DE2143050B2 - DEVICE FOR REPLAYING MONOCHROMATICALLY RECORDED COLOR TELEVISION IMAGES - Google Patents

Description

41c ... color signals of the color television images are recorded in the lengthwise direction of the recording medium. Two color signals / and (? Are within the image areas 41a, 416, 41c ... are recorded and alternate with each other transversely to the longitudinal direction of the recording medium 4 away. These are the image area parts 42a, 420, 42c ... and 43a, 436, 43c ... The recording density the color signals in each part of the image area changes within a certain range.

! n F i g. 2 are also vertical synchronization indices 44a, 446, 44c ... and soundtracks 45a and 456 are shown.

A recording device that records color television pictures Can record in this way is described in DT-PS 21 43 049.

F i g. 1 shows an embodiment of an apparatus for reproducing color television images from a recording medium according to FIG. A cathode ray tube 52 is fed by an energy source 53. The scanning electron beam in this cathode ray tube has a constant intensity and is scanned at the same frequency as in the recording, for example at a frequency of 15.75 kHz. The rays generated on the screen of the cathode ray tube 52 are focused on the recording medium 4 with the aid of condenser lenses 54;) and 546, of which the lens 54b is not shown. The rays scan the recording medium 4 in the transverse direction, the rays passing through the lens 54 «·) the image surface !! (see Fig. 2) of the brightness signal and the rays passing through the lens 546 scan the image areas for the two color signals. Since the respective beams pass through the recording medium, their intensity depends on the recording density on the recording medium 4. The light passing through the recording medium is radiated onto photomultipliers 56a and 566 via respective light guides 55a and 556 and converted into an electrical signal. The output signal of the photomultiplier 56a corresponds to the brightness signal and is fed to a mixer 58 via an amplifier 57. The initial signa! of the folomultiplier 566 is similar to the signal shown in FIG. This reproduced signal becomes envelope detectors through an amplifier 59. 60a and 606 which, like FIGS. 4a, b show, consist of diodes 70a and 706, resistors 71a and 716 and capacitors 72, ·) and 726 and are designed as rectifiers. The directions of the diodes are opposite to each other. The detector 60a is assigned to the upper envelope curve of the playback signal, while the detector 606 is assigned to the lower envelope curve. The upper envelope curve of the playback signal is a. Color signal /. while the lower envelope is a Q color signal. The color signals / and ζ) produced in this way are fed to correction circuits 61a and 616, respectively. The correction circuit 61a is supplied with part of the color signal Q from the detector 606 via a polarity converter 626, and on the other hand, the color signal Q is supplied to the correction circuit 616 via a polarity converter 62a. The polarity converters 62a and 626 not only convert the amplitudes of the respective color signals into a specific amplitude. but forward them to the correction circuits 61a and 616 after the polarity has been converted.

The output signals of the correction circuits 61a and 616 are fed to a mixer 58. For one Play the vertical sync indices 44a, 446, 44c ... on the recording medium 4 according to FIG F i g. 2, a continuous light beam 64 emanating from a lamp 63 is applied approximately to the central one Part of the recording medium 4 directed. The transmitted light is converted into electrical signals are fed to a synchronization signal generator 66 by means of a photomultiplier 65. That The signal applied to the .Synchronisiersignalgenerator 66 has a frequency of 60 Hz. The synchronizing signal generator 66 generates a vertical sync signal and a horizontal sync signal on the Basis of the aforementioned signal of 60 Hz and forwards the respective signals to the mixer 58. By doing Mixers 58 are television signals to be forwarded to a television picture receiver based on all of them Input signals generated and given to the output 67.

The vertical sync signal and / or the horizontal sync signal (generated by the Synchronization signal generator 66) controls the sampling rate of the scanning electron beam in the cathode ray tube 52, the supply sources 53. 68 be controlled accordingly.

The respective signals can easily be distinguished by the difference in the reproduced signal intensities is made usable so that there is no risk of erroneous color reproduction exists, since the respective signals simply by plotting the envelope curves of the playback signal using a simple Detectors are reproduced, with no synchronization device when the envelope curves are plotted necessary is.

