DE1230071B - Circuit for compensating the scattering effect of the deflection coils of the scanning electron beam of a receiving tube provided with an image converter part - Google Patents

Description

Circuit to compensate for the scattering effect of the deflection coils of the scanning electron beam a pickup tube provided with an image converter part The invention relates to a circuit for compensating for the scattering effect of the deflection coils of the scanning electron beam a pickup tube provided with an image converter part, e.g. B. a picture orthicon, at which tube from the photocathode on which the image is projected, electrons are emitted in the direction of a storage electrode by means of an electron beam is scanned, the image converter part surrounded by a shield compensation coils which are fed with currents whose frequencies are equal to the 'frequencies of the currents in the deflection coils are: In the case of pick-up tubes equipped with image converters there is the problem that the stray fields of the deflection coils: the scanning electron beam in the image converter part, the trajectories emitted from the photocathode onto the storage disk Electrons affect, causing a distortion of the stored electronic Image is effected.

To cancel this disturbing influence, it is already known in Image converter part to provide compensation coils through which currents flow, whose frequencies are equal to the frequencies of the currents in the deflection coils. Even however, strong distortions still occurred in the stored image.

The subject matter of the invention avoids these disadvantages. this will according to the invention achieved in that the compensation coils in series with one Correction circuit, which is formed by a quadrupole, which is an inductance and includes a resistor, preferably at least one of these elements is adjustable.

According to a particular embodiment, the inductance is by one transformers formed. It has also proven to be advantageous to use the quadrupole as Build half-link, its cross-link through the inductance and its longitudinal link is formed by the resistance. Furthermore, the quadrupole is preferably in series to the deflection coils of the scanning electron beam.

The object of the invention is illustrated with reference to the drawing Embodiments explained in more detail. It shows F i g. 1 one with an imager provided image pickup tube in section and FIG. 2 and 3 circuit diagrams of the compensation coils according to the invention.

In Fig. 1 is an image pickup tube provided with an image pickup part 1 .shown, which essentially consists of an electron gun 2, a storage disk 3, a photosensitive cathode 4 and main deflection coils 5. The spools 5 are used to move the scanning beam of the electron gun 2 over the storage disk 3 to be deleted. The image converter part 6 of the pickup tube is made up of compensation coils 8 surrounded over which z. B. a copper shield 7 is arranged. The function of the tube is as follows: That which is projected onto the photocathode 4 and is to be transmitted Image causes photoelectrons to escape along parallel paths move towards storage disk 3. Because stray fields of the main deflection coils in the image converter part take effect, the movement of photoelectrons is affected, resulting in distortion of the electronic image formed on the disk.

It has been found that the stray field of the main scanning system effective in the image converter part has a disruptive influence, in particular because of a component with the line scanning frequency. This disadvantage can be reduced by feeding the compensation coils with line-frequency sawtooth currents which are deformed according to a specific time constant. According to the invention, four-pole devices, which contain an inductance and a resistor, are used to deform the pulses. In Fig. 2 shows an exemplary embodiment of the circuit according to the invention. In series with a line frequency generator 11 operating the two main deflection coils 5. At these are adjoined by a quadrupole to having an image formed by a preferably adjustable inductor 10 and a cross member formed by a preferably adjustable resistor 9 longitudinal member. The compensation coils 8 are clamped to the outputs of the quadrupole.

The embodiment of FIG. 3 differs from this in that the shunt branch through a preferably also controllable transformer 12 is formed.

The value of the resistor 9 and that of the inductance 10 or 12 are set in such a way that good compensation for the leakage flux of the coils 5 is achieved. This compensation can increase the resolution of the image pickup tube. The ratio of the total inductance L of the circuit, which is formed by the sum of the inductances of the compensation coils 8 and the circuit element 10 or 12 , and the resistor 9 determines the time constant LIR of the compensation circuit. In order to achieve optimal results, it has been found to be expedient to give the time constant of the compensation circuit a value of approximately 10 to 15 R, s.

Claims (4)

Patent claims: 1. Circuit to compensate for the scattering effect of the deflection coils of the scanning electron beam of a pickup tube provided with an image converter part; z. B. an image orthicon, in which electrons are emitted from the photocathode onto which the image is projected in the direction of a storage electrode which is scanned by means of an electron beam, the image converter part having compensation coils which are surrounded by a shield and which are fed with currents , the frequencies of which are equal to the frequencies of the currents in the deflection coils, characterized in that the compensation coils (8) are in series with a correction circuit which is formed by a quadrupole which contains an inductance (10) and a resistor (9), wherein preferably at least one of these elements can be regulated. 2. Circuit according to claim 1, characterized characterized in that the inductance is formed by a transformer (12). 3. Circuit according to claims 1 and 2, characterized in that the quadrupole as Half member is constructed, the cross member by the inductance (10, 12) and the The longitudinal member is formed by the resistor (9). 4. Circuit according to the claims 1 to 3, characterized in that the quadrupole with the compensation coils (8) in series with the deflection coils (5) of the scanning electron beam. Into consideration Printed publications: German Auslegeschriften No. 1030 389, 1146524.