DE2248464A1 - SYSTEM FOR RECORDING AND / OR REPLAYING A TRICE-SEQUENTIAL COLOR IMAGE SIGNAL - Google Patents

Description

System for recording and / or reproducing a three-line sequential Color image signals, addition to P 22 29 393.2 The main application relates to a system for recording a triceline sequential color image signal obtained by sampling an original image is obtained along scanning lines.

With such a system, simultaneous playback occurs at sharp transitions in the vertical image direction errors because during each line only the signal of a color separation recorded iqt.

The invention according to the main application is based on the object of this to reduce errors that occur during playback with horizontal edges.

This object is achieved by the invention according to the main application solved that the recorded signal from the similar signals of several consecutive scan lines is composed. This composition takes place preferably electronically, by sending similar signals from several consecutive lines are added using line delay lines.

The present invention provides a simple circuit principle created for this electronic medium, which works with different color image signals, e.g. NTSC, PAL, or trizeline sequential Signals, simple Circuits allows.

The present invention is that the composition of the Signals takes place in the path of color difference signals. In one embodiment, each of the color difference signals with the one corresponding to it out by one or more lines delayed color difference signal added. The addition can get in the way of video frequent and seek in the way of carrier-frequency color difference signals. At one with Two color difference signals modulated color carriers can directly dis color carriers of consecutive ones Lines are added as long as they match in frequency and phase.

The composition can be used both at the time of inclusion and at the time of Playback will take place. The degree of integration, e.g. the amplitude in a line The signal added from the previous line can be changed dynamically by the man of the information changes depend from line to line. As with the main registration, these can be combined in a Evaluator determines weiden, which subtracts the signals on the following lines Such a circuit is e.g.

shouted in "Electronics" June 1951, p. 122. The invention e1-Kutert is based on the drawing of several exemplary embodiments. Show in it Fig. 1 shows an embodiment for carrier-frequency color difference signals, Fig. FIG. 2 shows an exemplary embodiment of a tri-line sequential color image signal, FIG Diagram to explain the mode of operation of the circuit according to FIG. 2, FIG. 4 Another embodiment, Fig. 5 shows an example of a message in the wake of the Color carrier and Fig. 6 an embodiment for oinen PAL color carrier.

In Fig. 1, a recording apparatus 1 supplies a color image signal which in a matrix 2 in a luminance signal Y Y are color subcarrier frequencies color difference signals FC and FV is converted. FU and FV are with the color difference signals U and V amplitude-modulated with suppressed carriers and have a phase shift of 90 °. With a line delay line 3 and an adder stage will the color subcarrier-frequency signals Fu from two consecutive lines added, as well as the color carrier frequency signals FV with a line delay line 3 and an adder 4 '. This creates integrated signals over two lines FU 'and FV' in an adding stage 5 to form a quadrature-modulated color carrier F been put together. The adder 5 also receives the luminance signal Y. so that a composite signal is produced at a terminal 6, its color carrier F 'is averaged over two lines. Thus, the color subcarriers are also in quadrature modulation modulated color difference signals U, V each averaged over 2 lines. It is e.g. U = B - Y and V = R - Y or U = X and V = Z.

In Fig. 2, simultaneous color signals R, G, B with a bandwidth of 3 MHz in a matrix 7 color difference signals II-Y, B-Y and G-Y with a bandwidth from 0-0.5 MHz as well as a luminance signal YH mi.t in a higher frequency range a bandwidth of 0.5-3.0 MHz. With a line frequency in.

Direction 8 rotating switch 9 are therefrom at a point a trizeilensequentialielle Color difference signals generated. These get through an adder 10 and a Low-pass filter 11 to an adder 12, where it combines with the luminance signal YH will. At a Kleime 13 a. for a tri-consecutive recording suitable signal that is line-sequential in a lower frequency range from 0 to 0.5 MHz the color difference signals and in an upper frequency range from 0.5 NHz to 3.0 MHz constantly the light density signal. YH contains. The circuit described so far is known.

