DE2924453A1 - Copy-proof video cassette - alters chromatic signal without affecting luminance signal by burst signal phase shift - Google Patents

Abstract

Prevention of illegal copying of original video cassettes recording is ensured by making it impossible to produce an acceptable At the same time, the playback of the latter remains The chroma signal is modulated without interfering with the luminance signal and a compensating circuit restores the chroma signal for applying to the t.v. screen. At the same time, the additional errors in transmission during the making of the illicit copy from the original cassette cannot be compensated when playing back. The control of the video track is ensured by altering the phase of the burst signal' the vector of which forms the X-Y axes with the vectors of the colour difference signals.

Description

Method and device for manufacture

copy-safe recorded video cassettes.

Description: The invention relates to a method of manufacture copy-safe recorded first video cassettes (original cassettes) to which a particular video signal modulated according to the PAL method (FBAS signal), which is a luminance signal and a color signal (F signal) can be picked up by the video signal from a mother tape via a transmission path, in particular a video amplifier and a video recording system (video recorder) onto the first video cassette is transmitted.

The invention also relates to a method for performing this method suitable facility.

The production of copy-proof recorded video cassettes is becoming economical increasingly important. For private households are in addition to recorded Video cassettes that have been produced in a legitimate manner and 1 following as Original cassettes are referred to, including those video cassettes offered in by dubbing the video signal from an original cassette other video cassettes, hereinafter referred to as pirated copies, were made will. Since this unauthorized creation of pirated copies results in lower costs, in particular through the elimination of Tantienen for the copyrights of the original manufacturer, These pirated copies can be brought onto the market at much lower prices are called the original cartridges, making the original manufacturer - on a regular basis illegally - is disadvantaged.

Attempts have therefore already been made to be copy-safe to produce pre-recorded video cassettes in order to prevent pirated copies being made on the Thwart base of these videotapes.

However, the copy-safe playback of the original video cassettes has the tendency to degrade the vide.signal se that also at a loss of quality occurs in the original reproduction.

The present invention is therefore based on the object of a method for the production of copy-proof recorded video cassettes, on the basis of which Pirated copies can only be produced so imperfectly that the paragraph of this Pirated copies are largely excluded, but the reproduction of the original cartridges if possible, does not suffer any loss of quality.

According to the invention, the task is for a method of production copy-safe recorded first video cassette of the type mentioned thereby solved that in the transmission path the color signal without affecting the luminance signal is arbitrarily influenced to the extent that the @n of the video cassette is set to a Color television set compensating for color distortions up to a limit value Compensation circuit arrangement fed video signal still to a correct one Color rendering leads, however, to an additional involuntary influence of the video signal due to transmission errors in the manufacture of a second video cassette (Pirated copy nit dsm video signal obtained from the first video cassette a correct one Reproduction of the video signal output from the second video cassette by the . Compensation circuit arrangement excluded as a result of the limit value being exceeded is.

This arbitrary influence on the color signal is essential Advantage that the image quality of the copy-safe video cassette is not impaired is required. The luminance signal remains completely unaffected, so because of this Signal cannot affect the image reproduction. The color signal will however, only in such a way influenced that by those in color televisions usual compensation circuit arrangement for compensating for color errors the arbitrary one Influencing the luminance signal with direct Transferring the from the video signal fed into the television set from the original cassette is made. On the other hand, if the video signal output from the original cassette is initially used to produce a pirated copy, which in turn is a video signal emits into the color television set, the change in the color signal as a result of the transmission errors when recording and playing back the pirated copy so large that no compensation the color error by the compensation circuitry in the color television can be done. In particular, when playing pirated copies, a so-called Farkiller effective, which is particularly built into the color television set and the causes the color rendering when certain errors of the color signal are exceeded is switched off. In other words, when playing back pirated files, only black and white images are displayed on the color television. Through this black and white rendering the pirated copy has only a very limited value, so that it is regularly replaced with original cassettes, that enable color reproduction cannot compete.

In individual cases, the procedure is expediently carried out so that when transmitting the video signal with a color signal that is a burst signal (color carrier) includes, the phase position of the burst signal is changed arbitrarily.

