SU824426A1 - Device for scale conversion of time intervals - Google Patents

Description

ι The invention relates to measuring technique.

A device for large-scale conversion of time intervals between electrical pulses, containing two generators of exponentially varying voltage and a circuit for comparing them pj.

However, this device has a low conversion accuracy.

Closest to the proposed is a device for extending time intervals containing a comparison circuit, two sawtooth voltage generators, a trigger for fixing an extended time interval, two input triggers p].

However, this device does not provide high conversion accuracy due to the presence of non-linearity of the developing linearly varying voltages. In addition, the possibility of increasing their accuracy is limited by the limiting value of the coefficient of scale transformation, which depends on the magnitude of the amplitudes of the unfolding stresses, their slew rate, the range of compared stresses, and the sensitivity threshold of null organs.

The aim of the invention is to improve the accuracy of large-scale conversion of time intervals.

This goal is achieved by the fact that in the device for the large-scale conversion of time intervals containing a comparison element, two sawtooth voltage generators, the outputs of which are connected to two inputs of the comparison element, a latching trigger for an extended time interval, the first input of which is connected to the output of the comparison element, and the second input - with the input of the first input trigger, the second input trigger, the outputs of the input triggers are connected to the inputs of the first and second generators, an additional OR element is entered 824426 and the first ¹ and second threshold elements, the inputs of which are Combined and connected to the output of the first sawtooth voltage generator, while the output of the OR element is connected to the zero inputs of the installation of input triggers, and the two inputs of the OR element are respectively connected to the output of the first threshold element and to the output of the comparison element, moreover, the output of the second threshold element is connected to the unit inputs of the installation of input triggers.

• In FIG. 1 shows a functional diagram of the device; on * fig. 2 timelines explaining his work.

The device consists of input triggers I and 2 (Fig. 1] of sawtooth voltage generators 3 and 4, threshold elements 5 and 6, comparison element 7, element OR 8 and trigger 9 for fixing an extended interval.

The device operates as follows.

Before starting the conversion, all triggers are in state 0, the generators are not working,

At the point in time (Fig. 2) _f corresponding to the beginning of the expandable interval o t _{Xf, the} input signal triggers 1 and 9 are switched to the state ”1. In this case, the output signal of the trigger 1 starts the sawtooth voltage generator 3.

At the time tg of the end of the expandable interval t *, the input pulse U (^ switches trigger 2 to state 1, which starts the sawtooth voltage generator 4.

The sweep voltage generated by the generator 3 is fed to the input of the threshold elements 5 and 6. When the sweep voltage reaches a value (J j, or ϋ _π · _{2, the} threshold elements 5 or 6 generate signals that, using input triggers 1 and 2, change the voltage slope of the generators 3 and 4. The magnitudes of the voltages and 1) d are constantly compared by the element 7 of the comparison. At the moment of their equality, a signal U · ^ is generated which sets all the triggers to the initial state and stops the working stroke of the generators. The time interval t _8wx = K · ^ recorded by trigger 9 from the moment it was turned on by the signal and ^ until the element of comparison 7 is triggered _{Λ is} proportional to the input time interval in accordance with the given coefficient of scale 5 transformation K, which is determined by the values of the slopes of the ramp voltage.

Improving the accuracy of scale conversion in the proposed device is achieved by reducing the influence of non-linearity of the unfolding stresses. This is ensured by reducing the used duration of the working stroke and the magnitudes of the amplitudes of 15 voltages. In addition, the proposed algorithm for converting the time interval allows you to increase the value of the coefficient of scale conversion without making 20 any additional requirements for the duration of the stroke and the magnitudes of the amplitudes of the unfolding stresses, their rate of change, the range of compared stresses 2 ₅ and the threshold of sensitivity of null organs, which also leads to increased expansion accuracy.

Claims (2)

1. Magriev 3. V. Analog Measuring Converters of Single Signals, M., Energie, 1974, p. 128 2. USSR author's certificate number 236866, cl. H 03 K 6/04, 1969. FIG. t.