DE1277311B - Circuit for reducing picture errors caused by signal averaging in the PAL color television system - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H04n

German class: 21 al - 34/31

Number: 1277311

File number: P 12 77 311.4-31 (T 29822)

Filing date: November 23, 1965

Opening day: September 12, 1968

In the PAL color television system, a color carrier is still two mutually perpendicular modulation axes modulated with two color signals ((square modulation), with one modulation axis zfilenfrequent is switched by 180 °. For demodulating such a color carrier in the receiver it is known, Telefunken-Zeitung, Issue 1/2, 1963, Si 81 to 83, initially with the aid of a delay line with the delay time of a line duration, the color carriers of two consecutive ones To add rows in an adder and to subtract them in a subtracter to obtain the to separate corresponding color sub-frequency signals from each other on both modulation axes. at this electrical averaging within the FAL decoder is therefore an averaging of the color signals performed by two consecutive lines. The mode of action is based on the assumption that the color information of two consecutive lines are practically the same.

In the case of horizontal colored edges, i.e. H. Color transitions in the vertical direction, however, occur at the image reproduction by averaging the color carrier signals of two lines is an error that is reflected in a smearing of such colored edges. These errors become more bothersome, albeit im Transmission path, averages can also be carried out over consecutive lines, such as it z. B. for transcoding, German patent specification 1167 881, or for phase correction of the Farbträgersignals, Rundfunktechnische Mitteilungen, 1965, Issue 4, pp. 189 to 198, is known. The averaging the signals from successive lines can, once it has occurred, also be recorded no way to eliminate it, because it is not clear which part of the signal really belongs to the line, and which was added by averaging from other lines.

The invention is based on the object of the aforementioned averaging during image reproduction to reduce errors that occur with horizontal colored edges or to modify them in such a way that they are less annoying.

The invention is based on a circuit for reducing image errors in the PAL color television system, those with vertical color jumps due to electrical averaging over time successive lines in the transmission path and / or receiver in the reproduced image.

The invention consists in that the difference signal from the color signal of a current line and

Circuit to reduce image defects,
which by signal averaging in
PAL color television system emerged

Applicant:
Telefunken

Patentverwertungsgesellschaft mb H.,
7900 Ulm, Elisabethenstr. 3

Named as inventor:

Dr. Walter Bruch, 3000 Hanover;

Dipl.-Ing. Gerhard Mahler, 3051 Algesdorf -

the similar color signal of the temporally preceding line with approximately halved amplitude dem Color signal is added to the current line for the purpose of predistortion.

The difference signal is preferably taken from the output of a subtraction stage, the two

the inputs the color signal directly or via a delay line with the delay time of a Line duration is fed. The formation of the difference signal and the predistortion can be done in the video frequency or in the color carrier-frequency path through

be guided. Preferably, the predistortion is applied to both of those transmitted by the PAL color carrier Color signals carried out. A color subcarrier frequency causing the pre-distortion for both color signals Correction pointer that goes directly to the

Modulated color carrier can be added, can be obtained by subtracting from the modulated color carrier of a line the color carrier of the temporally preceding line, which is simultaneously made available with a delay line and which is phase-mirrored on the modulation axis that has not been switched. This reflection can e.g. B. be done in a known color carrier modifier.
The invention is explained in more detail below with reference to the drawings.

Fig. 1 shows waveforms to explain the errors reduced by the invention and the Mode of operation of the invention;

Fig. 2 shows a known modulation circuit of a PAL encoder, while in the

FIGS. 3 and 5 show modified modulation circuits according to the invention according to FIG. 2;

809 600/366

3 4

Fig. 4 shows another circuit example of the signal U + AZt of the current line the color carrier

Invention. frequency signals / of the chronologically preceding line

The same parts are subtracted with the same in the figures. So it arises at the output of the sub-reference numbers provided. Underlined letters trahierstufe 9 a color carrier frequency difference mean color carrier frequency voltage indicator, not 5 signal AE, which shows the difference between temporally underlined letters video frequency signals. consecutive lines and only at

In Fig. La it is assumed that because of the same lines, e.g. in the case of vertical color bars,

horizontally running colored edge after line 2 is equal to zero. This correction signal is in a

a color signal U divided by a value Δ U from the resistor chain 11 to half the value and

