SU1081558A1 - Signal phase fluctuation meter - Google Patents

Abstract

1. MEASURING PHASOV; SIGNAL FLUCTUATIONS, containing the first and second time-scale transducers, phase-measuring unit output of the readout signal generator Connected to the readout inputs of the time-scale pf} e-images. the gates, the outputs of the strobe signal generator are connected; with strobing inputs of scale-time converters, characterized in that, in order to improve measurement accuracy in a wide frequency range, a measurement results measurement unit of a scientific research institute is entered into it, and the inputs of scale-time converters are connected to each other and to the input terminal of the meter, the phase-measuring output the unit is connected to the input of the processing unit of measurement results, the input signal of the gate generator: the signals and the input of the generator of read signals are connected to the input terminal of the reference signal. "AND. The meter according to claim 1, that is, the fact that the strobe signal generator contains the first and second frequency dividers, which forms the short pulse pulse (L. OR, meter measure the Signal period value, control | My delay line, first and second elements AND, inverter, ring; Recalculation unit and trigger, moreover | input of the first frequency divider | is not connected to the input of the readout generator: pulses and the input terminal of the reference: signal, is connected in series with the output of the first-divider 00 | shaper short their pulses, eating element OR, sending a delay line, a second frequency divider, in00 the inverter and the first element AND, the output of the first element AND are connected to the second input of the SHS element, the trigger input is connected to the output of the first frequency divider, the first input of the second element AND is connected with the output of the second frequency divider, and the second inputs of both elements And are connected to the output of the controlled line and the input of the ring counting

Description

ki is connected to the output of the meter of the average value of the period of the signal whose input is connected to the signal

and a ring scaler are connected to the output terminals of the strobe signal generator.

one

The invention relates to a measurement technique and can be used in measuring phase and frequency fluctuations of signals.

A device is known for measuring the phase fluctuations of signals by comparing the frequency of the signal under investigation with the frequency of the reference signal using a phase detector or an electron-counting frequency meter lj.

However, the known device does not differ in high enough accuracy, since for their implementation in the frequency range of the signal under study, a reference oscillator tunable in the same range is necessary whose stability is much worse than the stability of quartz oscillators of fixed frequencies.

The closest to the invention to the technical essence is a phase meter comprising first and second time-scale converters, a strobe signal generator, a read signal generator, a phase-measuring unit, an arithmetic unit, a control unit, a digital readout unit, a pulse shaper, and the inputs of both time-scale the transducers are connected to the input terminals of the test and reference signal, respectively, the outputs of the scale-time transducers are connected to the phase-measuring inputs unit, the output of which is connected to the input of the arithmetic unit, the outputs of the latter are connected to the inputs of the digital reading unit and the control unit, the outputs of the control unit are connected to the inputs of the strobe generator, the outputs of the generator of reading signals are connected to the read inputs of the time-scale converters, the signal input is general -to read signals connected

the input terminal of the signal under study, the outputs of the gate signal generator are connected to the gate inputs of the scale-time converters, the input of the pulse generator is connected to the input terminal of the signal under study, and the output is connected to the second input of the control unit 1.2J.

When measuring phase fluctuations in the frequency range of the signal under study by a known phase meter, a tunable reference oscillator is needed with the same frequency range. In wide-band oscillators, the fluctuations arising from the presence of tuning chains reduce the measurement accuracy.

The purpose of the invention is to increase the accuracy of measurement in a wide frequency range.

The goal is achieved in that the phase fluctuation meter, containing the first and second time-scale converters, the phase-measuring unit, the read-out signal generator, the strobe signal generator, and the output signals of the time-measuring transducer are connected to the inputs of the phase-measuring unit. the input of the first time-scale converter, the outputs of the generator of reading signals are connected to the input of the time-scale preamp verters, exits alternator gate signals are connected to strobe inputs of the scale-time converters introduced processing unit of measurement results, and inputs the scale-vremennk transducers are interconnected and the input terminal of the meter, yield PHASE MEASUREMENT, th unit is connected to the input of the measurement results of the processing unit, input

the reference signal of the strobe generator and the input of the generator of the reading signals are connected to the input terminal of the reference signal.

