SU328397A1 - DIGITAL COMPENSATION PHASOMETERS UNION FUTURE-T [X ^ W4? SKA! LIBRARY - Google Patents

Description

The invention relates to the field of radio engineering measurements and can be used to determine phase relationships in radio equipment devices and to measure the magnitude of the phase angle between two periodic signals.

Digital compensating phase meters are known, which contain phase formers that characterize the phase, coincidence circuits, emulsion generator, keys, delay elements, a counter, triggers, and a phase inverter. These phase meters, with a constant measured value, give only average readings, have low accuracy and have a narrow frequency range.

The aim of the invention is to increase the measurement accuracy and the spreading of the frequency range. To achieve this goal, a phase comparator is entered into the phase meter, a frequency discriminator and an arithmetic unit, and the phase comparator inputs are simultaneously connected to the outputs of the pulse drivers, the phase comparator output and the frequency discriminator output are connected to the control key inputs of the phase comparator simultaneously with the matches of the matching circuit inputs and the inputs of the frequency discriminator are connected to the outputs of the driver and frequency controlled pulse generator, the frequency of which is The outputs are close to the frequency of the studied signals, the output of this generator is connected to the inputs of the specified coincidence circuits and through the division key to the input of the counter, the output of which is connected directly to the input of the division register of the arithmetic unit and to the input of the multiplication register of this device via the default key, and the control inputs dividing and multiplying keys are connected via a trigger and a delay element to the outputs of said coincidence circuits.

The drawing shows the block diagram of the proposed device.

The phase angle is calculated as follows. The reference signal is fed to the input / driver of 2 pulses, and the signal under study is fed through input 3 and then through one of the keys 4, 5 and respectively through the phase inverter 6 enters the input of the driver 7. From the drivers 2 and 7, the pulses go to the first inputs of the circuits 8 and 9 matches, the second inputs of which receive impulses controlled by frequency

generator 10.

At a number of frequencies, the magnitudes of which are close to the frequency of the signal under study, the coincidence circuits 5 and 5 fix the coincidences that are indicated by the // and 12 coincidence indicators. With the help of the phase comparator 13 and the frequency discriminator 14, which have trigger outputs 15 and 16 and 16, respectively, electronic switch 17 receives the appropriate signal. If the last input has a certain combination of signals on one of its two outputs, a signal appears that opens key 4 or key 5 of the phase sign.

If key 4 is opened, the signal under test is fed to the driver 7 unchanged, if key 5 is opened, the signal under investigation is shifted by 180 ° with a transfer coefficient equal to one using phase inverter 6.

The impulse formed in the coping scheme 8, after the element 18 of the template with the help of the control trigger 19 opens the division key 20 and through the zeroing amplifier 21 embeds the counter 22 of pulses to the arrival of the next generator pulse 10. At the same time, the mentioned impulse of the joint scheme using the control trigger 23 opens the multiplication key 24. Counter 22 reads out generator pulses 10, which are rewritten into the division and multiplication storage registers 25 and 26, respectively.

The pulse generated by the matching signal circuit 9 through the delay element 27 is fed to the stop input of the control trigger 23, which closes the multiplication key 24 and the HI number is recorded in the multiplication register 26.

The next pulse generated by the reference signal matching circuit 8 zeroes the indicated counter and registers, and in the division register 25 the number "2" is written. The magnitude of the phase shift φ is determined from the ratio: φ -360 °. Then the cycle is repeated.

2

The activation of the key 5 mark is fixed by the indicator 28.

Using the start key 29, the control triggers 19 and 23 are set to

initial position. For an automatic reading of the measured value, the registers 25 and 26 are connected to the arithmetic unit 30. The counter 31 serves to generate the cycle time of the indicated arithmetic unit.

Using the proposed phase meter, measurements can be made with an error of no more than 0.04 ° in the frequency range from a few hertz

up to one megahertz.

Subject invention

A digital compensating phase meter containing phase formers that characterize the phase, coincidence circuits, a pulse generator, keys, delay elements, a counter, triggers, and a phase inverter, characterized in that, in order to improve the accuracy of measurement and expansion of the frequency dianzone, a phase comparator is introduced into it, frequency discriminator and arithmetic unit, at the same time the inputs of the phase comparator simultaneously with the inputs of the circuits

matches are connected to the outputs of the pulse formers, the output of the phase comparator and the output of the frequency discriminator are connected to the control key inputs via the corresponding trigger and switch

the phases, and the inputs of the frequency discriminator are connected to the outputs of the driver and a frequency controlled pulse generator, the frequency of which, when measured, is close to the frequency of the signals under study, the output of this

the generator is connected to the inputs of the specified match schemes and through the division key to the counter input, the output of which is connected directly to the division register input of the arithmetic unit. And to the multiplication register register of this device via the multiplication key, and the control inputs of the division and multiplication keys are connected via a trigger and a delay element to the outputs of the coincidence circuits mentioned.

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