DE1166819B - Arrangement to stabilize the image format against mains voltage fluctuations for television receivers - Google Patents

Description

Arrangement to stabilize the picture format against mains voltage fluctuations for television receivers The invention relates to an arrangement for stabilizing the Picture format for television receivers, in which a deflection oscillator is converted into a voltage-dependent Regulating voltage obtained and superimposed on a jet current-dependent regulating voltage and with the control voltage obtained in this way, the grid bias of line and picture deflection tubes are regulated.

It is known to use stabilization circuits in the line output stages of television receivers Provide with varistors with which high voltage, booster voltage and the line length is stabilized. It is also known, the grating of the end tube of the image deflection device to supply a control voltage, which is taken from the grid circle of the image oscillator which receives its anode voltage from the line deflection device (booster voltage). The grid circle of the image oscillator is in turn on with the brightness control connected to the cathode of the picture tube, so that the Image format changes as little as possible. It is also known to have several tubes of the Line deflection device to supply a beam current-dependent control voltage and thereby to keep the high voltage constant. It is also known to adjust the control voltage for to tap a line deflection output stage from a voltage divider, which is a glow tube and thereby to cause a greater control voltage change.

The known circuits achieve a stabilizing effect, the however, it is no longer quite sufficient for mains voltage fluctuations of ± 10 oio. In practical operation, however, occur frequently in many places during the evening hours overvoltages of the 220-volt network up to 240 volts. The device must therefore accordingly be adjusted.

When the operating voltages drop, the line output stage delivers lower Output voltages, partly due to the fact that the line oscillator also has a smaller control voltage is generated with a less steep blocking edge, creating an additional Influence on the high voltage occurs. In the known devices, a mains voltage-dependent Regulation of the final stage of the image deflection device is usually not provided, so that already Changes to the image format in the event of relatively small changes in the mains voltage occur when only the line output stage is controlled.

The invention is based on the stated disadvantages to avoid and to create a circuit that causes disruptive changes in the image format the usual fluctuations in the mains voltage, e.g. B. in the range from 200 to 240 volts, which occur especially in many networks during the evening hours. the Invention is that in the grid circle of the line and image deflection tubes a voltage divider is provided to which the booster voltage is applied and that both voltage dividers have a common series connection of one at their base point Diode and a resistor has that at this resistor pulses from the line oscillator are fed and that also between the grid leakage resistor of the line output stage and the associated voltage divider a varistor is switched on, on the pulses from the flyback transformer. Another embodiment of the invention, which requires a little more effort, but also greater stability and above all, insensitivity to major temperature fluctuations is characterized in that the control grids of the picture and line deflection tubes each via a diode and a voltage divider to a stabilized voltage preferably a glow tube common to both circles that between the anode the one diode and the grid of the line deflection tubes pulses from the line transformer are supplied and that from the line deflection oscillator pulses at the cathode of the in the grid circle of the picture and line deflection tubes lying diode are fed.

On the basis of FIG. 1 and 2 are exemplary embodiments of the Invention explained.

F i g. 1 shows a stabilization circuit with which a stabilization of the image format, in particular the line length, the image amplitude and the high voltage, is achieved with relatively little effort. The output stage of the image deflection device is denoted by V1 and the output stage of the line deflection device of a television receiver is denoted by V2. The grid bleeder resistors R1 and R2 of the tubes V1 and V2 are each connected to a potentiometer P1 and P2, respectively. The potentiometer P1 is used to set the operating point of the tube V1, while the high voltage can be adjusted in a known manner on the potentiometer P2. In the circuit of the potentiometers P1 and P2, positive voltage from the anode power supply circuit is fed to the terminal K1 via the resistor R3, while the terminal K is connected to the booster voltage UB "on the booster diode DB . The connection point between the potentiometers P1 and P2 is connected to ground via the diode D, which is also bridged by a high-ohm resistor RS, and the resistor R4. The diode D receives a pulse voltage from the flyback oscillator Z via the capacitor C1 at the terminal K3. This is fed through rectification at the diode D converted into a mains voltage-dependent control voltage UR i, which is applied to the capacitor C2 and superimposed on the voltages tapped at the potentiometers P1 and P2. The control voltage UR is independent of changes in the beam current Line oscillator supplied pulses in their amplitude and steepness from the anode chip dependent.