The strobe generator contains first and second frequency dividers, a short pulse shaper, an OR element, a measure of the average period of the signal, a controllable delay line, first and second elements AND, an inverter, a ring scaler and a trigger, the input of the first frequency divider connected to a generator counting pulses and an input terminal of a reference signal; a shaper of short pulses, an OR element, a controlled delay line, a second divider are connected in series with the output of the first frequency divider frequency, the inverter and the first element And the output of the first element And is connected to the second input element OR, the trigger input is connected to the output of the first frequency divider, the first input of the second element AND is connected to the output of the second frequency divider, and the second inputs of both elements And connected to the output controllable delay line and the input of the ring scaling unit; the control input of the delay line is connected to the output of the meter of the average value of the period of the signal, the input of which is connected to the signal input of the generator, the outputs of the trigger and the ring lane counting module connected to a generator vyhodnymiKlemmami strobe signals.

The drawing shows a structural diagram of the device.

The device contains the first divider 1. frequency, shaper 2 short pulses, element 3 OR, controlled delay line 4 first element 5 AND, meter 6. average value of the signal period, second frequency divider 7, second element 8 AND, inverter 9, blocks 10 and 11 elements And, ring. interchange unit 12, trigger 13, blocks 14 and 15 elements of the sample-storage, switches 16 and 17, generator 18 read signals, first digital-to-analog converter 19, phase detector 20, second digital-to-analog converter 21, analog-to-digital converter only 22, a measurement results processing block 23, time-to-scale converters

24-t and 24-2, phase-measuring unit 25 gating signal generator 26.

The phase detector 20 and the ADC 22 detect the phase-measuring unit 25, blocks 10 and 14, the switch 16 and the ADC 19 form the first mass-time converter} blocks 11 and 15, the switch 17 and the ADC 21 enter the second time-scale converter

The input of the measurement results processing unit 23 is connected to the output of an analog-to-digital converter (ADC) 22, the input of which is connected to the output of the phase detector 20, and the inputs of the latter are connected to the outputs of digital-to-analog converters (DAC) 19 and 21. The inputs of the DAC 19 and 21 are connected with the outputs of the switches 16 and 17. The inputs of the switch 16 are connected to the outputs of the sample-storage unit 14, and the inputs of the switch 17 are connected to the outputs of the sampling-storage unit 15, the signal inputs of the samples-storage units 14 and 15 are interconnected and device input terminal. The control inputs of the block elements of the sampling snore 14 and 15 are connected to the outputs of the elements And blocks 10 and 11, respectively, the first inputs of the elements And blocks 10 and 11 are interconnected and the output of the ring scaling block 12. The second inputs of the elements And block 10 are interconnected and with the first output of the trigger 13, and the second inputs of the elements And block 11 are connected to each other and to the second output of the trigger 13. The third inputs of the same name of the elements And blocks 10 and 11 are pairwise connected to each other and to the inputs of the ring scaling unit 12. The first divider is 1 hour The cells, the shaper 2 short pulses, the OR 3 element, the controllable delay line 4, the second frequency divider 7, the inverter 9 and the first And 5 element are connected in series. The second input of the element OR 3 is connected to the output of the first element AND 5, and the second input of the last is connected to the input of the second element AND 8, the output of the controlled delay line and the input of the ring counting unit 12. The second gate of the second element AND 8 is connected to the output of the frequency divider 7. The control input of the delay line 4 is connected to the output of the meter, the average value of the period of the signal 6, the input of which is connected to the input terminal of the signal under study. The input of the generator of the readout signal 18 is connected to the input terminal of the reference signal, and the output to the inputs of the switch 16 and 17. The device operates as follows. From the BbicoKoci-aeKnbHoro signal of a fixed frequency, which can be taken as the output of the frequency standard, using the first frequency divider 1 and generating a short 2 pulses to route the pulses, the follow-up period of which is equal to the required interval for determining phase fluctuations. Each generated short the pulse passes through the OR 3 element, the controllable 4 delay line, the first AND 5 element to another input of the OR 3. As a result of repeated recirculation of a short pulse in the indicated circuit at the control output emoy delay line, a sequence of short pulses with a repetition period, i-tg- -t, where t - the signal delay value in the controllable delay line 4, ta signal delay value in the first element A 5, t. - the value of the delay signal in the element OR 3. The output code of the meter 6. the average value of the signal period is set by the delay value introduced by the controlled delay line at which the value of the period of the recirculated pulses is maintained equal to T n where T cr is the average value of the period of the signal studied during T; iT (ip. Second frequency divider 7, second Element And 8 and inverter 9 serve to select a series of n pulses from the sequence of recirculated pulses and stall after this recirculation process. When n-1 receives recirculated pulses at the input of the second divider 7, a potential is set at its output, allowing the passage of an nth short pulse through the second element 8 to the input to the second frequency divider O. The output signal of the second 8 "frequency divider 7 is inverted by the inverter 9 and fed to the second start of the first element I .5 , prohibiting the passage of the nth short pulse through it.The last nth short pulse of the received series of pulses passes through the second element I 8 and sets the second frequency divider to its original, zero state. The formed series of n pulses is fed to the first inputs of the AND elements of the first 10 and the second 11 blocks of I elements as well as to the input of an annular n-bit conversion unit 12, in which one of the bits is set to the state of a logical one, and the rest are logical zero state. When a series of short pulses is applied to the input of an annular counting unit, the resolving level of a logical unit appears sequentially at the output of each bit and goes successively to the third input of each of the first elements And the first and second blocks And 10 and 11. At the second inputs The first and second blocks 10 and 11 receive a signal respectively from the direct or inverse outputs of the trigger 13, to the input of which the output signal of the first frequency divider is fed. In this case, each pulse from a series of short pulses passes through one of the elements AND blocks 1O and 11 to the control input of the corresponding storage sample of the first 14 or second 15 blocks of elements, depending on the state of the trigger. Thus, the trigger, the ring scaling unit, the first and second blocks of the elements 10 and 11 form the distributor of short pulses of each series on the control inputs of the first or second blocks of the selective elements. In order to eliminate the error of recording, the elements of the storage sample can be made digital. The studied signal is fed to the signal inputs of all the elements of the sample-storage, which carry out the memorization of the values of the signal being studied at the moments of arrival at their control inputs of short pulses. The first and second groups of elements of the storage sample produce storing n values of the signal under study, uniformly distributed

