DE1762181A1 - Continuous color temperature setting for color television receivers - Google Patents

Description

R.No. 956 April 25, 1968

PLI Uh / Fo

Blaupunkt-Werke GmbH, 32 Hildeaheim, Robert-Bosch-Strasse 200

Continuous color temperature setting at Color television receivers

The invention relates to a circuit arrangement for continuous Color temperature adjustment of the image reproduction in a color television receiver with amplifier stages for the color value signals Red, green and blue by a potentiometer.

For correct and individual adjustment of the color temperature of a color television receiver, it is known to provide a possibility of influencing the color tone on the receiver even with% transmission according to the PAL system. For this purpose, it is known to shift the three blocking voltages of the color picture tube against each other, for example by means of special clamping circuits or variable picture tube screen grid voltages. This has a very strong influence on the color tone in the dark parts of the picture, while the light parts of the picture are only insignificantly influenced. It is also known to influence the ratio of the color difference signals differently. However, this only results in a hue change for mixed colors, while the primary colors blue and red, as well as their complementary colors yellow and cyan, are essentially only changed in terms of their λ color saturation. Even achromatic areas are not properly influenced here.

In the case of the further known automatic control circuits that reduce the white value to low color temperatures when receiving colors move towards, a manual setting is very difficult or only possible with a lot of effort.

It is the object of the invention to provide a controller in the receiver without great effort, which allows the viewer to change the white point of the picture tube of the receiver in such a way that

0 0) 9833/1628

Blaupunkt-Werke GmbH R.Nr. 956 32 Hildesheim

that when turning the controller, the white point in the color triangle of the picture tube is changed along a curve that from the human eye is perceived as a color-neutral change. This can be achieved if, according to the invention, the gain the amplifier stages for the red and blue color value signal can be changed by a resistor network consisting of a voltage divider with three resistors connected in series exists, which connects two current negative feedback resistances or the external resistances of these amplifier stages with each other, the middle of the three resistors connected in series is a potentiometer resistor, and the wiper of the potentiometer a DC voltage potential is supplied, which in a ™ black level reproduction of the amplifier stages a current flow prevented by the three resistors connected in series.

Crosstalk between the two stages caused by this circuit can be reduced by turning the amplifier on at another point with a signal phase-shifted by 180 ° can be connected to one another via a compensation resistor or that the voltage supplied to the wiper of the potentiometer is from a voltage source with a low internal resistance is taken.

The invention is illustrated with reference to the drawings ^ Embodiments explained in more detail.

Fig. 1 shows a basic circuit with a hue control in the current negative feedback branches of the color value signal ends-tuf s,

Fig. 2 the color triangle of the picture tube with color tone control characteristics,

3 shows a color control in the output circuits of the color value signal output stages and

FIG. 4 shows a dimensioning example according to FIG. 1.

009.833 / 1628

ORIGINAL INSPECTED

Blaupunkt-Werke GmbH ^J R.Nr. 956 April 25, 1968

32 Hildestieim PLI Uh / Fo

To 'the control grid of three output stages 1, 2, 3 for the red (1), green (2) and blue (3) color value signals are the input voltages II R; U G- and U B applied by the anodes of the

Levels 1, 2 and 3 reinforced to the corresponding cathodes of the Color picture tube 4 arrive. The three stages each have a fixed current negative feedback resistor which is routed to ground from the cathodes 5, 6 and 7 and a biasing resistor 9, 10 and 11 connected to a positive voltage 8. The anodes and the screen grids of these stages are in a known manner via load resistors 12, 13 and 14 or screen grid series resistors 15, 16 and 17 are connected to the operating voltage source 18.

According to FIGS. 1 and 4, the cathode of the red output stage 1 is via a resistor 20, a potentiometer resistor 21 and a further resistor 22 connected to the cathode of the blue level. The wiper of the potentiometer 21 is via a resistor 23 to ground and via a small resistor 24 to a DC voltage source 8 or 25, the potential of which is only slightly above the cathode potential, if the control grids Black level potential is supplied. This will depend on Position of the potentiometer 21 the cathode resistors, the resistor 20 and 22 over, respectively, led to the potentiometer a variable resistor (21) placed in parallel, the variable resistance increasing for one stage, if it is decreased for the other level. This changes the current negative feedback and thus also the gain of stages 1 and 3 when the setting of potentiometer 21 is changed in the opposite sense. The ones to the grinder applied DC voltage is selected by a corresponding dimensioning of the resistors 23 and 24 so large that at cathode voltages arise from a black value applied to levels 1 and 3 result, which have the same size as the wiper voltage. As a result, the resistors 20, 21 and 22 de-energized at a black level and the color picture tube is always matched to the correct blocking voltage.

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r r

Blaupunkt-Werke GmbH R.Nr. 956 25-4.1968 32 Hildesheim PLI Uh / F ©

By appropriately dimensioning the resistors 20 and 22, with the resistor 20 having to be dimensioned larger than the resistor 22, a control curve can be set which, in the color triangle of the color picture tube according to Pig. 2 results in a dashed line 26 which is adapted to a curve 27 which corresponds to the color temperature of a black Planck radiator. This curve 27 is perceived by the human eye as a natural change in color, that is to say as neutral in color.

With a larger control range, the control curve 26 deviates more and more in the direction of red or blue. This leaves ™ e.g. by inserting resistors 28 and 29 (Fig. 1) avoid the from the cathode of the output stage 2 for the green Color value signal are led to the end points of the potentiometer resistor 21.