This arbitrary change in the burst signal becomes special effective influencing of the color signal created, although not when playing the original cassette, but has an effect on playback of the pirated copy: For decoding the color information in the television receiver becomes the burst signal with the exact frequency and correct phase position, as will be explained below, is required. This is especially true with PAL systems, with each video line a burst signal in a certain phase range assigned, this is usually the case with consecutive lines at about 900 changes. But this 90 ° phase shift is used during manufacture of the original cassette so low that when playing back the original copy just a correct assignment of the burst signals from line to line to the color difference signals, which are formed from the color signal is possible, a flawless one takes place Color reproduction in the color television. With an additional involuntary influence the phase position of the burst signal during the production and reproduction of the pirated copy but a correct assignment of the burst signal to the color difference signals is not more possible, so that an existing color killer in the color television appeals and only a black-and-white image is reproduced.

In detail, there is therefore the method of manufacturing copy-safe recorded video cassettes according to the PAL method in that the phase position 1 burst signal, its vector in that with the vector of the color difference signal (B-Y) as the X-axis direction and formed with the vector of the color difference signal (R-Y) as the y-axis direction Cartesian coordinate system from video line to video line usually between about +450 to the negative (B-Y) direction sa-with lying in the second quadrant, and about -450 to the negative (B-Y) direction, thus lying in the third quadrant, So far will recently be changed that the phase of the subsequently manufactured second video tape output burst signal regardless of the video line in the same (2nd) quadrant.

According to this method, the color difference signal (R-Y), its Phase position changes from video line to video line by 1800, only then correctly due to the phase position of the burst signal can be evaluated as long as the burst signal is from Video line to video line between a location in the second quadrant and one Position in the third quadrant changes.

By reducing the phase angle of the burst signal to the negative one (B-Y) direction is the correct structure of the resulting color signal from the color difference signals (R-Y) or (B-Y) only possible when playing back the original cassette. In the preparation of a pirated copy, on the other hand, has such a large phase shift in the burst signal on that the burst signal in each video line is in the second quadrant, so that the resulting color signal is no longer built up from the color difference signals can be.

The method is also expediently designed in that the Burst frequency is changed in the transmission path.

This creates an additional copy protection, since the decoding of the color information in the color television receiver, the burst signal with precise frequency and - approximately - requires correct phase position. The burst frequency can by automatic frequency control of the color signal, especially during playback of the original cassette.

However, it effects the transfer of the video signal from the original cassette a frequency deviation on the pirated copy and from this on the color television set of the burst signal in connection with the setting of an incorrect phase relationship of the burst signal an additional copy protection.

In detail, the procedure for copy protection is dimensioned in such a way that the color subcarrier frequency is increased from the normal 4.433681 MHz to 4.4346 MHz.

Finally, the copy protection can be further improved by an embodiment of the method can be achieved in that the arbitrary If the video signal is changed, a high-frequency carrier is also superimposed.

The superposition of the video signal with the high-frequency carrier is effective when playing back the original cassette off, but in the transmission of the video signal with the superimposed carrier on the pirated copy and when playing the pirated copy.

In detail, this method is based on a superposition of the high-frequency The carrier is dimensioned so that the frequency of the high-frequency carrier is approximately 5.06 NHz is.

The superposition of the high-frequency carrier on the arbitrarily changed The video signal causes the copy protection especially in connection with the deviation the frequency of the burst signal from its normal frequency. These changes take effect overall so that when playing the pirated copy one in the color television set existing color killer switches off the color reproduction and only a black and white picture is reproduced.

To practice the method according to the invention is advantageously used Device for the production of copy-proof recorded first video cassettes to which a video signal nodulated according to the PAL method, which comprises a luminance signal and a Color signal comprises, can be recorded with a Nutterband playback device that in particular via a video amplifier with a video cassette recorder in Connection is, and is characterized by the fact that between the Nutterband playback device and the video amplifier receiving circuitry for separating the burst signal and the color difference signals (R-Y) and (B-Y) from the video signal are arranged, to which a transmission circuit arrangement is connected, which has a burst oscillator, from this fed means for phase rotation of the burst signal from line to line by less than +450 or

-450 to the negative (R -?) Signal vector and means of composing it of the video signal with the color difference signal (R-Y) and the color difference signal (B-Y) with the burst signal phase-shifted by less than + 450 from video line to video line, with a luminance signal and video pulses (line return pulse and Horizontal blanking pulse) are provided.

