DE2408142B2 - CIRCUIT FOR ADJUSTING COLOR TONE IN A PAL COLOR TELEVISION RECEIVER - Google Patents

Description

The invention relates to a circuit for adjusting the hue in a PAL color television receiver with two each a circuit for the separate recovery of the chrominance signals having color signal paths, which for opposite change in the amplitude of the two chrominance signals has a potentiometer whose Ends are connected to the two chrominance signal paths via a capacitor each and their tap is due to mass.

One such circuit for adjusting the hue is known from DT-AS 11 78 892, in which the amplitude the chrominance signals by changing the series resistance of an active component (tube or transistor) is changed. The known circuit has two tube amplifier stages in a cathode base circuit with cathode resistors in the respective cathode lines. By one between the two The potentiometer lying on the cathode connections are the alternating voltage values of the two cathode resistors changed in the opposite sense. However, this changes the negative feedback of the tubes and thus also the reinforcement of the two tubes in the opposite sense. If the tap of the Potentiometer is brought into an end position, so! the neighboring cathode resistance over one Capacitor with a large capacity is short-circuited in terms of alternating voltage and the negative feedback is on equals zero. However, the advantages of negative feedback are lost. Now there is the amplifier tube with short-circuited cathode resistance delivers its full gain, this leads to the fact that the larger Output signal increases excessively and is thus disturbed, which leads to deterioration of the picture. The output characteristics of the known circuit as a function of the tap position are shown in FIG. 2 shown.

In the known circuit, the negative feedback effect could only be achieved by a capacitor with a lower (15 Capacitance can be maintained, but the use of such a capacitor in the in Frequencies in question, namely 2 to 5 MHz, in

is not possible in practice.

In contrast, the invention has the object to the circuit according to the prior art improve so that there is a larger, distortion-free adjustment range. . "...,

This object is achieved in that in each chrominance signal path in front of the connection point of the respective, with the potentiometer connected capacitor there is a resistor, which together with the potentiometer forms a voltage divider.

Changing the potentiometer does not change the bias voltage of the active elements (transistor, tube), but only divides the voltage of the output signal of the amplifier circuit. This has the advantage that the chrominance signal does not increase excessively, even if the tap of the potentiometer is brought into one of the two end positions. The ideal characteristic curves for the output level of the chrominance signals, which can be seen in FIG. 5, are thus obtained. From the comparison with Fig. 2 is! it can be seen that the circuit according to the invention provides a larger, distortion-free adjustment range.

In a preferred embodiment of the invention, there is a resistor in each chrominance signal path upstream transistor operated as an emitter follower.

Embodiments of the invention are described in more detail with reference to the drawings. It shows

Fig. 1 is a block diagram of a demodulator of a color television receiver of the PAL-D type with the known device for color adjustment,

2 shows the characteristic curves of the voltage level of the output signals as a function of the tap position of the potentiometer in the circuit according to FIG. 1,

3 shows a block diagram of a demodulator of a Color television receiver of the PAL-D type with a device according to the invention for color adjustment,

Fig.4 is a circuit diagram of part of the in Fig.3 illustrated device and

5 shows the characteristic curves of the voltage level of the output signals as a function of the tap position of the potentiometer in the circuit according to the invention according to FIG. 3.

For a better understanding, the invention is applied to a PAL-D color television receiver described. However, the invention can be applied in the same way to any other type of PAL color television receiver be applied.

It is first referred to FIG. 1 referred to. The PAL color television receiver shown there shows in known manner on a bandpass filter 1, through which a chrominance signal from the received Color television video signal is disconnected. The chrominance signal output by the bandpass filter 1 in the form a modulated subcarrier is a delay line 2 and also directly an adder 4 and a subtracter 3, the delay line 2, the adder 4 and the subtracter 3 form an isolating circuit.

The signals emitted by the subtracting stage 3 and the adding stage 4 via channels U and L ₁ are fed to f # _ γ), and (B- V / signal demodulators 5 and 6, which are acted upon by a reference oscillator (not shown) (B- y> signal demodulator 6 acted on directly by the reference oscillator, and the (R- V ^ -Signaldemodulator 5 is acted upon by the same reference oscillator via a series circuit, which essentially

Chen is composed of a 90 ° phase shifter (not shown) and a reversing switch or a so-called PAL switch (not shown) which is operated for alternating line periods, whereby the (B-Y) and (R- V> color difference signals can be obtained via the demodulators 5 and 6, respectively.

These color difference signals are fed via channels L ₁ and L ₄ via respective amplifiers 7 and 8 to a matrix circuit (not shown), from which red, green and blue signals can be picked up for application to grids, not shown, of a color tube.

The arrangement described so far and its operation are known, and for the sake of brevity of the description details are therefore omitted.

In the circuit shown in FIG. 1, a color value regulator is provided in the amplifiers 7 and 8. An amplification transistor Tr ₁ forms part of the amplifier 7. The base of the transistor 7η is connected to the R- ^ demodulator 5 and the collector is connected to a voltage source + V _B and the matrix circuit. The amplifier 8, which has an amplification transistor Tr _{2, has a similar one} Arrangement on.

