DE2908501A1 - Colour correction system for video recorder - compares phase and amplitude of reference signal in horizontal synchronisation signal - Google Patents

Abstract

A colour correction signal is introduced into the horizontal sync. period. This signal acts as a phase or amplitude ref. and by using this comparison ref. an error signal can be prod. The carrier frequency for the ref. is the same as the colour subcarrier and the amplitude of the signal is 0.4 to 0.6 of the peak to peak video signal. The reference is independent of any amplitude fluctuations of the colour sync. signal. The ref. signal may be at black level or between black and white lever in the sync. pulse interval. It is applicable to monochrome, SECAM, NTSC and PAL systems and can be used for automatic equalisation of signals being replayed from video tape recorders, esp. to avoid carrier inversion of highly saturated colour signals.

Description

Correction system for a television signal

PRIOR ART The invention is based on a color correction system according to the genre of the main claim.

In the technique of magnetic storage of television signals has The frequency modulation method prevailed, in which the Video information is modulated onto a specific carrier frequency. The amplitude values of the video signal are converted into frequency changes and are therefore insensitive against amplitude fluctuations, such as those caused by changes in the distance between magnetic tape and magnetic heads occur during recording and playback can.

On the other hand, magnetic storage systems with frequency modulation are because of the Assignment of instantaneous frequency and amplitude value of the demodulated Si (n ^ ls extraordinary sensitive to fluctuations in the relative speed of the magnetic carrier compared to the magnetic transducer (s) f magnetic heads). In particular, deviations the scanning speed for di playback compared to that for recording 11 Brightness fluctuations in the reproduced SchwarzV'ifl ß television signal and to Chroma deviations in the color television signal.

therefore, there have been numerous electrical correction methods in the past to eliminate or reduce the remaining after the mechanical adjustment Residual filing of the relative speed became known.

The timing signals present in the color television signal are preferably used used in such a way that with the help of the horizontal sync signals recorded before each line by comparison with a reference horizontal sync signal of great accuracy Coarse correction and then by phase comparison of the color television transmission systems PAL and NTSC at the beginning of each line there is a color sync signal Its fine correction he follows. Such a correction system is described in DBP 14 12 718, for example.

Prerequisite for a satisfactory correction of the occurring Time error is, however, that the high-frequency oscillations of the burst signal in exact assignment to the remaining components of the color television signal mixture stand and also be recorded that way. However, this can happen with signals below unfavorable Conditions have been included or have been for a long time running through the transmission chain, are not always assumed.

From DPS 19 l> 4 378 there is a method for frequency response correction des playback b (kcltlals of magnetic storage devices for recording is playback specified by color television signals, at d "Tl deviations in the amplitude of the color sync signal are recognized by the setpoint and from this an error signal; ebilclet is that the Frequency response equalizer in the sense of an amplitude correction of the color sync signal readjusts. The transmission properties of a playback channel set in this way However, they are only correct if the color burst signal is in the composite color television signal was already present before the recording with standard-compliant amplitude. As above mentioned, this cannot always be assumed.

From DE-OS 27 11 766 an arrangement for correcting luminance errors is caused by speed errors in the reproduction of color television signals from a magnetic tape recorder are known. However, this is the video signal a continuous pilot signal is added before recording. The realization the intended correction therefore requires complex circuit measures. Also is the risk of the pilot signal influencing the video signal as a result of Cross modulation or interference with other circuit operations.

Advantages of the Invention The color correction system according to the invention with the characterizing features of the main claim has the advantage that it is independent of fluctuations in the amplitude of the burst signal. As another The advantage is that even with color television signals after this SECAM system and, for black and white television signals, the option of level error correction given is.

The measures listed in the subclaims are advantageous Further developments and improvements of the rlla-rb correction system specified in the main claim possible.

It is particularly advantageous that a phase identification pulse of large amplitude can be used in the Fernsehsgnni, so that the phase evaluation is more accurate and the phase control can be improved.

If this identification pulse occurs at medium amplitude of the television signal, the color correction system will at the same time be called "differntial gain "known errors averaged out.

Finally, the system according to the invention gives the possibility of a automatic speed error correction for sharp-white television signals and in the case of color television signals according to the "SECAM" system in an analogous manner as before in the magnetic storage of color remote signals according to the systems "NTSC" and "PAL" in common.

The identification pulse is a reference signal internal to the magnetic tape recorder, the is added before frequency modulation and after demodulation, d. H. in the Playback, is evaluated and does not appear at the video output of the magnetic tape recorder.

