DE1002483B - Saw tooth power generator - Google Patents

Description

The invention relates to circuit arrangements for generating sawtooth currents, such as those for example in television, used to deflect the electron beam of a cathode ray tube will.

In known sawtooth current generators, a driver tube is used to generate a rising current in an inductance which forms the long flank of a sawtooth oscillation. At the end of each long flank, this driver tube is blocked, whereby the inductance with the connected capacitances executes a free half-oscillation, which forms the short flank of the sawtooth oscillation. This half-oscillation is generally terminated by a damper tube, the cathode of which is connected, for example, to a tap of the inductance mentioned or to the primary side of a transformer which feeds the inductance. During the short edge, voltage peaks of a few kilovolts are generated in the circuit, which require a corresponding ¹ insulation of the damper tube in order not to damage it. The invention avoids these difficulties.

The invention accordingly relates to a sawtooth current generator, in particular for generation the deflection currents for the magnetic deflection of the electron beam of a cathode ray tube, with an inductance to which a voltage is applied via an electronic to generate the long sawtooth flank Switch is placed, which is blocked to generate the short sawtooth edge, so that the inductance performs a free half-cycle with the connected capacitors, and consists in that the electronic switch has a secondary electron discharge path between two electrodes, of which at least one anode emitting secondary electrons is in a cathode and control grid containing tube forms, on whose control grid for blocking the electronic Switch negative pulses are fed.

Such tubes with a secondary electron discharge path between two electrodes are indeed already known in the case of relaxation oscillation generators, but the use of such has been known Tube as a switch tube in the above-described sawtooth current generator circuit is particular Advantages, as will be explained in more detail below.

The electron tube serving as an electronic switch preferably contains two for the primary electron circuit secondary emissive anodes connected in parallel.

Although voltage fluctuations of a few kilovolts occur at one of the anodes mentioned these voltage fluctuations do not occur between the sawtooth current generator

Applicant:

Electric & Musical Industries Limited, Hayes, Middlesex (Great Britain)

Representative: Dr.-Ing. B. Johannesson, patent attorney, Hanover, Göttinger Chaussee 76

Claimed priority: Great Britain November 19, 1954 and November 4, 1955

Eric Lawrence Casling White, Iver, Buckinghamshire

(Great Britain), has been named as the inventor

Cathode and the adjacent heater ¹ , as is the case with the usual damper tubes, so that a corresponding high-voltage-safe insulation is not required when using such electronic switches.

Such an electronic switch can, for. B. consist of a single electron tube in which two secondary emissive anodes, both connected in parallel for the primary electron circuit are arranged in the tube in such a way that, depending on their instantaneous voltage, the anode as The collecting electrode is used for the secondary electrons coming from the other anode, or vice versa. In this case, in the direction of the primary electron flow, in front of each secondary emissive anode Collecting grid for the secondary electrons can be arranged, each with the other secondary emissive Anode is connected. The electronic switch can, however, also consist of two similar Tubes of the usual design are built, each with a cathode, a control grid, a secondary electron collection grid and having a secondary emissive tube and so interconnected are that the cathodes and the control grid are connected to each other and that the collecting grid and the anodes ■ are cross-connected to one another.

For a more detailed explanation, the invention will be described below with reference to the drawing.

Fig. 1 shows a sawtooth generator with a tube 1, which has a heated cathode 2, a control electrode 3, a screen grid 4, and a pair of secondary emission electrodes, 5 and 6. the

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Secondary electron-emitting surfaces of the electrodes 5 and 6 are arranged opposite one another in such a way that they lie in the path of the electron flow which is emitted from the cathode 2. The secondary emission electrode 5 is connected to a positive voltage source of low resistance via the primary winding 7 of a transformer, to whose secondary winding 8 deflection coils 9 are connected. The secondary emission ^electrode 16 is connected to a positive voltage source of low internal resistance, the voltage of which is lower than the voltage of the first-mentioned voltage source. The control grid 3 of the tube 1 is supplied with pulses 10 which block the tube 1 periodically. When the tube 1 is open, get. Primary electrons from cathode 2 to one or both. Secondary emission electrodes 5 or 6. The secondary electrons, which occur at the two electrodes 5 or 6, are picked up by the other electrode, depending on the relative voltages at these electrodes.

