PL151957B1 - METHOD AND LAYOUT OF MEASUREMENT PHASE PRESET M E R E TWO COURSE AND AT THE SAME FREQUENCY - Google Patents

Description

REPUBLIC ΠΛΙ About IZ A PATENT DESCRIPTION 151957 POLAND in Additional patent READING ROOM to patent no --- 0 G ÓLHA Reported: ⁰⁸ 12 27 / P. 257200 / Priority ---- Int. Cl. ^s G01R 25/00 OFFICE PATENT Application announced: θθ 06 23 RP Patent description published: 1991 03 29

Inventor: Marek Kałuski

The holder of the patent: Instytut Łączności, Warsaw / Poland /

METHOD AND SYSTEM FOR MEASURING THE PHASE SHIFT BETWEEN TWO PASSES OF THE SAME FREQUENCY

The subject of the inventions is a method and system for measuring the phase shift between two waveforms of the same frequency, intended for use in measuring electronic systems for measuring the mean value of any phase shifts that may occur between two electrical waveforms of the same frequency.

There is a known method of measuring the phase shift between two waveforms of the same frequency, in which these waveforms are fed to the inputs of two zero-crossing detectors, and the output signals from these detectors are fed to the input of the common trigger and converted by this trigger into pulses, the duration of which is proportional to the measured phase shift, and then the pulses obtained in this way are converted by the gating system 1 of the auxiliary generator into pulses of the number of pulses proportional to the measured phase shift. Then these pulses are counted by the counter and the measurement result is is imaged on the reading field

The known and used phase shift measurement system between two waveforms of the same frequency has two separate zero-crossing detectors, the outputs of which are connected via a common trigger with a gating system connected to an auxiliary generator and a clock generator, while the output of the gating system is connected through a counter with a detector and result display, and the counter is coupled to the output of the clock generator.

The disadvantage of the known method and system is the occurrence of the phenomenon of ambiguity in the fluctuation of the measured phase shift angle in the extreme areas of the measuring range, which occurs during the cyclic performance of the measurement and averaging of the measurement result.

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From the Polish patent specification No. 107,033 there is a known method of measuring the phase shift between two waveforms of the same frequency, in which, in order to eliminate ambiguity in the fluctuation of the measured angle of phase shift in the extreme regions of the measurement range, it is used to introduce in one of the two paths of the measured signals of a known shift phase shift in the end regions of the measuring range to introduce known phase shifts, the size of which will be taken into account when correcting the measurement result. This solution actually brings the measurement inside the measuring range.

The system for measuring the phase shift between two waveforms of the same frequency known from the Polish patent specification No. 107 033 is characterized by the fact that the output of one of the two zero-crossing detectors is connected via a phase shifter with a flip-flop, a frequency divider and a phase shift sensor, while whereby the second input of the sensor is connected to the output of the second crossover detector through the zero level, and the output of the sensor is connected after the control input of the phase shifter and the modulo 360 counter, the input of which is connected through the second frequency divider with the output of the gating system, one of the inputs of which is connected to output of the first frequency divider

The disadvantage of the solution according to Polish patent No. 107 033 is the limitation of use due to not always sufficient accuracy, conditioned by the accuracy of the phase shifter setting

From the Polish patent specification No. 89 673 it is known a digital measure of the mean value of the phase shift, in which, to eliminate measurement ambiguity at the fluctuation of the measured phase shift near the beginning or end of the full angle, the correction of the measurement result is applied analogously to the solution according to Polish patent No. 107 033, using for this purpose the digital comparison of the first measurement made by means of a threshold circuit connected to a meter

The circuit according to patent no. 89 673 is characterized in that the output of the gating circuit connected directly to the two zero-crossing detectors is connected to a threshold circuit connected simultaneously to the decade counter of the result, the output of the threshold circuit through the impulse circuit is connected to the gate i * and with the gate or, ześ the output of the gate and * is connected to the gate or and the counter to 16, the output of which and the output of the gate or through the logical product circuit are connected to the known averaging path of counting the result

In the solution according to Polish patent no. 89 673, an arithmetic correction of the result is used, it is significantly complex, requires the use of a number of logic circuits and an impulse circuit

