DE1176184B - Circuit arrangement for synchronizing an oscillator - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H04f

Number:

File number:

Registration date:

Display day:

German class: 21 al - 35/12

R 27703 VIII a / 21 al

April 6, 1960

20th August 1964

The invention relates to a circuit arrangement for synchronizing an oscillator with sync pulses using a key stage, the input of which is one to the oscillator frequency phase-locked sawtooth voltage is supplied. This key level is determined by the sync pulses controlled in such a way that a control voltage is applied to a capacitor connected to the output of the sampling stage occurs, with which the oscillator frequency with the pulse repetition frequency of the sync pulses in Is brought synchronously.

According to a known method for synchronizing an oscillator with a received one The sequence of synchronizing pulses is, on the one hand, a sawtooth voltage - the repetition frequency of which is equal to the the oscillator frequency is - generated and on the other hand two sequences of strobe pulses - the coincide with the synchronous signal but are out of phase - derived. With the sawtooth voltage and with the strobe pulses a control voltage is then generated, its amplitude and polarity in terms of the size and direction of a sequence between the oscillator frequency and the received sequence of synchronous pulses occurring phase difference is characteristic. Usually after this known methods, the keying pulses generated from the sync pulses are fed to a keying stage, which only the amplitudes of the sawtooth voltage occurring during the duration of the probe pulses can be effective in generating the control voltage.

If the oscillator frequency differs significantly from the synchronous frequency, this method has the disadvantage that the generated control voltage itself has a sawtooth-shaped curve, its Repetition frequency equal to the difference frequency (between the repetition frequency and the oscillator frequency) is, so that no synchronization takes place, unless the time constant of the oscillator control device, to which the control voltage is fed would be very small. But if this is the case is, then the control system is very susceptible to interference even in the event of minor disturbances in the received sync pulses.

The aim of the invention is to provide a circuit arrangement that requires only little effort Requires circuit means and avoids the disadvantages of the known method will.

According to the invention, the sensing stage is designed such that the maximum current that during the duration of individual sync pulses for reloading the circuit arrangement for synchronization
an oscillator

Applicant:

Rank-Bush Murphy Limited, London

Representative:

Dr.-Ing. W. Lampert, patent attorney,
Stuttgart 1, Breitscheidstr. 4th

Named as inventor:

John Lewis Edwin Baldwin, Croydon, Surrey

(Great Britain)

Claimed priority:

Great Britain 9 April 1959 (11 977)

Capacitor is available, is limited in such a way that the resulting at this capacitor maximum voltage jump is only a fraction of the amplitude of the sawtooth voltage that the Duty cycle is supplied. This maximum voltage jump should preferably be about 20 to 30% of the Amplitude of the sawtooth voltage. The advantages given by the invention are therein to see that the synchronization even with significantly different oscillator and synchronous frequencies is carried out (the catch or jump-in area is thus increased) and less is susceptible to failure than in the known method described at the outset.

It is advantageous if the key stage is made up of four bridged circuits in a manner known per se Diodes, which are periodically discharged by tactile impulses of opposite polarity from the sync pulses - made conductive. These tactile impulses are transmitted via switching elements, preferably fed through resistors to the bridge circuit, which are dimensioned such that the Capacitor charging current is limited when the voltage between the input and output of this Bridge circuit exceeds a specified value.

+09 657/181

3 4

The invention and embodiments of the same rectangular probe pulses, such that the

are shown on the basis of FIG. 1 to 4 explained in more detail. Bridge circuit now only for a shorter period of time

It shows it is open, which means that the condensate is charged

F i g. 1 a circuit arrangement for the synchronizer 9 now a shorter period of time for versatility an oscillator, 5 is available. To limit this charging current

F i g. 2 Pulse shapes like those used in the circuit can also be used for current-stabilizing circuit arrangements according to Fig. 1 according to a known ver elements, such as pentodes, or nonlinear ones drive and occur according to the invention, resistors are switched in such a way that the charging

F i g. 3 and 4 further exemplary embodiments, the current as a function of the voltage difference Invention using semiconductor diodes. io between the input and the output of the

According to Fig. 1, the terminal 1 is limited in the diode bridge circuit.

