DE2323974C3 - Arrangement for the implementation of simultaneous color image signals - Google Patents

Description

15th

The invention never relates to an arrangement for converting simultaneous color image signals, with a fin direction for providing an input signal housing with a chrominance signal containing the chrominance information of a p'rbbildes, which only a occupies a given frequency band and one containing the luminance information of the color image I euchtensity signal, which one the given Frentienzband occupying first part and other parts lying outside this frequency band, wherein the first part of the luminance signal contains components that are normally only a first Claim a large number of regularly spaced locations in the given frequency band while the Chrominance signal contains components that are normally r interleaved between the first plurality claim lying places of the frequency band, and wherein the device for providing the Mixed input signals are subject to interference, which can lead to unwanted fluctuations in the frequencies of the Sienal mixture re the normally of the parts of the spectrum they occupy, renewed with a source of vibration, a comb filter and a chrominance signal processing device connected to the comb filter.

The generation of a signal of the general nature of the input signal mix described above is described in the German Offenlegungsschrift 23 19 768, and that is in this type of Color coding the chrominance signal as a modulated subcarrier in the band center of a broader band Luminance signal. By using prior reference color carriers, a facility should therefore be used that contain a composite signal built with a nested color reference carrier into a otherwise coded composite signal converts, which with the playback equipment of the color television receiver is compatible. Such a purpose is intended with the arrangement of the species described above can be achieved.

Of course, such a transcoding arrangement can be used with other forms of video disc player use, for example, in a combined system that has both a playback device for color video disks as well as a receiving device for color television broadcasting in a single unit contain. The said code conversion of the signal coming from the disk is desirable here, because you then have to color decode both the disk signals and those broadcast over the radio Signals can use the same decoder. In any case, it is necessary for a composite signal with the nested color reference carrier, the chromaticity components nested in the luminance band by frequency conversion to another frequency range for which the decoder des Color television receiver is designed. For this purpose, among other things, a separation of the input signal mixture combined chromaticity and luminance components necessary. It is known per se such a separation to be carried out with the help of comb filters (see German Auslegeschrift 19 41 848 and an article by G. 111 e t s c h k ο and H. Schönfelder: »A comb filter for the PAL process«, published in a special edition of the Fernseh GmbH from April 1969). The invention works also from the use of a comb filter.

However, comb filtering encounters difficulties when the input signal mixture to be converted As described above, it is subject to interference that leads to unwanted fluctuations in the frequencies of the Signal mixture with respect to the parts of the spectrum that are normally occupied from within. Such frequency fluctuations arise in particular when playing video disks as an undesired result Fluctuations in the relative speed between the scanner and the recording groove,

30th

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Comb filtering the mid-band of the g

there are gaps or frequency gaps in the frequency spectrum of the luminance signal. By a this complementary comb filtering, the chrominance signal has been limited to components that are included in the empty frequency gaps in the frequency spectrum of the luminance signal fall. This type of coding can serve for example for television recordings on disk In German Offenlegungsschrift 22 13 describes a video recording system that works with fluctuations in capacity, where the type of coding with a "hidden" reference color carrier is advantageous can be applied.

A player for a video disc does not always contain devices for reproducing images, but serves rather as a kind of accessory or additional device of a separate color television receiver, the image reproduction devices of this recipient to

,.,: - j u ", ι", !! .. fcTPveirhneien color image information

Such a playback device should have a signal mixture in that form at its output provide (e.g. an NTSC signal) that the used Color television receiver can handle. Disc recorders that contain the nested

as it is in the above mentioned German gg

document 22 13 920 is mentioned. For example, the sideband frequencies of the reference carrier in a recovered composite signal with nested color reference carriers with regard to their nor-50 The points in the frequency spectrum that are sometimes to be expected fluctuate, d. H. tremble, the places of the Frequency spectrum, on which the components of the accompanying luminance signal lie, a similar one Are subject to tremors. This tremor can achieve the required accuracy of the comb filtering Endanger the separation between luminance and chromaticity components. To this separation in one Video disc player less sensitive to the tremors of the disc played back To make obtained signal frequencies, is in the aforementioned German Offenlegungsschrift 23 19 768 proposed to use a specially designed comb filter with two so-called 1 delay lines. Such comb filters have a comb feeder 65 Characteristic curve with wider blocking areas (notches) than with comb filters with a single 1 H delay line are attainable. However, the further restricted area before also lead to additional signal losses.

