DE2522536C3 - Vertical sync signal recorder - Google Patents

Description

The invention relates to a vertical synchronizing signal recorder according to the: generic term of the patent claim.

Recently, communication systems have been developed with a view to transferring information meet numerous requirements. The still picture multiplex transmission system is one such Factory. In this system, a still video signal becomes a commonly used television broadcast signal superimposed so that it does not interfere with the reception of the other images by the ordinary television receiver.

Such a still picture multiplex transmission system is briefly explained below. In one example of still picture multiplexing transmission equipment, a Video signal that carries a still picture and is independent of an ordinary television signal in one appropriate position inserted into the waveform of the normal television signal, e.g. B. in a suitable location in the vertical retrace period, aie does not operate of the ordinary recipient. The 14th to 16th lines and the 277th to 279th lines of the horizontal scanning period are an example of the position selected for insertion of the still video signal. This makes it possible to have three Lines of the superimposed video signal for each field. (The resulting signal is in hereinafter referred to as the still image multiplex signal.) On the receiver side, this is in a predetermined position the video signal inserted into the television signal is separated and stored in a memory or a recording device, such as ζ B. a magnetic disk recorder, is written, and after the writing of the video signal representing a picture is completed, the stored signal is read repeatedly to thereby reproduce or recover the still image. the Sile. into which the ordinary television signal superimposed still video signal is divided for predetermined parts of the horizontal scanning period identical to the parts of each line of the ordinary television signal. One for separating the video signal the control signal required of the received still picture multiplex signal is in the part of the still picture video signal inserted according to the vertical retrace period.

The display of the separated from the still picture multiplex signal and in the recording device stored still video signal on a display device, such as this z. B. in a television receiver used requires horizontal and vertical sync signals. As such a horizontal synchronizing signal can generally be the horizontal sync signal of the ordinary television signal be used. However, the superimposed video signal should not be the vertical sync signal by itself carry alone. Namely, when the vertical synchronizing signal is added to the video signal, the affects The fact that a vertical synchronizing signal different from the vertical synchronizing signal of the ordinary television signal is added to this in a different position in the ordinary television signal, the Vertical deflection circuit of the receiver which receives the ordinary television signal is disadvantageous. The one Still image recovering or reproducing receivers must also be equipped with a vertical synchronization signal generator and a vertical synchronizing signal adder which is a different vertical sync signal, that of the original standard vertical sync signal is different, added to the video signal recorded in the memory, the control signal for Reference serves. The vertical sync adder, in which the DC level of the vom Vertical synchronization signal generator fed in Signal must be made exactly identical to the level of the video signal to which the vertical sync signal is added, is therefore cumbersome to set.

It is therefore the object of the invention to specify a device with multiple structures, the aas vertical synchronization signal for the still video signal, which can be generated from the above-explained still-image multiplexed signal is separated; a receiver should have a memory or a recording device, for separating a still image video signal from the received still image multiplex signal and for Storing the still video signal is appropriate; finally, a memory or a recording device is to be specified which a video signal with no vertical synchronizing signal and an ordinary television signal superimposed in its vertical retrace period and add a vertical sync signal and record the separated video signal can.

The solution to this can be seen from the characterizing part of the patent claim.

The invention is explained in more detail below with reference to the drawing. It shows

F i g. 1 shows the waveform of (a) an example of a standing room multinlex signal, (b) a still picture signal and a fine ordinary television signal;

F i g. Fig. 2 is a plan view of a magnetic disk recording device to explain the order in which the still image signal is recorded;

F i g. 3 shows a block diagram of an exemplary embodiment

F ^; B 4 is a block diagram of a vertical synchronizing • signal-K-oincidence determination circuit, dit; is used in an exemplary embodiment of the invention, and

_r · 5 _{is a} time chart for explaining the operation g 5 fro in the F i. 4 shown circuit. Before the embodiment of the invention is driven closer to the first signals based Λ drawing will be explained, which are suitable for receiving Hirch a receiver that the io! Used rfindungsgemäße device.

In fig. 1a shows the waveform of an example of the picture multiplex signal including a usual television signal on which a still picture signal H rch time multiplexing or interleaving is superimposed 15 t The numbers above the signal show the "s horizontal scanning periods Vertical back-1 from the first horizontal scanning period and valley scanning period is hereinafter referred to as 20;) to the 20th Η period and from j 264 "to the 284th Η period. During this, the normal television signal in the still image signal shown in Fig. Ib is recorded in the position or position P (Fig.2) of the magnetic disk recording device, which rotates at the speed explained above. After the arrival of the next signal, which covers the period from 14 to 16 H of the next frame, ie after Abiaul a 525 scanning lines corresponding time (the one scan line corresponding time is hereinafter referred to as Th, in the present case after 525 / / · /), The magnetic disk recorder has reached position b (FIG. 2), which covers a pair of 261 7 "plus 3 T _H. As a result, the portion covering the period from H 17th to 19th of the still picture signal is recorded in position Q (Fig. 2). In this way, signals covering three scanning lines per frame are recorded, to thereby record such a video signal which is one field mn 261 Ih on the line shown in FIG. 2 forms the magnetic disk recording device shown. If one field of the video signal during the period of 261 T _{H is the} same as that shown in FIG. 2 is to be recorded, 87 frames (261 7>: 3) of ordinary television signals,. . ^v , ,, "_ __r 1 c ~ u η".! · r.ninH why that

and from-

• F i g. However, most of the examples shown in la are inserted between the 14th and 16th H-periods and between the 277th and 279th Η-periods. In Hiesem case, the signal is structured such that a program nd during the period from the 14th to the 16th H "another program is transmitted during the period from 977 to 279. H. As below

is explained here is intended to ensure the phase consistency of the color subcarrier when receiving the still image multinlexsienals be maintained.

