DE1281486B - Process for setting the color tone in color television sets and circuit arrangements or setting devices for their implementation - Google Patents

Description

Method for adjusting the color tone in color television sets and circuit arrangements or adjusting devices for their exercise. The invention relates to a method to achieve a hue adjustment in gain channels for difference signals in color televisions as well. Circuit arrangements for their exercise, together with setting devices.

To simplify the structure and to achieve better, more compatible Behavioral color television receivers usually work so that first the three Color difference signals B-Y, R-Y, G-Y and the luminance signal Y are amplified separately will. Signals amplified in this way then become control electrodes of a three-beam color picture tube supplied, and only then in this tube the three primary color signals B, R and G can be recovered. In this type of receiver, therefore, are the primary color signals withdrawn from direct influence, so that the respective color difference signals change are, but in comparison to the basic signals different color difference signals must be taken into account accordingly.

A circuit arrangement for the receiver color setting has become known, where the two color difference signals are recovered separately by there means are provided for changing both color difference signal amplitudes in opposite directions (see German Auslegeschrift 1178 892/1 10. 1964). The aim there is advantageously that these circuit arrangements can also be used when differential signals are color subcarrier frequencies or video frequency per se in their correct size in the receiver unadulterated will.

This is a hue setting that is disadvantageous - For example, by increasing the color difference signal R-Y after previously treated Basic color signals B, R and G - not only positive signal components and thus saturation the color components in the positive R-Y axis are increased, but also at the same time negative signal components with corresponding saturation in the negative R-Y axis lying color components. But this is not a change in color tone after a certain one Preferred direction, as z. B. with a change in a basic color signal R, B or G would be achieved. This change in color corresponds to one in the NTSC level Shifting of the color points only in a single preferred direction. With the well-known Circuit arrangement, however, the I and Q amplitudes are in opposite directions without taking into account changed from their polarity, for example from a yellowish orange a pure orange arises, while the blue at the same time turns towards green wanders. The method according to the invention, on the other hand, effects a hue regulation by that each of the two color difference signals according to positive and negative signal components is separately adjustable in a preferred direction. This ensures that, for. B. the hue is changed only in a preferred direction without an opposite direction simultaneous change in saturation of the complementary color occurs, which counteracts the desired change in color, as was previously the case with the state of the art treated circuit arrangement is the case.

In a further development of the method according to the invention, the color difference signals can also be regulated continuously or only in stages so that upon enlargement positive signal components at the same time the negative signal components are reduced or, conversely, when the positive parts are reduced, the negative, complementary parts become Increase signal components. As a result, a change in color becomes more desirable Preferred direction accordingly hand in hand with a reduction in the complementary color go, so that the desired color change is still supported.

The electrical separation of positive and negative parts of the Color difference signals allows a separate influence on the saturation of the The color belonging to the positive signal component differs from the color belonging to the negative signal component and to the aforementioned complementary color.

Claims 3 to 7 then contain various circuit arrangements protected for carrying out method steps according to the invention according to claims 1 and 2, which in detail at the end of the description of the individual figures of exemplary embodiments be treated.

Finally, in claims 8 to 10 are adjustment devices for previously discussed circuit arrangements protected, for which in turn an embodiment according to FIG. 5 will be described later.

For this purpose it is with color television receivers to be coordinated with each other Operating and control voltages known (Austrian patent 191482) that operating and control voltages of the device from time to time for commonly used three Voltage divider for the construction of three different colored sub-images composing screen image can be readjusted in such a way that the adjusting elements for at least two of these color tensions by means of a common handle are to be regulated, whereby they are controlled by various movements of this handle can be influenced both independently and simultaneously. It So this is a readjustment from time to time during the practical Use of a receiver that was set correctly during manufacture in the factory Switching elements for color character voltages or bias sources to avoid any To correct upset moods again. For this it is sufficient if only two voltages the three color voltage dividers that are actually present can be readjusted to one another.

The adjustment device according to the invention for previously protected special Circuit arrangements are characterized by the fact that two-pole n-stage switches of the two color difference signal amplifiers in a known manner with their axes Mounted vertically one above the other via a common Hebey = in n2 positions can be switched on, with the controller then also in a manner known per se, are arranged vertically with their axes operable via this lever or in more useful Further development then around this lever in a circle corresponding to the NTSC color plane Colors are arranged. This then results in color point shifts in each color plane; according to the method according to the invention but only in a single preferred direction, each generated by a stick-like movement of just a single setting lever.

