DE1076288B - Circuit arrangement for generating a saw tooth-shaped control voltage - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for generating a sawtooth-shaped Control voltage for the output stage of a circuit for deflecting the electron beam in a display tube in one direction, in which the circuit for deflecting the electron beam in the other, for the former perpendicular direction is stabilized.

Such circuit arrangements are used, inter alia, in television receivers, and also when changing the supply voltage supplied by the voltage source of the receiver, when regulating the Brightness or changes in the intensity of the image to be displayed should ensure that the Dimensions of the reproduced image do not change

change.

It has already been proposed to stabilize the deflection circuit in: horizontal direction, which not only stabilizes the current flowing through the horizontal deflection coils, but also the high voltage taken from the horizontal deflection circle for the end anode of the picture display tube will fluctuate significantly less than would be the case without this measure. The dimensions of the image in the horizontal direction will not change or almost not change. The vertical deflection current however, is likely to change with the occurrence of the aforementioned fluctuations, so that the dimensions of the "reproduced image will change in the vertical direction.

Separate stabilization of the vertical deflection circuit is generally far too expensive, and the circuit arrangement according to the "invention is therefore based on the knowledge that to achieve of the intended purpose can be successfully used the fact that in the stabilized Deflection circuit a DC voltage is generated, which is used as a supply voltage for the circuit to generate can serve the mentioned, sawtooth control voltage.

A possible embodiment of the circuit arrangement according to the invention is based on the Figure described.

According to this figure, the control signals 1 are fed to the first control grid 17 of the end tube 4 of the horizontal deflection circuit via a capacitor 2 and a bleeder resistor 3. The anode of the tube 4 is connected to the line output transformer 7. The series saving diode 6, the line deflection coil 8 and the input of the stabilization circuit 5 are connected to the taps of this transformer. The capacitor 9 belonging to the series saving diode circuit is connected between the lower side of the transformer 7 and the positive terminal of the supply voltage source (not shown), the circuit arrangement
to create a sawtooth-shaped
Control voltage

Applicant:
NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dipl.-Ing. K. Lengner, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority: Netherlands 14 January 1958 and France of July 7, 1958

Antonius Boekhorst, Eindhoven (Netherlands),
and Michel Guillaume, Paris,
have been named as inventors

supplies a voltage V _b. The anode of the diode 6 is also connected to this terminal. The stabilization circuit 5 ensures that when the supply voltage V _{b changes} , when the brightness of the image is regulated and / or when the brightness changes as a result of changes in intensity in the image to be displayed, the anode current flowing through the tube 4 is readjusted in such a way that the current flowing through the deflection coil 8 and consequently the voltage generated across the capacitor 9 can be kept almost constant, while the high voltage V _h , also taken from the horizontal deflection circuit, to feed the end anode of the display tube, will change significantly less than would be the case without this stabilization circuit.

As a result of the changes mentioned, the supply voltage for the vertical deflection circuit can change, so that the deflection current supplied by this circuit changes, while the deflection current supplied by the horizontal deflection circuit and the high voltage V _h remain almost constant, so that only the dimensions of the image will change in the vertical direction.

In order to remedy this disadvantage, the vertical deflection current must also be measured when changes occur can be kept almost constant. The circuit arrangement according to the invention is based on the knowledge established that successfully uses the fact

909 757/413

Claims (6)

