DE1209154B - Circuit arrangement for linearizing the vertical deflection current in deflection systems of television cathode ray tubes for dismantling standards with an intermediate line - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H04n

German KL: 21 al - 35/20

Number: 1209 154

File number: F 43521 VIII a / 21 al

Filing date: July 22, 1964

Opened on: January 20, 1966

The invention relates to a circuit arrangement for linearizing the vertical deflection current in deflection systems of television cathode ray tubes in the case of dismantling standards with an intermediate line, in which the A correction voltage is superimposed on the voltage causing the deflection current, which is achieved by integration a voltage generated and amplified by differentiating the deflection current will.

In the known circuit arrangements for linearizing the vertical deflection current occurred so far the difficulty that interspersed by the horizontal deflection coils in the vertical deflection Horizontal frequency pulses in the correction voltage have a component with half Vertical frequency is caused, which makes the lines appear in pairs.

In the case of a deflection generator for generating a sawtooth current of vertical frequency for deflection of the electron beam from cathode ray tubes for television purposes, that from two electron tubes consists, one of which works as a deflection output stage, on whose anode circuit the vertical deflection coil set is coupled, and the other tube as a switching tube, with the feedback for generating vibrations by feeding the anode alternating voltage of the end tube to the control grid of the switching tube, it is already known in the vertical deflection circuit existing parasitic pulses from the horizontal frequency at any point from the Vertical deflection circuit and an electrode of the interrupter with such a phase position, Amplitude and waveform to ensure that the synchronization disturbing influence of the parasitic Horizontal impulses is at least approximately eliminated.

The applicability of such compensation for parasitic pulses of horizontal frequency in the vertical deflection circle is therefore based on a self-oscillating multivibrator type Deflection generator limited without special measures to linearize the deflection current.

In contrast, the present invention relates to a circuit arrangement for linearizing the vertical deflection current in deflection systems of television cathode ray tubes in television systems with an intermediate line, in which the voltage causing the deflection current is superimposed with a correction voltage which is generated by integrating an amplified by an amplifier, generated by differentiation of the deflection current Span circuit arrangement for linearizing the
Vertical deflection current in deflection systems of
Television cathode ray tubes
Dismantling standards with dividers

Applicant:
TV G. mb H.,
Darmstadt, Am Alten Bahnhof 6

Named as inventor:
Dipl.-Ing. Herbert Bähring,
Niederramstadt near Darmstadt

voltage is obtained in which, according to the invention, by the return of the vertical deflection current in the differentiated voltage caused voltage pulses the amplifier in the reverse direction control so that the occurrence of a component at half the vertical frequency caused by Rectification of the contained in successive half-rasters with different phase positions on the differentiated voltage transmitted horizontal frequency pulses, is avoided.

The circuit arrangement according to the invention will now be explained in more detail with the aid of the figures. It shows
F i g. 1 a schematic block diagram,

F i g. 2 those occurring in the differentiated voltage due to the return of the vertical deflection current Impulses with superimposed horizontal frequency impulses in successive half-rasters,

F i g. 3 an arrangement with electron tubes as amplifiers,

F i g. 4 shows an arrangement with transistor amplifiers. In Fig. Figure 1 shows the deflection system of a television cathode ray tube which includes the vertical deflection coils 2, 2 'and the horizontal deflection coils 3, 3'. The horizontal deflection coils 3, 3 'are supplied with a deflection current at a horizontal frequency from the deflection generator 4, which is not shown in detail and is controlled by line-frequency pulses H. The vertical deflection coils 2 are the deflection current through a transformer 21 from the power amplifier 22. In the tube the control grid of the tube 22 is a sawtooth-shaped voltage which by moving up

509 779/297

3 4

Charge a capacitor 23 via a counter-current in successive half-rasters stand 24 is generated. The capacitor 23 is in different proportions of horizontal frequency Imden Has vertical retrace times via the tube 25 unpulsed. In the example according to FIG. 2 a discharged, the for this purpose on the grid by a vertical- keeps the pulse voltage in the upper part two horifrequenten Pulse in the conductive state controlled 5 zontal-frequency pulses, in Fig. 2b only one will. To pulse the inductive resistance in the deflection circuit. If this component is half a Vertizu take into account, a resistor 26 pre-cal frequency in the correction voltage is only 0.5% see through which the sawtooth-shaped control voltage is the control voltage of the tube 22, so meaning an impulse component is added. This means that the sub-images by the same amount

For automatic linearization of the current in io are shifted against each other, which is already a

the vertical deflection coils 2, the control voltage pairing of the lines of 30% results, which in high-

a correction voltage superimposed on the tube 22, valuable devices are no longer permissible.

which by integrating a reinforced, by man has tried so far to eliminate this error by the

Differentiation of the vertical deflection current obtained- switching on filters with considerable filter-

nenen voltage is generated. For this purpose, the effect for the line frequency in the amplifier 11 is to be increased

steering circuit avoid the primary winding of a differential transfer. But it is not possible to do the

formators 27 switched on, to reduce its secondary winding error to a sufficient extent because

the differentiated tension occurs. This chip filter of the required high filtering effect

voltage thus corresponds to the deviation of the deflection cause such a strong phase shift that

current from the time-proportional course. The in 20 the deflection circuit itself at high frequency

an amplifier 11 amplified voltage is excited. Even if you can still avoid this,

via a resistor to the grid representing distortions of the correction voltage and

stronger tube 22. By the interaction of the grid thereby, in particular directly

Resistor 12 and capacitor 23 this is after the return at the beginning of the grid.

