DE4022923A1 - Reproducing colour signals in VTR - has colour difference detection circuit controlling electronic switch assigned to comb filter - Google Patents

Abstract

The method is applied to colour pictures recorded on a video tape whose colour signals are transmitted via a comb filter (2) in the transmission channel (1). A colour signal (8) direct from the filter (2) is compared with a preceding signal (12), delayed by a given amount, from the delay line (11) of the filter (2) and a difference signal (26), dependent on the difference between the signals (8, 12), is produced. While the difference signal (26) exceeds a predetermined threshold (SW1) the filter is switched off when a horizontal edge is detected. This filter operates to remove cross-talk during scanning of the sides tape but can itself course two line false colour stripes. It is therefore switched out when this arises. USE/ADVANTAGE - Reduces interference resulting in error in colour. Small compact inexpensive circuit which can be easily added to video recorders during mass prodn. process.

Description

The invention relates to a method for playback a video tape of a VCR recorded Color images via a comb filter, which is in the reproduction side Color signal transmission channel is arranged, and one Video recorder to carry out the process.

From the DE magazine "Funkschau", issue 15, 1984, pages 42 to 45, a video recorder is known in the playback-side color signal transmission channel Comb filter is arranged. The purpose of the comb filter is in the case of color reproduction, the extinction of the crosstalk Signal components of the adjacent helical track Obliterate traces. This deletion takes place through a suitable switching of the carrier phase between 0 ° and 180 ° for the individual image lines in the playback part of the Video recorders and by adding the comb filter incoming sampled color signals and those in the color filter color signals delayed by two line lengths, the two Lines were previously scanned. When playing a picture with the well-known video recorder  Video image on horizontal edges of image areas with a large color difference relatively wide horizontal Streaks with a wrong color, which the viewer of the reproduced video image perceived as very annoying will. These false color strips are particularly annoying on horizontal edges of color transitions very much different colors on multiple copied cassettes.

The invention is based, such interfering stripes with an incorrect color horizontal color transitions at least to one no more reduce eye-catching measure.

The solution to this problem is based on the knowledge that these interference strips with a wrong color on the horizontal Edge of a color transition by adding the Color signals of two superimposed picture lines done by an intermediate image line are separated from each other. Based on this knowledge is the object of the invention by a Playback method solved, the features of claim 1 are specified. The subclaims characterize one advantageous video recorder to carry out the inventive method and advantageous Refinements of such a video recorder.

A video recorder with a playback device that follows the reproduction method according to the invention works, enables the playback of Color images, whose color resolution on horizontal Color edges of the color resolution of the image reproduction direct color transfer without intermediate storage almost like a video tape. For this the process requires only one excellent effect  little additional circuitry required in one Mass production of such a video recorder is not significant in terms of cost.

The invention will become more advantageous in the following Exemplary embodiments explained in more detail. In the associated Show drawings

Fig. 1 is a playback-side chrominance signal transmission channel of a video recorder in the range of the comb filter having an arrangement for suppressing disturbing color stripes on horizontal edges of a color transition,

Fig. 2 shows the diagrams a) to g) for illustrating the method for suppressing a lack of colored stripes on horizontal color transitions

Fig. 3 shows a reproduction-side color signal transmission channel of a video recorder with a further arrangement for suppressing disturbing false color stripes on horizontal edges of a color transition.

In Fig. 1 of the reproduction side color signal transmission channel 1 is a video recorder in the range of the comb filter 2 shown this Ubertragungskanales. An arrangement is connected to this comb filter, which consists of a signal difference detection circuit 3 and a controllable electronic switch 4 . The comb filter 2 contains an electronic addition circuit 5 , to the one signal input 6 of which the transmission line 7 for the color signals 8 of the color signal transmission channel 1 transmitted without delay in the comb filter is connected, and to the other signal input 9 of the transmission line 10 for the delay line 11 of the comb filter exactly two video lines of delayed color signals 12 is connected. In the exemplary embodiment shown, the signal difference detection circuit 3 contains a differential amplifier 14 , to the output 15 of which a smoothing circuit 16 with a short time constant τ is connected. The output 17 of the smoothing circuit is connected to a control input 18 of the electronic switch 4 . The electronic switch 4 is located in the transmission line 10 between the output of the delay line 11 and the second signal input 9 of the addition circuit 5 and is closed in the normal operating state, so that the output of the delay line 11 is connected directly to the second signal input 9 of the addition circuit via the electronic switch 4 5 is connected. Of the signal inputs 19 and 20 of the differential amplifier 14 , which are also the signal inputs of the signal difference detection circuit 3 , one signal input 19 is in the effective range of the comb filter 2 on the transmission line 7 for the undelayed color signals 8 and the other signal input 20 on the transmission line 10 for the delayed color signals.