FIG. 1b shows the profile of a still picture signal which is reproduced or recovered after receiving a multiplex still picture signal or a transmitted still picture multiplex signal. This still picture signal is divided by 3H and inserted into the period between the 14th and 16th H and the period between SI 277 and the 279th H for each frame of the television signal.

The course of an ordinary television signal is in Her feet. Ic shown.

Fig. 2 shows the order in which the still image signal is recorded on a magnetic disk recording device recorded as a video recording device of the receiver is used, which receives the still image multiplex signal explained above. the Magnetic disk recorder of F1 g. 2 at a sufficiently high speed so that

261 ADtasizencii u \ .i jwv. ^ - _ _o ...

can be. In general, ν ground images carried by the ordinary television signal with a Speed of 60 fields or 30 frames per second displayed, each with one Field and frame contain 262.5 and 525 scan lines. As a result, the in FIG. 2 magnetic disk recording device shown by the period corresponding to 1.5 scanning lines per Field or three scan lines per frame scroll faster than with repeated scanning of the ordinary television signal. The 14th to 16th // period are from the still picture multiplex signals shown in Fig. la separated, and the 14th to 16th period

be a rtuuciiiuicn _lu . jx- ^ w ^. . "

a of the color subcarrier is reversed, making it difficult to maintain phase consistency on the receiving end, since the color subcarrier will be carried while its compati ^{u: l} '* ^K * ^mi * ordinary television signal (Fig. la).

The above-mentioned possibility of including the signals which overlap the periods of 14 to 16 H in odd fields, similarly applies also for the signals, the even during the periods from 277. to 279. Hin fields are widely utilized .

In the FIG. Ib is the still image signal shown in the 14th / - / - period inserted a control signal that a Has a pulse signal with a fixed pulse pattern called the marker pattern. This solid Pulse pattern which is a code pulse signal having a predetermined code for distinguishing that signal used by other signals includes a number of bits to prevent the same code from being used in coincidence occurs with other signals, and it is used in data transmission.

Although the example shown in Fig. La deals with the horizontal scanning periods from the 14th to the 16th H and from the 277th to the 279th H for multiplexing or multiple use of the still image signal, others can be contained in the vertical flyback periods ι Horizontal scanning periods are used insofar as they are compatible with the ordinary television signal and do not interfere with the operation of the receiver receiving the ordinary television signal.

In the circuit diagram of FIG. 3, which shows an embodiment of the invention, is an input port 10 provided, in which the shown in Fig. la Still picture multiplex signal is fed. This signa is obtained by placing an on a suitable support wave transmitted still image multiplex signal received and through a tuner, an intermediate frequency Vei stronger and a video signal detector as in an ordinary television receiver. The I

La and shown at the input terminal 101 The lying signal is divided and separated to a gate element 107 and a control signal detector 102 fed. The control signal detector 102 detects the marking pattern of the 14th Η period of the above explained still image signal introduced control signal and then generates a pulse, the marking pattern, as explained above, a hard-coded pulse train with a predetermined number of bits. This marking pattern is easily made using digital signals recorded. In an example of such a detection, a shift register with capacitance become equal the number of bits forming the marking pattern, a NOT element for negating the output signal each stage of the shift register, if necessary, as well as an AND gate, which is a logical product of all Forms output signals of the stages of the shift register regardless of whether they are negated or not.

A control signal generator 106 generates a 3 T _H wide control signal for each frame of the ordinary television signal to separate a still picture signal, the output of the control signal detector 102 being used for reference.

The vertical sync signal coincidence detector 201 generates a control signal as a function of the output signal of the control signal detector 102, thus the vertical synchronizing signal of the ordinary television signal is conducted at the time when the Vertical sync signal for the still image signal capable of the vertical sync signal for the ordinary television signal coincides. The output signal of the control signal generator 106 and the Output signal of the vertical synchronizing signal coincidence detection element 201 are fed to gate element 107 via an OR element 202. As a result, the still picture signal and the vertical synchronizing signal become separated from the still picture multiplex signal applied to the input terminal 101. The severed ones Signals are then fed to a recording amplifier 108 and on a magnetic disk recorder 109 recorded.

When the above-shown still picture multiplex signal is included, e.g. B. the first Η-period, the second / - / - period ..., the 16th Η period of the ordinary television signal with the first Η period, the second / V-Period ..., the 16th Η period of the still image signal in each case together, if the still image signal of the 14th to 16th Period is transmitted taking into account the fact that the multiplex signal is in the period / wiping 14th and 16th / - / of the multiple signal lies, like this is shown in Fig. la. It is therefore sufficient if the vertical synchronizing signal of the ordinary television signal in the field in which the 14th to 16th H period of the still image signal is transmitted so can be recorded.