The object of the invention is now to provide a conversion arrangement for a composite color image signal to design the nature described at the beginning so that a stable and clean chrominance signal for the Output composite signal is obtained.

Based on an arrangement of the type described above, which the preamble of claim 1 forms, this object is achieved according to the invention by features that are in the characterizing part of the Claim 1 are listed.

The principle of the solution according to the invention consists in at least that of the luminance signal and of the Chroma signal jointly occupied part of the frequency band before comb filtering into another Shift frequency band and the vibration source for the superposition device used also to subject a frequency tremor in such a way that the influence of the tremor of the Mixed input signal in the output signal of the superimposing device is compensated. The frequency- * o shifted part of the input signal mixture is thus tremor-free, and the luminance and chrominance components contained in it can be found in the Separate the downstream comb filters properly from one another. 2j appears at an output of the comb filter thus a chrominance signal which is freed from l. luminance components and which is not only jitter-free, but is already in a different frequency band than the input signal mixture, as is the case with the implementation requires.

In addition to solving the problem posed, the device according to the invention also has the advantage that the compensation of the tremor takes place at the same time as the frequency conversion of the chrominance signal, d. that is, the vibration source required in each case for a frequency conversion is fulfilled by its Controllability also serves the purpose of jitter compensation.

According to one embodiment of the invention, a subtractive signal is used for comb filtering the luminance signal Process used to weed out the color components lying in the common band. at The subtractive method is the output of a comb filter which supplies color signal components and excludes luminance components, subtracted from the non-comb filtered composite signal to produce a to provide a luminance signal free of color components. According to a preferred embodiment of the invention, the subtractive method with a non-comb-filtered composite signal and one of them is so to be subtracted output signal of the comb filter performed, both one by the above Have superposition induced frequency shift. After eliminating the color signal components In this embodiment, the subtraction process is used to convert the components backwards of the luminance signal into a baseband by means of an envelope curve detector and an output-side Low-pass filter. According to another solution, the si'htractive process at frequencies im Baseband performed, with a non-comb-filtered version of the input signal mixture, below Bypassing the above-mentioned superimposing device, is used and the comb filter output is in front the subtraction by a second superposition with the local oscillations back into the middle band is moved.

The type of circuitry used in the embodiment described above allows Use of band filters to reduce the bandwidth of the signal component subjected to band filtering to the Limit the bandwidth of the common band, d. H. on the bandwidth of the recorded color signal, which is typically around 1 MHz. Thus in practice there is only one 1H delay line in the invention required for the comb filter of the code converter and this IH delay line only needs one relatively narrow bandwidth to be processed on both sides for the composite signal on the output side desired reference color carrier frequency, e.g. B. the color subcarrier frequency of about 3.58 MHz of the NTSC signal. Relatively inexpensive 1H delay lines are available on the market, ζ. B. Amperex Type DL 45, available, which have a corresponding pass band result, z. B. 3.58 MHz ± 500 kHz.

Further details of the invention emerge from the following description in which the invention is explained with reference to drawings.

F i g. 1 shows a block diagram of a code converter operating according to the principle of the invention, which can be used in a video disc player to record signals with nested reference color carriers transcode to the general form of an NTSC signal;

2 shows in block form a modification of the in 1 shown code converter according to another embodiment of the invention;

F i g. 3 is a detailed circuit diagram of the circuit shown in FIG. 2 generally shown embodiment of the code converter.