In series with the grid bleeder resistor R2 of the tube V2 is a varistor Rv (voltage-dependent resistor) provided to adjust its mode of operation is bridged by a resistor. The arrangement of a varistor in the grid circuit the line deflection tube is to stabilize the line output stage against changes of the jet stream known per se. However, the known circuits only have one very small control range for mains voltage changes. In the case of the in FIG. 1 shown Circuit arrangement is now in addition to the control voltage described above UR, a further control voltage UR 2 generated in that the varistor Rv. at the Terminal K4 is supplied with pulses from the flyback transformer ZT via a capacitor will. These impulses form a control voltage that is dependent on the beam current the control voltage UR, superimposed and above all a dependency of the line length on the level of the jet stream simultaneously in connection with the. voltage dependent Control voltage UR, compensated.

F i g. 3 shows the effect of the circuit described with respect to FIG High voltage, fig. 4 shows the effect of the circuit described with regard to the line length. From Fig. 5 it can be seen that the change in the image height over a wide range of changes in the line voltage is kept constant.

F i g. 6 shows the effect of the circuit according to the invention in the event of voltage fluctuations on changing the image format.

In Fig. 2 shows another embodiment of the invention. Two vacuum diodes are used in this circuit. This creates an insensitivity the stabilization circuit against very large temperature changes, such as those for example can occur in viewing devices for industrial television systems. With V1 and V2 are again the end tubes of the picture and line deflection device. The control grid of the tube V1 is via the grid bleeder resistor R1 and the diode D1 connected to the rheostat Rio, at which the operating point of the tube V1 is set will. The rheostat R2 is used to set the high voltage Diode D2 and the resistors R21, R22 and R "3 with the grid of the line deflection tube V, is connected. A stabilizer tube is parallel to the control resistors Rio and R 2o S switched, at which in the illustrated embodiment a voltage of about 100 volts is maintained. Pulses are fed to diode D2 at terminal KO, as in Fig. 1 can be taken from the flyback transformer and from the beam current are dependent. On the other hand, the terminal K2p according to the circuit after F i g. 1 pulses taken from the line oscillator, which are supplied by the beam current are independent and after rectification in the diodes D1 and D2 one of the mains voltage fluctuations Form dependent control voltage, which is based on the potentiometers Rio and R 2o set grid biases for the tubes V1 and V2 are superimposed.

Claims (2)

Claims: 1. Arrangement for stabilizing the image format for Television receiver in which a deflection oscillator is a voltage-dependent one Control voltage obtained and superimposed on a beam current-dependent control voltage and with the control voltage obtained in this way, the grid bias of line and image deflection tubes are regulated, d u r c h e -k e n n n z e i c h n e t that in the grid circle of the line and image deflection tubes each have a voltage divider is provided at which the booster voltage is applied and that both voltage dividers are applied at their base a common series connection of a diode and a resistor have that pulses from the line oscillator are fed to this resistor and that also between the grid leakage resistance of the line output stage and the associated Voltage divider a varistor is switched on, on which pulses from the flyback transformer are fed. 2. Arrangement according to claim 1, characterized in that the Control grid of the picture and line deflection tubes each via a diode and a Voltage divider on a stabilized voltage, preferably one of two circuits common glow tube that lie between the anode of a diode and the grid the line deflection tube pulses are fed from the line transformer and that from the line deflection oscillator impulses of the cathode in the grid circle of the image and line deflection tube diode are fed. Considered Publications: German Auslegeschrift No. 1035 283; USA: Patent No. 2,917 659; British Patent No. 803 272.