DE2809198A1 - Horizontal raster distortion correction circuit for TV receiver - has transistor switch controlled by line-frequency pulses modulated in width at vertical frequency rate - Google Patents

Abstract

The correction circuit has a control circuit receiving parabolic vertical and horizotal frequency pulses and producing line-frequency pulses modulated in width by the vertical frequency. These output pulses are applied to the base of a transistor switch. The switch's emitter electrode is grounded and its collector is connected via an inductor to a capacitor and via a diode to a tapping of a winding of the line output transformer. The capacitor receives the parabolic line-frequency correction voltage modulated by the vertical frequency. The switch is closed during horizontal flyback.

Description

Circuit arrangement for correcting raster distortions in

horizontal direction in a television receiver.

Description: The invention is based on a circuit arrangement for correcting raster distortions in the horizontal direction in a television receiver.

In DE-AS 20 31 218 a under the term "diode modulator" Described in the state of the art circuit arrangement. At this The arrangement is in the junction of two with the same flow direction in Row of horizontal switching diodes a vertical frequency, parabolic Correction voltage coupled, the cathode of the first diode with a capacitor and a Resistance, which on the other hand are connected to earth, and where the Anode of the second diode to ground via an auxiliary winding of the deflection transformer lies. The second diode is bridged by a capacitance that is chosen so that the reloading time of this capacity during the line reversal is precisely the reloading time of the capacitor that is parallel to the deflection generator. With a modification In the circuit, the anode of the first diode is connected to earth and the cathode of the second Diode across the auxiliary winding on the parallel connection of a resistor with a Capacitor. The circuit disclosed in the aforementioned DE-AS has compared to the previously common correction circuits using transducers have the advantage of that between the horizontal and the vertical deflection circuit no undesirable mutual interference can occur. The one used in the known circuit The control section works in A mode and thus uses an unnecessarily large amount of power.

The invention is based on the problem of having a raster correction Gaining little energy consumption by using appropriate means in conjunction a control circuit operating in D operation, energy that has been wasted so far recovered and used e.g. for the line diversion during the line trace will. This task is achieved by the measures characterized in the claim solved in a particularly simple way.

This will be explained in more detail below with the aid of the drawing.

Figure 1 shows a first embodiment and Figure 2 shows a second embodiment.

For the control circuit 2 required in the diode modulator, an im D-mode working pulse width modulator 1 used, which line frequency Pulses and vertical frequency, parabolic control voltages are supplied. The modulator 1 uses these to produce vertically modulated frequencies Pulses that are fed to a switching transistor 3. The one from the diode modulator 4 charged with line-frequency pulses capacitor 5 is during the line run more discharged in the middle of the image deflection period than at the top and bottom Edge of the picture. This creates the parabolic correction voltage indicated on the capacitor 5.

When the capacitor is discharged via the switching transistor 3 Energy stored in the inductance 6 is dependent on the blocking phase of the transistor 3 via the diode 7 into the primary winding 8 of the flyback transformer fed back. It must be ensured here that the transistor 3 during the Line return is switched through, so that the resulting at the inductance 6 high voltage cannot destroy transistor 3. This measure is in the figure 1 line-frequency pulses supplied by the control electrode of transistor 3 indicated during the line return.

In the circuit just described, the control area is through the inevitable switching on of the transistor 3 is restricted during the line retrace. In order to avoid this effect, i.e. with it both the time during the line trace as well as the time during the line return can be used can, the fed back energy is fed to the line deflection via a buffer store. This measure is shown in Figure 2 by attaching to the collector of the switching transistor 3 a further diode 9 is connected to a storage capacitor 10 connected to ground is from which the energy during the line trace over the diode 7 to the Winding 8 is delivered. In this circuit version, the transistor needs 3 is not switched through to protect it from overvoltage during the return line to become because the high voltage pulses across the diode 9 to the storage capacitor 10 can be derived.

In an advantageous manner and to stabilize the circuit arrangement of the pulse width modulator 1 is the current that arises at the capacitor 5 Parabolic voltage proportional to the diode modulator as negative feedback information for the pulse width modulator. This is the power-saving, circuit just described in relation to the tolerance of the capacitor used 5 not critical.

According to a further proposal of the invention, the inductance 6 through the diode 7 recovered energy during the line trace also into a Supply voltage rail of the television receiver are fed.

Finally, with the aid of FIG. 3, the mode of operation of the in the Figures 1 and 2 with 1 designated pulse width modulator will be described. This consists of a parabolic cosine generator 12, the differential amplifier with trapezoidal setting 13 and a phase inversion stage with the pulse width modulation switch 14.