With this device there is therefore a dismantling of the from the mother tape playback device output video signal so that the color signal without affecting the luminance signal can be influenced arbitrarily to the desired extent, and it takes place afterwards the rebuilding of the video signal with the changed color signal. In detail the video signal is first split by the receiving circuitry in such a way that that in particular the color difference signals and the video pulses are obtained. In the transmit circuitry connected to the receive circuitry the new video signal is made up of a burst signal formed in the transmission circuit arrangement using the separated color difference signals and under control which generates video pulses. A burst signal is the arbitrarily influenced Frequency used and the phase relationship of the burst signal to the color difference signals deviates from the normal phase relationship in the manner desired for copy protection manufactured.

In detail, the facility is expediently designed in such a way that that the burst oscillator of the transmission circuit arrangement to a frequency of preferably 4.4346 MHz is set by the frequency of the in the receiving circuitry separated burst signal of preferably 4.433418 NHa deviates.

The device is also expediently designed in such a way that a high-frequency oscillator coupled to the output of the transmission circuit arrangement is.

This high frequency oscillator applies a to the video signal additional carrier frequency. The high frequency oscillator can preferably be capacitively coupled to the output of the transmission circuit arrangement.

The device is preferably dimensioned so that the frequency of the high frequency oscillator is about 5.06 MHz.

The device is expediently constructed in such a way that as a receiving circuit arrangement a television receiving part which completely decomposes the video signal is used.

The color television used to break down the video signal can do this can also be used as a control device.

The transmission circuitry of the device is thereby expedient realized that the transmission circuit arrangement from the assemblies (Y amplifier / color difference board and coder board) of a film scanner for producing the video nut tape.

These boards are therefore part of a well-known commercially available Film scanner. The use of the circuit boards has the advantage that a subsequent Correction of color casts that occurred during the production of the nut band, It is also possible to correct underexposure and overexposure.

Further features and advantages emerge from the following description the method for producing copy-proof recorded video cassettes and a suitable facility for this purpose.

The invention is explained below with reference to a drawing with five figures explained in more detail. 1 shows a simplified block diagram of the overall device for the production of copy-proof recorded video cassettes (original cassettes), Fig. 2a, 2b, 2c different vector images of the color difference signals and the burst signals, for a) normal television conditions b) playback of a copy-safe Original cassette c) reproduction of a pirated copy, Fig. 3 is a block diagram of the additional Receiving circuitry and the additional transmitting circuitry for manufacture copy-safe recorded video cassettes, Fig. 4 is a block diagram of the luminance signal recording part of the video recording system, and Fig. 5 is a block diagram of the color signal recording part of the video recording system.

In Fig. 1 it is shown how a mother tape player 1 Uber a video amplifier 2 is connected to a video cassette recorder 3. The transmission path for a video signal output from the master tape player (FBAS signal) thus runs in the direction of the arrow from the output of the mother tape playback device through the video amplifier to the input of the video cassette recorder. Instead of of the video cassette recorder based on the most widely used VHS system works, video cassette recorders 3a, 3b, 3c can also be provided, which work according to the BETAMAX system, the SVC system or the LVC system.

A special feature of the arrangement according to the block diagram in Fig. 1 between the video output of the mother tape player 1 and the input of the video amplifier 2, a receiving circuit arrangement 4 with a downstream transmission circuit arrangement 5 inserted. Before looking at the mode of operation of this receiving circuit arrangement and transmission circuitry for producing copy-proof prerecorded video cassettes will explain the normal operation of the mother tape player and given the video cassette recorders that are so far state of the art belong. The prior art also includes a color television set with a a video signal reproduced from an original cassette will, after the original cassette has been recorded with the video cassette recorder.

