SU832713A1 - Device for stretching time intervals - Google Patents

Description

The invention relates to measuring equipment, and in particular to devices for extending time intervals.

A device is known for extending the intervals between electric pulses, containing two generators of exponentially varying voltage and a comparison element ζΐ].

However, this device due to non-linearity does not have high accuracy ..

It is also known a device for extending time intervals containing a comparison element, two generator-15 sawtooth voltage, a trigger for fixing an extended time interval, the first and second input triggers p].

A disadvantage of the known device 20 is that it does not provide high accuracy of expansion due to the nonlinearity of the deploying linearly-varying voltages. In addition, the possibility of increasing accuracy is limited by the limiting value of the scale conversion coefficient, which depends on the magnitudes of the amplitudes of the unfolding stresses, their growth rate, the range of the compared voltages, and the sensitivity threshold of the null organs.

The purpose of the invention is to increase the accuracy of the expansion of time intervals.

This goal is achieved in that in a device containing a comparison element, the inputs of which are connected via sawtooth generators to the inverse outputs of the first and second triggers, the third trigger, the first input of which is connected to the first input of the first trigger and the output of the first input pulse source, and the first the input of the second trigger is connected to the output of the second source of input pulses, the output of the comparison element is connected to the second input of the third trigger, a trigger and a controlled generator are additionally introduced pulses, the output of which is connected to the second inputs of the first and second triggers, and the input is connected to the inverse output of the additional trigger, and the third inputs of the first and second triggers and the first input of the additional trigger are combined and connected to the output of the comparison element, and the second input of the additional trigger is connected to the first entrance of the second. trigger.

In FIG. 1 shows a functional diagram of a device; nafig. 2 is a timing diagram of its operation.

The device comprises triggers 1-4, generators 5 and 6. sawtooth voltages, a controlled pulse generator 7 and an element 8 comparison.

The device operates as follows.

Before starting the conversion, all triggers are in the zero state; generators are disabled.

At the point in time (Fig. 2), corresponding to the beginning of the expandable interval t, the input signal U _BX ^ triggers 1 and 4 are switched to a single state. This weekend. the trigger signal 1 starts the sawtooth voltage generator 6.

At the end of the expandable interval t _{x by the} input pulse U _{B! T} 2, the triggers 2 and 3 are switched to a single state, which trigger, respectively, the sawtooth voltage generator 5 and the controlled pulse generator 7. The pulses of the controlled generator 7 using the triggers 1 and 2 control the operation of the sawtooth voltage generators 5 and 6: at the moment of each next pulse from the controlled generator 7, the slope of the deployment voltage changes. In this case, the values of the unfolding stresses ^and 4 and U _{5 are} constantly compared by the comparison element 8. At the moment of their equality, a signal is generated that sets all the triggers to their original state and stops the working stroke of the generators. The time interval t _{Bb] X} = K »t _x , fixed by trigger 4 from the moment it is turned on by the signal ll _BXi until the element 8 of the comparison is triggered, is proportional to the input time interval t _x in accordance with the specified coefficient of the scale transformation K, which is determined by the values of the slopes of the deployment stresses.

Improving the accuracy of expansion in the proposed device is achieved by reducing the influence of non-linearity of the unfolding stresses. This is ensured by reducing the used working stroke duration and the amplitudes of the unfolding stresses.

In addition, the proposed algorithm for converting the time interval allows one to increase the value of the coefficient of scale conversion without imposing any additional requirements on the duration of the stroke and the magnitudes of the amplitudes of the unfolding stresses, their rate of change, the range of the compared voltages, and the sensitivity threshold of the comparison elements / which also leads to an increase accuracy of expansion of intervals.