To explain the mode of operation of the circuit according to FIG. 1, it should be assumed here that the voltage at electrode 6 is approximately 100 volts below the voltage at electrode 5. In the tube 1 therefore flows when it is open. Electron beam from cathode 2 to electrodes 5, 5 and 6 so that secondary electrons flow from electrode 6 to electrode 5. A current thus flows through the inductance 7, as a result of which part of the long sawtooth flank is generated, the voltage at the electrode 5 rising with the increasing current. To terminate the long sawtooth flank, Rö'bre 1 is blocked by the applied pulses 10, whereupon the oscillation circuit formed from inductance 7 and the connected stray capacitances performs a half oscillation. Shortly before the end of this half-oscillation, the tube 1 is opened again, so that at this point of the half-oscillation the voltage on the electrode 5 is lower than on the electrode 6, so that an electron current now flows from the electrode 5 to the electrode 6 and thus the , initial part of the long. Sawtooth flank generated by a current flowing through inductance 7 in the negative direction. In the process, the potential of the electrode 5 rises again. Once the tension is on. of the electrode 5 is again larger than that of the electrode 6, the direction of the current in the inductance 7 is reversed, whereby the following part of the long sawtooth flank is generated. It is ersichtliah that the tube 1 with its two secondary electron emission electrodes, 5 and 6 forms a switch that conducts in both directions, wherein the A _r or off position by the Primärelektroncn of. the cathode 2 is controlled.

The circuit according to FIG. 1 can then also be sawtooth-shaped Generate currents when the electrode 6 is not a secondary electron emission electrode. Of the The advantage of avoiding high voltage fluctuations between the cathode 2 of the tube and another electrode occurs automatically.

To avoid a separate voltage source for the electrode 6, as in FIG shown, a circuit can be used in which the primary winding of the transformer in, two equal Parts is divided and the ends of which are connected to the electrodes 5 and 6, respectively. If now the Tube 1 is conductive, the two electrodes have. 5 and 6 a voltage which is a fraction of the Voltage of the voltage source, for example half, is relative to an appropriate voltage To have the cathode of the tube 1, so that a suitable secondary emission factor is achieved.

In each of the aforementioned circuits, the primary electron beam is in the tube 1 for a period of time interrupted, which corresponds approximately to the half oscillation during the short sawtooth flank, and then restored to the original electricity value. The tube 1 is arranged, for example, that the opening and blocking times are generated automatically such as this, for example, by feedback of part of the output voltage of the transformer on the control electrode 3 can be done.

In order to keep the resistance of the switch sufficiently small, the tube can be constructed as shown in FIG. There each electrode 5 and 6 is connected to grid ahn borrowed parts 5 ^a and 6 " , the grid 5" is arranged in front of the electrode 6 and the grid 6 ^{a in} front of the electrode 5, making them an anode for collecting the secondary electrons of the respective Electrodes 5 and 6 are used. The secondary electrons pass from the grid 5 ″ to the electrode 5 and from the grid 6 ^a to the electrode 6.

If desired, two common types of secondary emission tubes 11 and 12 can also be used Place of the tube 1 in Figs. 1, 2 and 3 are used, in which the anodes and the secondary electron emission electrodes of the respective tubes are cross-connected, as shown in FIG.

Claims (6)

PATENT CLAIMS: 1. Sawtooth current generator, especially for generating the deflection currents for the magnetic Deflection of the electron beam of a cathode ray tube, with an inductance to which to generate a voltage is applied to the long sawtooth edge via an electronic switch, which is blocked for generating the short sawtooth edge, so that the inductance with the connected Capacities performs a free half-wave, characterized in that the electronic switch in a manner known per se, a secondary electron discharge path between Contains two electrodes, at least one of which emits secondary electrons Forms anode in a tube containing the cathode and control grid, at the control grid negative pulses are supplied to block the electronic switch. 2. Electronic switch for a sawtooth current generator according to claim 1, characterized in that that the electron tube two connected in parallel for the primary electron circuit contains secondary emissive anodes (Fig. 1, 2, 3). 3. Electronic switch according to claim 2, characterized in that the secondary emissive Anodes are arranged in the tube that, depending on their instantaneous voltage, the an anode as a collecting electrode for the secondary electrons coming from the other anode serves, or vice versa (Fig. 1 and 2). 4. Electronic switch according to claim 2, characterized in that in the direction of the A collecting grid for the primary electron stream in front of each secondary emissive anode Secondary electrons are arranged, each is connected to the other secondary emissive anode (Fig. 3). 5. Electronic switch for sawtooth current generators according to claim 1, characterized in that that two tubes of the same type, each with a cathode, a control grid, and a secondary electron collecting grid and a secondary emissive anode so interconnected are that the cathodes and the control grid are connected to each other and that the collecting grid and the anodes are cross-connected to each other (Fig. 4). 6. Electronic switch according to one of claims 2 to 5, characterized in that the Tube (s) (each) contains a screen grid with a positive voltage. Considered publications:
British Patent No. 482,370;
“Proc. of the IRE ", August 1949, pp. 952 to 954. 1 sheet of drawings © 609 770/337 2.57