The mother tape player reproduces a mother video tape, which in particular was produced by scanning a color film. The scanning of the Color style and the examples of the mother tape are well known in the art. That Mother tape player outputs a video signal derived from a known FBA8 signal with the information about the image brightness and that with a color signal (F signal), which contains the color information. The entire video signal is also referred to as a composite signal in the usual way.

The image brightness signal or luminance signal UY consists of one signed sum of the brightness signals UR, UG and UB, which are the basic color components Red, green and blue are assigned. The luminance signal is according to the equation: Uy @ 0w3 UR + 0.59 UQ + 0.11 UB combined.

Finally, there is also color information about the color television receiver available, the color difference signals UR-Y and UB-Y are used as differences UR - fly or UB - Uy formed. The basic color signals can be obtained from these color difference signals UR, UG and UB are recovered. For transmission with the video signal are the both of the aforementioned color difference signals are combined into one piece of information to be used in Connection with a carrier frequency of 4.433618 MHz as the F component of the composite signal to be modulated onto the conventional BAS signal. The carrier frequency is as a burst signal contained in the video signal, its phase position to the color difference signals the PAL-Syatem is of particular importance for correct color rendering.

Although the PAL method is well known, its Basics received as far as this is for understanding the present Invention appears expedient: The color information is received by the color television transmitted by double modulation with only one carrier frequency in which the two Color difference signals R-Y I U and B-Y = V are included. The signals U and V become also referred to as chrominance signals. With quadrant amplitude modulation, the Information R-Y modulated onto a carrier that is the same frequency as the carrier that the information B-Y is modulated on, is phase shifted by 900 leading. By geometrically adding these two carrier-frequency vibrations, the Vector diagram obtained the color signal F or Fa in Fig. 3a. This applies to the PAL system e.g. for the first video line of an image. So clearly in the color television receiver the correct phase position can be determined, these chrominance signals in Sender of the burst oscillation belonging to this video line has a phase position of + 450 relative to the negative axis - (B-Y) assigned. This applies to the first, third and each subsequent odd video line. For the second, fourth and any even numbered According to the PAL system, the video line in the transmitter becomes the tarbdifference signal R-Y around 1800 reversed polarity, so that the resulting color signal Fb is now a mirror image of the color signal Fa is on the previous line.

For this purpose, the phase of the burst oscillation for this line B (even-numbered) switched, namely at an angle of -45 ° to the direction - (B-Y). So it will be everyone odd-numbered line a with normal phase position of the color signal and each even line b with artificial color reversal, from line to line also the phase position of the burst oscillation for control from the second to the third quadrant and vice versa changes.

The changing phase position of the burst oscillation is in the receiver evaluated as an identifier whether a line with normal or reversed color difference signal (R-Y) is present in order to reverse the latter by switching the phase lag. This can cause phase errors in the color difference signals or the chrominance signal, which would normally result in a color falsification, through geometric addition of the chrominance signals of two consecutive lines are compensated. With This system can compensate for phase errors up to + 400 when the averaging by storing the chrominance signals of a previous line with the chrominance signals of the current line.

In Fig. 3a are the chrominance signals of the odd video lines with Fa and the even-numbered video lines with Fb, while the buret signals the even-numbered lines are designated with b1 and the odd-numbered lines with b2 are.

The burst signals of successive lines close in normal Color television an angle of 90 °, so that the burst signals anyway in the second and third quadrant.

The pointer image according to FIG. 3a also corresponds to the pointer image which with the video signal output from the master tape player 1 in FIG as well as the pointer image of non-copy-safe recorded video cassettes, with the device according to FIG. 1, however, the receiving circuit arrangement 4 and transmission circuitry 5 with the video cassette recorders 3 according to the State of the art.