Value +1 jumps to value -1. After a ver io in the adding stage 7 the color carrier-frequency Si

delay of this signal U, for example carrier frequency in the signalE / + AU added, so that at the output of the

PAL receiver, the signal is produced according to FIG. Ib. Adding stage 7 a according to FIG. Ie in amplitude

By averaging the Signalaufspalt- predistorted farbträgerfrequente signal U + ~ AU circuit in PAL decoder will be the warning signal ²

measured Fig. Ic (solid line) obtained. 15 is created. A comparison between FIGS. 1c and la can be found in a similar manner in the F channel. Since the color subcarrier-frequency signal jV knows here that the resulting actual signal U is switched off from line to line in the phase by 180 ° by line 3 from the setpoint signal according to FIG Channel deviates, as shown by the dashed area. replaced by an adder 12. The two colors in the During line 3 are therefore not the correct, 20 amplitude predistorted color subcarrier-frequency color given by the value U = -1, but rather _gna i _e H + ^ -AU. and jV + j ^ AV a corrupted color according to U = O is written again. ^{2 2}

According to the invention, as shown in FIG. 1e, ^the adder stage 5 is made into a square-modulated one, while the transmitted color-color carrier is assembled during line 3, which then as a whole in signal U by the half of the 25 shown in FIG in the amplitude and phase before the difference amount AU between the color signal U is distorted.

line 2 and line 3 enlarged. If so. ^The composition of the farbträgerfrequenten predistorted color signal according. Ie now with the signals in steps 7, 9, 12 is effected Fig phase, delayed by one line duration same color ^{signal, the} duration of the line 8 must therefore phase exactly according to his Fig. If by an electrical mean value 30 and, for example, when a color subcarrier frequency is formed, a signal ^d i ^e ™ quarter line offset with the line frequency according to FIG. 1g is produced. A comparison between Fig. Ig ^is > ^a quarter period shorter than the exact one and Ic shows that the deviation of the actual line duration.

Signal is reduced from the target signal. The circuit shown in FIG. 3 can also be video dashed Area indicated errors (in Fig. 1h 35 work frequently. In this case, the correction would be shown) is distributed over two lines, and gate circuit 6 to 12 in front of the modulators 1, 2 although there is a slight undershoot in line 3.

and in line 4 a slight overshoot compared to FIG. 4 shows a circuit in which only one

the target value instead. The occurring maximum delay line 8 is required. The finished modulus deviation from the nominal value is only half as large as 40 lated PAL color carriers £ or the conjugate without pre-distortion, whereby a less disturbed plex color carrier F * is created via a line 13 of a picture. Adding stage 15 and also one per se bein Fig. 2, the two known PAL signal splitting circuit 16 are supplied in a known manner. Color signals U and F in two modulators 1,2 in the In a subtraction stage 17 of this circuit 16 who modulation type with suppressed carrier two by 45 subtracts the color carriers from two color carriers offset by 90 ° from one another with the following lines. Modulated by this subtrak frequency / ₀ , the phase of the tration falls with the same information content of two gers for the color signal F through a 180 ° phase-timed lines the color rotator 3 and a line-frequency switch 4 signal U that the The modulation line frequency that has not been switched is switched by 180 °. The two 50 axis corresponds to that out. As a useful signal, the color carrier frequency signals obtained in this way are output of the subtracting stage 17, the color signal ± 7 F. pushes through the pointers U_ and ± / Z, the adder 5 becomes a square-modulated PAL color signals when there is a color jump in the vertical direction R of the consecutive line not color carrier pointers £, £ *, F. . . composed. more equal, so that at the output of the subtraction stage £ * means that the complex color conjugated to £ now has a color carrier frequency difference signal carrier. AU. appears. In a synchronous demodulator 18

