DE2904729A1 - CIRCUIT FOR ADJUSTING THE COLOR SIGNALS CONTROLLING THE IMAGE TUBES IN A COLOR TELEVISION RECEIVER - Google Patents

Description

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Licentia Patent-Verwaltungs-GmbH Theodor-Stern-Kai 1

• 6000 Frankfurt / Main 70

Hanover, January 23, 1979 KE2-Wp / rs H 79/3

Circuit for setting the picture tube controlling Färbsi signals in o ine in color television receiver

In a color television receiver with a picture tube with three Electron beams for the primary colors red, green and blue are known to control the picture tube with the three color signals R, G, B. So that a perfect color image, especially the right combination of the three colors, is achieved several settings of the color signals are required.

First of all, the color signals must be adjusted in terms of DC voltage be that in each case their black level is at that voltage value at the control electrode of the picture tube which the jet stream begins to flow, i.e. the black The value of the color signal must be set to the point at which the beam current starts, the so-called cut-off point of the picture tube. This setting is necessary individually for all three color systems and also differs from picture tube to picture tube, because the cut-off points vary from item to item. This setting is necessary so that the picture tube is still just dark when the signal value is black.

In addition, the gains of the three color signals must be correct

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be coordinated so that all three colors on the screen have an even intensity. This setting serves in particular to adapt to the characteristics of the picture tube and to the efficiency of the phosphor of the screen. This gives the relationship between the jet current of a system and the resulting brightness of the associated color on the screen.

In conventional color picture tubes with three electron guns and arranged at the corners of an equilateral triangle three separate screen grids for the three beam systems, the DC voltage level of the video signal is adapted to the Cut-off points through individual setting of the screen grid voltages. The gain is set with two adjusters in the amplifiers of two color signals. With these the gain factors s <a are set so that the The brightness intensity of the three colors on the screen is the same is.

In the so-called precision inline (PIL) color picture tubes, in which the three electron guns are not at the corners of an equilateral triangle but in a horizontal plane, the three screen grids of the picture tube are connected to one another. It is therefore not possible to individually set the point of use of the beam current on the screen grids. It is therefore necessary to provide means for setting the DC voltage level of the color signals i \ nf the beam current start point in the three paths for the color signals. However, with the shift of the point at which the kinescope current starts, the necessary gain for the color signal also changes, due to the kinescope characteristics. So there are also in the. three amplifiers for the color signals, a total of three setting options for the amplification factors are required.

In a known circuit (DE-PS 25 11 707) are the Color signals at the cathodes of the picture tube during the line blanking time with a Ta & tinmuls, on a constant

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Voltage value clamped. The power amplifier contains a negative feedback path with an adjustable resistance. With this resistor, the DC voltage level and the gain the color signals can be adjusted at the same time in the desired sense. However, this circuit works by taking advantage of one Tactile impulses at the cathodes of the picture tube. It is therefore not applicable if there is such a button at this point is not present. This is the case with known circuits, in which the clamping of the color signals takes place beforehand in a separate amplifier in the signal path.

A circuit is also known (Valvo development mediums No. 6'ia April 1976 Fig. 7) »is called between the Cathode of the picture tube and a negative feedback input of the differential amplifier stage a negative feedback path with an adjustable Resistance lies. With this resistance, however, only the DC voltage level of the color signal is at the cathode the picture tube adjustable, but not its amplitude.

The invention is based on the object of a simple circuit to create the simultaneous setting of the without utilizing a tactile pulse each for a color signal DC voltage level and the amplitude at the cathode of the picture tube enables.

This object is achieved by the invention described in claim 1 solved. An advantageous further development of the invention is described in claim 2.

In the solution according to the invention, the adjustable one Resistance in an advantageous manner in a negative feedback system inserted that through its setting the same spam position and the amplitude of the color signals at the same time the. Cathodes of the picture tube can be adjusted. It results This results in a simple setting option for these two values and a particularly simple circuit structure.

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An embodiment of the invention is based on the drawing explained. Show in it

1 shows a basic circuit diagram of the invention and FIG. 2 shows curves and a table to explain the mode of operation.

