the lighting blocks so that the full touch voltage is applied to the phototung the photocathode can e.g. B. using 60 cathode 4 and a maximum compensation of a radiation current used in color television is supplied. But results from the cone dividing device take place. The lightning compensation current can also have a higher alternating voltage in the case of the lamp, and a rectified positive voltage is applied within the 21 Camera optics are attached. the grid of the tube 33, which opens it and

F i g. 4 shows a circuit example for through 65 through the voltage divider ratio between 31 and Execution of the invention using a 32, 33 raises. The gelan control circuit to the photocathode, Due to the compensation the low pulse is therefore e.g. instead of +500 volts basic brightness in the image signal independent of only +475 volts, so that the normal photo-

cathode voltage is set from -500 volts to -25 volts. The photo electrodes therefore hit with a speed of 25 volts on the target and there dissolve a certain amount of Secondary electrons off, so that the target is less negatively charged than in the previous case. Now you can adjust the intensity of the auxiliary light to find the most favorable working area from Set by hand and then leave the device to itself, as the fine control is done by the control circuit is concerned.

You can also use the control voltage instead of changing the probe amplitude of the photocathode Use change of the luminous flux of the flash lamp. This possibility is through the double switch 34 indicated by which the tube 33 is replaced by a resistor 35 and the control voltage is placed on the igniter 16. In the device 16 can with the control voltage z. B. the charging voltage for the storage capacitor or the ignition duration can be influenced. However, it is also possible to use the To supply control voltage to the servo control of a motor, which is a screen in front of the flash lamp more or less opens. In all cases, the device remains in its function of fluctuations in the Basic brightness or the output of the flash lamp are unaffected.

It is clear that the specified circuit is also implemented with semiconductor elements instead of with amplifier tubes can be.

Claims (9)

Patent claims: 1. A method for recording television images with a superorthicon tube, thereby characterized in that the intensity of a current is slower, sprinkling the storage disk more slowly Electrons depending on the respective basic brightness of the televised transmitted Scene is controlled in such a way that the basic brightness takes place Charge is reduced, preferably practically neutralized. 2. Arrangement for performing the method according to claim 1, characterized in that that on the scanning side between the deflection coils and the beam system a large area Cathode (9) is provided with an annular opening for the passage of the scanning beam, the Emission can be controlled. 3. Arrangement for performing the method according to claim 1, characterized in that that the photocathode and optionally between the photocathode and storage electrode Lens electrode located in an image converter system from Superorthikons during the line retrace time is sampled approximately to the potential of the storage electrode and at the same time the photocathode of the image converter system with a light source, in particular a flash lamp, is exposed. 4. Arrangement according to claim 3, characterized in that from the mean image brightness of the image to be recorded, the control signal for regulating the intensity of the during the Fallback times generated current of slow electrons is derived. 5. Arrangement according to claim 3, characterized in that the used as the lighting source Flash lamp in the form of a ring-shaped gas discharge tube inside the taking lens the camera is housed. 6. Arrangement according to claim 4, characterized in that from the at the output of the A direct voltage is derived from the alternating voltage signal occurring in the storage tube, which is used to regulate the intensity of the auxiliary light source. 7. Arrangement according to claim 4, characterized in that from the at the output of the A direct voltage is derived from the alternating voltage signal occurring in the storage tube, which is used to regulate the amplitude of the scanning voltage applied to the photocathode. 8. Arrangement according to one of claims 4, 6 or 7, characterized in that the control voltage by rectifying the alternating voltage obtained at the output of the image storage tube is obtained, the base point of the rectification by one of the image signals controlled clamping circuit (26) consisting of a pair of oppositely connected diodes exists, one end of which is shared with the alternating image voltage via a capacitor (25) and the other ends of which are scanned out of phase with the gated, amplified alternating image voltage is clamped to a fixed potential. 9. Arrangement according to one of the preceding claims, characterized in that the pulses for scanning the photocathode taken from the line tilt device and the scanning voltage of a voltage divider is tapped, the lower part of which is controlled by one of the control voltage controlled triode (33) is formed. Considered publications: German Patent Specifications No. 866 802, 884 823; German interpretative document No. 1 059 027. 1 sheet of drawings 409 629/142 6.64 © Bundesdruckerei Berlin