DE1030925B - Arrangement for light control of electron beam oscilloscopes for one-time time deflection - Google Patents

Description

Arrangement for brightness control of electron beam oscilloscopes for single time deflection For electron beam oscillographs for single time deflection is the electron beam of the picture tube in general before the arrival of the one to be examined Measuring process deflected in advance on one side of the screen. To prevent damage to the Luminous substance and, in the case of photographic recordings, a pre-exposure of the film material To prevent this, the electron beam is darkened in the rest position.

When the measuring process arrives, the Elelitroiienstjet becomes automatic brightly controlled and once over the screen of the picture tube by means of a time circle diverted. The electron beam returns to the starting position darkened again.

15 are already arrangements for light control of full electron beam oscilloscopes hekanutgewor- <who work with electron tubes. Such facilities consist, for example, of two tubes and are known as the »Kallirotron circuit« known. In order to achieve short delay times. need tubes with high anode current can be used, although it is particularly disadvantageous to <lail in the idle state of the Establish one of the Röhrell is always live. It's an arrangement too for brightness control of electron beam oscilloscopes using gas discharge tubes became known, which requires a considerable amount of effort. By the length of the light control pulse to change, must in the anode circuit of a gas discharge tube via a multiple switch several switching circuits consisting of inductance, capacitor and resistor are switched over will.

The invention is intended to avoid the disadvantages mentioned. The invention relates to an arrangement for the brightness control of electron beam oscilloscopes for one-time distraction, in which by a control pulse via a gas discharge tube circuit the whitening voltage for the Wehnelt cylinder is obtained. According to the invention is the control voltage for the Wehnelt cylinder of the cathode ray tube, the diagonal wiring a bridge circuit in the two arranged between the supply voltage points Bridge branches apart from the bridge resistors1, two gas discharge tubes are arranged are, wherein a discharge tube is triggered by an input pulse so that the diagonal stress becomes zero. while by means of the other discharge tube one from the time deflection unal) hällgige changeable time duration of the light control and the return of the arrangement to the starting position is effected. Advantageous one branch of the bridge consists of a series connection of a discharge tube with a bridge arm resistor and the adjacent bridge arm from a parallel connection a discharge tube with a split bridge arm resistor, the grid this tube has a variable resistor at the connection point of the split Resistance lies. Corresponding to a further training of the subject of the registration a controllable RC element is arranged in the grid circle of the last-mentioned discharge tube. To reset the arrangement, a relay is arranged in the anode circuit of this tube.

On the basis of the schematic drawing, an example should be given the invention will be explained in more detail.

One of the bridge branches is connected to a supply voltage source 10 1, 1 ', 2 and 2' existing bridge circuit created. The bridge branches 1 'and 2' consist of ohmic resistances whose connection point to the cathode K of the cathode ray tube is led. The bridge branches 1 and 2 consist of the ohmic resistors 3 and 4/5 and the associated gas discharge tubes 6 and 7. The prevention point of the Resistors 3/4 leads to the Wehnelt cylinder W of the electron beam tube. The resistances 3 and 4/5 have approximately the same values.

As long as there is no pulse at terminals 11/12, the tubes are 6 and 7 blocked. As a result, the point W has such a point compared to the point K negative voltage that the electron beam is dark-controlled. Will the tube 6 is energized by a pulse applied to terminals 11/12, so the bridge circuit becomes brought into the balanced state, so that there is no potential difference between the points WIK there is more and thus a brightness control of the electron beam takes place. Corresponding the time constant of the variable resistance 8 and capacitor 9 this is charged to the voltage prevailing at the resistor 5 until the tube 7 ignites and thus disturbs the balance of the bridge circuit again, so that the Electron beam is obscured. The duration of the light control of the electron beam is given by the precisely controllable ignition of the two discharge tubes. Means of the relay 13 arranged in the anode circuit, the tubes 6 and 7 are opened by opening of the contact 13 'deleted, so that the arrangement is brought back to the initial state is.

By changing the resistance 8 in the grid circle of the tube 7 can the duration of the Hell control from a few microseconds to a few seconds can be regulated continuously. It is thus possible in a simple manner to use the electron beam to lock at any point on the screen, which in many cases of Advantage is.

PATENT CLAIM 1. Arrangement for brightness control of electron beam oscilloscopes for a one-time time deflection, in which by a control pulse via a tube circuit the whitening voltage for the Wehnelt cylinder is obtained, characterized in that that the control voltage for the Wehnelt cylinder is the diagonal voltage of a bridge circuit is, in the two bridge arms arranged between the supply voltage points (1, 2) apart from the bridge resistors (3 and 4/5) two discharge tubes are arranged are, the discharge tube (6) by a Input pulse is triggered, so that the diagonal voltage is zero, while by means of the discharge tube (7) one of the variable duration of the light control and the reset, which is independent of the time deflection the arrangement is effected in the starting position.

Claims (1)

2. Arrangement according to claim 1, characterized in that the bridge branch (1) from a series connection of a discharge tube (6) with a bridge arm resistor (3) and the adjacent bridge arm (2) consists of a parallel connection of a Discharge tube (7) with a bridge arm resistor (4/5), the grid of the tube (7) via a variable resistor (8) at the connection point of the resistors (4/5) lies. 3. Arrangement according to claims 1 and 2, characterized in that that a controllable RC element (8/9) is arranged in the grid circle of the discharge tube (7) is. 4. Arrangement according to claims 1 to 3, characterized. that in the anode circuit of the discharge tube (7) a reset hewirkendes relay (13) is arranged. Documents considered: German Patent No. 868 473; Book from K 1 a, "Electron Beam Oscillographs", Vol. 1 (1948), p. 132 bis 136; "AEG-Mitteilungen", 1951. Issue 5/6. Cited earlier rights: German Patent No. 922 962.