DE738937C - Circuit arrangement for externally controlled saw tooth generators in which there is a voltage feedback - Google Patents

Description

Circuit arrangement for externally controlled sawtooth generators in which a voltage feedback exists It is already known to generate a sawtooth-shaped Current curve as used to feed the deflection coils of cathode ray tubes, e.g. B. for television purposes, is required in the grid circle of your controlled tube to provide a parallel resonance circuit, to whose capacitor a resistor in Series is connected in parallel with a DC voltage source and in its self-induction branch a rectifier is in series with the coil. Come with this circuit arrangement with the participation of a feedback between the anode circuit and the controlled one Tube and the coil of the parallel resonance kxeises quarter oscillations, the the return of the sawtooth curve, d. H. their fast running flank, represent, and the capacitor in the parallel resonance circuit is charged in one direction through the resistance and in the other direction through the quarter oscillation mentioned.

Before going into the invention, what a stabilization of externally controlled sawtooth generators that work according to this principle, for Subject is the arrangement and mode of operation with reference to Fig. I of the drawing the known circuit explained again.

In Fig-. i the parallel resonance circuit in the grid circuit of the controlled tube io consists of the capacitor ii and the choke coil 12. In parallel with the capacitor ii there is a DC voltage source 13 in series with a resistor i ¢, while a rectifier 1 5 is in series with the coil ia in the coil branch. The coil ia is inductively coupled to a coil 16 in the anode branch of the tube io; the anode voltage source is denoted by 1 7 -. To explain the mode of operation of the arrangement shown in Fig. I, it may first be assumed that there is a charge on capacitor ii, as indicated by the plus and minus signs entered. Under these conditions, no anode current may yet flow in tube io, but the control grid may be at a potential which is below the value that belongs to the lower bend of the anode current grid voltage characteristic. Under these conditions, in addition to the anode current branch, the branch of the resonance circuit which contains the coil 12 and the rectifier 15 is also de-energized. From the voltage source 13, the capacitor ii is now charged via the resistor 14, the voltage on the capacitor running according to an exponential function and initially tending towards the fiondensator voltage zero Control grid of the tube io has come to such a potential that current flows in the anode circuit of this tube. A constant voltage is then only formed on the coil 12, which voltage has the sign indicated by the plus and minus signs entered. If now, before the control grid of the tube io comes to cathode potential, the differential quotient of the current rise in the anode circuit reverses its sign, which can be achieved, for example, by supplying a pulse acting in the sense of a current reduction to a further control grid of the tube io, then reverses the sign of the voltage on the coil 12 changes. If the reverse voltage on the coil is greater than the voltage of the polarity shown on the capacitor ii, the rectifier 15 becomes permeable. The entire magnetic energy of the coil 16 is now discharged via the rectifier 15; the capacitor ii is again strongly charged in the sense of the registered plus and minus signs. Because of the one-sided conductivity of the rectifier 15, this charging process is interrupted after a quarter oscillation, ie as soon as the current passes through zero, since the reverse current required for the next quarter oscillation cannot flow through the rectifier. Now the process is repeated in the manner described. An approximately sawtooth-shaped voltage curve thus arises at the capacitor ii, which is composed of an exponentially or rectilinear long flank and a short flank that runs after a quarter oscillation. The mode of operation of this arrangement does not change significantly if the capacitor voltage is allowed to rise to the value zero and to values which have the opposite sign, as indicated in Fig. T. This is because as long as the anode current of the tube io is still increasing at all, there is always a voltage at the coil 12 in the sense of the plus and minus signs entered. This is constant. as long as there is a constant steepness of the current rise in the anode branch. Since the capacitor voltage continues to rise, the voltage at the coil 12 must be overcome once even without a pulse reducing the anode current, so that the rectifier 15 becomes permeable. The above-described process of recharging the capacitor to a voltage of the polarity as indicated in Fig given is. The character of the voltage curve at capacitor ii is again the same as mentioned above. If one now selects such a voltage on the capacitor i at which a finite anode current already flows, a sawtooth curve is obtained in the anode current and the coil 16 can be designed directly as a deflection coil for a cathode ray tube.

The invention relates to that in such sawtooth generators in itself possible generation of saw teeth of changing amplitude with external control to prevent. As will soon be explained, under the influence of synchronizing pulses arriving at the capacitor i i at a constant frequency Voltage curve U, according to Fig. 2, can be generated. To understand this phenomenon one must realize that the charge which the capacitor i i in a Quarter cutting process is given by the magnetic energy of the coil 16 is. So if at time 11 the lower assignment of the capacitor i i corresponds to that shown in Fig. 2 has potential denoted tal, this corresponds to a certain anode current the tube io and thus a certain magnetic energy of the coil 16. May this if a sync pulse arrives at time t1, to a voltage n., on the capacitor i i lead. Within the constant period of time up to time l; in which a new sync pulse arrives, let the capacitor voltage now on the value have hiked at speed. A higher anode current corresponds to this value tt- as the value ui, and as a result the anode voltage now jumps to a lower one Value ra, 1 as the value u2, since the change in charge on the capacitor because of the now larger magnetic energy of the coil 16 must also be larger. Within the constant Time span up to time t5, in which a new synchronization pulse arrives, a new voltage change is now taking place at the capacitor, which, however, because the charging current, which flows through the resistor 1 ¢, is to be regarded as constant cannot end again in the voltage value u3. So it must. also the voltage burst, which is executed at time t, 5 may be smaller than that at time t3.

Building on the knowledge of these connections, according to the Invention proposed, the series connection'eines parallel to the capacitor of the resonant circuit Rectifier 18 with reverse forward direction as the grid cathode path and a constant voltage i 9 which is negative for the grid, as shown in FIG Fig. 3 is shown. The preload can also be carried out in a manner known per se of a Rj, element of a suitably large time constant can be formed. With this circuit arrangement the capacitor voltage can only be reduced to the same value, namely approximately up to that of the DC voltage source 19, in which then the rectifier 18 becomes current-permeable and thus no further voltage change in the capacitor i i can take place more, so that the generation of Saw teeth of unequal amplitude is avoided.

It should also be expressly pointed out that the invention does not is limited to arranging: genes in which the voltage feedback through .ein Transformer is accomplished, but that. any feedback arrangement, whatever supplies a voltage of suitable phase position, can be used, for example an inverted tube or organ of negative slope.

Claims (2)

PATENT CLAIMS: i. Circuit arrangement for externally controlled sawtooth generators, where there is a voltage feedback between the output circuit of a grid-controlled Electron tube and a parallel resonance circuit lying in its lattice circle, in the self-induction circuit of which there is a rectifier, characterized in that that the series connection of a rectifier parallel to the capacitance of the oscillating circuit with the opposite direction to that of the grid cathode path and a constant, negative voltage for the grid. 2. Circuit arrangement according to claim i, characterized in that the parallel connection is used as the source of constant voltage a capacitance and a resistance with a large time constant is used.