In the case of the in FIG. 1 is shown at the input terminal 7; one with nested Signal mixture built up on a color reference carrier. For the sake of clarity, the Form of the input signal made various figures, which are to be evaluated as an example and themselves have proven to be particularly suitable in connection with video disks:

1. The color subcarrier frequency f _s ' is 195/2 / V / or. about 1.53MHz when the line frequency (Fh) conforms to the US standard for color television broadcasting;

2. Let the color signal be the sum of two phases of the color subcarrier shifted by 90 ° to each other, one of which is amplitude-modulated with the red color difference signal (R-Y) and the other with the blue color difference signal (BY), each with a bandwidth of 0-50OkHz, whereby the bandwidths of the upper and lower sidebands are each equal (500 kHz) and the carrier is suppressed;

3. the luminance signal (Y) has the bandwidth 0-3MHz;

4. The color synchronization information consists of an oscillation pulse of frequency f _s ' of the nested color reference carrier with reference phase and reference amplitude, which appears during the rear porch of the horizontal blanking pulse and thus, apart from the frequency, corresponds to all of the NTSC color synchronization information.

The composite signal on the input side therefore contains a lower band (0-1 MHz) and an upper band. (2 - 3 MHz), which are only occupied by the components of the luminance signal, and a medium one Spectral range, d. H. a middle band (1 - 2 MHz), i which is components of the luminance signal un of the color signal. If a suitable comb filter is used to form said color reference carrier signal

St the color reference carrier said defined ^S ö ^Snd

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± 500 kHz, which has the bandh £ a ^ of a frequency-shifted version of _the

lateral color signals occupied ^^^ learning filters 30 contains som.tdjeFarb.n ^ ^^ _a frequency band, e.g. B. 3-4 mm, α _e.g.

Color reference carrier appears. . ^d " ^s 5. ^ _s c. color television

3.58 MHz, for the equipment of an NTSC

receiver is suitable. _. ₃₀ are found

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middle band, thereby the Uhertjg ^ ^ _above

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shifted color signal the same band ^

occupy. Edge filter 2

Where the output signal of 1B "" ™ ¹ ^ comb filter 50. This Kamn «ι plurality of passbands which odd multiples of the cut (f _H) lie, as well as therebetween ^« _{νίε1ί3θ1ι6 η} de at frequencies corresponding ^{to the. G} f S _a rnmfiKer 50 consists of line frequency correspond to the ^ aJ ¹¹ J _{z gsle} i-

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Input color sync signals through the

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energy frequency / ₅ oscillates. At the exit of the. "" T '- for 43 appears a control voltage, which is used, the operating frequency of the span ^ ™ ⁿ i! ™ r. «N oscillator 49 in the direction of a

the output of the reference; .u:> /. iuaiv, * - ~ ^ ..--

the input signal mix in the above Uo ..... ^ ...

Wise trembles and causes a deviation of this synchro, Sufs, then the control voltage causes a Output of the phase detector 43 eme correction d Output signal of the voltage controlled oscillato 49 Snne compensation for this deviation.

the trembling of the color sync signals in the input final mix (for example as a result of the circumstances mentioned during playback) the trembling of the beglc.c corresponding to the color and luminance components

the described control of the oscillator 49 also eliminates the tinning of these components. If you have the Selects parameters of the phase-locked loop with consideration of the expected extent of the tremor, then is the output of the band filter 30 is practically jitter-free, so that the one shown in FIG. 1 shown comb filter without danger with only a single 1H delay line can.

The output of the comb filter 50 consists of a color signal which is practically free of luminance components and has the appropriate shape for the formation of an output signal mixture. In addition to processing corresponding to this purpose (in a circuit arrangement to be described later takes place) the output of the comb filter 50 is also used to generate a comb-filtered Obtain luminance signal through a subtractive process. For this purpose, the output of the comb filter 50 given to a modulator 61 in order to connect it to the output of the voltage controlled oscillator 49 overlay. As a modulation product at the output of the modulator 61 (which is preferably a ring modulator is) appearing difference frequency is selectively passed by a low-pass filter 63.

