SU1265642A1 - Device for determining sign of phase difference - Google Patents

Abstract

The invention can be used in measuring devices and systems. The purpose of the invention is to provide a definition of a stable definition of the sign of the phase difference in the case of an approximate equality of the phase values of the input signals. The device contains shapers 1,2 and 3 pulses, the adder-subtractor 8 and the generator 10 pulses. The introduction of triggers 4 and 5 and blocks 6 and 7 of the time transformation. A variable spacing code with the formation of new connections makes it possible to exclude an unstable signal at the output of the device and, therefore, to increase the reliability of the measurement result. 1 il.

Description

eleven

12

NO

E)

:P

15

9)

Claims (1)

49 The invention relates to a measurement technique and can be used in measuring instruments and systems. The purpose of the invention is to provide a stable determination of the sign of the phase difference in the case of an approximate equality of the phase values of the input signals. . The drawing shows a diagram of the device. The device contains pulse formers 1-3, triggers 4 and 5, time interval conversion blocks 6 and 7 — code, adder-subtractor 8, equivalence element 9, pulse generator 1C, input terminals 11-13 and output terminals 14 and 15 1-3 pulses are connected to input terminals 11-13, respectively, the outputs of the formers 1 and 2 pulses are connected to the first inputs of the flip-flops 4 and 5, respectively, the second inputs of which are connected to the output of the pulse shaper 3 and the first inputs of the conversion blocks 6 and 7 one, the second inputs of which are connected to the outputs of the flip-flops 4 and 5, the third inputs - with the generator output 10 pulses, the output groups are connected to the groups of the first and second sums, the mator subtractor 8, the first jroporo output is connected to the first input: terminal 14, and a group of information outputs - with a group of inputs of the equivalence element 9, the output of which is connected to the output terminal 15. The time interval code conversion blocks 6-7 contain the AND element and the counter, and the inputs of the AND element are connected to the second and third inputs of the 6 AND 7 blocks. transformations the time interval is the code, and the output is with the counting input of the counterj the reset input of which is connected to the first inputs of blocks 6 - and 7 of the time inter-conversion. the shaft is the code, and the outputs are with codes. Blocks 6 and 7. I ..... The device operates as follows. The first and second input terminals 11 and 12 receive signals, the sign of the phase difference of which is to be determined, the third input terminal 13 receives a reference signal, giving the origin of the phase shift. The pulses of the generator of 3 pulses, xa 422, which characterize the origin of the phase shift, reset the counters of the time interval-code conversion blocks 6 and 7 and switch the triggers 4 and 5 to one state, which open the passage of pulses from the pulse generator 10 through the blocks And blocks. 6 and 7 time interval conversion - code. With the arrival of pulses from the formers 1 and 2 pulses to the second inputs of the triggers 4 and 5, these triggers go to the zero state and block the passage of the pulses through. elements And the corresponding blocks 6 and 7 of the time interval conversion are a code, while on the counters of blocks 6 and 7 codes are formed that determine the phase shifts of the signals at the first and second input terminals .11 and 12 With respect to the reference signal at the third input terminal 13 These codes from the output of blocks 6 and 7 of the time interval conversion code arrive at the input of the subtractor-subtractor 8, where their difference is calculated. The signal from the output of the sign bit of the adder 8 is fed to the output terminal 14 and describes the sign of the phase difference of the input signals. To ensure reliable operation of the device, kefl phase differences from the output of the adder 8 to its proximity to zero are analyzed. In case the difference code is greater than zero by a value not exceeding 8, this code contains zeros in all bits except m least significant bits, where & m s. If the difference code is less than zero by an amount not greater than S, this code contains ones in all bits except m least significant bits. The senior (n-m) bits of the difference code (n is the number of bits of the phase shift codes) from the second output of the adder 8 arrive at the input of the equivalence element 9, a single signal at the output of which characterizes the approximate equality of the analyzed phase shifts. This signal arrives at the second output terminal 15: at the zero value of this signal, the generated value of the sign of the phase difference is used, and at a single value of this signal the value of the sign of the phase difference obtained at the previous analysis is used. The foregoing assumes that the result of the analysis of the sign of the difference of the difference should in general be rewritten into the storage element connected to the output terminal 14 only if the signal at the output of the equivalence element 9 has a zero value. Thus, the use of additional analysis of the measurement result of the phase difference of the input signals makes it possible to eliminate the unstable signal at the output of the device and, therefore, increase the reliability of the measurement result. The invention The device for determining the sign of the phase difference, containing the first, second and third pulse shapers pulse generator and adder-subtractor, while the first, second and third input terminals of the device are connected to the inputs of the corresponding pulse shaper, about TL. and in order to increase the reliability of determining the sign of the phase difference in the case of an approximate equality of the phase values of the input signals, two triggers, two time interval conversion units — a code and an equivalence element — are introduced into it, with the outputs of the first and second pulse drivers are connected to the first inputs of the triggers, the second inputs of which are connected to the output of the third pulse driver, and the outputs - to the first inputs of the time-slot conversion modules — the code, the second inputs of which are connected to the output of the pulse generator, the third inputs - with the output of the third pulse generator, and the output groups - with the groups of the first and second inputs of the adder-subtractor, the first output of which is connected to the first output terminal of the device, and the group of information outputs is connected to the group of inputs of the equivalence element, the output of which connected to the second output terminal of the device.