For the production of copy-proof recorded video cassettes according to the invention is now according to Fig. 2b in particular the phase position of the burst oscillation (color carrier) compared to the normal setting arbitrarily changed, namely the phase position the burst oscillation, which normally has a phase angle from video line to video line from 900 includes, so far reduced to a limit value that when playing a properly manufactured original cassette, the pointer of the burst oscillation still in the second Quadrant for odd video lines and the pointer of the burst oscillation for even-numbered lines is still in the third quadrant lies. The phase position of the burst oscillation thus still provides an exact identification of the color difference signal (R-Y), so that in a common phase comparison circuit the color signals Fa and Fb are built up in the normal manner in the color television set can. If, however, this ncritical burst signal continues involuntarily according to FIG. 2b falsified by making a pirated copy using the original cassette, since additional, smaller phase errors occur with the additional recording and playback, which are not compensated in the video recording and playback systems (video recorders) a pointer image appears when reproducing such pirated copies Fig. 2c, in which the Eurstschwwellen b1 from video line to video line after Include an angle <900 as before, but for all video lines, for example lie in the second quadrant. An assignment of the color difference signals for polarity reversal in every second line is no longer possible, and the color television receiver is no longer able to generate the correct color signal. Contains the color television receiver in the usual way a so-called color killer circuit, which this wrong and recognizes non-compensable phase position of the burst oscillation, the function of the color television switched to black and white reproduction. The color killers belong to the prior art and contain at least one essential component Phase detector (phase comparison circuit).

It is important in connection with the present invention that of the entire video signal (composite signal) only the color signal component, namely the Burst oscillation, is arbitrarily influenced, but not the other components, and in particular not the image signal (luminance signal).

How this influence takes place in detail is illustrated in Fig. 3 explains, in which an embodiment of a receiving circuit arrangement 4 and e of a transmission circuit arrangement 5, which are indicated in FIG. 1, are shown is: To reduce the angle between the burst signals of successive video lines the video signal must be in the transmission path between the mother tape player and the video amplifier 2 are broken down to such an extent that the burst signal is adjusted can be.

For this purpose, a normal television receiving part is used as the receiving circuit arrangement 4 is used, which completely decomposes the video signal. In detail, the clamp 6 acted upon with the FBAS signal from the mother tape = playback device. Of this Signal are through the pulse separator 7 for the vertical and horizontal Synchronization required pulses, the line jerk pulse and the horizontal blanking pulse, separated, these pulses are used to control the receiving circuit arrangement 4 and the transmission circuitry 5 is used. Furthermore, the composite signal is carried through the video stage 8 separated the Luiinanzsignal that for black and white representation is used or fed into a color saturation level 9 for color reproduction will. Through a bandpass 10, the complete composite video signal is without pulse and luminance signal let through. The burst signal present on the black shoulder of the video signal is fed into an AND stage 11, which also receives a control signal from the pulse separation stage 7 receives. The AND stage is controlled so that at its output 12 the burst signal appears. The burst signal in turn controls a color subcarrier oscillator 13. The color subcarrier signal output from the color subcarrier oscillator 13, is used in particular to control the color difference signal demodulators 14 and 15 for the color difference signal (R-Y) and (B-Y). The color difference signals are in a Y matrix 16 is fed, on whose output lines 17, 18 and 19 the signals for the Primary colors red, green and blue occur. Thus, in the receiving part 4 a complete decomposition of the fed in at the terminal 6 Video signal takes place, the color subcarrier oscillator 13 on the same frequency how the burst signal oscillates, namely preferably 4.433618 MHz.

For the composition of the composite signal as a new video signal, with the the original cassettes are acted upon in a copy-safe manner, the transmission circuit arrangement is used 5 by generating a new signal with the carrier frequency of approximately 4.43 MHz.

The transmission circuit arrangement preferably consists of two circuit boards a film scanner, namely a Y amplifier / color difference board and a Coder board.

In a Y matrix 20 of the transmission circuit arrangement 5, the primary color signals fed in on lines 17, 18 and 19.