The output signal of the low-pass filter 43 consists of a comb-filtered color signal, which through the Superposition effect of the modulator 61 shifted back to its original frequency position in the middle band is. The comb-filtered color signal from the output of the low-pass filter 63 is sent to a stage 70 given where it is subtractively combined with a non-comb filtered version of the input signal mixture in order to remove the color components of the signal mixture lying in the middle band. The non-comb filtered The composite signal is sent to the stage 70 from the input terminal 7} via a delay device 65 supplied. The purpose of the delay device 65 is to delay the composite signal which corresponds essentially to the delay caused by the eliminating color components have experienced when passing through the filters 10, 30 and 63. The delay device 55 can be adjusted be designed, as it is symbolized by the arrow in the drawing, in order to be optimal Elimination of the color components to allow necessary delay adjustment. The level 70 can also contain a device for influencing the amplitude of one or both inputs in order to obtain the for to allow optimal elimination of the color components amplitude adjustment.

After properly adjusting the delay and Amplitudes, the output of the stage 70 carries a broadband luminance signal, which is practically free of components of the color signal, the components of the sidebands of said color reference carrier combed out of the middle band by the extinguishing effect of step 70. It is here mentions that the desired extinguishing effect can also be achieved in stage 70 if that The composite input signal trembles because the second superposition with the output signal of the voltage-controlled Oscillator in the modulator 61 puts the comb-filtered color signal in a trembling state with which the extinction can be achieved.

The luminance signal from the output of the stage 70 is fed to a stage 80 in order to communicate with the To add comb filtered color signal from the output of the comb filter 50 and so the desired output signal mixture to build. The output signal of the comb filter is passed to stage 80 via another Delay device 81 is supplied, which is set so that the output signal of the comb filter im Is consistent with the luminance signal from the output of stage 70. This required additional delay corresponds essentially to the delay communicated when passing through the low-pass filter 63 would.

The composite output signal supplied by stage 80 has the general form of an NTSC signal and includes a broadband luminance signal and an im Color signal lying in the upper band in the form of sidebands of a reference carrier of the NTSC color carrier frequency. This composite signal is for processing in the equipment of an ordinary NTSC color television receiver suitable. In the exemplary embodiment described here, the output signal mixture contains a luminance signal, which covers approximately the frequency range of 0-3 MHz, and a Color signal, which covers approximately the frequency range of 3–4 MHz. Such a composite signal delivers Although less information than a composite color television signal broadcast in accordance with US broadcasting standards, however, there is a lack of luminance information above 3 MHz and color sideband frequencies in the range of 2 - 3 MHz when playing video discs, especially if it is recognized that the typical US commercial color television receivers have little or no make no use of these components of the broadcast signals.

In the arrangement shown in FIG. 1, a subtraction is used to obtain the desired comb filtering of the luminance signal. The subtraction is carried out with frequencies in the baseband, including the comb-filtered color signal before being fed to the subtraction device in a deeper one Frequency range must be shifted. F i g. 2 show a modification of the in FIG. 1 arrangement shown, where the desired comb filtering of the luminance signal is again carried out by subtraction However, this subtraction takes place in that frequency band that the comb-filtered color signal self occupied. So there is no frequency shift of the comb-filtered color signal before the other Subtraction process necessary.

In the modified embodiment according to Fig .: the input composite signal from the terminal Ti 'is given, further eir carrier signal (nominal frequency f _s' vol to the modulator 20 + f _s) receives from voltage sensors controlled oscillator 49th The modulator 20 'is a simple push-pull modulator which is symmetries on the input signal mixture and not on the carrier (f _s + f _s ) coming from the oscillator 49. A residual side band filter 21 coupled to the output of the modulator 20 'allows the unbalanced carrier and its lower sideband to pass through. In the upper sideband containing the difference frequency intermodulation products, the color subcarrier is at the frequency / * it wit for the output composite signal is desired by the band filtering of the filter 21 of the Trägei is placed (fs + fs) to the center of the upper edge, so that a small part of the upper side ligament too! is let through. The degree of modulation of the carrier; (fs + t _s ) in the modulator 20 ', the input level is kept relatively low (e.g. 20%) by means of a suitable relation.

