DE757150C - Method for making the line retraction invisible in television reception cathode ray tubes - Google Patents

Description

Method for making line retrace invisible in television reception cathode ray tubes In the gap synchronization method, the carrier frequencies modulated with the image signals are of a television station: also called synchronization impulses to control the tilting devices araf modulated. These impulses cause., Because they are still below the image black value lie, a dark control of the. Cathode ray of the television receiving tube.

The cathode ray which composes the picture needs 1 for the return from the end of a picture line to. Beginning of the next: line usually around 2 to q. ° / 0 id the time it takes to build up an image line. The return line is; at bright television tubes. visible and disturbs the image impression to be reproduced. That's why one endeavors to make the return lines invisible by inserting them into that: time interval falls in .dem. the line synchronization pulse is given. The use of the return line now depends on the use of the tilting of the Saw-tooth generator from, and this point in time is in turn dependent on the action the synchronization impulses on the generator r.

It is known to have a part in the television receiver: the intermediate frequency, which the image and synchronization frequencies: z modulated; iert., behind to the Intermediate frequency amplifier and before the demodulator to an amplitude sieve, so that the sync impulses are separated there and fed to the IZip generator can be. With such an arrangement ° n may. but now, if you have flawless, In-phase image adjustment should be ensured between which the cathode ray of the television tube during the synchronization gap, which darkly controls the line return and the one separated in the amplitude sieve. Synchronization pulse that is sent to the relaxation generator 2itl works, there are no phase different exercises, because otherwise in your reproduced Image of the Ze: ilenrüchla.uf completely or partially; = only visible and the image is therefore inferior would.

Such a phase shift is easy in the demodulator and possible in or behind the amplitude sieve. Follow on the toilet behind the intermediate frequency amplifier to the amplitude sieve, as was previously the case with television receivers. is the case yet two resonance circuits tuned to part of the image-modulated intermediate frequency, so a phase shift of the synchronizing impulses already occurs through this element which is about two pixel widths in the picture. Is the phase shift the low-frequency synchronization pulses in front of the television tube against the pulses in front of the tilt generator there is only about i, 9 °, which is entirely possible a disturbing Svnciironisi streak already fully in the picture; an in-phase Adjustment of the picture is then no longer caused by detuning the tilting device possible. In this case, a part of the picture would have to be covered by tv for the re "3r-ab @ e is lost. Is the P'hasenv.-rs, chiebu-ng of the two Synchronization pulses against each other only about a °, which is about a pixel width in Would correspond to received images, an image setting with the correct phase would indeed be necessary possible by detuning the tilt generator, but this would cause the tilt generator very susceptible to failure, which results in a strong synchronization instability would have. In addition, this increased susceptibility to interference would reduce the range of the receiver be strongly 'degraded-inind, - # rt.

The undesired phase shifts described between the synchronization gaps in which the intensity of the cathode beam controlling. rectified. Signal mixture on the one hand and dekm flyback dr acting on the deflecting Säg ezahnscllwingungen the other hand, the invention will be eliminated by then according to that, be -elungsmittel provided between the intermediate-frequency amplifier and the amplitude filter or between the latter and the sweep, or even behind the latter known Phaseilre.

The drawing shows an embodiment of the invention: the television receiver According to this, it consists of an input section with an oscillator and the connecting intermediate frequency amplifier. The current branches off behind this and is fed to a demodulator on the one hand, which is connected to the control electrode of the television cathode ray tube, on the other hand via an amplitude sieve to the tilt generator, which in turn is connected to the deflection elements of the TV tube leads. The phase control means provided according to the invention are located in your example between the intermediate frequency amplifier and the amplitude filter and are represented by a capacitor Cl and a coil L1, which form an oscillating circuit form. This resonant circuit is modulated against the one that is modulated with the synchronization pulse Intermediate frequency wave detuned, depending on the degree of detuning an advance or lag of 0 to approximately 90 ° and by each further Achieve a further phase shift of 9o ° in the resonant circuit.

If the compensating phase shift is to be very large, then they are low-frequency, either between the amplitude filter and the tilt generator or in any existing post-amplifier for the sweep frequency. In this In the case of the relaxation generator either a low frequency counter to the synchronization frequency detuned oscillating circuit L2, C2 switched on: and so detuned that either the The desired lead or lag occurs, or there are coupling elements (capacitors and coils or phase transformers) switched on, which the desired phase shift cause.

A defined phase shift of the tilt frequency behind the tilt generator can be carried out by placing between the television tube and the tilt generator (possibly in the amplifier part) a phase transformer or other known phase shifts effecting coupling elements are switched on.

In certain cases it is advisable to overcompensate the Make phase shift, in such a way that the line changes start before the dark control of the television tube by the synchronization impulses begins. The dark control works for a certain time after completion of the line return and thereby makes the multiple unfavorable running transition point between the line return and the new line start thus invisible.

It is also used to improve synchronization stability of the tilt generator is often advantageous because the phase position between the tilt generator st "eu ° rnd, eli Synchronisierimpüls and the voltages generated by the relaxation generator itself to be chosen so that the latter lag somewhat behind the control pulse.

Claims (1)

PATENT CLAIM: i. Procedure for making the return line invisible due to the joint carrier wave with the image stream according to the gap synch.ron.isierverfahren transmitted line synchronization pulses in television reception cathode ray tubes, characterized in that, ß phase shifts that occur between the synchronization gaps in the rectified composite signal that controls the intensity of the cathode ray and the line return of the sawtooth vibrations acting on the deflection elements occur:, by phase control means of known type, which between the intermediate frequency amplifier and the amplitude filter or between this and the tilt generator or optionally lying behind the tilt generator. a. Method according to claim i, characterized in that the phase shift is such that the Dark control of the beam of the television tube by .the synchronization pulses still takes effect for a brief moment during the start of a new image line. 3. Method according to claims i or 2, characterized in that the phase position between the synchronization pulses controlling the tilt generator and those from the tilt generator self-generated voltages is chosen. that the Synchronisi @ arch-ei @ chen the generated breakdown voltages. to advance a little. q. Method according to claims i, 2 or 3, characterized in that the phase control is on the low-frequency side the tilt generator takes place. 5. Device for performing the method according to a of the preceding claims, characterized in that for the phase control unig one or more high-frequency oscillation circuits are provided, which are against the with the synchronization frequencies: z modulated carrier frequency are detuned. 6. Device for performing the method according to one of claims i to 5, characterized in that that known transformers, choke capacitor chains od for phase control. Like. Are provided. To differentiate the subject matter of the invention from the state of the art the following pamphlet has been considered in the grant procedure: French Patent \ 'r. 771; I8.