DE2056684B2 - SYSTEM FOR STORING COLOR IMAGE SIGNALS - Google Patents

Description

3 4

F i g. 3 a block diagram for the reproduction, line this signal in faster by a factor of 5

F i g. 4 the mode of action of a possible time sequence, i.e. time-compressed, for the recording

compression. output. The expander part delays that during

In Fig. 1, T _{0 is} the line deflection period and T _{1 is} the signal Ft arriving at the time T ₂ so that it is on

part of T ₀ available for image signal transmission . 5 the period T _{3 is} stretched.

According to the invention, during part T _2, this becomes. With simultaneous time compression of Y

the chrominance signal belonging to the part T ₃ in compressed form from the period T ₁ to the period T ₃ and \ on F

Form .F * recorded. During the TeUsT ₃ , the signal can be switched from the period T ₁ to the period T ₂

the luminance signal Y assigned to T _{3 is} recorded for the entire line duration T _0,

recorded changed form, the part T ₂ io without losing image components. In the F i g. 2

associated signal Y is omitted. If z. B. and 3 would then also be a compression for the y-path

the bandwidth of Y 5 MHz and the bandwidth of F sion and an expansion of the signals are required.

I MHz, then with the time compression of If the time period T ₂ in the reproduction of the image F is omitted from the time period T ₃ taken as such, the line retrace time can be the reproduction time period T ₂ at T ₈ = ¹ J ₅ T ₃ for Fk a frequency of 15 facility using this period of time ver-5 MHz. It can be seen that F * and Y are elongated the same tape. By lengthening the width and thus having a perfectly excellent return time, energy can be used for the line deflection. The time compression of F tung can be saved.

Thus, for the recording of F and Y, each- F i g. 4 shows in principle how time compression uses the full available bandwidth of the drawing carrier for a signal in the form of a modulated carrier. is possible. A modulated carrier 23 is shown in FIG. 2, a successive groups 14, 15, 16 of five composite video signals each with one of the carrier vibrations suppressing the color carrier are divided up at a terminal 1. From each of the groups the bandpass filter 2 and one of the color carriers 14, 15, 16, a single oscillation 17, 18, letting bandpass filter 3 is derived in the proportions Y = BAS and F 25 19. These vibrations (17 to 19) are each split up. During the duration of the signal Y because with the mean value of the five Schwin part T ₃ , the blanking and synchronizing signals, the signals of the groups 14,15,16 modulated signals with a switch 4 a tape recorder 5 za or only one of these with the modulated signal and recorded there. The signal F is vibrations modulated. In the latter case a compressor 6 needs to be fed to the signal F in 30 z. B. only one oscillation of each of the groups 14, 15, the signal F * according to F i g. 1 converts. Getting gated with a gate during the 16. The oscillation period T ₂ is the switch 4 by a switching circuits 17, 18, 19, which each have the same frequency as the voltage 7 in the dashed position, so oscillations of the carrier 13 are now that during T ₂ with the Optical disk device 5 the Si is recorded by a time signal Ft indicated by the arrows 20, 21. As such, the signal 35 delay can be sequenced in time, as a result of which Ft, which belongs to the time period T ₃ , a new carrier 22 arises in the time period T ₂ , which is not available over time. But it can z. B. extends during the space T _5. It can be seen that the time occupied by the time period T _2, the time-compressed signal of the time-represented signal, is recorded from T ₄ on the line preceding _{T 5.} The addition by a factor of 5, namely the number of oscillations in the order of the associated y-signal, can thereby be reduced by 40 per group 14, 15, 16, ie the signal can be achieved by the fact that the signal Y by the duration of a factor of 5 is time compressed. This time com line is delayed. pression can be used with amplitude modulation, Fre-In F i g. 3, the signal coming from the optical disk device 5 will turn over the frequency modulation or also phase modulation toe with a switch 8 during the duration. With a quadrature modulated color subcarrier of the recorded signal Y and the blanking and 45 z. B. the vibrations 17, 18, 19 with the synchronizing signals via a line 9 to an adding mean value of the amplitudes and the mean value of the stage 10 and thus appears on a phase of the individual vibrations of the groups 14 terminal 11, which is provided with a playback device to be modulated to 16.

is bound. During the time T ₂ , the switch 8. B.

by a switching voltage 12 and carries the 50 each of the oscillations 17, 18, 19 that the oscillation

Signal F * to a time expander 13. This converts 22 form, repeated five times and strung together,

the signal F * through corresponding storage means, whereby a carrier is generated again over the period T ₄

back to the signal F so that it is now on the terminal. In contrast to the carrier 23

II again a FBAS suitable for image reproduction - the modulation content of five consecutive signals stands. 55 following vibrations of a group are the same.