In Fig. 3 the correction according to the invention is now the output signal of the subtraction stage 17 independently of each other in the two ways for by means of a reference carrier with the frequency / ₀ and the color carrier frequency signals U and + / F through the phase of the pointer! / After the modulation axis guided. It will in the following for the path U loading of 60 U demodulated, so that at the output of Synschrieben: The färb obtained in the modulator 1 * 18 chrondemodulators a videofrequentes Differenzträgerfrequente signal U is formed reached unchanged signal AU, which the difference between a line 6 to an adder 7 and also represents consecutive lines. The delay line 8 with the delay wanted signal ± / F at the output of the subtraction stage 17 approximately time of a line duration to a subtraction stage 9, 65 at the output of the synchronous demodulator 18 which also supplies the color carrier-frequency signal U via no signal because it is opposite to the phase of the modules Line 10 is fed directly. In the sublation axis of U is phase shifted by 90 °, the traction stage 9 is now not switched from the color carrier frequency to the soft phase of the synchronous demodulator 18

appeals to. The video-frequency difference signal AU is modulated in a modulator 19 in the modulation type with suppressed carrier to a reference carrier with the Parb carrier frequency / ₀ and the phase of the modulation axis of U and then fed as a color S carrier-frequency difference signal AU to an adder 20.

In an adder stage 21 of the transit time demodulator 16, the color signal ± / £ corresponding to the switched modulation axis of V drops out, while the useful signal U remains. Only if there is a difference in information between successive lines in time does a color carrier frequency difference signal ± jA ¥ arise, which, according to the EZ-Ka-IaI, demodulates in a synchronous demodulator 22 along the axis of V and modulates again in a modulator 23 along the same axis with the suppressed carrier and then the Adding stage 20 is supplied. At the output of the adder 20 there is now a color subcarrier frequency difference signal, both AU. as well as ± jAK and is added via a 6 dB attenuator 26 to the per se unchanged color carrier £ in the adder stage 15. At the output of the adder 15, a color carrier whose amplitude is pre-distorted according to the invention is then available. The value ε ** AU + jAE means the difference pointer by which the not yet predistorted color carrier £ jumps from line 2 to line 3. In this circuit, the color subcarrier is pre-distorted independently of the modulator by adding a color subcarrier frequency correction voltage. If the information between successive lines is identical, this correction voltage is equal to zero. The difference signals Δ U, ± AV obtained in the synchronous demodulators 18, 22 can also be added to the video-frequency color signals U, V upstream of the modulator without remodulation in a negative feedback circuit.

F i g. FIG. 5 shows a preferred embodiment in which the color carrier frequency correction signal is not free as in FIG. 4 is obtained separately in channels U and V , but is generated directly from the difference pointer ε. In the symbol rows in FIG. 5, symbols standing vertically one below the other indicate the color signals at the individual circuit points for the respective line. The two color signals U and V are as in FIG. 2 modulated in two modulators 1, 2 according to two mutually perpendicular modulation axes and combined in an adder 5 to form a quadrature-modulated color carrier ^ PAL coder), which is fed via a line 31 to an adder 27, the output voltage of which is used as the transmitted color carrier. The modulation axis of V is again switched line-frequency by 180 °. In a subtraction stage 28, the two color carrier frequency signals U and ± jV_ are subtracted so that the complex conjugate color carrier vector C / + j V with respect to the color carrier vector at the circuit function arises at the output of this stage. The color carrier at point b is delayed by a line duration in a delay line 8 and fed to a subtraction stage 29. If the information is the same between successive lines in time, the ψα color carriers supplied to the subtraction stage 29 are identical from points c and α , so that no voltage arises at the output d of this subtraction stage. In the case of color jumps ε in the vertical direction, however, a color carrier frequency difference pointer ε is formed in the subtraction stage 29, which contains both the difference in the color signal U and the difference in the color signal V. This difference pointer is fed via a 6 dB attenuator 26 to an adder stage 27, at the output (points) of which a color subcarrier according to the invention is predistorted according to FIG. 1 is created.

In the list of symbols in FIG. 5, as for FIG. 4 it is assumed that at the end of line 2 there is a jump around the difference pointer e. During line 3, the color carrier-frequency correction signal ε is then produced at point d. This signal no longer occurs in the following lines 4 and 5 because there are no differences between lines 3, 4 and 5.

If the coder modulator 1, 2, 5 is not accessible, then the sequence of complex conjugate color carrier pointers according to symbol series b can also be obtained using a color carrier modifier according to "Telefunken-Zeitung", 1964, issue 2, pp. 116 to 119, from the series of Generate ink carrier pointer according to symbol series α .