In diagram a) of FIG. 2, six adjacent image lines Z 1 to Z 6 of a video image transmitted to signal input 21 of comb filter 2 are shown. The diagram a) represents a two-color image detail with the colors A and B. The area of the color A is hatched upwards to the left and the area 22 of the color B, which in the line Z 4 in a horizontal color edge 23 to the image line Z 3 of the Area of color A is hatched on the right upwards. In the comb filter 2, the non-delayed color signals delayed in the delay line by exactly two picture lines color signals are received the data transferred to the input 21 of comb filter color signals to the two image lines above 8 in the adding circuit 5, 12 added with corresponding amplitude rating, so that at the signal output 24 of the comb filter 2 the video lines Z 13 , Z 24 , Z 35 and Z 46 formed from the input-side video lines Z 1 to Z 6 and shown schematically in diagram b) of FIG. 2. The output-side video line Z 13 contains the color signals of the additively superimposed color signals of the two input-side video lines Z 1 and Z 3 , the output-side video line Z 24 , the additively superimposed color signals of the input-side video lines Z 2 and Z 4 and so on. As can be seen from the diagram b), the comb filter 2 in the image section of the transmitted video image shown schematically in diagram a) produces on the horizontal sharp color edge 23 between the colors A and B a line extending over two lines (Z 24 and Z 35 ) Area 25 of a disturbing false color C due to the additive overlay of colors A and B.

In order to eliminate this area 25, which is disturbing due to a false color, on a sharp, horizontal transition 23 of two colors A and B of a reproduced video image in such a way that it is no longer noticeable, the signal difference detection circuit 3 is provided, which the electronic switch 4 in the transmission line 10 for controls the delayed color signals. The method which is carried out with this circuit arrangement is shown in diagrams c) to f) of FIG. 2. The diagrams a) to g) of FIG. 2 all relate to the same time axis t. The diagram c) schematically represents the undelayed color signals 8 of the video line Z 3 at the input 21 of the comb filter 2 and the diagram d) shows the color signals 12 delayed by exactly two video lines on the transmission line 10 by the delay line 11 of the comb filter Color type of the two colors A and B is characterized schematically by the amplitude and the phase position ϕ _a for the color A and ϕ _b for the color B. From the phase and the amplitude difference, the differential amplifier 14 forms a high-frequency output signal at its output, which is converted in the smoothing circuit 16 into a difference signal 26 shown in diagram e). This difference signal increases from the time t 1 with a time constant ρ predetermined by the smoothing circuit 16 to the end value and passes through a threshold value sw1 set in the electronic switch 4 at the time t 2 . After this threshold value sw1 has been exceeded, the difference signal acts as a switching signal 27 for the electronic switch 4 until it falls below this threshold value again at time t 3 . This switching signal 27 is shown in diagram f) of FIG. 2. During the duration of this switching signal 27 , the electronic switch 4 separates the second signal input 9 of the addition circuit 5 from the transmission line 10 of the comb filter 2 for the delayed color signal 12 . As a result, only the undelayed color signal 6 is transmitted from the input 21 to the output 24 of the comb filter 2 during the period of this switching signal 27 . This eliminates the effect of the comb filter on the color signal transmission. The incorrect color due to the crosstalk of the differently colored line on the horizontal color edge 23 is so slight that it does not become obvious.

The effect of this transfer method during the transfer of a horizontal color edge 23 is shown schematically in diagram g) of FIG. 2. This diagram g) corresponds essentially to diagram b). In order to distinguish this, in diagram g) the video lines transmitted from the output 24 of the comb filter 2 are designated Z 013 , Z 024 , Z 035 and Z 046 . In the area 28 of the video lines Z 024 and Z 035 only the color signal of the undelayed lines Z 2 and Z 3 is transmitted, so that there is no false color. The time constant τ of the smoothing circuit 16 and the threshold value sw1 of the electronic switch 4 are dimensioned such that the delay between the start of the horizontal color edge 23 at the time t 1 and the start of the switching signal 27 at the time t 2 is only a few carrier oscillations 34 apart, so that the area 29 of the false color at the beginning of the transmission area of the horizontal color edge 23 'no longer matters.

The switching threshold with the threshold value sw1 of the electronic switch 4 is necessary for a trouble-free switching of this electronic switch. The time constant of the smoothing circuit 16 prevents the electronic switch 4 from responding to interference signals at the input of the signal difference detection circuit 3 .

A differential signal at the signal output 15 of the differential amplifier 14 , which does not reach the threshold value sw 1 of the electronic switch 4 and which is represented by the dashed line 30 in the diagram e) of FIG. 2, stems from a horizontal color edge 23 of two adjacent colors A and B. forth, whose color difference is so small that a false color formed by the comb filter at the transition between the two colors does not catch the eye anyway and can therefore remain ineffective.

