DE4116883A1 - CRT horizontal deflection circuit - provides distortion correction via modulation of voltage fed to driver transformer - Google Patents

Abstract

The deflection circuit has an automatic focus tuning stage (1,2,3,6) providing a horizontal oscillation with a given frequency, fed to a driver transistor (5) in series with the primary winding of a driver transformer (4) receiving a modulated voltage. The transformer secondary is fed to an output transistor (7), the collector of which is pref. coupled via a choke coil (8) to the emitter of a horizontal regulating transistor (9) which is coupled at its cathode to a horizontal line diode (10), a horizontal resonance capacitor (11) and the horizontal deflection coil (12). ADVANTAGE - Correction of distortion.

Description

The invention relates to a horizontal deflection circuit with a Correction function for the image distortions on the grid.

Direct view cathode ray tubes with RGS input conclusions for use in a display terminal or Projection tubes for use in a video projector have recently become widespread experienced in the widest circles, along with the widespread processing of computers. In such applications where a wide-angle deflection and a flat display area are indispensable, should be largely as possible a pillow-shaped aberration or pillow distortion or a trapezoidal distortion can be avoided at the is displayed on the grid of a cathode steel tube. Therefore has been a number of circuits for correcting the like distortions have been proposed.

Fig. 2 shows a circuit diagram illustrating a conventional horizontal deflection circuit. In the circuit shown in FIG. 2, a horizontal resonant circuit 1 is connected to a delay circuit 2 and further via a horizontal oscillation output amplifier circuit 3 to a base of a horizontal driver transistor 5 . The collector of the horizontal driver transistor 5 is connected to one end of a primary winding of a horizontal driver transformer 4 and the emitter is grounded. The delay circuit 2 is also connected to a horizontal automatic tuning circuit (hereinafter horizontal AFC circuit) 6 , into which a horizontal synchronization signal c is input. The output terminal of the horizontal AFC circuit 6 is connected to the horizontal oscillating circuit 1 .

In the horizontal AFC circuit 6 , a known phase comparator contained therein compares the phase of a delay output signal b from the delay circuit 2 with the phase of the horizontal synchronization signal c and generates a comparison output signal d, which controls the frequency of the horizontal resonant circuit 1 , by the frequency of this Ho rizontalsynchronungssignal to bring in sync gene. The other end of the primary winding of the horizontal driver transformer 4 is connected to a voltage supply terminal B, through which a stabilized voltage B 1 is supplied for horizontal control. The above components form a horizontal driver circuit.

On the other hand, one end of a secondary winding of the horizon tal driver transformer 4 is connected to a base of a horizon tal output transistor 7 , which acts as a switching device. The collector of the output transistor 7 is connected via a horizontal choke or protective choke 8 to the emitter of a horizontal regulating transistor 9 and also to a cathode of a horizontal line diode 10 , a horizontal resonance capacitor 11 and one end of a horizontal deflection coil 12 . The emitter of the horizontal output transistor 7 , the anode of the horizontal row diode 10 and the other end of the horizontal resonance capacitor 11 are jointly directly grounded, while the other end of the horizontal deflection coil 12 is grounded via a horizontal S-shape correction capacitor 13 . As described above, the horizontal deflection output circuit is formed with the horizontal output transistor 7 , the horizontal choke coil 8 , the horizontal line diode 10 , the horizontal resonance capacitor 11 , the horizontal deflection coil 12 and the horizontal S-shape correction capacitor 13 . The horizontal deflection circuit consists of this horizontal deflection output circuit and the above-mentioned horizontal driver circuit.

In this conventional circuit, the collector of the horizontal control transistor 9 is supplied with a horizontal deflection voltage B 2 .

A description of the operation and function of the above mentioned horizontal deflection output circuit itself will be here omitted, since these are well known and in no Be draw on how the distortion correction radio works stand. The following is therefore only the working wise and function of the Hori raster distortion correction zontalablenkkreises explained.

Using computers, the phase relationship between the horizontal synchronization signal of a computer and the display signal image area is changed. A measure shown in FIG. 2 has conventionally been taken to center the display signal image on the grid. In the circuit shown in FIG. 2, a horizontal oscillation signal a as shown in FIG. 3 (a) is supplied from the horizontal oscillation circuit 1 to the delay circuit 2 . Then the phases of an output signal b (see FIG. 3 (b)) from the delay circuit 2 and a horizontal synchronization signal c (see FIG. 3 (c)) are compared with each other. This causes the horizontal AFC circuit 6 to set a delay time t _{1 of} a delay circuit 2 in the circuit arrangement of FIG. 2. In the manner described, the horizontal driver transformer 4 is supplied with a stabilized constant voltage B 1 in the conventional circuit arrangement. Thus, when a horizontal trapezoidal correction as shown in Fig. 4 or a horizontal pincushion distortion correction as shown in Fig. 5 is applied to the image, the collector current i _{2 of} the horizontal output transistor 7 changes with a vertical deflection period 1 / f _v as in is shown Fig. 6 and 7. Since I _b-end (the value representing the final value of the base current i ₁ in a predetermined period of time) is constant as shown in Fig. 3 (d), the driving state of the horizontal output transistor 7 is caused to become vertical Deflection period changes. In Figs. 6 and 7 f _H knows records the Horizontalab and f _V, the steering frequency vertical deflection.