can be that the voltage across the capacitor 9 (Vc) is already kept almost constant by the stabilizing effect of the circuit 5. To control the end tube of the vertical deflection circuit, a sawtooth-shaped voltage 16 of sufficient magnitude and good linearity can be generated by means of the discharge tube 13 of the resistor 10 and the capacitor 15, as follows: The voltage 16 with the peak value Vz is achieved by: that the capacitor 15 is charged via the resistor 10 from a voltage source which supplies a voltage Vc + Vjj and for which the supply voltage source and the direct voltage generated via the capacitor 9 are used up to a value Vb + Vz, where Vc Vz, and that thereupon the capacitor is periodically discharged by means of a tube 13 until the voltage prevailing across the capacitor has fallen almost to a value Vb. The periodic locking and unlocking of the tube 13 takes place by means of control pulses 14 which are fed to the control grid 18 via the capacitor 11 and the bleeder resistor 12. The pulses 14 can be the vertical synchronizing pulses derived from the incoming television signal, but they can also be generated by a synchronized pulse generator. Another difficulty arises when the tube 13 is constructed in such a way that the potential difference between the cathode and the filament of this tube is a certain value, e.g. B. 70 volts, must not exceed. However, the voltage between the cathode and filament of tube 13 is Vb volts when the filament of tube 13 is connected to earth. If Vb is 240 to 250 volts, the insulation between the cathode and the filament cannot withstand this voltage, so that breakdown will occur between the electrodes mentioned. To overcome this difficulty, two voltage dividers are attached. The first voltage divider is connected between the anode voltage source, which supplies the voltage Vb, and ground; the second voltage divider is connected between the electrode of the capacitance 9, which is connected to the lower end of the transformer 7, and earth. The generator which develops the vertical sawtooth voltage is connected between the taps which are mounted on the two voltage dividers in such a way that the voltage between the cathode and the filament of the tube 13 is reduced to an allowable value. This is the case when the voltage at the tap on the first voltage divider, to which the cathode of the tube 13 is connected, is lower than the said permitted value. The taps on the two voltage dividers can reduce the two voltages down to a quarter of the original value. It is also possible to include the tube 13 in such a circuit that the unlocking and locking take place automatically and the circuit can only be synchronized by means of synchronizing pulses (e.g. by switching the tube 13 as a blocking oscillator). When the voltage Vb changes, since Vc is kept constant, Vc + Vb will change to the same extent. The charging time of the capacitor 15 is determined by the period of the pulses 14, so that the voltage which is developed for the capacitor 15 during charging will also change in the same way as Vc + Vb. Since the capacitor 15 is discharged by means of the tube 13 until the voltage prevailing across the capacitor has dropped almost to the value Vb, the peak value Vz will remain the same regardless of the change in Vb. The control voltage for the aforementioned output tube thus has a constant peak value, and it is possible, if necessary, to generate an almost constant deflection current with an additional current negative feedback in the circuit of this output tube. It will be evident that the lower side of the capacitor 15 can also be connected to the cathode of the tube 13 instead of to earth. In this case, too, the sawtooth-shaped voltage generated across the capacitor 15 would have a constant peak value, but the connection to the output tube would cause difficulties, so that the aforementioned circuit is preferable. If necessary, the described sawtooth generator can also be fed by pulses taken from the transformer 7, which are separately rectified and fed to the circuit consisting of the elements 10, 11 12 and 15. Although this method is more expensive than the first one, it has the advantage that a completely constant DC voltage is available so that very rapid fluctuations in the supply voltage cannot be followed as quickly as a result of the large i? C time constant of elements 10 and 15 is no longer play a role. Patent claims: 1. A circuit arrangement for generating a sawtooth-shaped control voltage for the output stage of a circuit for deflecting an electron beam in a display tube in a direction in which the circuit for deflecting the electron beam is stabilized in a direction perpendicular to the first, characterized in that the circuit for generating the sawtooth-shaped control voltage is fed by a DC voltage obtained from the stabilized deflection circuit. 2. Circuit arrangement according to claim 1, in which the output stage of the stabilized deflection circuit contains a transformer (7) , the lower side of which is connected via a capacitor (9) to the positive terminal of the supply voltage source (V _b +) and the capacitor (9) forms part of a series saving diode circuit, characterized in that the capacitor (15), via which the sawtooth-shaped control voltage (16) is generated, via a resistor (10) from a direct voltage source, which is supplied by the supply voltage source (V _b +) and the as DC voltage source effective, the series saving diode circuit associated capacitor (9) is formed, charged and periodically discharged until the voltage prevailing on the capacitor (15) has almost fallen to that of the supply voltage source (V _b +). 3. Circuit arrangement according to claim 2, characterized in that the capacitor (15) over which the sawtooth-shaped control voltage (16) is developed, on the one hand via a resistor (10) to the lower side of the transformer (7) and on the other hand to the negative terminal of the Supply voltage source (V _b +) is connected, while a periodically opening and closing switching element (13) is switched on between the plus terminal of the supply voltage source (Vi, +) and the connection point of the resistor (10) and the capacitor (15) . 4. Circuit arrangement according to claim 3, characterized in that the switching element (13) is formed by a discharge tube which is periodically blocked and unblocked by means of an incoming television signal derived vertical synchronization pulses (14). 5. Circuit arrangement according to claim 4, characterized in that the discharge tube (13 ) is controlled by means of pulses (14) which are generated by a separate pulse generator. 6. Circuit arrangement according to Claim 3, characterized in that the switching element (13) consists of a discharge tube which is connected as a pulse oscillator and which is synchronized by means of the vertical synchronization pulses derived from an incoming television signal. 1 sheet of drawings © 909 757/415 2.60