The circuit arrangement shown in FIG. 3 differs from the circuit arrangement shown in FIG. 1 essentially in that the comb filter 2 is only accessible at its signal input 21 and its signal output 24 . The electronic switch 4 is therefore designed as a changeover switch and connects the part 31 of the reproduction-side color signal transmission channel 1 connected downstream of the comb filter 2 in its first switching state s 0 to the output 24 of the comb filter and in its switched switching state s 1 to the input 21 of the comb filter. In addition to the differential amplifier 14 and the smoothing circuit 16, the signal difference detection circuit 3 contains a smith trigger 32 connected downstream of the smoothing circuit 16 . The Schmit trigger forms a switching signal 27 from the difference signal 26 as soon as the difference signal exceeds a switch-on threshold value sw 1 of the Schmit trigger and as long as the difference signal 26 is greater than a switch-off threshold value sw 0 of the Schmit trigger 32 . This switching signal 27 switches the electronic switch 4 during its existence from the first switching state to the switched switching state. In the switched state s 1 of the electronic switch 4 , the output 24 of the comb filter 2 is switched off from the color signal transmission channel 1 , so that the comb filter 2 is ineffective for the reproduction-side color image transmission. The switch-off threshold value sw 0 is entered in diagram e) in FIG. 2 as dashed line 33 . Diagrams a) to g) apply to the circuit arrangement according to FIG. 3 as well as to the circuit arrangement according to FIG. 1 with the proviso that in one exemplary embodiment according to FIG. 3 the color signals of diagram d) are the color signals of video line Z 35 at the output 24 of the comb filter 2, and the signal difference detection circuit 3 detects the difference of the color signals of the video line Z 3 and the output-side video line Z 35 in this case and analyzed.

Claims (7)

1. A method for reproducing color images recorded on a video tape, the color signals of which are transmitted via a comb filter arranged in a reproduction-side color signal transmission channel ( 1 ), characterized in that

• - that an undelayed from the comb filter (2) color signal (8) to a previous state, from the delay line (11) of the comb filter is compared to a predetermined amount delayed color signal (12), and a dependent on the difference of the two color signals difference signal (26) is formed becomes
• - And that over the period of time during which the difference signal exceeds a predetermined threshold value (sw 1 ), below which an obviously disturbing reproduction of horizontal color edges ( 23 ) does not occur, the effect of the comb filter on the color signals transmitted for reproduction is switched off.

2. Video recorder for performing the method according to claim 1, characterized in that

• - That an electronic switch ( 4 ; 40 ) is connected to the comb filter ( 2 ) in such a way that in a switching state (s 1 ) of the electronic switch switched by a switching signal ( 27 ), the output signal ( 12 ) of the delay line ( 11 ) of the comb filter is ineffective for further color image transmission,
• - And that between the input ( 21 ) and the output ( 22 ) of the comb filter or between the transmission channel ( 10 ) for the delayed color signal ( 12 ) and the transmission channel ( 7 ) for the undelayed color signal ( 8 ), the signal inputs ( 19 , 20th ) a signal difference detection circuit ( 3 ) are connected and the signal difference detection circuit generates a switching signal ( 27 ) for the electronic switch when a smoothed difference signal ( 26 ) generated in the signal difference detection circuit from the signal difference of the monitored color signals within a few oscillations ( 34 ) of the color carrier the given Threshold (sw 1 ) exceeded.

3. Video recorder according to claim 2, characterized in that the electronic switch ( 4 ) in the output of the delay line ( 11 ) of the comb filter ( 2 ) is connected downstream transmission line ( 10 ) and in the switched state (s 1 ) separates this transmission line. 4. Video recorder according to claim 2, characterized in that the comb filter ( 2 ) downstream part ( 31 ) of the color signal transmission channel ( 1 ) in the first switching state (s 1 ) of the electronic switch ( 40 ) to the output ( 24 ) and in the switched switching state (s 0 ) of the electronic switch is connected to the input ( 21 ) of the comb filter. 5. Video recorder according to one of claims 2 to 4, characterized in that the signal difference detection circuit ( 3 ) is a series circuit of a differential amplifier ( 14 ), a smoothing circuit ( 16 ) with a time constant (τ) which corresponds to a few vibrations ( 34 ) of the color carrier frequency, and a threshold switch ( 4 ; 32 ). 6. Video recorder according to claim 5, characterized, that the threshold switch is a smith trigger. 7. Video recorder according to claim 5, characterized in that the electronic switch ( 4 ) with respect to its control input ( 18 ) is a threshold switch.