FIG. 1 shows an integrated circuit 1 which, among other things, is fed by the light emitting signal Y and the three color difference signals RY, GY, BY and which supplies the three color signals R, G, B at its outputs. These are fed to the cathodes of the picture tube 3 via the three power amplifiers 2 shown symbolically. In FIG. 1, only the signal path for the color signal U ″ representing the red color content is shown. The cathode of the picture tube 3 for the red color channel is connected to the terminal 5 of the circuit 1 via the resistor k. The terminal 5 is a terminal at which a color signal U _n fed back from the cathode of the picture tube 3 causes negative feedback. The terminal 5 i ^ t connected via the adjustable resistor 6 to the tap 7 of the voltage divider 8.9, which is at a positive operating voltage.

With the resistor 6 are the amplification of the signal at the same time U_, i.e. its ΒΑ amplitude at the cathode of the picture tube 3, and the DC voltage level of this signal at the cathode of the picture tube 3 can be set. This will be done in the following sequentially for these two parameters. ■

Figure 2 shows the signal U _ß with two different DC voltage levels and ΒΑ amplitudes. If the resistor 6 is set to a large value, the voltage division for the negative feedback voltage, which results from the ratio of the resistor k and the value from the series connection of the resistor 6 with the parallel connection of the resistors 8, 9, is relatively small. A large proportion of the voltage Uj is therefore applied to terminal 5, so that the negative feedback has a relatively large value. Therefore, the gain of the signal in the circuit 1 is relatively small. Therefore, according to Figure 2, the

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ΒΛ amplitude has a relatively small value. If now the resistance 6 is set to a non-small value, the Division of the negative feedback voltage is increased, the negative feedback is therefore lower, the gain in circuit 1 and thus the BA amplitude is also greater, as shown in FIG. 2 at the top right is.

Never shift "of the DC voltage position takes place as follows. For the following consideration, only the time period during the signal return time is considered, because the word of U" determines the DC voltage position of this signal during the signal return time voltage value always -uckl seen at terminal 5 "during dor line) 'on time, absolutely kept constant, for example to + 6V. the voltage at dam section 7 is, for example 5 ^ V. at a certain value of the resistor 6 may the DC position of Signal U _R according to Figure 2. Since the cathode of the picture tube 3 has a voltage of about 130 V, a current i · flows through the resistor '+ in the direction shown, which generates a voltage drop U ₁ .

Rs it is now assumed that the resistor 6 is set to a smaller value. Due to the action of the clamping control circuit in circuit 1, the operating points in circuits 1 and 2 are shifted so that the voltage at the cathode of the picture tube 3 increases, so that the current i through the resistor k inevitably increases. Due to the nature of circuit 1, the current cannot flow into circuit ί. This means that the rising current i also flows through the resistor 4. This control process ends when the voltage has been adjusted again through readjustment of the operating points at the cathode of the picture tube 3 so that the nominal voltage, for example 6 V, is reached again at point 5. The position of U for this case is shown on the right in FIG.

The change in the ΒΑ amplitude and the shift in the DC voltage level of the voltage U "take place in the desired

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This means that when the BA amplitude is increased, the signal U "at the cathode of the picture tube 3 shifts in a positive direction. Therefore, with the resistor 6, the DC voltage level and the ΒΑ amplitude of the signal U "can be set individually for the three cathodes of the picture tube 3 to their optimal values at the same time. These can be different for the three cathodes of the picture tube 3. In extreme cases, the equilibrium position can differ by around 50 V on the three cathodes of the picture tube. The negative feedback network 4 _t 6,7 »8» 9 shown is provided for each color signal, that is to say on all three cathodes of the picture tube 3.

In one embodiment of the invention, the components had the following values:

R _; : 56 KOhm

R ₆ : 250 ohms

R _ß : 1,300 ohms

R: 750 ohms

Circuit 1: Integrated circuit of type TDA 2530.

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Claims (2)

H 79/3 Claims J circuit for setting the color signals controlling the picture tube in a color television receiver, in each of which the DC voltage level and the amplitude of the color signal applied to the cathode of the picture tube can be set with an adjustable resistor in a negative feedback path from the cathode of the picture tube, characterized in that a Negative feedback control input (5) of the color signal amplifier (l) via the adjustable resistor (6) with the tap (7) of a voltage divider (8,9) connected to an operating voltage (+ 12V) and via a further resistor (d) is connected to the cathode of the picture tube (3). 2. A circuit according to claim 1, characterized ek g ennzeichnet ₈ that the control input (5) is controlled by a time-keyed clamping control circuit to a constant voltage value during the line retrace. 030034/0101