DE1263819B - Circuit for amplitude correction of a color subcarrier for a PAL color television signal - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H04n

German class: 21 al -34/31

Number: 1263 819

File number: T 28542 VIII a / 21 al

Filing date: May 8, 1965

Open date: March 21, 1968

The invention relates to a circuit for amplitude correction of the color subcarrier of a composite Composite video signal of the PAL color television system.

There are circuits known (Telefunken-Zeitung, H. 2, 1964, pp 116 to 119) in which the one with a PAL color carriers afflicted with phase errors due to combination with a color carrier with the opposite Phase error is converted into a color carrier without phase error. Suffering from this phase correction the color carrier has a small amplitude error.

A circuit has also been proposed by the applicant in which the color carrier has a color carrier frequency correction voltage with such a phase and one of the size of the Incorrect angle dependent amplitude is added that a color carrier freed from the incorrect angle arises. Here, too, there is a slight amplitude error in the phase-corrected color carrier.

The amplitude error mentioned is not disturbing in some cases because it is reproduced in the Billd causes no color falsification, but only a slight reduction in color saturation. In particular Cases, e.g. B. in transcoders on transmission lines, with repeated phase correction in the transmission path or in the case of high-quality receivers, it can be useful to add these as well to eliminate resulting amplitude errors.

The invention is based on the object of eliminating the amplitude error mentioned.

The invention is based on a circuit for correcting the color subcarrier of a composite composite video signal of the PAL color television system, in which a color subcarrier-frequency voltage is added to the color subcarrier to compensate for phase errors, thereby creating an amplitude-error-prone color subcarrier of a line and the phase-mirrored color subcarrier of the temporally adjacent line on the non-switched modulation axis is added to the amplitude error-prone color subcarrier via a phase rotator and an amplitude adjuster dimensioned in such a way that the correction voltage obtained in this way has the same phase as the color carrier and the amplitude error at at least two values of the phase error disappear, with either a polarity reversal lying in the path of the correction voltage, which keeps the polarity of the correction voltage constant regardless of the sign of the phase error, or one mean phase error on-circuit for amplitude correction of a
Color carrier for a PAL color television signal

Applicant:
Telefunken

Patentverwertungsgesellschaft mb H.,
7900 Ulm, Elisabethenstr. 3

Named as inventor:

Dr. Walter Bruch, 3000 Hanover

is so that the correction voltage regardless of the sign of the phase error, the amplitude of the Enlarged ink carrier.

For example, the amplitude correction voltage is added with such an amplitude that the amplitude error with a phase error of 0 ° and a value between 0 and 90 °, for example is equal to or slightly smaller than the maximum occurring phase error disappears. The amplitude correction voltage can be guided via non-linear transmission elements dimensioned in such a way that the phase error is within a certain range the amplitude error is approximately compensated. Such a non-linear transfer element for example, may contain biased diodes.

The invention is explained in more detail below with reference to the drawing.

F i g. 1 is a pointer diagram in which the ink carriers are shown;

F i g. 2 shows the course of the correction voltages as a function of the phase error; in

Fig. 3 shows an embodiment of the invention.

In Fig. 1 means α the correct, unadulterated phase of the color subcarrier, φ the undesired phase error, F the correct amplitude of the color subcarrier, K / 2 the first color subcarrier frequency correction voltage used for phase correction, C the resulting amplitude error in the phase corrected color subcarrier and / and Q the two modulation axes from which the axis / line frequency is switched. To eliminate the phase error, the phase-error-prone color carrier 6 and the color carrier 9 received in the temporally preceding line, delayed by a line duration with a delay line and mirrored at the fixed modulation axis Q are subtracted from one another. The color subtraction resulting from this subtraction

809 519/453

Claims (1)