In the conventional circuit described above, an electrical charge collection time t ₂ (see FIG. 3 (e)) of the horizontal output transistor 7 with the vertical deflection period changes and as a result the phase relationship between the horizontal synchronization signal c and a horizontal deflection output pulse e ( in which it is the collector voltage of the horizontal output transistor 7 ), and in this way the vertical steering period changes. For this reason, the circle has the disadvantage that the displayed rasters are distorted, which is illustrated by the dashed lines in FIGS. 4 and 5.

The invention is based, described above the task ben disadvantage in the known circuit arrangement to be lift, and so the goal is to make a Hori Provide zontal deflection circuit that is able to image  display signals at the grid center and the distortions of the To remove the grid and the image.

This task is according to the invention with a horizontal Steering circle with the features of claim 1 or 2 solved.

According to the invention is therefore a horizontal deflection output circuit with a horizontal automatic focusing device device for outputting the horizontal vibration signal, the Frequency controlled to a predetermined frequency is valid, and with a modulation device for modulation Ren a voltage provided to the driver transformer to be fed by the horizontal swing signal is controlled and a horizontal deflection output signal switching device in the horizontal deflection output circuit corresponding to the vertical synchronization alternating current component of the horizontal deflection output circuit controls the supplied voltage.

According to another aspect of the invention is a horizontal deflection circuit for use in a cathode ray tube Screen or display terminal provided, comprising i) the Delay circuit for delaying the horizontal oscillation signals, ii) the horizontal focus circle, the one Comparison output signal by comparing the phase of the Delay signal from the delay circuit with the phase outputs and effects the horizontal synchronization signal, that the horizontal oscillation circuit is the horizontal oscillation outputs signal whose frequency is determined by the horizontal ver DC output signal on the horizontal synchronization frequency is controlled, and iii) a horizontal trei Overvoltage modulation circuit that is between an output end a horizontal control transistor and a voltage ver supply connection of the driver transformer is switched, which is controlled by the horizontal vibration signal and the horizontal deflection output switching device in  Horizontal deflection output circuit controls, the horizon tale driver voltage modulation circuit a) a between the Output end of the horizontal control transistor and earth closed potentiometer, d) a power supply transistor for the voltage supply of the driver transfor mators, c) one between a variable connection of the Potentiometers and the base of the power supply trans sistor switched capacitor, d) a Base bias adjuster for adjusting a Base bias of the power supply transistor and e) one between the exit end of the Power supply transistor and the driver transformer switched integrated circuit includes.

The described arrangement of the circle is the Driver transformer supplied voltage according to the size of the Horizontal deflection current and according to the waveform of the AC component of the vertical deflection period modulated, in this way the control conditions of the hori zontal output transistor not with the vertical deflection period can be changed and in this way the occurrence the image distortion is eliminated.

In the circuit arrangement according to the invention, the ver tical lines in the picture are not inclined or like in the forth conventional circuitry curved, but are considered maintain straight vertical lines even if a hori zonal trapezoidal shape correction or a horizontal kis distortion correction is performed.

The organization and design of the Ab steering circle and its characteristics and effects go out the following detailed description of Exec tion examples of the invention further. Of course Lich all representations of the drawing serve only  to illustrate and give in particular the actual relative dimensions or arrangements of the represented elements not necessarily again. In the drawing show:

Fig. 1 is a circuit diagram of a preferred circuit Ausführungsbei clearance of a horizontal deflection according to the invention,

Fig. 2 is a diagram showing an example of a conventional Horizontalablenkkreises,

Fig. 3 (a) to 3 (f) are waveform diagrams of signals which are each at different parts or points in the circuit diagrams of Figs. 1 and 2 respectively indicate

Fig. 4 is a graph that shows the state veran, in which the horizontal trapezoidför-shaped distortion is corrected,

Fig. 5 is a graph showing a state anschaulicht ver, wherein a Kissenverzeichnungsver is corrected distortion,

Fig. 6 is a waveform diagram that illustrates the collector current of the horizontal output transistor 7 when a horizontal trapezoidal distortion is corrected, and

Fig. 7 is a waveform diagram illustrating the collector current of the horizontal output transistor 7 when a horizontal pincushion distortion is corrected.

A preferred embodiment of the invention is described below with reference to the drawing. Fig. 1 shows a circuit diagram illustrating an embodiment of the horizontal deflection circuit. In Fig. 1, the same parts as in the known circuit arrangement according to 2 with the same reference numerals, insofar as the construction parts are the same or the same and their description is therefore not repeated.

