DE745136C - Circuit with a cathode ray tube with intensity control electrode - Google Patents

Description

Circuitry with a cathode ray tube with an intensity control electrode The invention relates to a circuit with a cathode ray tube Control electrode, which is supplied with an alternating voltage, as it is, for. B. in television ' receivers and used in measuring equipment. The characteristic of such cathode ray tubes, which is the relationship between the beam current, hereinafter referred to as the anode current and the voltage referred to below as control saving. the control electrode indicates generally has a non-linear course, and furthermore is The steepness of the characteristic curve is generally low. As a result of this low steepness it is not possible by means of a negative feedback, as is the case with amplifier technology is known to linearize the course of the characteristic, because to achieve a Adequate negative feedback already requires a small steepness to insert a very large impedance in the cathode lead of the cathode ray tube. The self-capacity In this case, this impedance is particularly important at high frequencies of the control voltage a predominant role, which means that there is practically no feedback for these frequencies is obtained.

According to the invention, this difficulty is overcome in that the control voltage is simultaneously fed to the input circuit of a discharge tube becomes, at which the steepness of the grid voltage-anode current characteristic is greater than that of the cathode ray tube and that of the anode circuit of the discharge tube a voltage is taken which is in antiphase with the control voltage of the control electrode is supplied to the cathode ray tube.

A discharge tube is expediently chosen: its control grid voltage-anode current -Characteristic has a similar course as the control voltage-anode current characteristic of the Cathode ray tube.

An exemplary embodiment of the invention is shown in the drawing.

The figure shows a cathode ray tube i with a cathode 2, a control electrode 3, a first anode d. and one z. B. with fluorescent Fabric-coated anode 5. With the control electrode 3, the control grid 6 is one Discharge tube 7 connected, the cathode 8 of which is connected to the cathode: 2 of the cathode ray tube connected is. The required anode voltages for tubes i and 7 will be supplied by a voltage source g.

The common cathode lead of the two tubes i and 7 contains a resistance io. Between the control electrode 3 and the cathode 2 and S remote end of the resistor io becomes the control voltage E of the cathode ray tube created.

To improve the characteristics of the cathode ray tube i it is necessary that a sufficiently high voltage appears at the resistor io, . Which is fed to the control electrode 3 in antiphase with the control voltage E. This voltage across the resistor io is mainly derived from the anode current of the tube ; brought about whose steepness is greater than the steepness of the cathode ray tube. The resistance io can therefore be considerably smaller than v ° across the tube 7 would exist. The self-capacitance of the resistor io is now also at high frequencies the control voltage v negligible, so that there is a frequency-independent negative feedback results. If it is desired that the negative feedback in a certain way of depending on the frequency i-st, the resistance io can be selected appropriately Impedance to be replaced.

It can also be seen that in the connecting lines i i and i-2 between the control electrode 3 and the control grid 6 or the cathodes 2 and 8 suitably selected quadrupole can be switched on, the z. B. again a freduence-dependent Negative coupling.

In the exemplary embodiment described, a so-called negative current feedback is used applied by means of a resistor in the common cathode lead. It is but it can be seen that the same result was obtained with a so-called negative voltage feedback can be obtained in which the anode circuit of the discharge tube 7 has an impedance and the voltage occurring across part of this impedance in antiphase with the control voltage of the control electrode 3 is supplied to the cathode ray tube.

The figure also shows a cathode ray tube without deflection systems indicated; however, it should be understood that any system can be used.

Claims (3)

PATENT APPLICATION: CHE: i. Circuit with a cathode ray tube with intensity control electrode, to which the control voltage is supplied, characterized in that the control voltage is simultaneously fed to the input circuit of a discharge tube in which the The steepness of the grid voltage-anode current characteristic is greater than the steepness the control voltage anode current characteristic of the cathode ray tube, and at from which a voltage is taken from the anode circuit of the discharge tube, which is in opposite phase finite the control voltage of the control electrode of the cathode ray tube is supplied. 2. Circuit according to claim i, characterized in that the control electrode and the cathode is connected to the control grid or the cathode of the discharge tube are and that a counter-hopping impedance in the common cathode line of the mentioned tubes is attached. 3. Circuit according to claim i or 2, characterized in that that the characteristic curve of the discharge tube has a similar course as the characteristic curve the cathode ray tube has.