DE2132638A1 - CIRCUIT ARRANGEMENT FOR CORRECTING LATERAL CONVERGENCE ERRORS IN THE COLOR RAYS OF A COLOR TUBE ON THE LEFT AND RIGHT EDGE - Google Patents

Description

Circuit arrangement for correcting lateral convergence errors the color rays of a Parb picture tube on the left and right edge of the picture The invention relates to a circuit arrangement for correcting lateral convergence errors the color rays of a Parb picture tube at the left and right edge of the picture, to which Purpose with line-frequency currents a magnetic field is generated that the vertical aligns the blue with the vertical yellow (= red and green) grid lines.

It is known and for example in the magazine "Radio Mentor", 1970, Issue 3, pages 165 to 169, a correction of errors of the so-called Carry out lateral convergence with the help of a blue lateral unit.

This blue lateral unit consists of a magnet with a corresponding one Winding that must be fed by a special circuit arrangement. In order to the electron beam for the color blue can be controlled in such a way that lateral Misregistration can be corrected with the other two color beams for red and green can. However, since it requires its own unit and special circuitry the effort is considerable.

The present invention is based on the object of one possibility to find to accomplish the lateral correction with less effort.

To solve this problem, a circuit arrangement of the initially mentioned type proposed, which is characterized according to the invention in that a source for line-frequency additional currents is connected to the horizontal deflection coils .is that this source is using circuitry for convergence correction Contains a first pair of complementary transistors in the corners of the image, their emitter-collector paths are connected in series, the collectors are connected to each other and am lie at the center of a balancing transformer, the partial windings of which are in each case in series via a horizontal deflection coil and via a partial winding of a flyback transformer lead to the reference potential, and the bases each having an input for a controllable line frequency and with an input for a controllable frame rate Sawtooth signal are connected, with which the corner convergence correction is controlled that the emitter-collector paths of a second pair continue to be more complementary Transistors are connected in series, whose collectors are each at the base of one of the two complementary transistors of the first pair are, again complementary Pairs are connected to each other, and their emitters are connected to each other, that the bases of the complementary transistors of the second pair each have a Diode of different polarity with the taps of two adjustable ohmic voltage dividers are connected, both on one side via a different diode each Polarity to one input for a positive and on the other side also over One diode each with different polarity to an input for a negative line frequency Lead sawtooth signal, but with regard to the diode polarity between this Both inputs consist of continuous lines that also the emitter of the first transistor pair via a preferably adjustable ohmic resistor each and the collectors of the second transistor pair via an ohmic resistor each each at one pole of the operating voltage source and that the bases and the Emitter of the second transistor pair each via an ohmic resistor and to do this in series via a common ohmic resistor with the center of the Balancing transformer are connected.

A circuit arrangement for convergence correction in the corners of the image is known per se and, for example, in the magazine "Funkschau" 1970, issue 8, pages 223 to 225 and booklet lo, pages 333 to 334 described. According to the invention such a circuit arrangement is now to be expanded so that a correction separated from lateral misregistration and independent for the left and right Edge of the picture is possible. This means that there is no need for a separate lateral unit. Compare the expense for such is the additional expense for an expansion according to the invention a circuit arrangement for corner convergence correction minimal. The additional streams, which are fed into the horizontal deflection coils result, due to the Geometry of the Horizontalablenks pulen, the possibility of the electron beams for Red and green shift radially and the electron beam for blue shift laterally. From it in the case of horizontal-frequency, i.e. line-frequency currents, their amplitudes result are adjustable, the possibility of the vertical on the right and left edge of the picture blue grid lines against the vertical yellow (= red and green) grid lines to postpone or, in the event of coverage errors, to bring them into line. The amplitude and the polarity of the additional currents required for this can be used in an inventive Circuit arrangement for the left and right halves of the picture separately and independently can be adjusted from each other.

Using an exemplary embodiment shown in the drawing a circuit arrangement according to the invention, the invention will be explained in more detail.

