DE2843210A1 - Circuit correcting side image shift in CRT - uses voltage dependent on beam current to control moment of switching of line end stage - Google Patents

Abstract

A circuit corrects side image shift in a directly synchronized v.d.u. having a c.r.t. and a line deflecting coil supplied by a line end stage. A potential (Us) dependent upon the beam current (is) of the c.r.t. (14) is used to control the moment of switching of the line end stage (4). The control voltage (Us) can be tapped from a resistor (17) lying between the base of the h.v. winding (11) and earth. The control voltage (Us) can effect the keying ration of a switching voltage (3) regulating the line end stage (4). The voltage (3) can be generated in a flip-flop (1).

Description

Circuit for eliminating lateral image shifts

in a data display device, data display devices etc. with a picture tube, how they are used, for example, to display digits, numbers or images, As is known, require a line deflection and a vertical deflection. The synchronization the abbreviation generally follows, for example in a television receiver the prince, zp of indirect synchronization. There is one with the line frequency oscillating oscillator provided. This is synchronized by a control voltage, the phase comparison of the line sync pulses with the locally generated pulses, e.g. the line retrace pulses is obtained. This so-called flywheel synchronization is relatively insensitive to the control voltage due to the high time constant against disturbances, e.g. failure of some sync pulses.

It is also known such a line deflection according to the principle synchronize with direct synchronization. For example, solve this from an external Source of incoming line synchronous pulses immediately the line deflection, i.e. the principle of flywheel synchronization is not used.

It has been shown that in data display devices with direct synchronization on the screen of the picture tube written picture with increasing beam current by about 2 to 3 mm (with a 15 "picture tube). This means that depending on the brightness of the picture, the written picture is more or less is shifted greatly in the horizontal direction. This phenomenon is disturbing when looking at it of the picture, especially when looking at small symbols and at major changes in image brightness. In addition, there can be different bright spots of the image must be offset from one another in the horizontal direction.

The invention is based on the object 1 this image shift to eliminate.

This object is achieved by the invention described in claim l solved. Advantageous further developments of the invention are described in the subclaims.

The invention is based on the following consideration. The line output stage transistor has a certain free time or clearing time of the base room when switched off. This means that after the actual occurrence of the switch-off edge at the base a certain time elapses until all charge carriers are removed and the collector current is removed has subsided. This clearing time becomes constant with increasing collector current Base current smaller.

So if the beam current is increased, it will in principle be fastercs Turning off the transistor. This is not directly visible in the displayed image, since the line deflection current is a pure deflection current. The lines shift so not to the left, but the ones shown, written by the image signal Characters shift to the right. The line retrace pulses then appear somewhat earlier in time with respect to the line sync pulses, i.e. there is a shift between the synchronizing line sync pulses and those synchronized by them Line retrace pulses, which represent a wet for the actual deflection period.

In the invention, the actual cause of the disturbing image shift, namely the change in the beam current, is advantageously used to shift the start of the line deflection so that the line deflection always begins at the same point in time relative to the image signal itself. What is achieved is that the electron beam on the screen always has the same spatial position on the screen at a certain point in time of the line period of the video signal controlling the picture tube, that is, the image is not dependent is shifted to the right of the image content.

I) he invention is based on the drawing using an exemplary embodiment explained. This shows in a simplified representation the line deflection circuit for a picture tube of a data display device.

The figure shows an integrated circuit l, the at least one Contains flip-flop and, via driver stage 2, the switching voltage 3 for the line output transistor 4 supplies. The circuit l is connected to the terminal 5 by an external source incoming line sync pulses 6 synchronized, i.e.

each <in pulse 6 determines the point in time at which the line deflection begins. This point in time is also dependent on the voltage at terminal 7, which is above dic resistors 8,9 is connected to a positive operating voltage. one down the primary winding 10 and the high-voltage winding 11 of the flyback transformer are shown 12, the high-voltage rectifier 13, the picture tube used for picture reproduction 14, the tangent capacitor 15 serving as a coupling capacitor and the line deflection coil 16.

The base point of the high-voltage winding 11 is not earthed as usual, but connected to earth via resistor 17. This arises at resistor 17 one that depends on the beam current i and increases with it in the negative direction Control voltage -Us, via the resistor 18 to the connection point 19 of the resistors 8.9 reached.

The mode of action is as follows. When the picture becomes brighter, it would without special measures, the image displayed on the picture tube 14 to the right move. As the picture becomes brighter, the beam current is increased and thus the voltage Us become more negative. Since this voltage acts on terminal 7, as a result, the phase position of the switching voltage 3 is changed. This changes the switching instant of the driver 2, i.e. the moment in which the switching voltage 3 controls the flow of current in the Step sir tor 4 introduces at the beginning of the line inlet That means again a temporal shift of the deflection period. This time shift is currently taking place so that the shift in time caused by the increase in the jet current the deflection period is compensated. The deflection period, i.e.

E.g. the travel time in which the electron beam moves from the left to the right The edge of the picture moves, so it has the same position relative to the picture signal, so that the the image screeched on the picture tube 14 in relation to the screen does not depend on the brightness of the image dependent shift has more. The control voltage Us can be the phase of the entire switching voltage 3 or only via the duty cycle, the phase of the deflection trace period determining Influence the edge of switching voltage 3.

In a practically tested embodiment, the illustrated had Components have the following values: Circuit 1: Integrated circuit SN 74221 resistor 17: 2.2 KOhm resistor 18: 68 KOhm L e r s e i t e

Claims (4)

Patent claims 1. Circuit for eliminating a lateral image shift in a directly synchronized data display device with a picture tube and one of a line output stage fed line deflection coil, characterized in that a on the beam current (is) of the picture tube (14) dependent voltage (Us) to control the Switching moment of the line output stage (4) is used. 2. Circuit according to claim 1, characterized in that di.e control voltage (Us) of a lying between the base point of the high-voltage winding (11) and earth Resistance (17) is removed. 3. Circuit according to claim 1, characterized in that the control voltage (Us) the duty cycle of a switching voltage (3) controlling the line output stage (4) influenced. 4. A circuit according to claim 1, characterized in that the switching voltage (3) is generated in a flip-flop and the control voltage (Us) is applied to a terminal (7) of the flip-flop (1) is applied, of whose voltage the phase or the duty cycle the generated switching voltage (3) is dependent.