The generation of a flattened, vertical frequency parabolic voltage is carried out by superimposing a parabolic one with a cosine voltage. The parabola part becomes a sawtooth-shaped one Signal with the aid of a Miller integrator formed from components 15,16,17,18 19 The cosine component is obtained with the help of an electronic oscillating circuit generated from the phase chain 20, 21, 22, 23 and by the capacitance of the Miller integrator 19 is formed. The electronic oscillating circuit must be matched to the vertical frequency so that a symmetrically flattened parabola at the collector of transistor 18 is available. The resistor 24 serves to stabilize the direct current of the operating point of the generator. The generator 12 is connected to the differential amplifier via the resistor 25 13 connected. This is formed by the transistors 26, 27. About the diode 28 the positive part of the horizontal frequency impulses reaches a potentiometer 29, which is used to adjust the image width, which depends on the discharge time constant of the RC element 30, 31 depends. The degree of modulation of the pulse width modulation becomes determined by the charging time constant of the RC element 29, 32, 31, which also the operating point of transistor 27 is fixed.

The trapezoidal adjustment of the east-west equalization is done with the Potentiometer 33, at the tap of a sawtooth-shaped, vertical-frequency voltage is created. The potentiometer 33 is in the middle of the bridge circuit, the consists of resistors 34, 35, 36, 37. Depending on the position of the Tap there is a change in the applied sawtooth voltage, whereby the amplitude component is controllable at the emitter and at the base of the transistor 38.

The resulting collector current, which can be changed in phase and amplitude influences the parabolic voltage at the base of transistor 26.

The phase reversal stage is connected to the collector of the transistor 26 via the RC element 39 connected to the pulse width modulation switch 14. At the collector resistance 41 of the phase inversion stage 40, the amplified signal is picked up and via the RC element 42 given to the pulse width modulation switch 43. Since the transistor 43 in clocked operation works, it can be chosen to be very small. At ondensator 44 a vertical frequency parabolic voltage is generated which is used to control the diode modulator is used.

A feedback voltage is also applied to capacitor 44 via the Potentioneter 45 as negative feedback to the base of transistor 26 of the differential amplifier 13 removed to cancel the non-linear distortion. The parabolic tension is obtained by the capacitor 44, which during scrolling through line-frequency pulses were charged by the diode modulator, depending on the Switching behavior of the transistor 43 is discharged. By modulating the switching transistor 43, the capacitor 44 is smaller at the top and bottom of the image than in the center of the image unload. The discharge takes place via the inductance 46 and the switching transistor 43. During the discharge time, magnetic energy is stored in the inductance 46, according to the invention during the line trace time in the primary winding of the phase transformer is fed back. This feedback takes place via the diode 47 and is in one Capacitor 48 temporarily stored. The cached energy is via the Diode 48 to the flyback transformer passed on. Through the caching in the capacitor 48 the entire line-frequency sawtooth voltage can be applied to the base of the transistor 27 can be used for pulse width modulation. This needs the transistor 43 is no longer restricted in its blocking and switching phases.

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Claims (5)

Claims: 1. Circuit arrangement for correcting raster distortion in the horizontal direction in a television receiver with the help of a circuit for Delivery of a line-frequency, parabolic, vertical-frequency modulated correction voltage to a capacitor that connects two in the same forward direction is fed in series of diodes, this Connection point on the one hand via an inductance to ground and on the other hand The Horizonta lab len kwi cklun gene is connected and the anodc of the first Diode to ground and the cathode of the second diode via an auxiliary winding of the flyback transformer is connected to a capacitor, which on the other hand is connected to ground, characterized in that a control circuit 1 operating in D mode has vertical frequency, parabolic and horizontal-frequency pulses are supplied, at the output of which are zeilenfreauente, in their third vertically frequency modulated pulses are picked up. that of the control electrode a switching transistor 3, one output electrode of which is connected to ground and its other exit electrode on the one hand via an inductance 6 to the with the parabolic, vertically freely modulated, line-frequency correction voltage loaded capacitor and on the other hand via a diode 7 with a tap 11 of a winding ß of the flyback transformer is connected. 2. Circuit arrangement according to claim 1, characterized in that that the switching transistor 3 inevitably during the horizontal retrace interval is switched through. 3. Circuit arrangement according to claim 1, characterized in that the inductance 6 connected to the switching transistor 3 via a second diode 9 is connected to a storage capacitor 10, which via the first diode 7 is connected to the tap 11 on the winding 8 of the flyback transformer. 4. Circuit arrangement according to claim 1, characterized in that the line frequency correction voltage modulated with the parabolic, vertical frequency modulated acted upon capacitor 5 of the control circuit 1 operating in D mode as Negative feedback voltage is supplied. 5. Schaltunrsanordnung according to claim 1, characterized in that the voltage obtained through the diode 7 with a supply voltage ungsansoh loop of the television receiver is connected.