DE1166817B - Circuit arrangement for synchronizing a vibration generator - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school KJ .: H 04 f

German KI .: 21 al-35/12

Number: 1 166 817

File number: T 14362 VIII a / 21a 1

Filing date: November 2, 1957

Display day :. April 2, 1964

It is a circuit arrangement for synchronizing a vibration generator with a synchronization pulse train proposed by using a phase comparison circuit whose control steepness depends on the phase position the synchronization pulse sequence and a voltage curve derived from the vibration generator can be changed is. Such a circuit has the advantage that the control curve can be adjusted with different phase positions the pulse sequence to be compared is very steep and very flat if the phases match can, resulting in a very large "capture range" with low susceptibility to failure in the practical phase Operation for the regulation results.

However, under certain conditions it is now possible that the phase position of the synchronizing pulse changes adjusts so that the control curve does not have the desired flat course. This works then the control circuit under very sensitive conditions. The invention serves to overcome this difficulty.

It is known (British patent specification 726 903) that obtained in a phase comparison circuit Control voltage not only as a manipulated variable for the local vibration generator with a low time constant but also to be amplified in an additional DC voltage amplifier and with a high time constant as the DC voltage component that containing a control edge To superimpose comparison pulse so that the operating point of the phase comparison circuit continues in the middle of the control edge, d. H. remains in the middle of the capture area and the drag area. These However, the solution requires an additional DC voltage amplifier, because both control voltage circuits act on the same point of the oscillator to influence its frequency.

The invention relates to a circuit arrangement for synchronizing a vibration generator with a sync pulse train by comparing the phases of one of the sync pulse train and one voltage curve derived from the vibration generator and by enlarging the capture area Falling out of step by means of a phase position of the vibrations to be compared, control voltage obtained by an additional phase comparison circuit.

The invention is that the vibration generator additional, controllable, frequency-influencing Switching elements are assigned whose effectiveness is determined by one of the phase comparison circuit Via a filter, a relatively large time constant circuit arrangement for synchronizing a Vibration generator

Applicant:
Telefunken

Patentverwertungsgesellschaft mb H.,
Ulm / Danube, Elisabethenstr. 3

Named as inventor:

Dipl.-Ing. Horst Reker, Hanover

derived control voltage is controlled so that the fundamental frequency of the vibration generator is influenced so that the phase comparison circuit always works approximately on the middle of the control edge of the comparison pulse and thus in the middle of the capture range.
This ensures that the part of the control curve, which is flat in synchronism, is always pushed to the point on the control edge to which the pulse is currently set.

To explain the invention in more detail, several exemplary embodiments will be described below with reference to the drawings. 1 shows the synchronization circuit of a television receiver with a phase comparison stage 1 to which a synchronization pulse sequence 2 and a voltage curve 4 derived from a vibration generator 3 are fed. The output voltage Un of the phase comparison circuit 1, which is dependent on the phase position of the pulses 2 and the voltage profile 4, is fed to an input electrode of the oscillation generator 3 via a filter 5 with a relatively low time constant. The vibration generator 3 contains a so-called sinusoidal oscillator with a multigrid tube 6, the cathode of which has a resistor. 7 and a potentiometer is connected to ground. A symmetry voltage is fed to the phase comparison circuit 1 from the tap of this potentiometer 8. The second and fourth grids of the tube 6 are connected to one another. The lower part of the tube 6 acts as a sinusoidal oscillator, in that the first grid is connected via a capacitor 9 to a terminal 10 of an inductance 11, the other terminal 12 of which is connected to the second and thus also to the second via the parallel connection of a resistor 13 and a capacitor 14

409 557/199

connected to the fourth grid. A capacitor 15, by means of which the oscillator is tuned to the line frequency, is located parallel to part of the inductance 11. For precise frequency setting, the inductance 11 can, for. B. be designed to be adjustable by a movable core. To supply the grid voltage, the connection point 16 of the capacitor 15 with the inductance 11 is via a resistor 17 with the operating voltage source Uκ

the output voltage of the phase comparison circuit 1, apart from the filter 5, is relative to a filter 34 large time constant fed to the other end at the connection point 35 of a diode 5 36 and a capacitor 37 is connected. The diode 36 and the capacitor 37 are in series parallel to the part of the inductance 11 of the sinusoidal oscillator lying between the points 10 and 12. Due to the large time constant of the filter 34, an is connected. The anode of the tube 6 is effective via a io of the diode 30 only one control voltage, the Capacitor 8 'connected to earth. The amplitude on a long lasting shift between which is based on this capacitor, in the phase sync pulse and comparison pulse. By twisted voltage, the frequency of which is that of the oscillator - this voltage becomes the resistance of the diode tor, is increased by the 30 and thus the effectiveness of the capacitor 37 via the line 5 guided control voltage controlled. The changed at the Kon- 15 with respect to the inductance 11 and so the capacitor 8 'standing voltage is via a phase relationship between comparison pulse and syn resistance 19 of the terminal 10 of the inductance 11 chronimpuls restored, fed. The oscillator voltage is given by considering these relationships with in

