DE1512242A1 - Synchronization process for generating low-frequency pulses using a high-frequency input signal - Google Patents

Description

"Synchronization process" for generating pulses with a lower pulse frequency by means of a high-frequency input signal. The invention relates to a synchronization method for generating pulses with a low pulse frequency by means of a high-frequency input signal in a fluctuation-free and stable manner .

In general, electrical instrumentation is mente in Synchronisierkreisen, Z.8. In oscillographs, the high-frequency input signal is converted into pulses with a correspondingly lower pulse frequency . A pulse frequency in the known high-frequency Synchronieierverfahren means generated when the befind- Liche in the waiting state receives synchronous isierkreis an input signal by itbergeht WEL ches the waiting state to the idle state. The time span of the generation of the mentioned pulse is referred to below as the transition interval. The state of the Synchronisierkreises is from the resting state to the waiting state again transferred after a certain rest period.

By repeating this process , the pulse with a low pulse frequency is synchronized with a high-frequency electrical signal. However, if the high-frequency signal arrives at the synchronizing circuit during the transition interval, the synchronizing circuit sometimes goes into the idle state without returning to the waiting state. As a result, the pulse generated in the transition interval is not stable, but is subject to fluctuations. In order to obtain a stable, synchronized pulse, the length of the idle time must be selected so that the input signal only ever reaches the synchronization circuit when it is in the waiting state.

The object of the invention is to avoid the mentioned disadvantage of the known method, ie to provide an improved synchronization method in which the synchronization circuit is not only switched from the waiting state to the idle state by the input signal, but is also fed back into the waiting state by the input signal. The synchronization method according to the invention is characterized in that a synchronization circuit consisting of a pulse generator and a gate circuit actuating the same converts the high-frequency input signal from a card state to an idle state. is that the Synchronisierkreis.nach a predetermined period of rest is ppt GEK by an input signal from the idle state to the waiting state. that the synchronizing circuit by which the tilting in the wait state effecting input signal folgen- de input signal the synchronizing circuit again before waiting state in the In the idle state and that this sequence of operations is repeated over and over again.

The invention is described below with reference to the drawing . Herein: for JA and 1B are schematic representations of oscillation forms, which show the basic relationship between the input signal and the output pulse according to the known synchronization method, FIG. 2 - a block diagram of a circuit for carrying out the method according to the invention and FIG 3 a schematic representation of the oscillation forms, which shows the basic relationship between the input signal and the output pulse according to the invention.

In order to understand the invention, the known synchronization method will first be explained below.

"#gur 1A shows the desirable relationship between electrical schem input signal and output pulse in accordance with the known Synchronisierverfahren..Der state of Synchronisierkreises is respectively transferred from an input signal t1 from the wait state V1 in the idle state V2 and the synchronizing circuit returns after expiration of a predetermined time interval t1 auto- matically returns to the wait state V1 back. actuation of Synchronisierkreises is won the respective input signals t ', t2, t2 ° etc. wi@ederholt.'Da the input signals t1, t1'. t2, t2 'and so on up to synchronizing circuit pass when the same Odei in a waiting state is idle. the output pulses of Synchronisierkreises are always generated free of fluctuations, as represented by the drawings. in contrast, when an input signal t 2 b, t 3b according to Figure 1B in the transition interval of the synchronizing circuit passes, then the Output pulses @ t2b, t 3b etc. due to the state of the synchronization circuit This is influenced in the transition interval, ie the output jitter pulses are subject to fluctuations.