When the transmission position of the video signal or the order in which it is transmitted is changed, is the position of the Vcrtiknl-Synchronisicrsignals of the ordinary remote control signal somewhat from the position of the vertical synchronizing signal of the still image signal different. However, this leads to the wicdcrgccgebcncn or recovered image does not cause serious trouble, and therefore the invention is in the Above explained manner practically applicable when the shift of the vertical synchronizing signal of the recorded still image signal is limited to a duration which is nirhi greater than a few times that Horizontal scanning period.

In FIG. 4 is a block diagram of a practical Vertical sync signal coincidence detector 201 is shown.

In this figure, an input terminal is provided 2011, into which the horizontal synchronization signal recovered or reproduced in the receiver is fed becomes, a frequency divider 2012 that divides the frequency of the horizontal sync signal into V525 Counter 2013, which counts the output signals of the frequency divider 2012, and a monostable multivibrator (Monoflop) 2014. The F i g. 5 shows a timing diagram of the output signals generated at various portions of the in FIG. 4 shown vertical synchronizing signal K. coincidence determination member 201 be generated.

In FIG. 5A is an output of the control signal detector 102 shown. An output signal of the frequency divider 2012 is shown in FIG. 5B. In the F i g. 5C, an output signal of the counter 2013 is shown. In FIG. 5D is an output of the monostable Multivibrators shown in 2014. First, the control signal detector 102 detects the control signal that is in the 14. / - / - period of the still picture signal is inserted. In at this point in time - it has already been pointed out that the positions of the vertical synchronization signal of the ordinary television signal and the positions of the still picture signal coincide with each other - becomes a in FIG. 5A is generated from the control signal detector 102. The frequency divider 2012 divides the horizontal synchronizing signal applied to the input terminal 2011 into V525 and generates a Pulse signal with the period of one frame. The phase of the pulse signal generated by the frequency divider 2012 is controlled by the output of the control signal detector 102, and the rising point of the Pulse signal is set so that it coincides with the starting point of the frame of the received ordinary TV signal matches. Under this condition, the output of the frequency divider has 2012 the in Fig. 5B. The 2013 counter counts the number shown in FIG. 5B output signals shown, generated by the frequency divider 2012. The 2013 counter is similar to the 2012 frequency divider reset by the output from the control signal detector 102. As a result, the locations of the The vertical synchronizing signal of the ordinary television signal and the positions of the still picture signal with each other together when the output from the control signal detector 102 is generated. If that's why the Counter 2013 counts up to 87, the position of the vertical synchronizing signal of the ordinary television signal falls together with the position of the vertical synchronizing signal of the still image signal. When The result is generated by generating a control signal for separating the vertical synchronizing signal in this at a certain time, the vertical synchronizing signal of the still image signal is recorded in phase. The output signal of the 2013 counter, which counts to 87, has the figure shown in FIG. 5C shown curve. The monostable multivibrator 2014 is used to set the duration of the signal required for actual recording and generates a pulse with the length of time including the vertical sync signal.

As explained in more detail above, the vertical synchronizing signal of the ordinary remote control signal and recorded on the magnetic disk recorder recorded, on which the StchbilclMultiplcxsignal is also separated and recorded, so that an addition of the vertical synchronic

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sicrsignals is made possible for the visual image signal. In other words, it is the transmitted still picture multiplication signal is constructed so that the DC level of the vertical synchronizing signal of the ordinary Television signal completely coincides with the level of the still picture signal, there is no Pcgeleinicllung with the It is necessary to add the vertical sync signal to the still image signal.

In addition to the possibility explained above, in which the vertical synchronization signal after the detection of the Position of the control signal is recorded, according to the invention it is also possible to use all vertical synchronization signals recorded before the location of the control signal is detected so that all recorded Signals are deleted if in the periods from 14.

to 16. H or from 277th to 279th H of the ordinary television signal immediately following the respective recorded Vcrlical synchronizing signalc there is no control signal, while a still picture is started to be separated only when a control signal in

ίο such periods is recorded.

For this purpose 3 sheets of drawings 709 638/434

Claims (1)

L Claim: Vertical synchronizing signal recording device for receivers of a time division multiplexed signal, with a first video signal, a television signal for transmitting the first video signal, and a second video signal without a vertical sync signal, the second video signal for each Horizontal scan line divided and in predetermined positions in the vertical return periodc of the television signal is inserted, and wherein the second video signal is separated and recovered, characterized by recording means (102, 106,201) having separating means (102) for sequentially recording the second video signal by separating the second video signal from the predetermined positions in the vertical retrace period of the television signal, and a recording stage (108) which receives the vertical sync signal for the first video signal detects and separates which is closest to the position in which a vertical synchronizing signal for the second video signal, with the recording stage providing the vertical sync signal for the records the first video signal together with the second video signal generated by the separator (102) is separated.