A band filter coupled to the output of the filter 21 has, as in the case of FIG. 1 the task of limiting the input of the comb filter 50 to the common band around f _s. The burst separator 41 acted upon by the output of the band filter 30 supplies synchronizing oscillation pulses (bursts) to the input of the phase detector 43 for the purpose of phase comparison with the output signal f _{5 of} the reference oscillator 45 as in the case of FIG. 1. The output signal of the phase detector controls the output frequency of the voltage-controlled oscillator 49 in the sense of a stabilization of the sideband frequencies of the modulator output signal against "jitter", as described earlier.

At the output of the comb filter 50, the frequency-shifted color signal appears, from which the components of the luminance signal lying in the common band and falling in the different blocking areas of the comb filter are combed out. The comb-filtered signal arrives at a stage 70 ′, where it is subtractively combined with the output of the residual sideband filter 21. The last-mentioned signal is fed to the stage 70 'via a delay device 65', the delay of which essentially corresponds to the delay which the signals experienced when they passed through the filter 30. After correct adjustment of the delay and the amplitude of the color components of the two input signals of stage 70 ', the output signal of this stage contains luminance information from which the components of the color signal have been combed out. The comb-filtered luminance signal, however, appears as a sideband of the modulated carrier (7 »'-f K) and has to be shifted back into the baseband. This is done by inputting the output signal of stage 70 ′ into an envelope detector 72 and by selecting the baseband components of the detector output signal by means of a low-pass filter 74.

The output signal of the low-pass filter 74 contains a luminance signal lying in the baseband which is free of color components of said color reference carrier. This signal is fed to a stage 80 where it is added to the comb-filtered color signal from the output of the comb filter 50. The latter The signal is fed to the stage 80 via a delay device 81, the delay of which is essentially the delay communicated when passing through the low-pass filter 74 corresponds to the luminance and the Color components of the output signal mixture supplied by the stage 80 in accordance with one another bring.

Fig. 3 shows details of an embodiment of the invention, which corresponds to the general arrangement according to FIG. 2 corresponds.

The modulator 20 'in FIG. 3 includes two N PN transistors 100 and 101 as active elements. These emitter-coupled transistors 100 and 101 are supplied with the input composite video signal from the input terminal T 1 via a signal path which contains a variable resistor 102 for setting the video input level. At the carrier input Th there are 5.11 MHz oscillations (from the voltage-controlled oscillator 49 in FIG. 2), which reach the base of the transistor 100. The base of the transistor 101 is connected to ground via a resistor. Two tightly coupled coils 103 and 104, wound for example bifilar around a torus core, form the collector load of transistors 100 and 101. The bifilar windings are

connected so that the modulator output signal at the collector of transistor 101 opposite the video input is symmetrical, but is asymmetrical in relation to the carrier input.

The modulator output signal reaches the residual sideband filter 21 via an emitter follower 110, which is formed in a known manner from reactive elements of suitable value. The output of the filter 21 is on given the input of an amplifier 120 having a fixed emitter input stage and a Includes output stage with fixed collector. The output stage forms a low-resistance signal source for a delay part 65 'consisting, for example, of a coaxial delay line of suitable length and terminating resistors of suitable size for characteristic impedance matching. The outcome of the Delay part 65 'provides a broadband input signal for the combining stage 70', the one Includes fixed collector transistor 130 which includes fixed base transistor 131 controls. In addition to the broadband input signal, which is fed to the base of transistor 130, the stage 70 'at the emitter of the transistor 131 receives a comb-filtered color signal from a still to descriptive circuit.

The output of stage 70 'is applied to a transformer primary winding 132 given in the collector circuit of transistor 131 and through the transformer secondary winding 133, with the center tap connected to ground, to a pair of diodes 134,135, which, in the Envelope detector 72, is switched so that a full-wave rectification of the modulated carrier takes place. The output signal of the envelope curve detector appearing at a load capacitor becomes a low-pass filter 74 supplied, which contains series resonance circles as traps, around the fundamental wave and the second harmonic of the carrier in the output signal of the envelope curve detector.