The time compressor 6 and the time expander 13 In principle, the time compression can either be like this

are means available in the art and e.g. B. ensure that the frequency of the modulated with the signal

written in "Funkschau", 1970, no. 20, pp. 689 to 692. the carrier oscillation remains the same and the band

The time compressor 6 and the time expander 13 can vary the width of the modulated signal, i.e. the resolution,

be formed by a structural unit. This contains 60 is reduced by the time compression factor

Storage means that during the time T ₃ the one (F i g. 4), or so that the bandwidth of the signal

outgoing signal F remains the same in analog or digital form and increases the recording frequency

save and during the time T ₂ in the next will (Ft in Fig. 1).

1 sheet of drawings

Claims (9)

ι * Patent claims: chrominance signal and the luminance signal in different 1. System for storing color image signals, recording both traces at the same time. Included in the one-track recording, the need for recording media, e.g. B. Band carrier a luminance signal and a counter or plate, doubled. It is also known to represent different colors, characterized in that representing color signals or the chrominance signal and the chrominance signal (F) of a line period (T ₀ ) luminance signal alternate line by line during a part (T ₂ ) of the line period in Time drawing and for reproduction with line delay compressed form (F _K ) instead of the lighting lines to simultaneously make available the density signal (Y) and the luminance signal belonging to this chrominance signal during the line delay line signal during the reproduction. It is well known to record the chrominance signal and the part (Γ ₃ ) of the line period taken on the same track, and that during reproduction the chrominance signal is converted into a luminance-chrominance signal in such a way is expanded, so that it is not or not fully used time signal is placed again with the frequency range used for the image reproduction. This usually results in a luminance signal (Y) that matches. crosstalk between the said signals. 2. System according to claim 1, characterized in that the invention is based on the object of a color drawing that the leucfit density signal (y) also creates image signal storage system in which recorded in time-compressed form and at 20 a track both luminance signal and color Playback can be recorded again on the luminance type signal without a component (T ₁ ) originally assigned to the signal of the crosstalk between these signals being created or the line period being stretched. Means for repeating signals necessary 3. System according to claim 1, characterized thereby. shows that only the chrominance signal of that 25 The invention is based on a system for part (T ₃ ) of the line period is recorded, storage of color image signals, in which a luminance is recorded on one of which the luminance signal (Y) of a recording medium (Fig. 1). signal and, in contrast, a narrow-band color 4. System according to claim 1, characterized in that identified type signals are recorded. indicates that the correct assignment of the chrominance 30 The invention consists in that the chrominance signal signal (F) and the luminance signal (Y) through a line period during part of the line a delay of one of these signals is achieved. period in time-compressed form instead of the 5. System according to claim 1, characterized marked luminance signal and that for this chrominance signal is characterized by the fact that with a signal in the form of a modü- belonging luminance sigtmi during the timed carrier (13) the time compression by a 35 compressed chrominance signal is not taken that each part of the line period is recorded and that group (14 to 16) of η carrier waves a carrier wave (17 to 19) which expands during reproduction is derived and is derived so that it is timed again with the one derived for the image reproduction Carrier oscillations (17 to 19) would give the luminance signal used corresponds to the individual groups by delay time. signal compared to the luminance signal 6. System flat claim S, characterized by 'rings' bandwidth. With def time compression of the shows that in each case the derived carrier rate chrominance signal up to the bandwidth of the luminance (17 to 19) of a group (14 to 16) modulated with the density signal and thus the recording medium One of the oscillations 45 is thus signaled for the necessary recording time of the group is modulated (Fig. 4). of the compressed chrominance signal is only a fraction 7. System according to claim 5, characterized in the duration of the luminance signal, ζ. B. the line shows that in each case the derived carrier period. The per se known transmission by timing (17 to 19) of a group (14 to 16) with the compression and reproduction by time expansion mean value of the modulated signals of several 50 can therefore advantageously be used for the present task of the η vibrations of the group being modulated. By a simultaneous possibly under- (Fig. 4). different compression of the chrominance signal and the S. System according to claim 5, characterized by the luminance signal, the signal of the drawn, that during the line expansion the entire line period is recorded, i.e. without any image derived Vibration (17 to 19) h-thal repeated 55 ah parts are omitted. Interference between will. Luminance signal and chrominance signal, so-called 9. System according to claim 1, characterized by "cross-color" are avoided because these signals shows that the rewind times are never recorded at the same time during playback. The chrominance Line deflection with the inclusion of the signal can be a quadrature-modulated color carrier Part of the line period is extended, its to- 60 (NTSC, PAL). a sequential signal (SECAM, corresponding signal is not recorded. TRIPAL) or another coded signal. Luminance signal and chrominance signal can be recorded in various types of modulation. In the case of image signal storage systems for a television, the invention is described below with reference to the Video signal, e.g. B. explained with a magnetic tape or a 65 drawing. In it shows Image disk as storage, there is a desire to additionally F i g. 1 shows a signal curve to explain the to the luminance signal a chrominance signal for the mode of operation of the invention, Record color rendering. It is known that F i g. 2 a block diagram for the recording,