CS217835B1 - Wiring for generating synchronization control pulse series - Google Patents

Abstract

The invention relates to the generation of synchronization series of control pulses for digital systems, e.g. computers. The circuit simultaneously solves the problem of the stability of the frequency of these control synchronization series, simple adjustment of their mutual time interval and adjustment of the pulse width from one place of the computer. The essence of the circuit consists in the fact that the output signal from the stable frequency generator 1 is fed first to the negative pulse generator with adjustable width 2 and then to the positive pulse generator with adjustable width 5. The outputs of these generators are then led through adjustable delay circuits 3 and 6 and through power inverters 4 and 7 to the output terminals H1 and H2.

Description

The invention relates to circuitry for generating synchronization series of control pulses for digital systems, eg computers, and addresses the issue of frequency stability, the possibility of adjusting the frequency value, setting the exact pulse width of the synchronization series and adjusting their mutual phase.

At present, some types of operated digital systems, such as electronic computers, are used to synchronously control the operation of so-called clock or synchronization generators composed of sections of delayed cable lines. This makes it possible to set the frequency of the synchronization generators and to set the pulse width of these synchrons

Adjustment is quite time-consuming and the whole system is bulky. The line is further exposed to various disturbances, which then manifest themselves as short-term frequency phase jumps, with all the negative consequences.

These drawbacks are eliminated by the wiring for generating the synchronization series of control pulses according to the invention, since the wiring utilizes a fixed frequency generator, the pulse width setting and the synchronization phase mutual phase are provided electronically, the whole device is so small that it can be placed in stabilized space.

The wiring for generating synchronization series of control pulses consists of known pulse generators, a stable frequency generator, delay circuits and power inverters.

Its novelty is that its first output is connected to the input of a negative pulse generator with an adjustable pulse width, the output of which is connected to an input of a delay circuit with an adjustable delay. The output of this circuit is connected to the input of the first power inverter whose output is connected to the output terminal of the first synchronization series. The second output of the fixed frequency generator is connected to the input of the continuously variable width positive pulse generator, the output of which is connected to the input of the second delay circuit with adjustable delay.

The output of this second delay circuit with adjustable delay is then connected to the input of a second power inverter whose output is connected to the output terminal of the second synchronization series.

Advantages of the invention reside in the fact that due to the very stable frequency of the fixed frequency generator it is possible to completely eliminate the random errors that occur in the case of random discontinuous frequency changes, and to flexibly change the pulse width of the synchronization series and their phase shift. Last but not least, the fact that, due to the small size, the entire wiring for generating synchronization series of control pulses can be concentrated in a very small, shielded space, completely separating this computer base from fault sources that can cause random short-term changes generator frequency phase.

The circuit according to the present invention will be further described with reference to the drawings, in which Fig. 1 is a block diagram, and Fig. 2 shows some important waveforms generated at various designated points of engagement.

Block J in Fig. 1 shows a stable frequency generator from which the first and a second 1b outputs are supplied with a direct and negated signal according to Fig. 2, the waveforms on the first and second outputs 1a and 1 b. it allows to the negative edge of the waveform at the first output 1 and to generate at its output 2b a series of negative pulses, the width of which S1 depends on the instantaneous setting of the pulse width by a continuous regulator located inside this generator. The waveform at output 2b is applied to input 1 and the delay circuit J ^{with an} adjustable delay, which causes the waveform to be shifted by At 1, according to the instantaneous adjustment of the control element in the delay circuit. The delayed waveform is then outputted at this circuit 3b and fed to the input 4a of the first power inverter i and its output to the output terminal of the first synchronization series H1. The course of the outlet 4b, H ,, Fig. 2.

Similarly, the waveform from the second output of the fixed frequency generator is applied to the input 5a of the continuously variable width positive pulse generator 2 at the output 5b of which the waveform of FIG. 2 is set, with the pulse width 8.3 set to input 6a of the second delay circuit. 6 with adjustable delay and from there through the second power inverter 2 to its output 7b and to the output terminal for the second synchronization series H2.

The delayed waveform at the output 7b and the value A to is shown in Fig. 2.

Claims (2)

Connections for generating synchronous control pulse series composed of known pulse generators, a fixed frequency generator, delay circuits and power inverters for generating two or more defined pulse train, characterized in that the fixed frequency generator (1) is connected to its first output (1a) on input (2a) of negative pulse generator (2) with adjustable pulse width, whose output (2b) is connected to input (3a) of the adjustable delay delay circuit (3), whose output (3b) is connected to input (4a) ) a first power inverter (4) whose output (4b) is connected to the output terminal (H1) of the first synchronization series, the second output (1b) of the fixed frequency generator (1) being connected to the input (5a) of the positive pulse generator (5) with continuously adjustable width, whose output (5b) is connected to the input (6a) of the second delay circuit (6) a delayable output whose output (6b) is connected to the input (7a) of the second power inverter (7), whose output (7b) is connected to the output terminal (H2) of the second synchronization series. 2 sheets of drawings