Between the emitters of the amplifier transistors Tr ₁ and Tr ₂ of the amplifiers 7 and 8, a variable resistor Rv inserted and varies the bias of the transistors Tr ₁ and Tr _{2 are} different. The variable resistor can be set by hand by the user of the television receiver.

When, during operation, the movable tap of the variable resistor Rv, which is grounded, is moved to reduce the emitter resistance of the transistor Th, the gain of the transistor Tr _{2 increases} so that the amplitude of the demodulated (B- V / color difference signal increases Decreasing the emitter resistance of the transistor Tr ₂ results in an increase in the emitter resistance of the transistor 7h and therefore a decrease in the amplitude of the demodulated (R- V / color difference signal.

The resulting voltage level of the chrominance signals (X \ üy Er- y and V for E _B -γ) as a function of the tap position of the potentiometer R ν irt in FIG. 2 shown. This has the disadvantage that, even if the tap of the potentiometer is set in such a way that the same output voltages occur, the difference in the output voltages increases in a position changed from the center position. Especially when the tap is in the end positions on the potentiometer, the larger output signal is disturbed, which leads to a deterioration in the image.

This disadvantage is avoided by the circuit arrangement shown in FIG. The color value controller has a pair of amplifier transistors Tra and Trb, which are each connected on the channels L \ and L ₂ between the adding stage 3 and the subtracting stage 4 and the demodulators 5 and 6, and a single variable resistor Rx.

The base of the transistor Tra is connected to the adder 3, the emitter is _{grounded via a resistor Ae 1} and also connected to the demodulator 5 via a resistor R3 , and the collector is connected to the voltage source + Vb and also to the collector of the transistor Trb . The base of the transistor Trb is connected to the subtracter 4, while the emitter thereof is grounded via a resistor Re ₂ and also connected to the demodulator 6 via a resistor A ».

The variable resistor Rx, the movable tap of which is grounded, has a pair of terminals, one of which has a common connection point between the resistor Ri and the demodulator 5 via a capacitance Ci and a resistor R ·, and the other of which has a common connection point between the Resistor Ra and the demodulator 6 is connected via a capacitance C ₂ and a resistor Rb .

In this circuit arrangement, similar to the previous one, an actuating shaft (not shown) is connected to the movable tap of the resistor Rx and led out of the television receiver housing so that the user can adjust the resistance of the resistor Rx as desired.

In the following, the operation of the in Fi g. 3 described color value controller. For abbreviation, the setting of the amplitude of the (R-Y) chrominance signal, which comes from the adder 3, is considered, and as far as this is considered, the control device in the FIG. 5 can be represented.

If in Fig. 4 Zf represents the emitter voltage of the transistor Tra , the level of the output voltage Er-y applied to the demodulator 5 can be expressed in the following way:

Rx + R ₅

Therefore, if the resistance value of the resistor Rx decreases, then the voltage level Er-y also decreases

is shown by the solid line λ "in FIG. 5 shown way.

With regard to the level of the output voltage Eb- y which is supplied to the demodulator 6, an equation similar to the above can be established; with a decrease in the voltage level Er-y , the voltage level Eb- υ increases in the area indicated by the dashed curve V in FIG. 5. This is possible because the variable resistor Rx is used to set the two emitter voltages of the transistors Tra and

.45 Trb is shared. From the ideal characteristic curves of the output level of the chrominance signals shown in FIG. 5, it can be seen that the color value regulator has a large, distortion-free adjustment range.

The color regulator shown in Fig. 4 does not have to be always be inserted between the isolating circuit and the demodulators 5 and 6, but can also between the demodulators 5 and 6 and the amplifiers 7 and 8 or between the amplifiers 7 and 8 and the Be switched matrix circuit.

From the above description, it can be seen that the phase adjustment of the vector component of the chrominance signals can be carried out in a desired manner. Since this phase adjustment is not at the same time a Reducing the length of the vector component will not change the color of the color television tube reproduced images but the hue changed. In other words, this is the one described here Color value slider very useful when the user

fts of a PAL color television receiver the hue, for example the pale tone of a human Face to a normal flesh-colored tone.

For this purpose 2 sheets of drawings

Claims (2)

Patent claims: 1. Circuit for color adjustment in a PAL color television receiver with two color signal paths each having a circuit for separate recovery of the chrominance signals, which has a potentiometer to change the amplitude of the two chrominance signals in opposite directions, the ends of which via a capacitor with the two | _U chrominance signal paths are connected and whose tap is connected to ground, characterized in that in each chrominance signal path there is a resistor (R 3 or R 4) in front of the connection point of the respective capacitor (CX or C2) connected to the potentiometer (Rx) which, together with the potentiometer (Rx), forms a voltage divider. 2. A circuit for adjusting the hue according to claim 1, characterized in that a transistor (Tra, Trb) operated as an emitter follower is connected upstream of the resistor (R 3 or R 4) in each; o chrominance signal path.