The Y matrix in turn generates a luminance signal from these primary colors, which is fed into an adder 22 via a delay line 21. the end the primary color signals on lines 17 and 19 are also provided via a U-V matrix 23 generates the color difference signals (R-Y) and (B-Y). The U difference signal becomes fed into a U modulator 24, while the V difference signal in a second Modulator, the Y modulator 25, is input. As an essential part it has the transmission circuit arrangement 5 has a color carrier oscillator 26 which operates on the color carrier frequency oscillates from 4.4346 MHz. The color subcarrier oscillator is used to modulate the (R-Y) color difference signal in the U-modulator 24 as well as for the moldulation of the (B-Y) -color difference signal in the Y modulator 25. To form a color signal according to the PAL method, the (B-Y) color difference signal by phase switching stage 27 from video line to video line from +900 to direction of the pointer (B-Y) switched to -900. The switchover takes place through the Pulse center 28, which with the synchronization and Austaatimpulsen the pulse separation stage 7 is applied. The two modulated color difference signals are in one Adding stage 29 combined to form the chrominance signal. The exit the adder 29 goes into the adder for the complete formation of the video signal 22 a.

In the adder 22 not only the blanking and synchronization pulses for the complete formation of the video signal, but it is also the burst signals switched from video line to video line with regard to its phase position, its phase position according to the invention is less than t 450 to the negative pointer direction of the color difference signal (B-Y) is fed. For phase rotation of the burst signal stage 30 is used, which in the simplest case consists of a coil that is also lunted since the phase shift from video line to video line is less than 900.

The switching of the outputs of this stage 30 with the burst signal of the Phasing <+450 and <-45 ° takes place via a switch 31, which is also is controlled by the pulse center 28. The burst signal of the PAL system The desired phase position in the 2nd or 3rd quadrant is determined by the second AND stage 32, which are also controlled by the pulse center via a delay stage 33 is fed into the adder 22 for the complete composition of the composite signal. At the output of this adder stage, an additional modulation to those described can be used Boards are made by a 5.06 MHz oscillator 34, whose high-frequency signal is coupled into the output line via a capacitor 35.

A new complete video signal is thus present at the output terminal 36 whose burst phase position compared to a normal video signal according to the invention is shifted and its burst frequency is slightly for further copy protection is increased and that ultimately also contributes to a complete copy protection. one unfavorable constellation of video recorders with which the pirated copy was made and is played is overlaid.

For the production of copy-safe played video cassettes will the video signal output from the terminal 36 is amplified by the video amplifier 2 and - depending on the system used - on one of the video cassette recording devices 3, 3a, 3b, 3c given.

Although these video cassette recorders are prior art belong, a VHS recorder 3 will be short in the following for the sake of completeness described: According to Fig. 4, the FBAS-8signal in an amplifier 36 with automatic Gain control fed in. In the connected to the output of this amplifier Filters 37, 38, 39 separate the color signal wCromat from the luminance signal, which is further processed in the circuit arrangement according to FIG. With color recording through, the luminance signal passes the low-pass filter 38, while in black-and-white recording the low-pass filter 39 is switched on, i.e. manually or automatically by a color killer to fully utilize the bandwidth for a black-and-white recording. In the direction of signal flow behind these low-pass filters the luminance signal is amplified again.

With two limiter circuit arrangements 40, 41 the black-and-white value set. The limited signal is fed to an FM modulator 42. Of the Filters 43 connected to the FM modulator attenuate the modulation produced lower sidebands for color records. The frequency modulated signal is mixed in the recording amplifier 44 with the converted color signal, amplified and fed into the video heads 47 and 48 via the rotating transformers 45, 46, with which the magnetic tape is recorded alternately in a helical track.

The chrominance signal WCromaX filtered out by the filter 37 in FIG is further processed in the circuit arrangement according to FIG. 5 separately from the luminance signal, before it is fed into the recording amplifier 44 for mixing with the Luninnzsignal will. For this purpose, the color signal is first used with the automatic Gain control stage 46 amplified to a constant amplitude. In the subsequent Miech level 47, In which a carrier frequency of 5.06 NHz is fed, there is a sum and Difference between the color signal and the carrier frequency. Through that to the mixer stage Connected low-pass filter 48, only the difference signal is filtered out, its Center frequency is 626.9 KHz This converted color signal is, as mentioned, mixed in the recording amplifier 44 with the luminance signal.

By playing the magnetic tape with the magnetic heads that come from the Recording amplifier 44 are fed, so the complete production takes place copy-safe recorded video cassettes as original cassettes, which are unauthorized duplicate, but cause the duplicated second video cassette (Pirate copies) only emit so falsified color signals that from these pirated copies no proper color reproduction or only a black and white reproduction takes place can.