For this purpose 2 sheets of drawings

Claims (3)

ι * of the playback beam, so that color errors occur Patent claims · can. If the frequency of the carrier wave claims. has changed during the recording, the phase can 1. Apparatus for reproducing monochrome carrier waves which are not recorded at right angles to the horizontal table on a recording medium which is sensitive to radiation energy. The result is that during the reproduction of color television pictures, which are divided into brightness and the recorded lines and lines precisely in their color signals and must be traced in the form of image areas. In addition, with certain recording density areas it is necessary that additional synchromes are not drawn with a playback device. io provides for the be. The reproduction gained softly when scanning the recording medium to be able to correctly assign color signals to each other, reproduce the recorded signals and one such additional synchronization devices are processing devices, which the scanned signals also in the reproduction devices in the German signals in a for reproduction via an Offenlegungsschrift 15 12 146 and 19 65 926 and prepared in a suitable form for television receivers, 15 of US Pat. No. 3,459,885 necessary,
characterized.dass the object of the invention is therefore to provide a device input device (52,54,55.56) for the recorded for the reproduction of monochromatically recorded th color signals (IQ) reproduces a signal to show its color television images in which with a relatively two envelope curves each associated with a color signal, the recovered are and are in Depending on the two 20 color signals are assigned to one another, without one of the recorded color signals changing and the additional synchronizing device necessary for this being a first and a second processing device. This object is achieved in the device which has the envelope curve detector (60a. 606; 2. Apparatus according to claim 1, characterized in that the marked color signals reproduce a signal whose shows that the envelope detectors (60a. 60ty both envelopes are each assigned to a color signal Polarity converter (62a. 62ty are connected downstream. And are recorded as a function of the two over which parts of the one envelope change the other th color signals, and the editing envelope are mixed in. processing a first and second envelope curve decors 3. Apparatus according to claim 1 or 2, characterized in that 30, each of which detects an envelope curve,
characterized in that the envelope curve detectors (60a. To components of the other color signal, which eOty are designed as rectifiers. mixed by transverse polarization during reproduction can be suppressed, it is advantageous that the Envelope detector based on polarity converter 35 are switched over which parts of one envelope of the can be mixed into another envelope. The invention relates to a device for re-The envelope curve detectors can in simple Weggäbe of monochroma! can be designed as a rectifier on one opposite.
Radiation energy sensitive recording medium is advantageous in the invention that an exact to recorded color television pictures, which is possible in 40 separation of the color signals by using the Brightness and color signals split and in the form of envelopes of the playback signal obtained abta image areas with certain recording density. In addition, it is also advantageous that the Chen are recorded, with a playback device individual image area parts during playback which is not absolutely accurate when the recording medium is scanned by the reproducing beam plays back the recorded signals and a 45 must be tracked so that even if Editing device, which the scanned the spot size of the playback beam on the Signals in one for reproduction on a television recording medium changes, one true to color in a suitable form for the recipient. Playback is obtained. From US Pat. No. 3,475,549, such a reference to the figures, which exemplary embodiments Playback device known. In this representation of the invention, the invention becomes even more detailed devices are explained on the recording medium. It shows Scanned image areas which are linearly formed. FIG. 1 shows a block diagram of an embodiment And each line of which constitutes a reference carrier wave of a device for reproducing color television with modulated ones that represent color signals. Overlapping carrier waves, contains. The Fre- 55 K ig. 2 is a schematic representation of part of a t) uenz of each Tiäger wave is an integer recording medium, Multiple of the horizontal scanning frequency of the elec- F1 g. 3 the shape of the playback signal for the Iron beam while recording. Because of these color signals and The recording method for playback is an embodiment of the Fig. 4a, 4b embodiment of the device relatively high circuit complexity is required, since it is 60 device according to FIG. 1 envelope detectors used,
is necessary, from the reproduced signal which are on a recording medium 4 in Fi g. 2 Pull out the reference carrier shafts. In addition, image areas 41a, 416, 41c ... for the color signals can be recorded across an accurate reproduction of the original image information recording medium. The recording cannot be guaranteed with certainty, because the voltage density in each image area changes accordingly, namely it is difficult to determine the frequency of the reference carriers depending on the signal intensity and the type of signal,
wave to multiply or divide down. since there is shown in Fig. 2 a recording medium this frequency in the playback signal irregularly that in the form of image areas 40a, 40 £>, 40c ... changes brightness signals as a result of the change in the scanning speed and in the form of image areas 41a, 4 \ b.