In Fig. 1, a horizontal driver voltage modulation circuit 21 is connected between the voltage supply connection of the primary winding of the horizontal driver transformer 4 and the emitter of the horizontal regulating transistor 9 . More specifically, the emitter of the horizontal control transistor 9 is grounded through a variable resistor 22 , the sen variable connection with the base of the voltage supply transistor 24 and with the resistors 25 and 26 connected at their junction via a capacitor 23 to only the AC component transferred to. The collector of the voltage supply transistor 24 is connected to a collector voltage supply connection B 3 and is grounded via the resistors 25 and 26 . The emitter of the voltage supply transistor 24 is connected via a resistor 27 to the voltage supply end of the primary winding of the horizontal driver transformer 4 and is grounded by a filter capacitor 28 , and the emitter itself is grounded via a resistor 29 .

Due to the circuit arrangement described above, a verti cal sawtooth signal g appears as the emitter voltage of the horizontal regulating transistor 9 when a trapezoidal correction is carried out on the grid or image as shown in FIG. 4. This waveform also appears as a vertical deflection period AC component of the emitter voltage on the power supply transistor 24 , and thereby the voltage supplied to the horizontal driver transformer 4 is modulated with the vertical sawtooth signal g '.

This causes the value I _{b-end of} the base current i _{1 of} the horizontal output transistor 7 to change with the vertical deflection period, while the driving conditions of the horizontal output transistor 7 are always kept constant instead of being changed with the vertical deflection period. Also, as described above, the electric charge accumulation time expressed as t ₂ in Fig. 3 (e) can always be kept constant, and thus the vertical line shown in phantom in Fig. 4 can be prevented from tilting and itself when applying a trapezoidal correction can be maintained as a vertical straight line. It can be stated with certainty that these or similar advantages will be maintained even in the event of a pillow distortion correction being carried out.

In addition, the delay time t _{1 of} the delay circuit 2 has been made adjustable from the outside, whereby the width adjustment of the image or grid is made possible by that of the delay time t ₁ .

Although the invention is based on currently preferred embodiment examples have been described, these are not a to understand restrictively. There can be various changes and modifications are carried out.

In summary, the subject of the invention is a horizontal deflection circuit for a cathode ray tube video display terminal or a projection tube and has a circle to correct a pillow distortion or trapezoid shaped distortion on the grid of the cathode ray tube on. The correction circuit comprises a modulator for the modula tion of a chip to be fed to a driver transformer a horizontal oscillating signal to control a Horizontal deflection output signal switching device in one Horizontal deflection output circuit is created. The modulation becomes a component of a vertical sync tion alternating current carried out a voltage that the Horizontal deflection output circuit is supplied.

Claims (2)

1. Horizontal deflection circle, characterized by

• - A horizontal automatic focusing device ( 1 , 2 , 3 , 6 ) for output of a horizontal Schwingsig signal (a), the frequency of which is controlled to a predetermined frequency, and
• - A modulation device ( 21 ) for modulating a driver transformer ( 4 ) to be supplied voltage, the driver transformer being driven by the horizontal oscillating signal and a horizontal deflection output switching device ( 7 ) in a horizontal deflection output circuit in accordance with a vertical synchronization alternating current component of a voltage supplied to the horizontal deflection output circuit controls.

2. Horizontal deflection circuit for a cathode ray tube display terminal, characterized by

• i) a delay circuit ( 2 ) for delaying a horizontal oscillating signal,
• ii) a horizontal automatic tuning circuit ( 1 , 2 , 3 , 6 ) which, by comparing the phase of a delay signal (b) from the delay circuit ( 2 ) with the phase of a horizontal synchronization signal (c), outputs a comparison output signal and causes a horizontal resonant circuit to do so outputs horizontal oscillating signal, the frequency of which is controlled by the horizontal comparison output signal to the horizontal synchronization signal frequency, and
• iii) a horizontal drive voltage modulation circuit ( 21 ) which is connected between an output end of a horizontal regulating transistor ( 9 ) and a voltage supply connection of a driver transformer ( 4 ) which is driven by the horizontal oscillating signal and a horizontal deflection output switching device ( 7 ) in a horizontal deflection output circuit drives, wherein the horizontal drive voltage modulation circuit ( 21 ) comprises
• a) a potentiometer ( 22 ) connected between the output end of the horizontal regulating transistor ( 9 ) and earth,
• b) a voltage supply transistor ( 24 ) for supplying voltage to the driver transformer ( 4 ),
• c) a capacitor ( 23 ) connected between a variable connection of the potentiometer ( 22 ) and the base of the voltage supply transistor ( 24 ),
• d) a base bias setting device ( 25 , 26 ) for setting a base bias of the voltage supply transistor ( 24 ) and
• e) a switching circuit ( 27 , 28 ) connected between the output end of the voltage supply transistor ( 24 ) and the driver transformer ( 4 ).