DE1110685B - Circuit arrangement for protecting the tailpipes of a line deflection generator - Google Patents

Description

Circuit arrangement for protecting the output tube of a line deflection generator The invention relates to a circuit arrangement for protecting the output tube a television line deflection circuit, in which from a coil of the flyback transformer a voltage for the feedback grating of the end tube is taken. It lies in series with a coil of the breakdown transformer, usually the booster capacitor. This is preferably connected to a further coil of the flyback transformer.

There is a breakover voltage generator known, the deflection coil with is inductively coupled to a feedback coil. This feedback coil is over Rectifier connected to the control electrode of the breakover voltage generator tube. The purpose of this circuit arrangement is to change the amount flowing through the deflection coil To decelerate the sawtooth current in one sense and to accelerate it in the other sense: In this case, particularly large ones are placed on the control electrode of the breakover voltage generator tube negative voltage peaks generated. The invention takes a different approach and aims to prevent such large voltage peaks.

There is also known an oscillator circuit arrangement in which the control grid of a triode with one end of a coil and the cathode of this Triode conductively connected to the other end of this coil via a vacuum diode is. This vacuum diode limits particularly large currents in the grid circuit the purpose of the triode is to avoid interference. From this known oscillator circuit arrangement however, it is not clear in what way the generation of undesirably high voltages, which can also cause interference, is prevented. This known oscillator circuit further differs from the subject matter of the invention in that that the subject matter of the invention turned to a television line deflection circuit is, which are pulse-like processes in the frequency range from 0 to at least 5 MHz, whereas in the known oscillator circuit arrangement mainly Sinusoidal oscillations and significantly lower frequencies are possible.

It is also a self-oscillating flywheel generator with a Screen grid tube known as the end tube, in which the anode circle with the screen grid circle is coupled via a coil and the fed back voltage is fed to the screen grid will. The amplitude of this feedback voltage gives the degree of feedback and determines a certain percentage of the natural frequency through its positive component the power amplifier. The main advantage of this arrangement is that when it fails Anode current automatically eliminates the screen grid voltage of the output tube and this therefore is not damaged by overload. A sufficiently large feedback To obtain, the positive portion of the feedback voltage must be correspondingly large be, reducing the amplitude of the negative occurring during the flyback time Part of the feedback voltage is about 1.8 kV. The generation like that high negative voltages has the disadvantage that the end tube is endangered and actually leads in many cases with the inevitable manufacturing variations to the destruction of the end tube. The aim of the invention is to provide a circuit arrangement in which the operational reliability of this known circuit arrangement is increased.

In a circuit arrangement for protecting the output tube of a television line deflection circuit, a voltage for the feedback grating from a coil of the flyback transformer the end tube is removed, is according to the invention in the line between said Coil and the feedback grating of the end tube a directional conductor switched on, the is permeable for the positive portion of the feedback voltage, while for the negative portion of this voltage is the self-capacitance of the directional conductor and the Loss capacitance of the line and the feedback grid a capacitive voltage divider form.

The protective circuit according to the invention has the advantage that it flashes over in the end tube with Security to be avoided. The positive part of the fed back voltage regardless of its negative part can be determined such that the desired amount of the natural frequency of the line deflection circuit is achieved. The circuit arrangement according to the invention for protecting the output tube a television deflection circuit is of particular importance because of the relatively long forwards and short returns large voltage peaks occur pose a significant risk to the end tube.

In order not to fall below the reverse voltage of the diode, it is advisable to to connect a capacitor in parallel to the rectifier. In the following the Invention and an embodiment of the same with reference to FIGS. 1 and 2 described in more detail. It shows Fig. 1 an embodiment of a horizontal tilt generator for television sets, FIG. 2 shows a representation of the voltage curve which is generated by a coil of the flyback transformer is fed to the screen grid of the end tube.

1 and 2. The circuit arrangement according to FIG. 1 shows a relaxation generator, consisting (among other things) of the coupling capacitor 1, the output tube 2 (of the PL 81 type), the booster diode 3 (of the PY 83 type), the tilting transformer 4, the Deflection coil 5 and the booster capacitor 6. The breakdown transformer 4 carries a winding 7 and the high voltage pulses occurring therein during the flyback time are rectified in the diodes 8 and 9 in a known manner. The high DC voltage thus obtained is fed to the cathode ray tube (not shown) via terminal 11.

The feedback winding 12 of the breakdown transformer 4 provides one Pulse voltage 13 (Fig. 2), the solid line referring to a voltage curve in known arrangements and the dashed line on a voltage curve relates to the invention. For the negative pulse peaks 14 this voltage is the high blocking resistance of the Seien rectifier 15 in the screen grid line 16. The negative pulse peak 14 is thus due to the arrangement according to the invention reduced, and their amplitude is determined by the capacitance of the capacitors 17 and 18 determined. However, the positive curve of the pulse voltage 13 is not in this case changed. Between the two poles of the directional conductor 15 is a capacitance that from the self-capacitance of the guide 15 and the adjustment capacitance 17, by means of which determines the amplitude of the negative pulse peak 14 is composed. Of the positive portion of the pulse voltage 13 is above the low internal resistance of the Rectifier 15 directly on the screen grid of the output tube 2. With this switching arrangement can without increasing the return time and without reducing the return pulses generated high voltage with certainty the demanded by the tube manufacturers Data adhered to and rollover avoided.

The capacitance of the capacitor 18 consists on the one hand (in each case) from the switching capacitance of lines 1-6 and the screen grid capacitance of the end tube 2, on the other hand from the capacitance of an additional capacitor that may be provided.

Claims (3)

PATENT CLAIMS: 1. Circuit arrangement to protect the end tube of a Television line deflection circuit, in which from a coil of the flyback transformer a voltage for the feedback grating of the end tube is removed thereby characterized in that in the line (16) between said coil (12) and the Feedback grating of the end tube (2) a directional conductor (15) is switched on, the is permeable for the positive portion of the feedback voltage, while for the negative portion of this voltage is the self-capacitance of the directional conductor (15) and the loss capacitance (18) of the line (16) and the feedback grid have a capacitive one Form voltage divider. 2. Circuit according to claim 1, characterized in that a capacitor (17) is provided which is parallel to the directional conductor (15). 3. A circuit according to claim 1, characterized in that the feedback grating the tube (2) is grounded via a capacitor (18). Considered publications: German Patent No. 535 836; Swiss patent specification No. 259 972.