L e r s e i t e

Claims (13)

Claims: 1. Method for producing copy-safe recorded first video cassettes (original cassettes), on which a particular according to the PAL method modulated video signal (FBAS signal), which is a luminance signal and a color signal (F signal) can be recorded by the video signal vol a nutter tape via a transmission path, in particular a video amplifier and a video recording system (Video recorder) is transferred to the first video cassette, characterized in that that in the transmission path (Fig 1) the color signal without influencing the luminance signal to the extent that it is arbitrarily influenced by this video cassette a color television set with a color falsification up to a limit value Compensation circuit arrangement fed video signal still to a correct one Color rendering results, but without an additional / arbitrary influence of the video signal due to transmission errors in the manufacture of a second video cassette (Pirated copy) with the video signal obtained from the first video cassette a correct one Reproduction of the video signal output from the second video cassette by the Compensation circuit arrangement excluded as a result of the limit value being exceeded is. 2. The method according to claim 1, characterized in that upon transmission the video signal with a color signal that comprises a burst signal (color carrier signal), the phase position of the burst signal is changed arbitrarily. 3. The method according to claim 2, characterized. that the phase position of the burst signal, its vector in the one with the vector of the color difference signal (B-Y) as the X-axis direction and with the Vector of the color difference signal (R-Y) formed as the Y-axis direction Cartesian The coordinate system from video line to video line is norsally between about + 45 ° to the negative (B-Y) direction, thus lying in the second quadrant, and about -450 to the negative (B-Y) direction, thus lying in the third quadrant, changes so far is arbitrarily changed that the phase of the subsequently produced second video tape output burst signal regardless of the video line in des same (2nd) quadrant. 4. The method according to any one of the preceding claims, characterized in, that the burst frequency is changed in the transmission path. 5. The method according to claim 4, characterized in that the burst frequency is increased from normally 4.433618 NHz to 4.4346 MHz. 6. The method according to any one of the preceding claims, characterized in, that the randomly changed video signal is also accompanied by a high-frequency carrier is superimposed. 7. The method according to claim 6, characterized in that the frequency of the high-frequency carrier is about 5.06 NHz. 8. Device for the production of copy-proof recorded first video cassettes (Original cassettes) onto which a video signal modulated according to the PAL method (FBA8 signal), which includes a luminance signal and a color signal (F signal) with a Nutterband playback device, which in particular has a video amplifier is in communication with a video cassette recorder, through this characterized in that between the mother tape player (1) and the video cassette recorder (3), preferably between the mother tape player and the video amplifier (2) a receiving circuit arrangement (4) for separating the color difference signals (R-Y) and (B-Y) and the video pulses from the video signal to which a transmission circuit arrangement (5) is connected which has a burst oscillator (26), from this fed means for phase rotation (30) of the burst signal from line to line Line by less than +450 or -45 ° to the negative (R-Y) signal vector and mean for composing the video signal (29, 22) with the color difference signal (R-Y) and Color difference signal (B-Y) with that from video line to video line by less than t 450 phase-shifted burst signal, with a luminance signal and video pulses (line throwback pulse and horizontal blanking pulse) are provided. 9. Device according to claim 8, characterized in that the Burst oscillator (26) of the transmission circuit arrangement to a frequency of preferably 4.4346 MHz is set by the frequency of the in the receiving circuitry separated burst signal of preferably 4.433618 MHz deviates. 10. Device according to claim 8 or 9, characterized in that a high frequency oscillator (34) coupled to the output of the transmission circuitry is. 11. Device according to claim 10, characterized. that the frequency of the high frequency oscillator is about 5.06 MHz. 12. Device according to one of claims 8 to 11, characterized in that that as the Ecptangsschaltung (4) a completely decomposing the video signal TV catcher is used. 13. Device according to one of claims 8 to 11, characterized in that that the transmission circuit arrangement from the assemblies (Y amplifier / color difference board and coder board) of a fili scanner for producing the video master tape.