If, on the other hand , according to the invention, as illustrated in FIGS. 2 and 3 , the input signals FIG. 3 (a). P1. P2, P3. P4, PS. P6. P7. P $. P9. P1o. P11, etc. are given to input 1 of the synchronization circuit according to the invention, then .O_eseS-ignale @ P1, P2 etc. are sent to a pulse generator 5 and a pulse shaper 2. As FIG. 3 (b) shows, the pulse shaper 2 positive and negative pulses from the input signals P1, P2, etc., which are applied to a cultivibrator 3. Furthermore, the one in FIG. 3 (e) gets onto the ice drift of the cultivibrator 3. .dargestellte output signal of an integrator 4 which is 2 superimposed on the output signal of the pulse shaper, then -am input that the wultivibrators 3, the results in Figure 3 (c) shown Sig- nal. Since the "potential" at the output of the integrator 9 before the gultivibrator 3 is activated is kept at a certain value at the point in time T1 (FIG. 3 (e)), the signal 3 increases according to FIG. 3 (e) (e) superimposed output pulse of the Impalsformers 2 via the actuating potential A is the multivibrator 3 and and therefore represents äultivibrator tilted 3, as Figure 3 (d). Else negative output voltage of the äultivi- A negative output voltage of the hultivibrators 3 shown in Figure 3 ( f) is shown, zugefhhrt a pulse generator 5. the positive output voltage of the multivibrator 3 comes un- indirectly integrated in the integrator 4, and is there, so that in FIG resulting output voltage of the integrator shown 3 (e). as a result, the input voltage is obtained the 3 Kultisibrators the in figure 3 shown course (b). now, when the output voltage of the integrator 4 überlagertf, negatise pulse @ at the output of the pulse shaper 2 hber voltage B, wherein the w uitisibrator 3 back tilts; increases, the cultivator 3 enters the idle state, which corresponds to the point T2 in FIG. 3 (d), and a constant potential occurs at the output of the integrator 4. If the next high-frequency pulse P1o reaches the synchronization circuit , the cultivibrator 3 again switches to the waiting state and the processes mentioned are repeated . As a result, the high-frequency pulses P2, P3, etc. to P, are blocked and can not operate the Multisibra- @ter. .

On the other hand, the output of the vibrator 3 in the form of FIG. 3 (f) is used to alternately block and open the pulse generator 5 , while the input signal is fed directly to the pulse generator 5. The corresponding total voltage at the input of the pulse generator 5 is shown in FIG. 3 (g). Increases the input pulse P, via DAS operation potential C of the pulse generator 5, so generated in synchronization with the input pulse Pl this dixnen "pulse. Subsequently sink the superimposed pulses at the operating potential, which is why the pulse generator 5 are no longer responsive. If now the If the multivibrator 3 is tilted by the input pulse P9 , the input pulse P 10 is superimposed on the output voltage of the multivibrator 3 (f) and the pulse generator 5 is actuated again and generates a pulse synchronous with the input pulse Plo.

This mode of operation of the synchronization circuit is repeated. As a result, pulses with a low pulse frequency, which are synchronized with the corresponding high-frequency input pulses, can be picked up at output b.

As is apparent from the foregoing description, according to the invention, the synchronizing circuit rotated by the input pulses both from the wait state to the idle state and from the idle state to the waiting state and selbättätig with the input signal synchronized pulses can be obtained without any adjustment of the Synchronisierkreises. Therefore, even with very high-frequency input signals, stable and fluctuation-free pulses with a low pulse frequency are obtained.

Claims (1)

P atentans y r U che 1. Synchronization process for generating pulses with a lower repetition frequency, which are matched with the corresponding high-frequency input . crossing signals are synchronized, dadurchge -k ennze .i seframe that. a ator of a Impulsgene- and a same actuating gate of existing SXnchronisierkreis of the high frequency input signal from a waiting state to an idle state UberfUhrt that the synchronizing circuit after a predetermined rest period is switched from the idle state to the wait state by an input signal, so that the synchronizing circuit is switched from the wait state to the idle state again and that this sequence of operations is repeated continuously. 2. The method of claim 1, characterized g EKENN -z e i seframe that each period of the Torschal- processing switching signals generated in an opening portion in a soft pulse generator betä4 by an input signal. @ Can be taken, and a locking portion of the pulse generator is divided.