Terminal 12 of the inductance removed and a F i g. 2 in which the Diffeals Block shown the following step of the deflection potential quotient of the control voltage over time 3 supplied. is carried, then results for the circuit according to The circuit described so far is known. The F i g. 1 without the switching elements 34, 36, 37 a Kudve Sine oscillator oscillates with the set frequency according to FIG. 2a. With effectiveness of the mentioned frequency, the size of which is automatically shifted via the phase-switching elements, the flat part of the equal circuit 1 and the curve contained in the tube 6 each to the point at which the synchronous reactance tube of the received synchronization pulse pulses are set (Fig. 2 b, 2 c, 2d). sequence is adjusted. If one looks at the progression of the control edge, if such a circuit is now automatic, i. H. which the line sync pulse as a function without a control button to recapture the phase position via the discriminator circuit is to be driven, then the control switch must be used to control the oscillator 1 dimensioned for a very large capture range, generated voltage, this is how you get without the switchgear due to the steepness of the control curve, elements 34, 36, 37 in FIG. 1 follow the course can be. Such a steep control curve always brings about F i g. 3, but with the switching elements mentioned but a greater sensitivity of the circuit curves according to FIG. 4. The control process itself plays against disturbances with itself. For this purpose it is then necessary to avoid sudden strong freeine further phase comparison circuit 21 with a change in frequency, for example the synchronizing Triode 22 is provided, the phase control on the control grid via a process initially at large Capacitor 23, the negatively directed synchronizing control steepness takes place, then, after by the relative pulse sequence 2 and at the anode of the not shown large control time constant of the circuit 34, 35, 36, Neten line transformer comparison pulses 24 supplied 40 37 given time the natural frequency of the oscillator will. At the anode resistor 25 of the triode 22 is readjusted so that the given by the oscillator Then a span control load dependent on the coincidence is again in the middle of the phase to the synchronizing pulse voltage that is pushed over a diode 26 for rectification.

a capacitor 27 is supplied. Another way to get the sync pulses

load resistance 28 of the diode 26 is always exactly on the flat part of the control curve is set to the control grid of an amplifier tube 29, the control direction of the line is fed through a filter 30. The base point potential of the oscillator, depending on the position of the synchronizing pulses of the diode 26, is reversed between the poles so that the phase of the pulses is shifted into the potential flat area connected to the operating voltage U _{B and ground.} A polarity reversal of the meter 31 is set. The arrangement is made so that 50 oscillators, depending on whether the phase pulse is on the left that is derived from the vibration generator 3 or on the right of the coincidence position, would be possible.

Spanmmgs curve 4 is reinforced as a function of the coincidence and so the phase comparison circuit with a more or less steep edge
is supplied via a line 33.

It is thereby achieved that the steepness of the control curve of the phase comparison circuit is reduced and
thus made the circuit insensitive to interference
as soon as the impulses to be compared

Lich, using a coincidence pulse according to FIG. 5, with left and right different Tension conditions prevail and thus z. B. switched on or off corresponding reactances via 55 diodes will.

It is also possible to check the symmetry of the phase comparison circuit to change.

A shift in the symmetry point of the

are approximately in phase. If the sinusoidal oscillator 60 phase discriminator then adjusts the so tuned that the pulses just at the edge of the pulse pattern according to FIG. 6. lie within the control curve, there is no need to
that the oscillator is readjusted so far via the phase comparison circuit and the filter 5 that
the pulses again in the middle of the control flank 65
lie so that the circuit is always in the range of
steep control curve is operated with great susceptibility to failure. To avoid this disadvantage,

Claims (4)

Patent claims: 1. Circuit arrangement for synchronizing a vibration generator with a synchronous pulse train by comparing the phases of one from the sync pulse train and one from the vibrator derived stress curve and by enlarging the capture area when stepping outside by means of one of the phase positions the vibrations to be compared dependent, by an additional phase comparison circuit obtained control voltage, characterized in that the vibration generator (3) has additional, controllable, frequency-influencing Switching elements (36, 37) are assigned, their effectiveness by one of the phase comparison circuit (1) through a filter (34) relatively large time constant derived control voltage is controlled so that the fundamental frequency of the Vibration generator (3) is influenced so that the phase comparison circuit (1) always approximately on the middle of the control edge of the comparison pulse (4) and thus in the middle of the The capture area and the drag area is working. 2. Circuit arrangement according to claim 1, characterized in that when using one Sine oscillator as a vibration generator of the frequency-determining reactance the series circuit of a capacitor and a diode is connected in parallel, at the junction of which the from the control voltage derived from the phase comparison circuit via a high time constant filter is fed. 3. Circuit arrangement according to claim 1, characterized in that when using one Sine oscillator as a vibration generator of the frequency-determining reactance a reactance tube is connected in parallel, the control electrode of a phase comparison circuit via a Filter high time constant derived control voltage is fed. 4. Circuit arrangement according to claim 1, characterized in that the control direction of the The oscillator is switched over to the coincidence position depending on the phase position of the sync pulse will. Considered publications:
British Patent Nos. 714 442, 726 903. 1 sheet of drawings 409 557/199 3.64 © Bundesdruckerei Berlin