The output signal of the filter 74 is fed to an amplifier transistor 140 which has a collector load resistor 141 to which a variable capacitive. Network 142 optionally switched on can be. If a predistortion has taken place in the coding of the video signals, e.g. B. at the Disk acquisition, the network 142 offers the possibility of compensating re-equalization of the Luminance signal.

The collector output of transistor 141 is connected to the base of transistor 150, which is connected to the Transistor 151 forms an emitter-coupled transistor pair in combining stage 80. The other entrance to the Stage 80 receives comb filtered color signals supplied by circuitry to be described are, at the base of the transistor 151. The output signal mixture is the stage 80 at the collector gate of the transistor 150 removed and the base a; Output transistor, PNP transistor 153, supplied whose output circuit is its Koliektorkreis to which the output terminal To is connected.

In order to complete the description of the 'shown in Fig. To complete the arrangement, let us now turn to the circuits for processing the color signal went. The output of the amplifier 120 acts in addition to the aforementioned delay line 65 over a band filter 30 of known type an amplifier 160 having a fixed emitter input stage and has a fixed collector output stage. The output stage supplies signals to de

Burst separator 41 (r i g. 2) for the purpose of phase control and also to the input of the comb filter 50.

The comb filter 5ö contains a 1! -! - delay line of the aforementioned type DL 45, which receives input signals at connection 2 and provides inverted output signals at connection 4. Cross inductances 171 and 173 at the respective terminals allow fine adjustment of the characteristic of the delay line. The signals at the input and output terminals are combined by means of an ohmic adding circuit at the connection T _c. The comb-filtered color signal at the terminal T _c is applied to an amplifier 170 which has an input stage with a fixed emitter and an output stage with a fixed collector. The output stage forms a low-impedance signal source for the delay part 81, similar to the delay part 65 'described above, but here a potentiometer 181 is also provided in series with the terminating resistor of the coaxial delay line 180 in order to offer the possibility of setting the level of the output color signal . The adjustable tap of the potentiometer 181 is connected to the base of the transistor 151 in order to apply the color signal to the combining stage 80.

The comb-filtered color signal at the output of amplifier 70 is also fed to the base of a phase splitter transistor 190 , which has a collector load resistor and an emitter load resistor 192 and 193 , both of which are of the same size. A series circuit consisting of an inductance 194, a variable capacitance 195 and a variable resistor 196 lies between the collector and the emitter of the transistor 190. The phase splitter with the adjustable circuit described offers the possibility of a remote adjustment of the delay in order to optimally cancel the To be able to adjust the color component in the combination level 70-. If the resonance frequency of the series resonance circuit formed from the inductance 194 and the capacitance 195 is selected to be higher than the highest input partial frequency and if the size of the resistance is selected so that the Q of the resonance circuit is about 1, then the circuit causes a phase-linear, constant group delay over the range of input-side Te.lfrequen- _7s By steepening of the variable capacitor '195, the runtime can be changed. Simultaneous adjustment of the variable resistor 196 is advantageous in order to achieve the desired Q value

Di? Sang signals of the trimming circuit described above are taken off at the connection point between the capacitor 195 and the resistor 196 uvd an emitter follower 191 supplied to the emitter of this emitter-follower transistor constituting 19 ™ is Fmitter connected the transistor 130 via a variable resistor 197 mn Hern to the combiner 70 The variable resistor 197 offers the possibility of setting the level of this signal to that value which is necessary for optimal cancellation of the color signal in stage 70 '

For this purpose 2 sheets of drawings

Claims (8)