If there is no low-resistance DC voltage source 8 or 25 in the television receiver for-i the on the wiper of the potentiometer 21 required potential is present, it is determined by the between The common cathode resistance lying between the wiper and the ground results in crosstalk in levels 1 and 3. This crosstalk, which can easily be kept low, can be adjusted for one position of the potentiometer 21 by means of a resistor Compensate fc 30, which bridges the two stages at points that have a 180 ° phase-rotated signal, as shown in Fig. 1 is the case at the anodes of stages 1 and 3.

In Fig. 3 the voltage divider for the potentiometer 31, to which the resistors 32, 33 from the red and blue level 1, are connected to the anodes of these levels 1, 3. The potential supplied to the wiper of the potentiometer from a voltage divider 34, 35 is to be dimensioned in such a way that it corresponds approximately to the anode potential when the black level is present in stages 1 and 3, respectively. The crosstalk can be compensated for by a corresponding resistor 36 which connects the cathodes of the two stages 1 and 3 to one another. , _r

009833/1628

Blaupunkt-Werke GmbH 32 Hildesheim

R.ITr. 956 April 25, 1968

PLI Uh / Fo

Since the compensation of the crosstalk is only for one position of the potentiometer can be carried out exactly, it is best to choose the middle position of the potentiometer, as this results in the smallest deviations occur in the end positions. However, if any crosstalk is to be avoided, this can be the case The potential supplied to the wiper of the potentiometer 21, e.g. by means of an impedance converter, which produces a potential known in the art as Emitter follower switched transistor can be fed in such a low resistance that it is in relation to the other Resistances of the voltage divider 20, 22 or 32, 33 results in a negligibly small resistance value.

When using transistors as amplifiers for the color value signals, a similar circuit also results accordingly changed resistance values.

00983 3/1628

Claims (1)

Blaupunkt-Werke GmbH R.Nr. 956 April 25, 1968 Hildesheim PLI Uh / Fo- Claims 1. Circuit arrangement for continuous color temperature setting the image reproduction in a color television receiver with amplifier stages for the color value signals red, green and blue by a potentiometer, characterized in that the gain of the amplifier stages (1; 3) for the red and blue color value signal through a resistor network (20; 21; 22 or 31; 32; 33), which consists of a voltage divider with three resistors connected in series, the two current negative feedback resistors (5; 7) or the external resistors (12; 14) of these amplifier stages (1; 3) connects with each other, the middle of the three resistors connected in series is a potentiometer resistor (21 resp. 31) is, and the wiper of the potentiometer (21 or 31) is supplied with a DC voltage potential, which at a Black level reproduction of the amplifier stages, (1; 3) one Current flow through the three resistors connected in series (20; 21; 22 or 31; 32; 33) prevented. Circuit arrangement according to Claim 1, characterized in that the three series-connected resistors (2O; 21; 22), the cathodes or emitters of the amplifier stages (1; 3) connected to ground via current negative feedback resistors (5; 7) combine for the color value signals red and blue and the crosstalk of the two stages (1; 3) that occurs in a middle position of the potentiometer (21) is compensated by a resistor (30) which connects the outputs of the two stages (1; 3). 3. Circuit arrangement according to claim 1, characterized in that the three series-connected resistors (31; 32; 33) the output electrodes of the amplifier stages (1; 3) for the 0 CjjO 8 3 3 / 1628 Blaupunkt-Werke GmbH R.Nr. 956 April 25, 1968 Hildesheim 'PLI Uii / Po Combine color value signals red and blue and that crosstalk between the two stages caused by a resistor in a middle position of the potentiometer (31) (36) is compensated, which connects two control inputs with each other, which leads to the output electrodes Have 180 ° phase-shifted chrominance signal. Circuit arrangement according to Claim 1, characterized in that the resistor network (20; 21; 22 or 31; 32; 33), in particular the resistors (20; 22 or 32; 33) led to the potentiometer resistor, are dimensioned such that the setting of the potentiometer in the opposite direction changing _{parallelgeschalte.} th Gegenkopplungs- or external resistances an opposite gain change in the chrominance signal levels (1, 3j cause the shift to the reproduced white balance in the color triangle (Figure 2) of the picture tube along a curve (26) which is approximately the curve (27) corresponds to the black Planck radiator or there is a white point shift that is perceived as color-neutral by the human eye. Circuit arrangement according to one of Claims 1 to 4, da- f characterized in that opposed to current negative feedback (6) or the external resistance of the amplifier stage (2) for the green color value signal a resistor (28; 29) to one Tapping of the voltage divider (20; 21; 22) with the three in Series connected resistors is placed, in particular; each a resistor (2.8; 29) to the end points of the potentiometer resistor (21) is performed. 6. Circuit arrangement according to claim 4 and 5 »characterized in that that the resistors (28; 29) to the amplifier stage (2) for the green ^ color value signal are dimensioned such that 0 Ö9'8 3 3/1 6 2 8 Blaupunkt-Werke GmbH R.Nr. 956 April 25, 1968 Hildesheim PLI Uh / Fo a correction of the white value curve (26) in the color triangle in the direction of green. 7. Circuit arrangement according to one of claims 1 to 6, characterized characterized in that the voltage supplied to the wiper of the potentiometer (21 or 31) is a voltage source with low internal resistance. 8. Circuit arrangement according to one of claims 1 to 7, characterized in that the amplifier stages (1; 2; 3) as Output stages for the color value signals to control the color picture tube (4) are formed. 009833/1628 jams » Blank page