DE746970C - Circuit for the generation of saw-tooth-shaped currents for the magnetic deflection of Braun tubes - Google Patents

Description

Circuit for generating sawtooth-shaped currents for magnetic deflection in Braun tubes In the known arrangements for magnetic deflection in Braun tubes, in order to obtain the required deflection currents, an amplifier tube is connected behind the actual tilt tube, to which the deflection coil is coupled. Such a circuit is shown in Fig. Z. The arrangement generating the tilting vibrations is shown only schematically and is denoted by K, V is the amplifier tube. The anode DC voltage is fed to the amplifier tube via the choke Dr. The deflection coil A is coupled via a capacitor C so that the anode direct current does not flow through it, but only an alternating current that corresponds to the breakover voltages triggered by the tilting device. An auxiliary device is then usually also provided in order to conduct an additional direct current via the deflection coil, so that inaccuracies in the beam rest position of the Braun tube can be compensated for. There is a potentiometer R for this purpose, through which a direct current in any direction, the strength of which can be adjusted with the potentiometer tap, is sent from the voltage source B via the choke L via the deflection coil. Shifts in the center of the image can be compensated for.

The described known arrangement has the disadvantage that at slow Tilting vibrations; as is the case with television for the frame rate (25 per Sec.) Come into question, the choke Dr and the capacitor C can be made very large must, provided that an undistorted transmission of the generated by the tilt generator 11 Requires impulses. But this requirement must always be met, otherwise the line spacing in the center of the image field and at the edge are different.

Attempts have also been made to create a choke and a capacitor in omission to let the deflection coils come directly into the anode DC circuit be switched on. If the image to be transmitted is small compared to the screen size, so the image shift caused by the anode direct current has nothing to do with it. However, the situation is different if the image size and screen size are approximate are the same. The image shift caused by the anode current can be avoided here Part of the picture- suppress completely. It is to remedy these disadvantages already known that one with an arrangement that the deflection coils in the anode circuit provides, a compensation of the anode direct current field makes that a Auxiliary coil is attached, which is fed by a special power source.

The invention avoids using this additional auxiliary coil a push-pull tube arrangement for amplifying the deflection currents by the deflection coils arranged on the poles of the magnet system are divided and in each anode circuit parts of the various deflection coils are such that the fields caused by the anode direct current compensate each other and add the fields caused by the alternating current.

The idea of the invention is explained in more detail with reference to Figure 2, for example in the following: R1 means one tube of the push-pull amplifier, R2 the other. The voltage of a relaxation generator which controls the tube R1, which of course can also be externally controlled, is transmitted via any desired coupling, e.g. B. supplied via a capacitor. The parts of the deflection coils are denoted by a1 and a2 and b1 and b2, respectively. The coil parts a "and b1 are in the anode circuit of the tube R1, the coil parts a2 and b2 in the anode circuit of the tube R. The deflection coil A ', which consists of a1 and a2, is on one pole of the deflection system, the sink B ', which consists of b1 and b2, on the other pole. The coils A' and B ' are preferably divided into halves. Despite extensive symmetry of the coil parts, however, the effect of the anode direct current can usually not be completely canceled out That the image center point is shifted due to asymmetries of the tubes R1 and R2 and structural asymmetries of the coils. In addition, due to structural inaccuracies of the Braun tube or due to external fields, e.g. earth field, a shift of the beam rest position from the screen center can occur, which is compensated In order to carry out the shifts required for this, the grid prestress of the push-pull tubes is adjusted according to a further embodiment of the invention, for example by that a potentiometer P is switched into the cathode line of the push-pull tubes (_ @ bb. a) that by moving the tap lying on earth, the grid prestressing of both tubes is changed in opposite directions and the working points are thereby shifted. As a result, the anode direct current of the tubes R1 and R2 changes in the opposite direction and thus the residual field caused by this changes. It is therefore up to you to compensate the existing uncertainties in an extremely simple way by adjusting the potentiometer P.

Claims (3)

PATENT CLAIMS: i. Circuit for generating sawtooth-shaped currents for the magnetic deflection of Braun tubes using a push-pull tube arrangement for the amplification of the. Deflection currents, characterized in that the deflection coils arranged on the poles of the magnet system are divided and parts of the various deflection coils are located in each anode circuit in such a way that the fields produced by the anode direct current compensate each other and the fields produced by the alternating current add up. 2nd circuit after Claim i, characterized in that the grid biases of the push-pull tubes are changeable. 3. A circuit according to claim 2, characterized in that the grid biases of the push-pull tubes are both shifted simultaneously in opposite directions. d .. Circuit according to claim 3, characterized in that for the simultaneous, opposite shifting of the grid biases of the push-pull tubes, the cathodes of the push-pull tubes are connected by a voltage divider whose tap is connected to earth. In order to delimit the subject matter of the invention from the prior art, the following publications were considered in the grant procedure: German Patent Specifications No. 315 499, 448 135; British Patent Nos. 418,940, 495,757; French Patent # 667 033 79i 2 1 9 79 4 O85. U.S. Patent Nos. I 784 486, 1809 879, 1 98 1 322, 2 007 38O; »Television« 1930, p.202.