The method of measuring the phase shift between two waveforms of the same frequency, in which the measured waveforms are changed in two separate transition detectors through the zero level to square wave signals, and in the gating system it converts these signals into auxiliary generator pulse trains with the number of pulses in each from the strings proportional to the phase shift at the input of this gating system, and then the string pulses are counted in a modulo 360 counter and, after decoding, displayed in the form of a measurement result on the readout field, characterized by the fact that the output signals of the zero-crossing detectors are changed in two monostable transformers for signals with a duration shorter than half the period of the signals at the input of these flip-flops and simultaneously in two frequency divider systems with a division ratio of 1: 2, rectangular signals with a frequency equal to half the frequency of the input signals are generated or monostable output flip-flops · Then the latter signals and signals with a shorter duration are subjected to the conjunction process in the conjunction system, and the signal from the output of the conjunction system resets one of the two frequency divider systems with a division ratio of 1: 2 ·

A system for measuring the phase shift between two waveforms of the same frequency, in which each of the two measuring inputs is connected to the associated zero-crossing detector, and the gating circuit connected to the auxiliary generator has

151 957 output connected through a frequency divider with a ratio of 1: N with a modulo 360 counter, the output of which is connected to the readout field, and the input of the gating circuit is connected through a second frequency divider with a division ratio of 1: N with the first divider with a division ratio of 1: N and with the modulo 360 counter, characterized by the fact that the output of each of the two detectors crossing the zero level is connected to the input of one of the two monostable flip-flops, and the output of each of these flip-flops is connected to the corresponding input of the conjunction system, the output of which is connected to the foraging input one of the two frequency divider systems with a division ratio of 1: 2. The input of each of the two frequency divider circuits with a split ratio of 1: 2 is connected to the input or output of the associated monostable flip-flop, while the output of each of the two frequency divider circuits is connected simultaneously to the associated input of the conjunction circuit and to the associated one from the inputs of the gating system

The solution according to the invention makes it possible to measure the mean value of the phase shift, regardless of its value, using a simple system that eliminates the extensive digital comparison system or the use of additional phase shift for measurements at the ends of the range, which is a source of additional errors. The system according to the invention, despite the simplicity of its structure does not limit the accuracy of the measurement over a wide frequency range.

Object of the invention It is explained in more detail by means of the drawing, in which Fig. 1 shows a block diagram of the system, Fig. 2 shows the time courses of the signals in individual phases of the method implementation in the case when the fluctuations of the measured phase shift occur within the measuring range, and Fig. 3 shows the time courses of the signals in individual phases of the method implementation in the case when the fluctuations of the measured phase shift occur at the ends of the measuring range, near the full angle

In the method according to the invention, the electrical waveforms of equal frequency, between which the mean value of the phase shift is measured, are transformed in two separate zero-crossing detectors 112 into square output signals A and B with the same frequency f γ, where T is the period of the output signals A and B. Signals A 1 B from the outputs of the detectors 112 are changed in two separate, monostable flip-flops 3 and 4 into signals A ^ and B ^ with a duration t ^ shorter than half the period T of the output signals A and B from said detectors 112 Simultaneously, in two circuits 516 frequency dividers with a division ratio of 1: 2, rectangular signals A ₂ and B ₂ are produced with a frequency equal to half the frequency f of the output signals of the above-mentioned detectors 112, or the input or output signals of monostable flip-flops 3 and 4. A ₂ and B ₂ with a frequency equal to half the frequency f of the output signals A and B of the above-mentioned detectors 112 and the A ^ and shorter duration signals are subjected to the conjunction process in the conjunction system 7. By the conjunction signal of A ^ and B ^ and A ₂ and B ^ one of the two frequency divider systems 516 with a division ratio of 1 : 2 Then signals A ₂ and B ₂ with half the frequency f of the output signals A and B of detectors 1 and 2 from the output of frequency divider systems 516 with a 1: 2 ratio are subjected to the known processes of averaging processing and counting through the gating system 6, auxiliary generator 9, two frequency dividers 10 and 11 with a division ratio of 1: N, where N is the number of measurements to be averaged and a counter 12 modulo 360

The circuit according to the invention has two inputs W _f and Wg to which the electric waveforms are given, between which the phase shifts are measured. Inputs W _f i and Wg are connected via two zero-crossing detectors 112 belonging to these inputs with two monostable ones! With flip-flops 314 The output of each of the two triggers 314 is connected to its associated input of conjunction system 7, the output of which is linked to the reset input of one of the two frequency dividers 5 and 6 with a split ratio of 1: 2 The input of each of the two circuits 5 and 6 frequency dividers with a split ratio of 1: 2 is connected to the input of its associated monostable flip-flop 314 The input of each of the two frequency divider circuits 516 can be combined with the output of the associated monostable flip-flop 3, 4 The output of each of the two frequency divider circuits 516 is connected