This internal reference signal in the black-and-white television signal, which is independent of the operating mode or in a color television signal according to one of the systems SECAM, PAL, NTSC can always an optimal and automatic equalization of the FM path can be ensured. One Optimal equalization is particularly important for color noise and avoidance of carrier inversion in highly saturated colors.

Drawing An embodiment of the invention is shown in the drawing and explained in more detail in the following description. They show: Fig. 1 shows the horizontal sync signal in a black and white television system with adjacent parts of the Bildsignc "1; Fig. 2 shows the representation of the horizontal synchronous signal in a color television signal according to the NTSC or PAL system with the vibration packet the color sync signal on the back blanking shoulder; Fig. 3 shows the invention Mapping of the horizontal synchronizing signal with an oscillation train of a phase identification signal for the duration of the horizontal sync signal.

Description of the invention In the voltage timing diagram according to Fig. 1 is the voltage state associated with the white parts of the image, so-called white level, with 10 bcn: 'chnet. The blanking signal at level 11 is slightly below the black level, so that this blanking level 11 as well as the even lower synchronous level 12 of the actual horizontal sync signal are invisible in the reproduced image.

according to Fig. 2 A horizontal synchronous scale of a color television is ehsystemYist essentially constructed in the same way as that of a Schwarakieiss-Bernsehsystem according to Fig. 1. It contains within a blanking signal of a certain length on the Level 11 is a horizontal sync signal at level 12 * which is also a predetermined one Length and location within the blanking interval in color television systems NTSC and PAL, the color sync signal 13 is arranged on the rear blanking shoulder. It consists of an oscillation package of, for example, 10 oscillations of an auxiliary ink carrier high frequency, the amplitude of the oscillation packet, for example 0.3 V SS according to the CCIR standard. As a result of error influences, which the remote signal in its Entire unit on the transmission path can be subject to the standard amplitude of the color sync signal 13 are lost and possibly not again getting produced. In the PAL television system, the color subcarrier phase is in each line changed by 180 0 so that for the purpose of phase comparison from line to line this Switching in the phase comparison circuit must first be eliminated again. Errors in the generation of this 180 ° switchover can also occur which lead to lead to incorrect results in the phase evaluation. Especially with the technology Magnetic storage is used in many cases when a television signal is played back the faulty sync signal is separated from the image signal and through a locally generated error-free replaced. In this case, instead of a horizontal sync signal in accordance with FIGS. 1 or 2, the horizontal synchronizing signal according to the invention according to Fig.

3 can be used with an incorporated phase identification pulse. This Like the signals previously described, the signal has a blanking level 11 below the black level of the image signal. The level 12 of the actual sync signal is; raised roughly in the middle to a value that is roughly the voltage difference between the black level and the white level 10 of the image signal. This Level is denoted by 14.

In this level 14 an asenkennsignal 15 is incorporated, which in Structure corresponds in principle to the color sync signal 13 (Fig. 2), but this can Phase identification signal 15 used with a greater amplitude than the standardized color sync signal will. The oscillations in the identification signal 15 can also be at the frequency of the color subcarrier can be generated by a free-running oscillator without 180 ° switching, so that during the evaluation, the phase positions of two consecutive lines are directly related to one another can be compared and evaluated.

Summary A correction system for a television signal becomes proposed in which for the purpose of phase comparison an identification signal within of the horizontal sync signal is arranged. The identification signal advantageously exists from a vibration packet of a lulgeschaltet carrier, the frequency of which of the color subcarrier can correspond. The identification signal can be in a level range of the orizontalsynchronsignal be arranged, which is raised to about 50% of the white level is. Blank page

Claims (6)

Claims 1. Correction system for a television signal, in which an in identification signal occurring in two successive horizontal deflection intervals with respect to its phase position and / or amplitude mil; compared to each other and from this Comparison of an error signal is obtained, characterized in that the identification signal is arranged within the Horizontalsyiichronsigna 1 5. 20 correction system according to claim 1, characterized in that the The identification signal consists of a vibration package from a carrier. 3. Correction system according to claim 2, characterized in that the Frequency of the carrier is equal to the frequency of the color subcarrier. 4 correction system according to claim 2 or 3, characterized in that that the amplitude of the identification signal is 0.4 to 0.6 V SS. 5. Correction system according to one of claims 1 to 4, characterized in that that the identification signal increased to a level compared to the synchronous level of the television signal second level is arranged. 6. correction system according to claim 5, characterized in that the second level approximately equal to the level difference between the blanking level and the white level of the television signal is.