DE1512143B2 - Color television receiver circuit for keyed control of the chrominance signals - Google Patents

Description

The invention relates to a color television receiver circuit for keyed regulation of the potentials of the chrominance signals.

Since even small undesirable changes in potential of the individual chrominance signals disturb the color tone can, in particular white or gray tones in the picture be reproduced discolored, it is known to separate to provide a further control of the automatic gain control of the receiver, which regulates these undesirable changes in potential.

For this purpose it is known to use control or clamping circuits to establish a reference potential during the Keep line blanking constant. However, there are already small glitches or residues of the ink carrier can strongly influence such a regulation and even small changes of components, how they z. B. by tube aging, temperature fluctuations and other external influences, require a change in the setting of the regulation, which cannot be carried out by a layperson, these control circuits are insufficient. This is especially true for receivers that use the DC voltage potential from the video rectifier over the individual steps to the picture tube.

It is now the object of the invention to enable a control with a steep control steepness that largely independent of interference signals, residues of the ink carrier and changes in components undesired changes in the chrominance signal potentials due to aging, temperature influences, etc. corrects.

This can be achieved if, according to the invention, a keying device is provided in the receiver is that keyed a reference potential in a signal fed to the color output stages during the line blanking interval and a keyed control circuit is provided in the manner of the known keyed contrast control circuit, which is in an output circuit of the color output stages to the keyed-in reference level generates a control voltage which is sent to the amplifier stages for the chrominance signals and / or the color output stages.

The reference potential is preferably a pulse with a constant level. This allows everyone Use potential changes for regulation that are the reference level of the as far forward in the signal path as possible keyed, constant pulse experiences until it has passed the output stages, whereby a change the pulse shape only plays a subordinate role with a corresponding selection of the tactile pulses.

This circuit arrangement is particularly suitable for color television receivers with a separate control the color picture tube with the three color value signals blue, green and red are provided over which the horizontal sync pulses provided luminance signal is performed, and in which the sync pulses are blanked. Instead of the sync pulses will then, e.g. B. in a further stage, the pulses provided with a constant reference level keyed in. These then also exist in the case of the basic color signals behind the color output stages can be controlled by separate keyed control stages for the separate control of the individual chrominance signals be used.

With a corresponding choice or deformation of the key pulses for generating the keyed control voltage is a keying to the reference level at a point in time just before the bursts possible so that blanking of the color sync signal in the color channel is not necessary. Through this falsifications of the color value signals, in particular due to any remaining color carrier residues, avoided on the color signal.

The invention is explained in more detail with reference to the embodiment shown in the drawings.

The luminance signal 2 with synchronous pulses directed towards the negative is applied to the base of an npn transistor 1, which serves as a Y amplifier. The amplified luminance signal Y is tapped at the emitter of this transistor 1, which is connected to ground via a load resistor 3, and fed to the F inputs of a matrix 4, where together with the (BY) and (R - y) color difference signals from the synchronous demodulators 5, 6 the color value signals B, G and R are formed. These three color value signals are each amplified in a color output stage 7, 8 and 9 and fed to the cathodes of a three-beam color picture tube.

Simultaneously with the luminance signal, a winding 10 reaches the base of the transistor 1 of the line output transformer via a capacitor 11, the tap of a grounded Voltage divider 12, 13, via a decoupling resistor 14 and a diode 15, to the negative directed line retrace pulses 16, which de-energize transistor 1 during the blanking intervals. So that the base of the transistor 1 operated in the collector circuit, its collector operating voltage Receives via a resistor 17 and its collector via a capacitor 18 in terms of alternating current is connected to ground, no blanking pulses that are too large are supplied, is the one connected to ground Part of the voltage divider resistor 13, a diode 49 connected in parallel with its anode Mass lies. This flattens the negative pulse peaks of the return pulses and increases them Ground potential clamped. These impulses push the signal input onto a base resistor 19 reaching base potential of transistor 1 of about + 7VoIt down so far that the transistor 1 is de-energized.