151 957 simultaneously with the associated system input conjunction! 7 and the associated one of the gating system inputs 8 The output of the frequency divider 5 with a 1: 2 ratio is simultaneously connected through the frequency divider 11 to the second frequency divider 10 and to the counter 12 modulo 360 The output of the gating system 8 jeet through the second divider frequency 10 connected to the counter output 12 modulo 360 Counter output 12 modulo 360 is connected to the reading field input 13

The operation of the system according to the invention is as follows: If the electric waveforms converted in the detectors 1 1 2 into signals A and B have a phase shift V x of a value different from the ends of the measuring range, the following condition is met:

3 ° by 360 ° t,

--- "ł << fx < ₃₆₀ ^o - - .... i.

360 then the delay t _x between the signals A 1 B / fig.2/, proportional to the measured phase shift Ψ x, is equal to the delay between the signals A ₂ and B ₂ , which in a known manner, by means of a gating system 8 and a generator cooperating with it 9, two frequency dividers 10 and 11 and a counter 12 modulo 360 is processed and averaged, and the measurement result is displayed in the readout field 13. In the event that the electric waveforms converted in the detectors 112 have phase shifts Y x close to the ends of the measurement range, then the quantity the measured phase shift Y satisfies the alternative relationship:

360 ° t _X or Μ * x> 360 ° In this case, the conjunction system 7 by one-time zeroing of one of the two frequency divider systems 516 with a division ratio of 1: 2 introduces an additional delay between the signals A ₂ and B ₂ equal to the periods T of signals A and B /fig.3/. As the measurement result is counted using the 12 modulo 360 counter, the introduction of an additional delay of a value equal to T does not change the measurement result, but ensures the operation of the system within the actual measurement range modified in this way.

Claims (2)

Patent Claims 1 The method of measuring the phase shift between two waveforms of the same frequency, in which the measured waveforms are converted in two separate zero-crossing detectors into square wave signals, and in the gating system these signals are converted into pulse trains of the auxiliary generator with the number of pulses in each of the sequences proportional to the phase shift at the input of this gating system, and then the string pulses are counted in a modulo 360 counter 1 after decoding is displayed in the form of a measurement result on the readout field, characterized in that the output signals / A and B / detectors / 1 and 2 / crossing the zero level turns aię in monostable flip-flops / 3 and 4 / into signals / A ^ and B ^ / with duration / t ^ / shorter than half period / T / signals / A and Β / 1 simultaneously in two systems / 5 1 6 / frequency dividers with a division ratio of 1: 2, rectangular signals / A ₂ and B ₂ / with a frequency equal to half the frequency are generated bits / f / input or output signals of monostable flip-flops / 3 and 4 /, then signals / a ₂ and B ₂ / with a frequency equal to half the frequency / f / and signals / A ^ and B ^ / with a shorter duration / t * / undergoes the process of conjunction in the conjunction system! / 7 /, and the signal from the output of the system conjunction 1/7 / is used to zero jodan from two systems / 6 or 5 / frequency dividers with a division ratio of 1: 2 2 · A circuit for measuring the phase shift between two waveforms of the same frequency, in which each of the two measuring inputs is connected to its associated zero-crossing detector, and the gating circuit connected to the auxiliary generator has an output connected through a frequency divider with a division ratio of 1 : N with a modulo 360 counter, the output of which is connected to the readout field, and the gating inputs of the jeet circuit are connected through a second frequency divider with a division ratio of 1: N to the first divider 151 957 with a division ratio of 1: Ν 1 with a modulo 360 counter, characterized in that the output of each of the two detectors / 1 and 2 / of the zero-level crossing is connected with the input of one of the two monostable flip-flops / 3, 4 /, and the output of each of these flip-flops / 3 and 4 / is connected to the corresponding input of the conjunction system / 7 /, whose output is connected to the reset input of one of the two frequency dividers / 5, 6 / with a division ratio of 1: 2, the input of each of of two frequency dividers / 5 and 6 / with a division ratio of 1: 2 is connected to the input or output of the monostable flip-flop / 3, 4 /, while the output of each of the two mentioned circuits / 5 and 6 / frequency dividers is connected simultaneously to the associated input of the conjunction system / 7 / and with one of the inputs of the gating system / 8 / belonging to this output. ABOUT) 151 957 Department of Publishing of the UP RP. Circulation 100 copies Price: PLN 3,000