within one period of it. The time interval between the periods of the signal under study, memorized by the first and second groups of sampling-storage elements, is equal to the interval for determining phase fluctuations. The output code signals of the first group of storage removal elements are fed to the corresponding inputs of the first switch 16V and the output code signals of the second group of sample storage elements are fed to the corresponding inputs of the second switch 17. To the control inputs of the first and second

the switches receive the output signals of the generator 18 of the read signals, to the input of which a reference signal is applied. With a serial connection of the inputs of the switches to the inputs of digital-to-analog converters 19 and 21 at the outputs of the last And 20 ,. st (| "0.01.

In this way; The proposed technical solution makes it possible to increase the measurement accuracy over a wide frequency range without a tunable highly stable reference oscillator.

Claims (2)

1. A SIGNAL PHASE Fluctuation Meter containing the first and second time-scale converters, a phase meter, a read signal generator, a strobe signal generator, and the outputs of a time-scale transducer are connected to the inputs of a phase meter, the signal input of the strobe signal generator is connected to the input of the first scale -time converter, the outputs of the read signal generator are connected to the read inputs of the time-scale converter- '. the gates of the generator of the gating signals are connected; with the gating inputs of the time-scale converters, characterized in that, in order to increase the measurement accuracy in a wide frequency range, a measurement processing unit is introduced into it, and the inputs of the time-scale converters are interconnected with the input terminal of the meter, {The output of the phase measuring unit is connected to the input of the processing unit of the measurement results, the input of the reference signal of the strobe generator, • the signals and the input of the generator are counted lev els signal input terminal connected to the reference signal. • 2. The meter according to claim 1, distinguished by the fact that the strobe signal generator contains the first and second frequency dividers, form (world-wide short pulses ^ OR element, meter of the average value of the signal period, we control; the delay line, the first and second elements and, the inverter, the annular dereschetny unit and a trigger, wherein the (first frequency divider input coupled to the input of the pulse generator reading • and reference input _terminal: a signal from the output of the first divider ^{1 frequencies are serially connected generator of short pulses, OR element, controlled> delay line, second frequency divider, inverter and first AND element, the output of the first AND element is connected to the second input of the OR element, the trigger input is connected to the output of the first frequency divider, the first input of the second AND element is connected to the output of the second frequency divider, and the second inputs of both AND elements are connected to the output of the controlled line by the firing and the input of the ring conversion unit, the control input of the delay line is connected to the output of the meter of the average value of the signal period, the input of which is connected to the signal At the generator input, the outputs of the trigger and the ring scaling unit are connected to the output terminals of the gate signal generator.