3 4 quent voltage K is used as the color carrier frequency correction voltage K / 2 with half the amplitude. The first correction voltage K / 2 is added to the phase error color carrier frequency correction voltage K on the missing color carrier 6. Thus, the subtracter 14, in which the ink sheet 6, a phase-error-free dye carrier 5, the amplitude-and 9 are subtracted is formed gear now also a tude with respect to the correct amplitude F to the all-pass filter 20 supplied üht 5. The all-pass 20 is too small with a Po value C = F (1 - cos φ). Completed according to the tentiometer 21, the wiper of which is now connected to the phase error- a polarity reverser 24 with a further input of the free color carrier 5, a second color carrier frequency adder 11 is connected. The wiper of the Po correction voltage is added, the phase of which is equal to the tentiometer 21 so that the correction voltage K / 2 is applied to the corrective carrier 5 on the potentiometer or correct phase α of the phase error-free colorimeter 21, and its amplitude depends on the phase voltage C is divided down. The phase error φ depends, namely the amplitude is so large, the rotation of the all-pass filter 20 is, taking into account that at least two values of the phase error φ from phase rotations in the other devices so a color subcarrier with the correct amplitude F is set that the two correction voltages K / 2 F i g. 2 shows how the second color subcarrier frequencies 15 and C at the inputs of the adder 11 are obtained by a 90 ° correction voltage. C is the phase shifted from each other and the correction voltage, which for a correct correction correction voltage C has the phase α. According to the front amplitude would be necessary. Such a corrective invention is not readily available on the wiper of the Po- * ture voltage. The correction voltage C in the correction voltage C shown, which serves for phase correction, is added to the color carrier 5, as in turspannung K / 2 has the value F-sin <p and thus shown in FIG. 1, so that a color carrier is not produced the desired course of C ". According to this amplitude at the values 0 and + φ _{1 of} the phase invention, the first color carrier frequency error φ now has the correct value and between these correction voltage K / 2 by the factor k in the values only slightly the amplitude of the phase error <?, deviates from the desired value. weakened so that a Korrekturspan- 25 polarity inverter 24 reverses the polarity of the correction voltage C when NuIlnung C is formed. In the case of two values passage of the error angle φ and is used to "namely the values 0 and + <p _v is then the Kor- of the correction voltage
correction voltage C equal to the ideal correction voltage _.
voltageC, so that with these two values as with C ^ k · F -ζχηφ
a two-point adjustment results in an exact correction
is enough. Run between the values 0 and + ^ _1. . .
the two curves C and C differ somewhat, κ ■ i ■ | sm ψ \
as indicated by the dashed area 22. The evaluate. The correction voltage must be between 0 and + φ _χ remaining ampli independent of the sign of the phase error φ tudenerr is only small and always have the same sign because the ampli 'order of magnitude of 1% above the value + ψ _χ tude of the color carrier is always too small and although the curves C and C diverge quickly, they must be enlarged. The amplitude correction is In this area, however, there are practically no phase errors - then even with phase errors - ^ ₁ errors in the correct way. The values k and + φ _χ thus become effective. It can also be chosen without the polarity reverser 24 that it works at the maximum occurring phase 40 if a mean phase error is fixed error φ, ζ. B. at + 30 °, a proper ampli is set, z. B.
Correction of tuition takes place. The invention creates thus a color carrier that is freed from phase errors cpMiddle = 4p.
and still has the correct amplitude. In Fig. 3 the composite composite 45 ~, .., m ,,., _T , _w , Video signal from a terminal 1 via an adjustable ^{Then £ k mn one} ™ ^r «* ± lt ⁸ ^ ⁶ * ⁶⁰ * *" ^{eng way} Bare delay line 10 of an adder 11 pulls from the wiper of the potentiometer 21 to the adder leads. The composite video signal becomes 11, additional non-linear transmission with a band pass 12 of the color carrier with its members are switched on with diodes, which the Sidebands screened out and amplitude of the correction voltage C via a line 50 in addition 13 deform directly a first input of a subtraction stage that also over a larger area of the 14 supplied. The sifted out color subcarrier receives an exact amplitude correction due to phase error via a modulator 15, which is reached at one. Terminal 16 with a voltage of double the color claim carrier frequency, constant amplitude and a fixed 55 r
Phase of the axis Q is fed and the mirroring 1. Circuit for correcting the color subcarrier of the color subcarrier on the fixed axis Q ' caused on a composite composite video signal of a delay line 17 with the delay PAL color television system, in which to compensate for a time Line duration, the output of which is connected to a colored input of the subtracting stage 14 to a two * of phase errors the color carrier one, 60 carrier-frequency voltage added and da-The output of the subtracting stage 14 is via a color carrier amplitude divider 19 with a factor of 1: 2 to the two arises, characterized in that th input of the adder 11 is connected. In one, by subtracting the color subcarrier (6) of an adder 11, the color subcarrier 'line and the correction saving K / 2 at the mode frequency that has not been switched are added to the video signal, so that 65 axis (Q) phase-mirrored color on a terminal 23 the video voltage with a . carrier (9) of the temporally adjacent line is available phase corrected color carrier, nene voltage (K) the amplitude error-prone- The parts 13 to 17 are used to generate the first th color carrier (5) via a dimensioned Phase rotator (20) and an amplitude adjuster (21) dimensioned so that the correction voltage (C) obtained in this way has the same phase as the color subcarrier and the amplitude error (C) for at least two values (0, + (P ₁ ) of the phase error (φ _α ) disappears, with either a polarity reversal (24) lying in the path of the correction voltage (C), which keeps the polarity of the correction voltage (C ) constant regardless of the sign of the phase error (φ) , or a mean phase error (-—-) is set, so that the correction voltage (C) increases the amplitude of the color carrier (5) regardless of the sign of the phase error (φ). 2. A circuit according to claim 1, characterized in that the amplitude adjuster (21) is set so that the amplitude error disappears with a phase error (φ) of 0 ° and a value between 0 and 90 °. 3. A circuit according to claim 2, characterized in that the value between 0 and 90 ° is equal to or slightly smaller than the maximum occurring phase error (+ ^ ₁ ). 4. A circuit according to claim 1, characterized in that the correction voltage (C) is passed via non-linear transmission elements dimensioned in such a way that the amplitude error is approximately compensated for within a certain range of the phase error (φ). 1 sheet of drawings 809 519/453 3.68 © Bundesdruckerei Berlin