The collector-emitter paths of a first pair of complementary ones Transistors 1 and 2 are connected in series across the collectors. The connection point of the two collectors is at the center of a balancing transformer 3 Partial coils 4 and 5 are each in one row to a horizontal deflection coil 6 or 7 and to a partial winding 8 or 9 of a flyback transformer 1o and lead to Reference potential. A capacitor ii is located parallel to the balancing transformer 3. The emitter of the transistor 1, which in the present case is of the pnp type, for example is connected to the positive pole 13 of the operating voltage source via an adjustable ohmic resistor 12; the emitter of the transistor 2 via an adjustable ohmic resistor 14 on Negative pole 15 of the operating voltage source.

The collector-emitter path of another pair of complementary Transistors 16 and 17 are also connected in series; the emitters are over the series connection of two ohmic resistors 18 and 19 are connected to one another. The collector of the transistor 16 - in this embodiment of the npn type - is at the base of the transistor 1 and via an ohmic resistor 20 at the positive pole 13; the collector of the transistor at the base of transistor 2 and via an ohmic resistor 21 at the negative pole 15. The bases of the transistors 16 and 17 are connected in series with two ohmic resistors 22 and 23 connected to each other.

The connection point of these two ohmic resistors 22 and 23 leads just like the connection point of the two ohmic resistors 18 and 19 Via an ohmic resistor 24 to the connection point of the collectors of the transistors 1 and 2.

The control signals are in the bases of the two transistors 16 and 17 fed in for the additional streams for convergence correction. For this purpose are with the base of the transistor 16 three parallel diodes of the same polarity 25, 26 and 27 are connected, the polarity being the same as that of the base-emitter diode of transistor 16.

Accordingly, there are three parallel lying at the base of the transistor 17 Diodes of the same polarity 28, 29 and 30, but opposite to that of the diodes 25 to 27 is. Sawtooth signals are supplied via the diodes 25, 26 and 29, 30, which the Trigger the additional currents required for the convergence correction in the image corners.

The control signals according to the invention are via'die diodes 27 and 28 supplied. These two diodes 27 and 28 are connected to one another and are located together at the taps of two adjustable ohmic voltage dividers 31 and 32. These are both on one side via a diode 33 or 34, which are different Have polarity connected to an input 35 for a positive sawtooth signal, on the other side via a diode 36 or 37, which are also different Have polarity, with an input 38 for a negative sawtooth signal. Between the two inputs 35 and 38 are thus two parallel lines of different lines l'leitungsrichtung, consisting on the one hand of the diode 33, the one adjustable Ohmic voltage divider 31 and the diode 36, on the other hand from the diode 34, the adjustable ohmic voltage divider 32 and the diode 37.

In addition to the diodes, the convergence correction in the corners of the image is required 25, 26, 29 and 30 still further components, but in the present case except Can remain in consideration.

The transistors 16 and 17 are when using the circuit arrangement sur corner convergence correction controlled in such a way that it is in the center of the image as well as in the middle of the line, i.e. in the middle area of both the frame rate and of the line-frequency (= vertical-frequency and horizontal-frequency) sawtooth signal are locked. As a result, transistors 1 and 2 are also blocked. For correction the lateral convergence error must now correspond to the corner convergence correction current in the center of the image a horizontal frequency current is superimposed, its polarity -and amplitude must be separately adjustable for the left and right halves of the screen. The corresponding Components that consist of positive and negative parts are made via the Diodes 27 and 28 are fed to the bases of transistors 16 and 17. That happens in the form that both transistors 16 and 17 are probably blocked in the middle of the line and thus cannot exert any influence on the static convergence setting, however at the left and right edge of the screen, i.e. at the beginning and at the end of each line, depending on the polarity of the control signal become conductive. There in the middle of the picture over the diodes 25, 26, 29 and 30 no other control signals are supplied to the transistors 16 and 17 only the control signals for the lateral convergence correction are effective. It is therefore possible to apply this lateral convergence correction independently of the correction setting for corner convergence.

Line-frequency sawtooth signals are fed into the two inputs 35 and 38 fed in different polarity, for example the horizontal output stage of a television receiver by integrating the line pulses. the Diodes 33 and 36 are only conductive during the first half of the line, namely then, if the sawtooth signal of the input 35 is positive and the sawtooth signal of the input 38 is negative. Accordingly, the two diodes 34 and 37 are only during the second half of the line conductive. On the side facing the diode 33 of the adjustable Ohmic voltage divider 31 is therefore the positive part of the sawtooth signal of the Input 35, on the other side the negative part of the sawtooth signal of the input 38.