The inventive method concepts are shown in the figures Hand of circuit arrangements together with adjustment devices explained, namely shows F i g.1 the B-Y / R-Y plane with different colored points, F i g. 2 to 4 different Circuit arrangements with continuous control of the color difference signals, F i g. 5 an adjusting device of the two controllers according to the switching arrangements of F i G. 2 to 4, -F i g. 6 shows a circuit arrangement with switch action for the claimed Procedure.

For the representation according to Fig. 1, the following relationship is to be assumed. If two linearly independent color difference signals are selected (e.g. BY and RY), each color point can be adjusted within the scope of the changes in its components (± BY; ± RY) due to an amplitude change in these two difference signals that acts in opposite directions on positive and negative signal components be moved in a freely selectable preferred direction. In FIG. 1, for example, two color points 1 with yellow-orange and point 2 with blue-green are shown in the BY / RY plane. According to the method of the invention, positive and negative color components are now processed separately, so that, for. B. the color point 1 shifted to 1 ' creates a color with more red. The yellow-orange has become a pure orange. At the same time, the color point 2 is shifted to 2 ' , where the negative RY component. has become smaller. In point 1 ' the positive (RY) component has increased, while in color point 2' the proportion of the color - (RY) which is complementary to the + (RY) color has been reduced. The blue-green becomes a pure blue. Both effects support each other because when a color component is increased in one direction, the complementary color component of the color difference signal is reduced at the same time, as is the case, for example, with the circuit arrangement according to FIG. 2 is to be realized. There is a color difference amplifier tube with 3 z. B. for signal RY, to the external resistance 4 of which two oppositely polarized diodes 5 and 6 are connected, the connections of these diodes facing away from the anode of the tube 3 being connected to a linear regulator 7 whose wiper 10 is connected to a voltage divider 8 / 9 is that for zero color saturation, the wiper 10 is at the same potential as the connection point of both diodes 5/6 with resistor 4. In the presence of a color difference signal, the positive components via diode 6 and the negative components via diode 5 are each connected to a terminal of the controller 7. Depending on the grinder position 10 , the proportions are charged equally or differently. When this balance regulator 7/10 is positioned to the left, the negative signal components are more heavily loaded than the positive ones, ie there is a corresponding shift of the relevant color difference signal in the positive direction and vice versa.

In Fig. 3 shows a further circuit example for the method according to the invention. Here is the regulator 7 with diodes 5/6 in the voltage divider circuit 5/6/7/11/12 of a voltage negative feedback acting from the anode of the tube 3 on its control grid. The series resistor 11 is said to have a high resistance compared to the resistors 4 and 7. The slider position of the balance controller 7 determines the degree of negative feedback for the positive and negative components of the color difference signal. For example, if the slider is in the right half, the positive negative feedback components of the signal are more strongly suppressed, ie they are amplified more than the negative components. There is a shift in the positive direction.

Another circuit arrangement is shown in FIG. 4 shown. Here diodes 5/6 are located between the control grid and the ground of a color difference signal amplifier tube 3. In conjunction with the balance controller 7 and the parallel linearization resistors 14 or 15, they form the leakage resistance of a voltage divider, via whose series resistor 13 the color difference signal is fed. A bridge demodulator symmetrical to ground can also be used as the signal source, so that DC voltage compensation can be dispensed with.

If two color difference signal amplifiers, e.g. B. (RY) and (BY), provided with a balance controller 7, so they can in a setting device according to FIG. 5 can be combined. It is a kind of "stick circuit", with the lever 16 of which both balance regulators 7-z. B. belonging to the (BY) amplifier or 7 'belonging to the (RY) amplifier - can be operated. In this way, a color point can be shifted in any preferred direction. The direction of movement of the “stick 16” roughly corresponds to the direction of displacement of the colored dots in the NTSC plane. A colored wreath correspondingly arranged around the lever 16 facilitates the desired color setting.