F i g. 2 a illustrated sequence of synchronizing pulses α After these changes have been made, the shows

fed to the generator 2, which therefrom each a control voltage occurring across the capacitor 9 the

antiphase sequence of simultaneous with the syn- course of the fully drawn line according to FIG. 2 d. chronimpulsen generated tactile pulses. 15 This course is asymmetrical because the loading

This generator 2 can, for example, have a cathode boundary of the charging current that changes rapidly

be coupled pair of electron tubes, is prevented from charging the capacitor 9,

which one by the entering synchronous when one of the synchronous pulses α is over time

pulses blocked and the other of which is opened, the duration of the return of the sawtooth voltage b , so that the probe pulses are displaced at their anodes, as is the case with curve c at point 14

opposite polarity arise. This by the is. The dashed line in FIG. 2d shows

Generator 2 generated pulse pulses are comparatively again the control voltage after

Resistors 3 and 4 of a sensing stage in the form of a F i g. 2 c.

Bridge circuit, consisting of diodes 5 to 8 The control voltage generated according to the invention forwarded. Between the junction of 25 is therefore asymmetrical, in such a way that the on

Diodes 7 and 8 and the ground, the condenser 9 generated control voltage is a change

Sator 9 is provided on which a control voltage for tion of the oscillator frequency of the oscillator 10 in the

Adjustment of the oscillator is generated. The Os- right direction causes and in this way the

The oscillator frequency is on the one hand oscillator frequency quickly with the supplied Synzu via terminal 11 further use and on the other hand brings 30 chronological pulses into synchronicity,

it is via the line 12 to the sawtooth generator F i g. 3 shows a further embodiment of FIG

13 supplied, which a sawtooth-shaped voltage invention, after which the sawtooth pulses b

generated with oscillator frequency. This sawtooth (Fig. 2) via the terminal 20 to the input of a

voltage b (Fig. 2) is the connection of the four-diode bridge circuit - consisting of the

Diodes 5 and 6 fed. 35 diodes 21 to 24 (types OA 7) - can be fed in.

The mode of operation of this known per se. 2, then the charging of the congested pulse shapes a, b and c is explained in more detail. The capacitor 25 is proportional to the instantaneous occurrence. It is assumed that the pulse-train amplitudes of the sawtooth pulses b ab frequency of the synchronizing pulses α change significantly from the 40. The diodes 21 to 24 are different Tastjenigen b by the sawtooth pulses and pulses periodically made conductive, which of the eight sync pulses that particular α nine other diagonal of the bridge circuit of the sawtooth b omitted. During the on-secondary winding 26 of the transformer 27 entered which conducts α coincident with the sync pulses. The bridge circuit is opened to the primary winding 28 via tactile pulses and the pulses corresponding to the terminals 29 are supplied from a generator in the usual proportions to the respective during the synchronous manner. The α Kondenimpulse existing amplitude of the sawtooth sator 30 is in series with the secondary winding 26 of the capacitor 9 b impulse more or less up of the transformer 27, so that the blocking voltage charged so that the control voltage is formed of, c. Bridge circuit during the time between the Here is the control voltage that is maintained with large 50 pulses. This capacitor voltage differences at the input and output of 30 is bridged by the resistor 31, where bridge circuits are set, significantly different due to the time period between the scanning of the control voltage, which occurs with small voltage pulses, an adjustable amount of charge, so that the Control voltage c can. According to the invention, the amount by which there is a large voltage jump at point 14 is. 55 the charging of the capacitor 25 during the Under the conditions shown, the difference in duration of the individual key pulses can change, the reference frequency is relatively large, and is limited by the resistor 31 at the capacitor. In this Aussator 9 forming control voltage can the Os- guide example, the capacitor 25 has a value zillator 10 not readjust in such a way that the oscillator of 0.05 μΡ, the voltage on the secondary winding gate frequency with the incoming sequence of 60 26 of the transformer 27 is 30 V, and the reverse sync pulses α is in synchronism. If 31 stood at 1 ΜΩ, the capacitor 30 was at