Patent claims: 1. Order to implement s .uanas Color image signals, with a device for providing an input signal mixture with a the chrominance information of a color image containing chrominance signal which only a given Frequency band occupied, and a luminance signal containing the luminance information of the color image, soft a first part occupying the given frequency band and others outside this Frequency band has parts lying, where the first part of the luminance signal component :! contains, which is usually just a first plurality of regularly spaced locations in the given Occupy frequency band, while the chrominance signal contains components that normally only claim the positions of the frequency band nested between the first plurality, and wherein the device for providing the composite input signal is subjected to interference is that lead to unwanted fluctuations in the frequencies of the signal mixture with respect to the parts of the spectrum normally occupied by them, furthermore with a source of vibration, a comb filter and a chrominance signal connected to the comb filter Facility, characterized a) that the frequency of the vibration source (49) is controllable and that a superposition device (20) to superimpose the vibrations generated by the vibration source with at least those given in the above Frequency band lying parts of the signal mixture is provided; b) that a device (30) is also provided, which is from the superimposition device (20) Output signal derives which one frequency shifted chrominance signal in another than the given frequency band and one of said first part of the luminance signal contains corresponding frequency-shifted luminance signal part, which this other Frequency band also occupied; c) that a control device (41,43) is provided which compares a component of the Output signal of the superimposing device (20) with a reference signal (from 45) Control signal for the vibration source (49) supplies its frequency by a nominal value around in the sense of a regulation of the in the output signal of the superimposition device Unwanted frequency fluctuations transmitted can fluctuate; d) that the comb filter (50) receives the signal derived from the superimposition device (20) receives and the frequency-shifted chrominance signal substantially to the exclusion of the frequency-shifted luminance signal part to the color signal processing device lets through. 2. Arrangement according to claim 1, characterized by a signal processing circuit (61, 63, 65, 70), which uses the signals passed by the comb filter (50) to extract from the composite signal to derive an output signal which is the luminance signal excluding the chrominance signal contains. 3. Arrangement according to claim 2, characterized by a combining stage (80) which the output signal of the signal processing circuit (61, 63, 65, 70) with those passed by the comb filter (50) Combined signals to an output signal mixture, which the chrominance signal in said contains another frequency band. 4. Arrangement according to claim 3, characterized in that the comb filter (50) has a delay line (51), the pass band of which includes said other frequency band and is narrower is than the bandwidth of the luminance signal. 5. Arrangement according to claim 1, characterized in that the frequency response of the comb filter (50) a plurality of zeros at regularly spaced locations in said other frequency band has that of said first plurality of locations in the first frequency band around the Nominal frequency of the vibration source (49) are removed. 6. Arrangement according to claim 1 for the implementation of simultaneous color image signals for the case of one provided input signal mixture, which a luminance signal occupying a wide frequency band and contains a chrominance signal covering only a central part of this broad band, marked by: a) a voltage-controlled oscillator (49), the output frequency of which by an input supplied control voltage is determined; b) a modulating the output signal of the oscillator (49) with the input signal mixture Modulator (20 ') which delivers a modulated carrier signal at the output, which in a central part of a sideband contains the chrominance signal; c) a comb filter (50) with a single 1 [-! - delay line (51) and a subtraction circuit (53), which subtractively combines the input and output signals of the delay line, the pass band the delay line comprises only a portion of the sideband including said central portion; d) one coupling the modulated carrier signal to the input of the comb filter (50) Circuit (30) with a pass band covering said central part of the sideband to the exclusion of the remainder of the sideband; e) one acted upon by the output of the Karnmfilters and processes the chrominance signal Circuit arrangement (70 ', 72) and f) a control circuit (41, 43, 45) which depends on the control voltage for the oscillator (49) of unwanted changes in the frequencies of the input signal mixture. 7. Arrangement according to claim 6, characterized in that the processing of the chrominance signal Circuit arrangement (70 ', 72) contains a subtraction stage (70') which the output signal of the Comb filter (50) from the modulated carrier signa! subtracted to give a comb filtered form of the Provide sideband, as well as a detector arrangement acted upon by the output of the subtraction stage (72) obtained from the comb filtered Sideband derives an output signal which the luminance signal excluding the chrominance signal contains 8 Arrangement according to claim 7, characterized by a combining stage (80), which the Auseangssignal of the comb filter (50) combined with the output signal of the detector arrangement (72) to form an output signal mixture.