Claims (2)

The invention relates to a measurement technique, namely, devices for extending time intervals. A device for expanding the intervals between electrical pulses, containing two generators of exponentially varying voltage and a reference element 1, is known. However, this device due to non linearity does not have high accuracy ..: It is also known a device for extending time intervals, containing a comparison element, two generators of a sawtooth voltage, a trigger for fixing an extended time interval, the first and second input triggers 2. A disadvantage of the known device is that it does not It produces high precision expansion due to the presence of non-linearity of sweeping linearly varying stresses. In addition, the possibility of improving its accuracy is limited by the value of the scale transformation coefficient, which depends on the magnitudes of the sweep voltage amplitudes, the speed of their growth, the range of compared stresses and the sensitivity threshold of null organs. The purpose of the invention is to improve the accuracy of the expansion of time intervals. The goal is achieved by the fact that in a device containing a comparison element, the inputs of which through sawtooth generators are connected to the inverse outputs of the first and second triggers, the third trigger, the first input of which is connected to the first input of the first trigger and the output of the primary source of input pulses, and the first input of the second trigger is connected to the output of the second source of input pulses, the output of the comparison element is connected to the second input of the third trigger, a trigger is additionally introduced and a controlled oscillator p pulses, the output of which is connected to the second inputs of the first and second flip-flops, and the input is connected to the inverse output of the additional flip-flop, the third inputs of the first and second flip-flops and the first input of the additional flip-flop are combined and connected to the output of the reference element, and the second input of the additional flip-flop is connected to the first input of the second trigger. FIG. 1 shows a functional diagram of the device; in fig. 2 - times on the diagram of his work. The device contains triggers 1-4 generators 5 and 6. Saw-shaped voltages, controlled pulse generator 7 and comparison element 8. The device works as follows. Before the start of the conversion, all the triggers are in the zero state,. generators are disabled. At time t (Fig. 2), corresponding to the start of the expandable interval t, the input signal triggers 1 and 4 switch to one state. In this case, the output signal of the trigger 1 starts the generator 6 sawtooth voltage. At the time t of the end of the expanding interval t, the input pulse Ug switches the triggers 2 and 3 to one state, which are triggered, respectively, by the sawtooth generator 5 and the controlled pulse generator 7 The pulses of the controlled generator 7 by means of the trigger 1 and 2 controls the operation of the generators 5 and 6 of the sawtooth voltage: at the time of arrival of each successive pulse from the control generator 7, the slope of the sweep voltages changes. With this, the magnitudes of the sweep voltages 4-5 are constantly compared with the reference element 8. At the moment of their equality, a signal is produced, which sets all the triggers to the initial state and the operation of the generators stops. The time interval tjbix -fixed by trigger 4 from the moment it was turned on by the UBXI signal up to the moment the comparison element 8 is triggered is proportional to the input time interval t, in accordance with a given scale conversion coefficient K, which is determined by the magnitudes of the slopes of the sweep stresses. Increasing the expansion accuracy in the proposed device is achieved by reducing the influence of non-linearity of the sweep voltages. This is achieved by reducing the use time of the working stroke and the magnitudes of the sweep stress amplitudes. In addition, the proposed time interval conversion algorithm allows increasing the magnitude of the scale conversion coefficient without presenting any additional requirements for the duration of the working stroke and the amplitudes of the sweep voltages, their rate of change, the range of the compared stresses and the threshold of the comparison elements} what also leads to an increase in the accuracy of the expansion intervals. Apparatus of the Invention A device for extending time intervals, comprising a comparison element, whose inputs through saw-tooth voltage generators are connected to the inverse outputs of the first and second triggers, the third trigger, the first input of which is connected to the first input of the first trigger and the output of the first source of input pulses, and the first input The second trigger is connected to the output of the second source of input pulses, the output of the comparison element is connected to the second input of the third trigger, which is different from that accuracy, an additional trigger and a controlled pulse generator are added to it, the output of which is connected to the second inputs of the first and second triggers, and the input is connected to the inverse output of the additional trigger, with the third inputs of the first and second triggers and the first input of the additional trigger combined with each other and connected to the output of the reference element, and the second input of an additional trigger is connected to the first input of the second trigger. Sources of information taken into account in the examination 1. Z.V.Magrachev. Device for expanding intervals. Analog measuring transducers of single signals. M., Energie, 1974, p. 128 2. The author's certificate of the USSR 236866, cl. H 03 K 5/04, 1969. uexf Jl yg Fi.g / //