At the same time, the output voltage at the emitter of this transistor receives a pulse from one Another npn transistor 20 in a collector circuit, the emitter of which has the same load resistance 3 is connected like the transistor 1. The collector of this transistor 20 receives its operating voltage via a small resistor 21, while the base bias voltage by a base voltage divider 22, 23 is fixed. The base of this transistor 20 also consists of a winding 24 of the flyback transformer positive line retrace pulses 160 fed through resistors 25, 26, which by a Zener diode 27, which is connected between the connection point of the resistors 25, 26 and ground is to be kept at a constant pulse amplitude. This will be in the previously released Blanking intervals of the luminance signal reference pulses that have a constant amplitude exhibit.

The same winding 24 of the flyback transformer is directed towards the positive Line return pulses via a delay element 28

and a differentiating element 29, 50, 51 and a capacitor 30, 31 and 32 each on three approximately synchronized sensing stages 33, 34 and 35 for generating a sensed control voltage, the pulses 63 being deformed and delayed in such a way that a forward positive needle pulse 64 results, which is temporally in the blanking interval before the color sync signal. The sensing stages 33, 34 and 35 are also equipped with npn transistors, their emitters are connected to the positive pole 36 of an operating voltage source, at which one end of the base voltage dividers 37, 38, 47 or 39, 40, 46 or 41, 42 , 45 and a discharge resistor 43 each. The other end of the discharge resistors is connected to the capacitor 32 or 30, 31 and via the anode-cathode path of a protective diode 44 to the collectors of the transistors 35 (or 33, 34). The output signal of one of the color output stages 7, 8 or 9 is applied to each base of the transistors 33, 34 or 35 via a divider resistor 45, 46 or 47. During the positive needle pulses 64, currents flow through the transistors, the magnitudes of which depend on the potential differences between the divided reference signals and the operating voltage source 36. The capacitors 30, 31 and 32 are charged to a potential which is proportional to the instantaneous values of the currents and which can be used for regulation. While the control voltage from the sensing stage 35 for the color value signal R is fed via a resistor 48 to the base of the (R - Y) synchronous demodulator and is transmitted from there as a bias voltage together with the DC voltage value from the demodulation of the matrix 4, the control voltage comes from the Probe stage 33 for the color value signal B in the same way via the (B -! ^ - synchronous demodulator on the matrix 4. The control voltage from the probe stage 34 for the color value signal 6 is fed directly to the matrix 4, in which it, like the other control voltages , matrix stages which pass on the DC voltage value to the respective color output stages, with these control voltages ensuring that the potential that has been scanned always maintains the same set value., 45

The protective diodes 44 prevent the push-button transistors 35 from being caused by a negative collector voltage operated inversely. To avoid that - especially with an unfavorable setting the brightness and contrast regulator - a key level falsification takes place, the z. B. by different Transistor storage times or repercussions is caused when the chrominance signals over the reference level of the keyed pulse amplitude, d. H. in an area of blacker than black are, the bases of the tactile transistors through a common base resistance of all three transistors 50 of the base voltage divider 37, 38, 47 or 40, 39, 46 or 41, 42, 45 via a resistor 51 a part of the same pulse voltage is supplied, which is also used for sampling the control voltage are used. This becomes the reference level of the keyed in pulses at the time of keying increased by a constant value.

By means of a common, adjustable change in the operating points of the push-button transistors 35 (33, 34) a brightness control is possible or allows an opposite shift of the operating points, as shown in the drawing, a color setting, that of the color taste setting or an adaptation of the color tone to the lighting conditions makes possible in the playback room. For this purpose there is a potentiometer with its tap connected to ground 52 is provided, one end of which is connected to the base of the transistor 35 via a respective resistor 53, 54 and the probe stage 34 is connected, while the other end is connected via a further resistor 55, 56 is connected to the base of the probe stage 33 and also to the base of the probe stage 34.

Choosing the sampling time shortly before the color sync signals prevents signal residues the blanking intervals that may not be completely cleared at the beginning and end of the blanking interval and the color sync signals can influence the control voltage. The color bursts need therefore not to be blanked from the chrominance signals, which at the same time ensures that Changes in the DC voltage component of the color value signals can arise due to im Remnants of the color carrier that are present in the chrominance signal arise. This paint residue that is a very different one Can have size, result in a DC voltage after demodulation, which the Falsify the DC voltage component of the color value signals. You are by the invention Control circuit regulated if ensured by avoiding blanking of the color sync signals is that these color carrier residues are not at the time of sampling when the control voltage is obtained be blanked with.