According to FIG. 6 is a simple remote control of the hue setting possible which circuit arrangement of that of FIG. 4 is similar. The advantage This circuit is based on the fact that the diodes are driven with direct current, with the help of a circuit arrangement that does not require shielding. According to the invention becomes a multi-stage, two-pole switch 17 in the grid circle of the color difference signal amplifier used. The diodes 5/6 are connected via high-resistance series resistors 24/25 Reverse voltages of a few volts are supplied. These blocking voltages are in the middle position of the three-stage switch, for example, short-circuited, so that both signal components of the color difference signal can be attenuated evenly. In the right locking position the switch 17 remains z. B. the -f- (B-Y) signal in the grid circle of the assumed (B-Y) amplifier 3 attenuated, while the - (B-Y) signal component is now effective becoming blocking of diode 5 is fully reinforced. That means one on the anode side Increase in a certain preferred direction, in the assumed example in a positive direction (B-Y) direction, ie from point 2 to 2 "in FIG. 1. With this type of regulation, always only a single signal component of a color difference signal changed and the complementary share held constant. The same switch is z. B. also in the (R-Y) amplifier. By preferably three locking positions of each switch in an arrangement according to FIG. 5, in which case the balance controls 7/7 'through each a switch 17 or 17 'are replaced, a total of nine locking positions are possible, which is equivalent to eight different color changes on the edge of the circle with color segments indicated or with a middle position. It is this according to the invention Switching arrangement in connection with the multi-stage switch to a very effective and impressive, depending on the subjective taste adjustable device for changing of the color matched to the environment.

Claims (10)

Claims: 1. Method for adjusting the color tone for color television sets, in particular for color television receivers, characterized in that each of the two Color difference signals (R-Y, B-Y) according to positive and negative signal components is separately adjustable in a preferred direction. 2. The method according to claim 1, characterized in that the color difference signals are so continuous or be regulated in stages that with increasing positive signal components at the same time the negative proportions are reduced or, in the case of decreasing positive proportions Proportions are increased accordingly to the negative complementary signal components. 3. Circuit arrangement for carrying out a method according to claims 1 and 2, characterized in that, from one electrode of the color difference amplifier tube (3) starting, two diodes (5, 6) with the cathode and anode connected against each other and the other two ends of the diodes (5, 6) through a potentiometer (7) are bridged as a balance controller whose tap leads to ground. 4. Circuit arrangement for carrying out a method according to claims 1 and 2, characterized in that that in each case at the control grid of a color difference signal amplifier (3) at least two diodes (5, 6) with opposite polarity via two voltage dividers (18, 19 or 20, 21) against Ground are performed and correspondingly negative in their connection points (22 and 23) or positive reverse voltages to the diodes (5, 6) via high-value resistors (24 or 25) are introduced via a between the voltage divider connection points (22 or 23) to connect the inserted two-pole switch (17) alternately to ground are (Fig. 6). 5. Circuit arrangement according to claim 3, characterized in that that parallel to the working resistor (4) of a color difference signal amplifier tube (3) two diodes (5, 6) connected to each other and connected to the anode of the tube (3) remote side of the diodes are connected to one another via a controller (7) whose Slider (10) leads to the tap of a voltage divider (8, 9), which is so dimensioned is that in the absence of a chrominance signal the tap is at the same potential as the anode possesses (Fig. 2). 6. Circuit arrangement according to claim 3, characterized characterized in that the diodes (5, 6) with regulator (7), whose wiper to ground lies, in the negative feedback branch anode / grid of the amplifier tube (3) via a Resistor (11) and capacitor (12) are connected (Fig. 3). 7. Circuit arrangement according to claim 3, characterized in that the diodes (5, 6) are connected in parallel with Linearization resistors (14, 15) and the controller (7) connecting them with his on Ground potential lying wiper (10) are connected as a grid bleeder resistor (Fig. 4). B. Setting device for circuit arrangement according to claim 3 or a subsequent one, characterized in that the two-pole n-stage switch (17) of the two color difference signal amplifiers in a manner known per se with their Axes vertically mounted on one another via a common lever (16) in n2 positions can be switched on (FIG. 5). 9. Apparatus according to claim 8, characterized characterized in that the controller (7) in a known manner perpendicular to their Axes are arranged to be operable via a lever (16). 10. Device according to the Claims 8 and 9, characterized in that around the lever (16) is circular NTSC level corresponding colors are arranged. Considered publications: German Auslegeschrift No. 1178 892; Austrian patent specification No. 191482.