According to the invention in the adding stage 10 in each case the at point a standing color difference signal the same color difference signal of the temporal the preceding line bin was added. This is actuated with a second line frequency Switch 14 and a line delay line 15 made available at point c. The switch 14 has the other switching phase shown compared to the switch 9, so that at the inputs a iind c of the adder 10 there are always identical color difference signals consist of two consecutive lines.

FIG. 3 shows the signals in FIG. 2 for points a, b, c, d. In line 5, for example, switch 9 delivers am in the switch position shown Point a the color difference signal (R-Y) 5. The stranding switch 14 has in advance pending time on the line b, the signal (R-Y) 4 tapped, so that this in the Time 5 at point c oine line duration appears delayed. The signals (R-Y) 5 and (R-Y) 4 are thus averaged in adder 10. Know an averaging over several lines is desired, a third switch is provided, the output signal of which is via a delay of two lines of the adder 10 is supplied. This switch would be disadvantageous by two shift positions, so again at the inputs of the adder stage 10 color difference signals of the same type are always available.

In Fig. 4, matrix 7, Schater Q and low-pass filter 11 work as in Fig.

2. In contrast to FIG. 2, the electronic averaging takes place in the way the luminance signal YH by means of a line delay initung 15 and a Adding stage 16. In addition, the electronic averaging can be used in the way of the color difference signals be carried out according to FIG.

In Fig. 5 a standing at a terminal 17 FBAS signal with a Band stop 18 and a band filter 19 in the luminance signal Y iind the color carrier F split. Using two line delay lines 20,21 the color carriers from three consecutive lines in an adder stage 22 added to the electronic averaging. The averaged color carrier F 'is in a Adding stage 23 is again added to the luminance signal Y bin. At a terminal 24 arises then a composite signal with a color code F 'averaged over several lines. the The circuit assumes that the color carriers of successive lines have the same frequency and have the same phase for the same information content. The circuit is e.g. suitable for an NTSC color carrier. In the case of a PAL color carrier, the shading is not readily suitable because the phase of the PAL color subcarrier is periodic switching is subject.

Fig. 6 shows a circuit for a PAL color carrier. The one on one Terminal 25 standing PAL color carrier is in a known run-time signal separation circuit with a line delay line 26, an adding stage 27 and a subtracting stage 28 split into the two color carrier frequency components FU and F + jV. These Signals are then added again in a further adding pin 29. Through this there is again a PAL color carrier, but averaged over two lines, on one Clamp 30.

Claims (8)

P a t e n t a n s p r ü c h e System for recording and / or reproducing a tri-line sequential fin Color image signal, in which to reduce foals who are affected by changes in information puff perpendicular to the line in the re-green image, signals successive in time Lines are composed, according to patent application P 22 29 323.2, characterized in that that the composition takes place in the path of the color difference signals (R-Y, G-Y, n-Y). 2. System according to claim 1, characterized in that the composition takes place in the way of a color carrier (F) modulated with the color difference signals (Fig. 5.6). 3. System according to claim 2, characterized in that a PAL color carrier the color subcarrier to the input (25) of a PAL-Uaufzeit-signal separation circuit (26-28) is applied and the outputs of the adder (27) and the subtracter (23) This circuit is connected to the inputs of a further Addi.er.t: ufe (29) are (Fig. 6). 4. System according to claim 1, characterized in that in trizeline sequential Color difference signals (R-Y, G-Y, ß-Y) jodes the sequential signals with the corresponding Signal of one or more adjacent lines is composed (Fig. 2,3). 5. System according to claim 4, characterized in that a plurality of line frequencies Actuated switchover (9,14) with three inputs each on three of the three simultaneous color difference signals leading terminals are connected that the changeover switch with different switching phase actuated and their outputs via delay elements (15), their delay times from one another are different by one line, at inputs of an addi stage (10) are connected (Fig. 2,3). 6. System according to claim 1, characterized in that in a circuit, in which the color difference signals and the luminance signal (Y) via separate paths are performed, the composition takes place in the path of the luminance signal (Fig. 4). 7. System according to claim 1, characterized in that the composition takes place before recording. 8. System according to claim 1, characterized in that the composition occurs during playback.