DE683751C - Method for generating deflection voltages or currents with the aid of a secondary electron amplifier - Google Patents

Description

Method of production. of deflection voltages or currents with the help of a secondary electron amplifier The invention relates to the generation symmetrical deflection voltages or currents for cathode ray tubes. Underneath will understood a deflection in which the two opposing plates or coils of a deflection system in each case by the same size in the opposite sense Amounts lead to fluctuating voltages or currents. This procedure has been special in oscillography or in the operation of television tubes turned out to be advantageous. However, it required a greater amount of switching means, especially since the second is symmetrical for the first fluctuating voltage, usually with the help of a further tube arrangement had to be generated.

According to the procedure described below, symmetrically fluctuating Deflection voltages or currents with the help of a single at the same time for amplification serving tube generated. According to the invention, a secondary electron amplifier is used for this purpose used, whose current is controlled in the rhythm of the deflection to be made and at which the boosted current from both the anode and the final trigger electrode is removed. The fact that the in the supply line to Current flowing through an electrode changes sign when the secondary emission of the electrode exceeds a certain value, namely in the present Case both in-phase and in-phase reverse current removed.

The invention also relates to the production of the same size Currents at the anode and the last trigger electrode, so that, for. B. on two equal great resistance two fluctuating in the opposite sense by equally large amounts Tensions can be removed. The one with the highest potential This is because the current flowing through the anode differs from the current of the last trigger electrode always by a certain amount, which is usually that of the penultimate trigger electrode in Direction corresponds to the last flowing electron stream. This disadvantage can by an additional electrode, preferably at anode potential, in the Redness is eliminated, which takes up part of the current, so that at the anode and a draw. Electrode currents of the same size can be drawn. Opposite to For example, in the usual arrangement, the anode may be divided at an appropriate ratio will. One (usually the smaller) part then serves as an additional electrode: The condition that both currents are of equal magnitude naturally requires certain ones to be observed Stress ratios, since the secondary emission ratio changes with the impact speed - the electrons change. In 'special cases it can be useful to use the additional electrode to be dimensioned so that the anode current is not equal to the current of the last; but is one of the trigger electrodes further forward.

The drawing shows a deflection circuit as an exemplary embodiment. The tube may have a hot cathode and through sawtooth-shaped, on a control grid lying tensions are influenced. It also contains a number of reinforcement networks 2, an anode plate 3 and an additional electrode q. Which in the present case as surrounding the anode. Ring is formed. The anode 3 and the additional electrode q. are connected to one another via a resistor g, one end of which is connected to one another Voltage source 6 is. The negative pole of this source is grounded. The last Trigger electrode 2 'is also connected to earth via a resistor 7. Are the anode current and the current of the last trigger electrode is always the same, so can the Resistors 5 and 7 are chosen to be the same size, if always oppositely directed, the same large voltage drops should occur. Of course, the circuit can also be used with different Output currents, i.e. without an additional electrode, work. Should equally large voltage drops occur like this: the resistances must then be chosen to be unequal.

If the anode is now connected to the one through a capacitor ii; the last trigger electrode via a second capacitor 12 to the other plate of the deflection system 8; g connected to a Braun tube, one obtains breakover voltages which always fluctuate by the same amount in the opposite sense. The deflection plates are connected via high resistance 14 'd they have the same R il 3 k le i zu . u 4 # eWe't in dn the plate a compensation voltage of the size of the voltage source 6 is switched.

The secondary amplifier tube can also be controlled with other voltages which can then be oscillographed with the Braun tube. With magnetic Two equally large, oppositely fluctuating currents can be deflected through the Coiling a deflection coil system to a point fixed; z. B: earth potential, conducted will. The arrangement is then symmetrical, both coils have the same capacitance against earth.

In principle, the invention can be used with any type of series multipliers carry out.

Claims (3)

PATENT CLAIMS x. Method of producing each in the opposite Meaning deflection voltages or currents fluctuating by equal amounts for cathode ray tubes, especially for oscillograph work, with the help of a secondary electron amplifier, characterized in that the current of the secondary electron amplifier is in rhythm the deflection to be made and the amplified current from both the anode and the last trigger electrode of the secondary amplifier is removed. 2. Arrangement for the procedure according to. Claim z for electrical distraction, thereby characterized in that the anode and the last trigger electrode each have a resistor are at a fixed potential and that the voltage fluctuations occurring across them are fed to the baffles of the cathode ray tube. 3. Secondary electron tube for the method according to claim i, characterized by a preferably at anode potential lying additional electrode of such dimensions, däß at the anode and the last release electrode same size, out of phase. kende currents can be taken.