SU319050A1 - PHASE-IMPULSE MULTI-STABLE ELEMENT - Google Patents

Description

The device relates to the field of radio electronics and can be used in automation, computing and digital measurement technology.

Phase-pulse multi-stable elements containing storage circuits with or without a linearization circuit, sets and reset circuits with a recording input, output shapers or without them are known.

The disadvantages of the known devices are their low reliability due to the dependence of the characteristics of nonlinear components on the operating conditions and the criticality of the device to the parameters of the circuit details.

The proposed device differs from the known ones in that one of the inputs of the comparator is connected to the tip capacitor through an emitter follower, and the storage capacitor is connected to the collector circuit of the output driver.

These differences can improve the reliability of the device and reduce its criticality to the parameters of the parts.

A schematic diagram of a phase-pulse multi-stable element is shown in FIG. one; The time diagram of his work is in FIG. 2

capacitor 5 and metering 6 capacitors, diodes 7, 8 and linearizing emitter follower 9, comparator 10 — diode 11 and transformer winding 12, capacitor 13, voltage source — with a compensating charging circuit 14, charging capacitor circuit — winding 15 a transformer and a diode 16, an output driver 77 with a base winding 18, and also a diode 19 of setting the required state.

Phase pulse element works as follows.

The input driver operates in saturation mode and provides rationing

input signals in amplitude. Each sigpal (Fig. 2a) coming from terminals 20 and 21 opens transistor 2. A storage capacitor 5 is discharged through diode 8, capacitor 6 and transistor 2. Since the capacitance

the capacitor 6 is several times smaller than the capacitance of the capacitor 5; the latter loses only a part of its charge, i.e., it is discharged by some magnitude & U. With the end of the input pulse, the transistor 2 is closed, and the capacitor 6 is recharged through the emitter follower 9, the diode 7 and the resistor 22 of the driver.

on storage capacitor 5, and is determined by the amplitude of the pulses at the input of the storage device and the ratio of the capacitors 5 and 5.

The voltage on the capacitor 5 has the form of a step curve (Fig. 2, b).

As soon as the voltage at the output of the emitter follower 9 becomes less than the reference voltage Uo, remembered by capacitor i3, the diode // of the comparator 10 opens and a current pulse flows through the winding 12 of the transformer. Due to the effect of the emf induced in the winding 18, the transistor (7) opens, and the output driver, which acts as a cascade of charging of the storage capacitor 5.

As soon as transistor 17 opens, capacitor 5 is charged almost to voltage across diode 16, winding 15 and transistor 17.

The output signal (Fig. 2c) is removed from terminal 25 connected to the collector of transistor 17. To limit the peak value of the collector current of the transistor due to the presence of a capacitor in the collector circuit, a limiting resistor 24 can be connected in series with the transformer winding 15.

The reference voltage Uo (Fig. 2, b) is maintained at a certain level due to the dynamic equilibrium of the discharge processes of the capacitor 13 of the source of the reference voltage at the time of comparing the voltages Uc and f / o and charging it through a compensating circuit. output signal. A change in Uc or UQ leads to a change in the magnitude of the discharge, which, with a practically unchanged value of charge, will restore the required ratio of Uc and f / o

In known circuits, a diode transformer comparator is connected directly to a storage capacitor, which causes a small value of the starting power of the discharge capacitor of the storage capacitor. Increasing the power by increasing the capacitance of the storage capacitor leads to a narrowing of the frequency range of the element, an increase in the duration of the output pulses.

In the proposed device, the problem is solved by connecting the comparator 10 to the pack capacitor 5 via a linearizing emitter follower 9, in this case simultaneously playing the role of a power amplifier. This allows a significant improvement in load characteristics.

accumulator and thereby ensure the preservation of the dynamic equilibrium of the processes of charge and discharge of the capacitor of the source of the reference voltage in a wider range of changes in the parameters of the components of the circuit, external temperature, etc.

Subject invention

Pulse multistable element according to ed. St. No. 268012, characterized in that,

in order to increase the reliability of work and reduce the criticality to the parameters of the parts, one of the inputs of the comparator is connected to the storage capacitor via an emitter follower, and the storage capacitor

included in the collector circuit of the output shaper.

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