DE1562044A1 - Protection circuit for television receiver - Google Patents

Description

Protection circuit for television receivers The invention relates to a protection circuit for television receivers a deflection generator and a high-voltage generator, which is a control having circuit to stabilize the output voltage. For televisions with high power requirements in the high-voltage section,, It has been found convenient to deflect and generate high voltage to separate and to provide two output stages, with the control of the High-voltage output stage from the deflection transformer takes place. There are in both power amplifiers Built-in control circuits, the image width and high voltage as constant as possible keep. For image width stabilization against supply voltage fluctuations Passive switching elements, whose failure frequency is very low, are sufficient. The control circuit for keeping the high voltage constant, however, requires active ones Elements to achieve the required control steepness. These active elements, Mainly tubes, can fail as a result of defects and cause the high voltage to run up. This can lead to the destruction of the rectifier and picture tube and should be avoided in any case.

Since both output stages are preferably designed as booster circuits, four expensive tubes can be overloaded if the line oscillator fails, and if the line oscillator fails for a longer period of time Operation in this condition, will be destroyed. It is therefore recommended also against to provide a protective measure for this disruption.

A circuit proposal for protection against startup is known the high voltage. This provides a second control loop made up of passive switching elements and if a control tube fails, the high-voltage control is within certain limits takes over. _ -A disadvantage of this protection circuit is that the failure of the first Control loop may not be noticed, so that the device with the second, now, however, the unprotected control loop continues to operate. This also falls Circle off, as described above, expensive tubes of the device will be destroyed.

According to the invention, this disadvantage is avoided in that a switching device, in particular a relay, is provided in the supply circuit of the high-voltage generator and / or Abienkgenerator, which is controlled by a voltage or voltages which are derived from the output voltage of the high-voltage generator and / or the deflection generator depend, said switching device interrupting the power supply of this generator or these generators if the high-voltage generator and / or the deflection generator due to failure of the control the voltage supplied to the switching device or that of this device supplied voltages exceeds or exceed a specified value. Further features of the invention result from, t aua , nzehfalgaden . - Reeahreibung- a "AusMhru diWm iepie@ea.tunt" e r-Be; ugaahme euf the ZeiP, NFFL. Fig. 1 shows a block diagram of the deflection stage and the high voltage generation of a color television receiver. FIG. 2 illustrates a detail of the drawing shown in FIG. 1.

In FIG. 1, 1 denotes the line oscillator which controls the output stage of the Ablerikgenerator 2. In the output circuit of the deflection generator, the deflection transformer 3 is arranged, by which the high-voltage generator 4 is controlled, which supplies the picture tube with voltage via a high-voltage transformer 5 and a pond rectifier, not shown. With a protection circuit is designated. The cathode voltage of the deflection generator is fed to this via a line 7, while the booster voltage of the high-voltage generator is fed in via a line 8. The protective circuit 6 is arranged in the feed circuit of the deflection generator and the high-voltage generator. The supply voltage is fed to the protective circuit 6 via a line 9. The deflection generator or the high-voltage generator is supplied with voltage via lines 10 and 11. The protective circuit 6 is shown in detail in FIG. 2, the reference symbols of the supply and discharge lines corresponding to the symbols used in FIG. 1. The booster voltage fed in via line 8 is fed to a voltage divider which contains resistors 12, 13 and a diode 14. A partial voltage derived from the voltage divider 12 to 14 is fed to the input circuit of a transistor 15, in whose output circuit the control winding 16 of a relay 17 is arranged. This relay contains a self-holding contact 18 which is connected to the base of the transistor 15 via a resistor 19. A normally open contact 20 is provided in the supply circuit of the sweep generator 2 and interrupts upon energization of the relay 17, the connection between the lines 9 and 10. By means of a second make contact 21, the power supply is infiuenced to the high voltage generator -4 in an analogous manner. The base of the transistor 15 is supplied with the cathode voltage of the end tube 23 of the deflection generator via a resistor 22.

The function of the device described above is as follows: . If the high-voltage regulation fails, the booster voltage rises, which approximates each other changes proportionally to the high voltage, and .switches via the transistor amplifier 15 the relay 17 on. This holds over the self-holding contact 18 and switches the operating voltage of the high-voltage output stage and the deflection stage. For steepening During the shutdown process, the diode 14 is switched on in the voltage divider 12, 13. This diode works in the reverse direction, however, due to the high voltage applied the operating point is no longer in the range of the extremely low reverse current, but lies in the breakthrough area. The current increase takes place in this characteristic area with extraordinary steepness. Through the series connection with the resistor 12 the diode acts as a voltage stabilizer and has a voltage drop of approx. 700 volts.

At the base of the switching transistor is also via line 7 a voltage fed in at the cathode resistor of the end tube of the deflection generator falls off. If the control of the horizontal deflection control is missing, the cathode current increases and also switches on the relay 17, so that the voltage supply to the deflection generator.und is interrupted to the high voltage level.

With this simple circuit, a good protection of the power tubes can be achieved in the event of failure of the cell oscillator and the high-voltage control. As part of The invention, the relay 17 shown in Fig. 2 can also be carried out by an electronic Switching device to be replaced. .

Claims (4)

Claims 1. Protection circuit for television receivers with a Deflection generator and a high voltage generator, which is a control circuit for stabilization the output voltage, characterized in that a switching device, in particular a relay in the supply circuit of the high-voltage and / or deflection generator is provided, which is controlled by a v voltage or voltages, which from the output voltage of the high voltage generator and / or the deflection generator depend, said switching device providing power to this generator or these generators interrupts if due to failure of the control of the high-voltage generator and / or the deflection generator 'the voltage supplied to the switching device or the voltages supplied to this device exceed a predetermined value or beaver climbing. 2. Protection circuit according to claim 1, "characterized in that that the switching device, in particular the relay, has a self-holding circuit. 3. Protection circuit according to claim l or 2, characterized in that at least one of the control voltages is derived from a voltage divider which is at least has a voltage-dependent resistor, in particular a diode. 4. Protection circuit according to one of the claims 1 to 3, characterized in that the control voltage controls an amplifier, in particular a TranFjßstoiNerstärker, in whose output circuit eia el.is arranged ict.