SU331487A1 - RECOGNITIONAL SCHEME WITH AN ARBITRARY RATE COEFFICIENT - Google Patents

Description

The invention is intended for use in the field of automation and computer technology.

The scaling circuits with an arbitrary scaling factor, containing phase-emulsion multistable electrons, valves and pending generators of impulses, are known. These circuits are complex and differ by low speed.

The proposed recalculation circuit with an arbitrary recalculation coefficient differs from the known ones in that the inputs of the phase-pulse elements are connected to the clock pulse circuit through the gates, the control inputs of the gates are connected to the output of the standby impulse generator, the input of which is the scaling circuit. This difference leads to an increase in the speed of the scoring circuit and its simplification.

The initial state of the recalculation circuit, i.e., obtaining the required coefficient (1) and recalculation coefficient K, is set by controlling the arrival of clock pulses at the input of the corresponding phase-pulse element using a special feedback circuit. The action of the feedback circuit is that in the absence of clock pulses at the input of the phase-pulse element, this element changes its state by n units in the direction of counting.

It is possible to set a counter before the beginning of each count cycle. It is possible to set up similar feedbacks on the output of various cascades of the counter and the use of pulses of the standby generator pulses and, therefore, the number of non-missed clock pulses at the input of different (|) azo-pulse pulses. in any predetermined state and get any given conversion factor. At the same time, during the installation of the code, the counting process does not stop and, due to the absence of any additional triggering of the phase-pulse multi-stable element, the speed of the circuit does not decrease.

Pa drawing is a block diagram of the proposed device.

The scheme contains phase-pulse multi-stable elements / ь. . . / ,,, valves 2, I, and a generator of 4 pulses.

The perm scheme works as follows. Before the appearance of the pulse at the output

valve 2, the operation of the circuit does not differ from the operation of a conventional phase-pulse meter. When a pulse is detected at the output of the valve 2, a waiting generator of 4 pulses is started and locks some of the valves 3, as a result

the corresponding phase-pulsed, myostable elements cease and the reference state is established in the meter. Since the chains of counting pulses are not affected by the feedback circuit and the additional emulsions are not fed to the input of the phase-pulsed myostable elements, the counting pulses received at the circuit input will be counted in the same way as impulses that came before or after the code was set. After the termination of the pulses of the waiting generator 4, the valves 3 at the inputs of the phase-pulse multi-stable elements are opened, and the circuit again works as a normal phase-pulse counter.

To reduce the number of parts in the circuit, a multiphase multiV | Ibrator can be used as a standby pulse generator for all communications, which can produce pulses of various duration to set different numbers to different pulse-phase, multi-stable elements.

PRED. 1 ET 3 OF THE REFERENCE.

A recalculation circuit with an arbitrary recalculation coefficient, containing phase-pulse multi-stable elements, valves and a standby pulse generator, characterized in that, in order to increase speed 1 of simplifying the circuit, the inputs of phase-pulse elements are connected to the circuit of clock pulses through the valves, control inputs The valves are connected to the output of a waiting pulse generator, the input of which is connected to the output of an uncountable circuit.

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