Claims (14)

Patent claims: 1. Color television receiver circuit for keyed control of the potentials of the chrominance signals, characterized in that a keying device (20) is provided which is inserted into the Color output stages (7, 8, 9) supplied signal during the line blanking interval a reference potential keys, and that each color output stage a keyed control circuit (33, 34, 35) of the type known keyed contrast control circuit is connected downstream, which generates a control voltage scanning on the keyed reference level, the the amplifier stages for the chrominance signals and / or the color output stages (7, 8, 9) is fed. 2. Color television receiver circuit according to claim 1, characterized in that the reference potential is a pulse (160) with a constant reference level. 3. Color television receiver circuit according to claim 2, characterized in that each Color output stage (7, 8, 9) an arrangement for generating a control voltage by keying has the reference level of the input pulse. 4. Color television receiver circuit according to one of claims 1 to 3, characterized in that that the arrangement for generating the control voltage at the external resistor (45, 46, 47) of the Color output stages (7, 8, 9) is connected. 5. Color television receiver circuit according to one of claims 1 to 4, wherein the color picture tube is controlled separately with the three color value signals blue, green, red, characterized in that that a blanking stage (1) is provided via which the horizontal sync pulses see luminance signal (2) is performed that in the blanking stage (1) the horizontal sync pulses are blanked and this signal is fed to a further stage (20), which in the blanked blanking gaps in a reference potential. 6. color television receiver circuit according to claim 5, characterized in that the blanking by a pulse (16) from the line deflection stages (10) and the keyed Pulse is also formed by a pulse (160) from the line deflection stages (24), wherein this pulse (160) is limited to a constant amplitude by a stabilizing circuit. 7. color television receiver circuit according to claim 6, characterized in that the stabilizing circuit is a zener diode (27). 8. color television receiver circuit according to claim 6, characterized in that the blanking by a pulse (16) from the line output transformer. 9. color television receiver circuit according to one of claims 5 and 6, characterized in that that each of the color output stages (7, 8, 9) for the blue, green and red signal has a key stage (33, 34, 35) is assigned to generate a sampled control voltage and the control voltages the input of the matrix (4) and / or the base of the synchronous demodulators (5, 6) are. 10. Color television receiver circuit according to one of claims 5 to 9, characterized in that that each of the color output stages (7, 8, 9) for the blue, green and red signal has a key stage (33, 34, 35) is assigned to generate a sampled control voltage and an operating voltage the key steps can be adjusted in such a way that a brightness control results. 11. Color television receiver circuit according to one of claims 1 to 10, characterized in that that for keying in the keyed control circuit pulses (160) from the line deflection stages (24) are used, which are passed via a pulse shaper, by delay (28) and differentiation elements (29, 50, 51) are reshaped in such a way that they have a front needle pulse (64) with which they are shortly before their arrival of the color sync signals to the reference level of the keyed in pulse. 12. Color television receiver circuit according to one of claims 1 to 11, characterized in that that a transistor (33, 34, 35) is provided in the keyed control circuit, the base of which the output signals of a color output stage (7, 8, 9) together with an additional pulse voltage (64) are supplied, the reference level of the keyed-in pulse through the additional pulses (64) (160) can be increased with a constant value at least at a point in time in which the keying to generate the control voltage by applying the key pulse to another Electrode of the transistor takes place. 13. Color television receiver circuit according to one of claims 1 to 12, characterized in that that each color output stage (7, 8, 9) has a sensing stage (33,34,35) for generating a sensed control voltage is assigned and the operating points of the key stages (33, 34, 35) are changed in such a way that that in the reproduced picture hue deviations are adjustable that an adaptation to the Allow playback space and / or color taste. 14. Color television receiver circuit according to claim 13, characterized in that for the A potentiometer (52) is provided for setting the operating point of the key stages. 1 sheet of drawings