SU1045154A1 - Phase meter checking device - Google Patents

Abstract

A DEVICE FOR TESTING PHASOMETERS containing a signal generator, a first gating unit, an output connected to one of the output terminals of the device, a Schmitt trigger whose output is connected to the inputs of a counter with a decoder and a counter with a fixed counting coefficient, the outputs of which connect to the inputs of a video pulse generator, a quartz generator The output is connected to the input of a Schmitt trigger, characterized in that, in order to increase the accuracy of the calibration and expand the range of angles being turned on, two faeosdromes are introduced into it The two elements, the second gating unit, the switch and the bias voltage generator, the output of which through the switch is connected to the output of the driver of video pulses and with the control input and the first and second blocks of gating, whose inputs through the serially connected phase-shifting elements are connected to the output of the signal generator, the output of the second gating unit is connected to the second output terminal of the device with

Description

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The invention relates to the field of phase measurement technology and is intended for use in a wide frequency range.

It is known a device that provides the verification of phase meters with phase shift standards, containing a signal generator, active or passive phase-determining blocks based on RC and RL circuits l.

However, such a device has a limited frequency range, which is cumbersome and complicated, which limits its use as working calibration measures.

The closest in technical essence to the present invention is a verification device comprising a signal generator, the output of which is connected to one of the output terminals of the device directly, and on the other via a gating unit, the control input of which is connected to the output of a video importer, the output of which through a Schmitt trigger is connected to the inputs of a counter with a decoder and a counter with a fixed counting coefficient, the outputs of which are connected to the inputs of the driver of video pulses 2.

However, in this device, the mutual influence of the channels occurs and there is an additional error due to the nonidentity of the channels of the device. In addition, the device does not allow for calibration in the area of negative angles.

The purpose of the invention is to improve the accuracy of calibration of phase meters and expansion. the range of the turn of the e / ix cuts. .

The goal is achieved by the fact that in the device for checking phase meters ,. containing the Nalov sig generator, the first gating unit, the output connected to one of the output terminals of the device, Schmitt trigger, the output of which is connected to the inputs of the counter with the decoder and the counter with a fixed counting coefficient, the outputs of which are connected to the inputs of the video-shaper generator, a redz generator, the output connected to the input of the Schmitt trigger, introduced two phase-shifting elements, two diverting elements; the second gating unit, the commutator p bias voltage generator, the output of which through the switch is connected to the output of the imaging unit: Vgadeoimpulses and with the control inputs of the first and second gating units f whose inputs through the series-connected phase-shifting JT diverter elements are connected to the output of the signal generator, the output of the second gating unit connected to the second output terminal of the device

The drawing shows the structures -; and the diagram of the device for checking phase meters,

The device comprises a signal generator 1 connected to the inputs of the first and second gating units 2 and 3 via phase shifting elements 4 and 5 and isolating elements 6 and 7. The control inputs of the first and second gating units 2 and 3 are connected via a switch 8 to a generator 9 eg displacement and output of the imager 10 video pulses, which are connected to the output of counter 11 with a decoder and counter 12 with a fixed counting factor, the inputs of which through the Schmitt trigger 13 are connected to a crystal oscillator 14, and the outputs b shackles 2 and 3 are connected to a power metal gating emlm phase meter 15.

The verification device works as follows.

The inputs of the first and second gating units 2 and 3 are supplied with a continuous sinusoidal signal from the signal generator 1 through the phase shifting elements 4 and 5 and the isolating elements b and 7, to the control input of the first gating unit 2 from the output of the imaging unit 1 O video pulses through the switch 8, a pulse signal is supplied with a predetermined coefficient, filling agent, and to the second gating unit 3, through the switch 8, a signal from the bias voltage generator 9. The signal from the crystal oscillator 14, converted to the form of rectangular pulses by trigger 13 W uitta, is simultaneously fed to the inputs of counter 11 with a decoder and counter 12 with a fixed counting coefficient. These counters are controlled by fronts or spits of Schmitt trigger pulses 13. A pulse at the output of counter 11 with a decoder appears after counting m pulses, and pulses at the output of counter 12 with a fixed counting factor after counting n pulses of a sequence of setting pulses. These pulses arrive at the inputs of the imager 10 video pulses and control of its operation.

The impulse of the counter 12 with a fixed counting factor bounces the shaper 10 video pulses, and the impulse of the counter 11 with the decoder calls it back to the initial state Ebralz 180, and the decoder of the counter 11 setting the selection of the first impulse: sequence 0-180; which corresponds to the case m 1, we get the pulse filling factor t./T equal to 179 YSO h pulse duration, T is the follow-up period. The signal from the output of the imaging unit 10 video pulses with a given ratio tj / T through the switch 8 goes to the control input of the first strobe unit 2 opens it for the duration of the pulse ty. The input from the second gating unit 3 through the switch 8 is supplied with a signal from the generator 9 of the bias voltage. The discontinuous sinusoidal voltage formed at the output of the first gating unit 2 has a firing coefficient tn / To. The filling frequency of the intermittent sine-wave voltage is determined by the signal generator 1 Before the calibration starts, the gating indicator 15 is set to zero when the gating unit 15 is open The supply of a discontinuous sinusoidal, eg, Keny, to the inputs of a rotatable phase meter 15 does not disrupt the functional interaction of its blocks. However, the readings of the phase meter 15. Are then populated with the expression tf AND AND - LY, P). The available error between the dasks of the phase meter blocks is determined as the difference between the indicated indicator of readings, specified by the shaper 10 video pulses. For measurements in the area of negative angles, you need a signal from the imaging unit 10 video pulses with the specified ratio through the switch 8 connect to the control to the memory the input of the second gating unit 3, and to the input of the first gating unit 2 through the switch 8 to send a signal of the generator 9 voltage and offset Thus, setting the appropriate value of the fill factor, the pulse sequence, it is possible to carry out a phase meter calibration for any point of the scale and any frequency of the operating range. The introduced set of elements makes it possible to compensate for phase shifts in the device channels, which exist because of the channel identities, amplitude error, which increases the accuracy of the calibration and expands the range of calibrated angles, as it allows the phase meters to be calibrated in the area of negative angles. Thus, this device allows rsgsirit range of 5-gloB and its accuracy is more than 5 times as compared to

Claims (1)

A PHASOMETER TESTING DEVICE, comprising a signal generator, a first gating unit connected to one of the output terminals of the device by an output, a Schmitt trigger, the output of which is connected to the counter inputs by a counter decoder with a fixed count coefficient, the outputs of which are connected to the inputs of the video pulse generator, a crystal oscillator, an output connected to the input of a Schmitt trigger, characterized in that, in order to increase the accuracy of verification and expand the range of verified angles, two phaeoelectric elements are introduced into it enta, two decoupling elements, a second gating unit, a switch and a bias voltage generator, the output of which through the switch is connected to the output of the video pulse generator and to the control inputs of the first and second gating units, the inputs of which are connected through phase-shifting and decoupling elements to the output of the signal generator, the output of the second gating unit is connected to the second output terminal of the device