The signal used for pre-distortion can also be pre-deformed, e.g. differentiated or via a non-linear circuit can be performed in order to achieve special effects. In addition to the pre-distortion of the color signal, the brightness signal can be compared to the associated color signal by the duration of delayed a line or two. By multiple averaging of the color signal over This is because consecutive lines in the transmission path or recipient initially receives the brightness signal has an incorrect temporal position compared to a color transition in the vertical direction, because after the averaging, the color signal of a line is different from the original color signal of this line Line and the color signals of the preceding lines. Because of the said delay the brightness signal can establish the correct temporal relationship between the brightness signal and the color transition restored and the reproduced image improved.

Claims (14)

Patent claims: 1. A circuit for reducing picture errors in the PAL color television system, which arise in the case of vertical color jumps due to electrical averaging over time successive lines in the transmission path and / or receiver in the reproduced picture, characterized in that the difference signal ( AU, AV) from the color signal ( U, V) of a current line and the similar color signal of the temporally preceding line with approximately halved amplitude is added to the color signal of the current line for the purpose of predistortion. 2. A circuit according to claim 1, characterized in that the predistortion takes place separately for each of the two transmitted color signals (U, V) (Fig. 3, 4). 3. A circuit according to claim 1, characterized in that the difference signal (AU, AV) is taken from the output of a subtraction stage (9, 12, 17, 21, 29), the two inputs of which the color signal directly or via a delay line (8) is fed to a line duration with the delay time. 4. A circuit according to claim 1, characterized in that the predistortion is video frequency he follows. 5. A circuit according to claim 1, characterized in that the predistortion is color carrier frequency he follows. 6. A circuit according to claim 5, characterized in that the modulated color carriers (£, £ *) of two consecutive lines are added in an adder (21) and subtracted in a subtracter (17) that the color carrier-frequency output signal of the adder (21 ) is demodulated in a synchronous demodulator (22) according to the switched modulation axis (from V) , that the color carrier-frequency output signal of the subtraction stage (17) is demodulated in a synchronous demodulator (18) according to the non-switched modulation axis (from U) and that the resulting video frequencies Difference signals (± AV, AU) are used for predistortion (Fig. 4). 7. A circuit according to claim 6, characterized in that the difference signals (AU, + AV) each have a color carrier frequency reference carrier with the phase of the modulation axis assigned to the signal ( are modulated by U and PO, which are added to the unchanged modulated color carrier for predistortion (Fig. 4). 8. A circuit according to claim 6, characterized in that the difference signals (AU, AV) are added to the associated video-frequency color signal (U, V) before the modulation in a negative feedback circuit. 9. A circuit according to claim 7, characterized in that as a reference carrier for the synchronous demodulator (18, 22) and the same oscillation serves as the color carrier frequency reference carrier for the modulation (FIG. 4). ίο 10. A circuit according to claim 5, characterized in that the sequence of the complex modulated color carrier (F, £ * ...) the complex conjugate sequence (£ *, £ ...) is formed, is delayed by a line duration and subtracted from the first-mentioned sequence and that the The resulting difference phasors (ε) are added to the predistortion in the first-mentioned sequence becomes (Fig. 5). 11. The circuit according to claim 10, characterized in that the conjugate complex sequence (F *, F ...) of the two to the square of the modulated color carrier (£, £ *) compound, with one color signal (U, V) modulated color carrier pointers (C /, + / Έ) is obtained before adding them in the PAL coder by subtracting them (FIG. 5). 12. A circuit according to claim 10, characterized in that the complex conjugate sequence (£ *, £ .. ·) is obtained from the complex sequence (£, £ * ...) in a modifier circuit. 13. A circuit according to claim 1, characterized in that the difference signal used for predistortion (AU, AV) is pre-deformed, for. B. differentiated, is. 14. A circuit according to claim 1, characterized in that, in addition to the predistortion, the brightness signal is delayed with respect to the associated color signal (U, V) by a period of one or two lines. Considered publications:
German Patent No. 1167 881; "Telefunken-Zeitung", 1963, issue 1/2, pp. 81 to 83, and 1964, issue 2, pp. 103 to 105, 116 to 119; "Rundfunktechnische Mitteilungen", 1965, issue 4, pp. 189 to 198. 1 sheet of drawings 809 600/366 9.68 © Bundesdruckerei Berlin