Voltage integrates and causes such a post-25 In the circuit arrangement according to the invention

control of the amplifier tube 22, that the non- will the occurrence of this error with certainty

reduce the linearity of the deflection current in the deflection circle. If according to the invention by the

device and the current in the deflection circuit practically returns the vertical deflection current in the

increases proportionally to time. voltage impulses

During the flyback times of the vertical variables 30, the amplifier 11 of the correction circuit is locked if the rapidly changing deflection current is induced to control the direction, the voltage pulses can be used No grid mators27 in the secondary winding of the differentiating transformer a voltage pulse (Fig. 2), the current and thus no component with half ver-linearization is not needed. There is now no vertical frequency in the correction voltage. to avoid that the sudden changes in the stream 35 In the case of the in FIG. 3 is the arrangement shown wrestled in the horizontal deflection coils 1 during the differentiated voltage from the secondary winding line return also pulse-shaped voltages development of the differentiating transformer 27 to the control with Line frequency in the vertical deflection coils 2 grid of the amplifier tube 31 via a low-pass filter, are induced, which consists of the resistors 32, 33 and the Formator 27 is also fed into the circuit of the corrective 40 capacitors 34, 35. The low-pass filter tur voltage is overused even during the return times, but only apply such a large filter effect will. In interlaced television systems assign that superimposed with line pulses these horizontal pulses do not follow each other in correction voltage over the amplifier tubes Half grids control a different phase position. With the tube 31 is the differentiated compared to the vertical frequency return 45 voltage, e.g. B. about 50 times, amplified and over impulses. F i g. Figure 2 shows the shape of the differentiated an integration resistor 12 to the control grid of the Voltage in the vertical flyback time and lets he know power amplifier tube 22 for vertical deflection, that the horizontal frequency pulses are supplied with electricity.

which are interspersed in the vertical deflection circle. The invention is not limited to deflection circuits with one 50 amplifier tubes in successive deflection periods; it can also have different phase positions and can be used in semi-transistorized circuits. F i g. 4 image according to FIG. 2a compared to the following half shows as an example a circuit operating with transistors according to the image in FIG. 2b by half a line period according to the invention,
are pushed. The deflection coils 2, 2 'are over a hot

If now - as previously usual - the differential 55 conductors 41 and the coupling capacitor 42 from the ed voltage is fed to amplifier 11 (Fig. 1) in such a way as transistor 43, which supplies its direct current, that the momentum component of the difference is greater than 44. The control voltage receives the edged voltage according to FIG. 2 at one of the transistors 43 via a direct current amplifier Stronger tubes of the amplifier 11 with positive Po- the transistors 45 and 46 from a charging capacitor occurs, so it is because of the large amplitude 60 sator 47, which has a transistor 48 and a the momentum component according to FIG. 2 hardly to load charging resistor 49 charged and over the tranmeiden, that an amplifier stage is discharged into the grid current transistor 50. To the automatic linear area is controlled and thereby the impulse peaks sation is also used here an amplifier, which via the be rectified. If z. B. Above the differentiating transformer 51 his correction span was painted Line of fig. 2 a grid current occurs, 65 receives voltage from the deflection circle. The correction so arises in the correction voltage, which is the grid voltage through a low-pass filter 52, 53, 54, the tube 22 is fed, a component with 55, 56 roughly superimposed line pulses for the sake of friction Vertical frequency, because the rectified tends and then controls an NPN transistor 57 with

10

negative pulses, so that the pulse peaks fall into the blocking region of the transistor and are thus suppressed will. The correction voltage occurring across resistor 58 controls via transistor 48 the charging current of the capacitor 47 and thus causes the linearization of the deflection current. The resistance 58 acts as a negative feedback to avoid pendulum oscillations.

Claims (3)

Patent claims: 1. Circuit arrangement for linearizing the vertical deflection current in deflection systems from Television cathode ray tubes in television systems with an interline, in which the deflection current The voltage causing a correction voltage is superimposed, which is achieved by integration one that is enlarged by an amplifier and generated by differentiating the deflection current Voltage is gained, characterized in that the by the return of the vertical deflection current in the differentiated voltage caused voltage pulses control the amplifier in reverse direction, so that the occurrence of a component with half the vertical frequency, caused by the rectification of the contained in successive half-rasters with different phase positions on the differentiated voltage transmitted horizontal frequency pulses is avoided. 2. Circuit arrangement according to claim 1, characterized in that the amplifier for the differentiated voltage is a single-stage tube amplifier whose input corresponds to the differentiated voltage Voltage contained voltage pulses are supplied with a negative direction. 3. Circuit arrangement according to claim 1, characterized by the use of a with negative pulse controlled NPN type transistor in the amplifier. Considered publications:
German interpretative document No. 1053 028. For this purpose, 1 sheet of drawings 509 779 (297 1.66 © Bundesdruckerei Berlin