If you first use the adjustable ohmic voltage divider 32 except Can be considered, so you can by setting the voltage divider 31 at the divider point all signal values between the two standing on the two sides of the voltage divider 31 Pick up extreme values. In the middle position this value is zero.

The same applies to the adjustable one in the second half of the line Ohmic voltage divider 32, if one uses the adjustable ohmic voltage divider 31 leaves out of consideration. Again, you can see all values between the positive and the negative sawtooth signal.

If you now connect the divider points of the two ohmic voltage dividers 31 and 32, nothing changes in the previous, since the voltage dividers 31 and 32 are decoupled from one another by the diodes 33, 34, 36 and 37. The diodes 27 and 28 is thus supplied with a signal which during the first half of the line alone from the adjustable ohmic voltage divider 31 and during the second half of the line is supplied solely by the adjustable ohmic voltage divider 32. The single Attitudes to this bother each other not. You are done for the left and right halves of the image independently of each other.

The positive part of the adjustable ohmic voltage dividers 31 and 32 tapped signal is via the diode 27 to the base of the transistor 16 given, the negative Deil via the diode 28 to the base of the transistor 17, so that these transistors can be turned on accordingly. In addition, out of phase Signals arise at the collectors of transistors 16 and 17 and control the Transistors 1 and 2 so that corresponding currents through the balancing transformer 3, over the horizontal deflection coils 6 and 7 and over the partial windings 8 and 9 of the flyback transformer 1o flow.

Such a circuit arrangement according to the invention has the great advantage that by a simple addition, the only six diodes and two adjustable Ohmic voltage divider includes an already existing circuit for correction. the corner convergence error for another purpose, namely correcting the blue lateral errors can be exploited and thus its own, located on the picture tube Blue Latera1 correction coil can be saved.

1 claim 1 figure

Claims (1)

Circuit arrangement for correcting lateral convergence errors of the color rays of a color picture tube at the left and right edge of the picture, to which Purpose with line-frequency currents a magnetic field is generated that the vertical aligns the blue with the vertical yellow (= red and green) grid lines, d a qu 1 c h g e 1; It is noted that the horizontal detachment coils (6, 7) a source for line-frequency additional currents is connected to that source With the use of a circuit arrangement for convergence correction in the corners of the image a first pair of complementary transistors (1,2) whose emitter-collector paths are connected in series, the Kollektorcn are connected to each other and on The center of a balancing transformer (3) lie, whose (n partial windings (4,5) each in series via a horizontal deflection coil (6 or 7) and via a partial winding (8 or 9) of a flyback transformer (10) lead to the reference potential, and where the bases each with an input for a controllable line frequency and with an input for a controllable frame rate sawtooth signal in connection stand, with which the corner convergence correction is controlled, that the emitter-collector paths continue a second pair of complementary transistors (16, 17) are connected in series, their collectors each at the base of one of the two complementary transistors (1,2) of the first pair, with complementary pairs connected to one another again are, and their emitters are connected to each other that the bases of the complementary Transistors (16, 17) of the second pair each via a diode (27 or 28) different Polarity connected to the taps of two adjustable ohmic voltage dividers (31,32) are both different on one side via a diode (33 or 34) Polarity to an input (35) for a positive and on the other side as well via a diode (36 or 37) of different polarity to an input (38) for lead a negative line-frequency sawtooth signal, but with regard to the Diode polarity between the two inputs (35,38) continuous feed trains exist that also the emitter of the first transistor pair (1,2) each via one preferably adjustable ohmic resistance (12 or 14) and the collectors of the second pair of transistors (16, 17) each via an ohmic resistor (20 or 21) each at a pole (13 or 15) of the operating voltage source and that the eat and the emitters of the second pair of transistors (16, 17) each have an ohmic Resistance (22 or 23, 18, 19) and in addition in series via a common ohmic Resistor (24) connected to the center of the balancing transformer0 (3) are.