To carry out the invention, the diode is 0.01 μΡ in parallel.

bridge circuit modified so that the charging F i g. 4 shows a further embodiment of FIG current for charging or discharging the condenser invention, one of the diodes 21 to 24 besators 9 is limited. With regard to the known 65 standing bridge circuit as shown in FIG. 3 a circuit arrangement the resistors 3 on the one hand with terminal 20 and on the other hand with the capacitor 25 and 4 replaced by other larger resistors. At the anode be. These cause the resistors 32 and 33 of the electron tubes 34 to slip

or 35 - which are coupled by a common cathode resistor 36 - create tactile pulses. The control grids of the electron tubes 34 and 35 are biased in such a way that the cathode anode section of the electron tube 34 normally conducts current, whereas the cathode anode section of the tube 35 is blocked. Synchronous pulses 37 of negative polarity are fed to the control grid of the electron tube 34, whereby these relationships are reversed, so that tactile pulses of positive or negative polarity arise at the anodes of the electron tubes 34 and 35 and fed via the capacitors 38 and 39 to the corresponding inputs of the bridge circuit will. These inputs are conductively connected by the resistor 40, which is dimensioned in relation to the capacitors 38 and 39 such that the change in the charge of the capacitor 25, which can be caused during the duration of the individual pulse pulses, is limited in the desired manner. The pulses arising at the anode resistors of the electron tubes 34 and 35 have an amplitude of 30 V, the capacitors 38, 39 an amount of 0.01 μι and the resistor 40 an amount of 1 ΜΩ.

The terminals 41 according to FIGS. 3 and 4 are conductively connected to an oscillator (similar to the oscillator 10 according to FIG. 1), the frequency of which is output on the one hand for further use and on the other hand a generator (similar to the generator 13 according to FIG. 1) ) is synchronized to generate the sawtooth pulses b.

Claims (7)

Patent claims: 1. Circuit arrangement for synchronizing an oscillator with sync pulses using a sensing stage, the input of which is supplied with a sawtooth voltage phase-locked to the oscillator frequency and which is controlled by the sync pulses in such a way that a control voltage occurs at a capacitor connected to the output of the sensing stage, with which the oscillator frequency is brought into synchronization with the pulse repetition frequency of the sync pulses, characterized by such a design of the sensing stage (3 to 8; 21 to 24, 31; 21 to 24, 40) that the maximum current that is generated during the duration of individual sync pulses (a, 37 ) is available for charge reversal of the capacitor (9, 25) is limited in such a way that the maximum voltage jump (at point 4) occurring at this capacitor (9, 25) is only a fraction - preferably only about 20 to 30% - of the amplitude is the sawtooth voltage that is fed to the sensing stage. 2. Circuit arrangement according to claim 1, characterized in that the sensing stage consists of four bridge-connected diodes (5 to 8, 21 to 24) which are periodically made conductive by sensing pulses of opposite polarity derived from the sync pulses (a, 37). 3. Circuit arrangement according to claim 2, characterized in that the duration of the tactile pulses and thus the duration of the charging current is reduced. 4. Circuit arrangement according to claim 2, characterized in that the tactile pulses over Switching elements, preferably via resistors (3, 4, 31) are fed to the bridge circuit and that these switching elements are dimensioned such that the capacitor charging current is limited when the voltage between the The input and output of this bridge circuit exceeds a specified value. 5. Circuit arrangement according to claim 1, characterized in that to limit the Charging current, current-stabilizing switching elements, preferably pentodes or transistors, are used will. 6. Circuit arrangement according to claim 1 and 2, characterized in that the tactile pulses can be generated using a transformer (27) whose primary winding (28) Synchronous pulses are fed and its secondary winding (26) via a series combination - Consists of a capacitor (30) and a resistor (31) - with a diagonal the bridge circuit is conductively connected. 7. Circuit arrangement according to claim 1 and 2, characterized in that the inputs the bridge circuit to which the probe pulses are fed through a resistor (40) are conductively connected. Considered publications:
German patent specification No. 941 065. 1 sheet of drawings 409 657/181 8.64 © Bundesdruckerei Berlin