SU953593A2 - Digital phase meter - Google Patents

Description

one

The invention relates to phase-measuring technology and can be used in conjunction with angular and linear displacement sensors, in particular in most software control systems and digital readout.

According to the main auth. No. 859933 is known for a digital phase meter comprising a high-frequency pulse generator, a pulse distribution unit, a synchronization unit, a control trigger, a 2nd through transition counter, a measuring counter, a counting control unit, a forming counter, an initial measurement counter, a comparison unit and two elements l.

However, this phase meter does not allow measurement of the relative change in the phase shift between the reference and measurement signals from an arbitrarily specified

the relative phase shift values, which is necessary, for example, when using a phase meter in most software control systems and digital readout.

The purpose of the invention is to expand the functional capabilities of the device by making it possible to measure the relative phase

A shift between the reference and measurement signals from an arbitrary predetermined value.

The goal is achieved by the fact that in a digital phase meter holding a series-connected high-frequency pulse generator, a pulse distribution unit and a synchronization unit, the first output of which is connected to the first control input

Claims (1)

20 trigger, the second output of the pulse distribution unit is connected to the input of the measuring counter, the counting mode control unit, the first input of which is connected to the second output of the synchronization unit, the second input is connected to the output of the comparator, the third input to the output of the junction counter through 2a, and three outputs The counting mode control unit is connected to the inputs of a measuring counter and a 2fi transition counter, and the outputs of a control trigger are connected to the first inputs of two AND elements, the second inputs of which are connected to output b The distribution of pulses, and the outputs from the input of the initial measurement counter and the forming counter, respectively, whose outputs are connected to the inputs of the comparison unit, and the second input of the control trigger are connected to the second input of the synchronization unit, a preset unit is additionally entered, the first output of which is connected to the third the input of the conversion counter is 2ii, the second output is with the second input of the forming counter, and the input is with the fourth input of the counting mode control block, the third input of the And element is connected to the third output of the block ka sync. The drawing shows a structural electrical circuit of the phase meter. The digital phase meter contains a generator of 1 high-frequency pulses,. pulse distribution unit 2, synchronization block 3, control trigger C, two elements 5 and 6, initial measurement counter 7, comparison block 8 forming the counter 9 counting control unit 10, measuring counter 11, transition counter 12 after 2 | 1 and block 13 preset. The operation of the phase meter is as follows. The pulse distribution unit 2 generates two sequences of pulses F.I shifted by a quarter of a period and generated from the high-frequency generator pulses F, the arrival of the set point of reference signal (UN) occurs synchronously with the signal Ff, F. (impulse to lower the reference signal at the moment of zero crossing of the last signal and zeroing counter 7 and 11 with this signal). The same signal records the initial installation code in counters 12 and 9. Moreover, in counter 9, the record is made in forward or reverse code 34 depending on the sign of the preset. The same signal records the sign in the control mode control unit 10. Element 6 is closed by an H-FOF -TO signal, where T is the duration of the reference signal period. YH FY signal. sets the control trigger k to the state T, the state Allowing potential from the output of the trigger 4 opens the element And 5 and the pulses Ff arrive at the input of the counter 7 of the initial measurement. The pulse (the pulse of the measured signal at the moment of the zero crossing of the latter) sets the trigger k to the state O. Element I 5 closes, stopping the arrival of the pulses Fy to the input of the initial measurement counter 7, and supplies the resolving potential to the second input of the Ib element. After the end-to-chan, the pulse YHF ,. The PT pulses are fed to the input of the shaping counter 9. When the shaping counter E reaches, the number of initial measurements recorded in counter 7 and the initial phase shift of the reference and measured signals at the output of the comparison unit 8 appears. A pulse of the shaping counter is selected from the relations Gu | G and in it the information in the forward or reverse code is preliminarily recorded; the signal Gy Q, respectively, lags behind or advances the signal F by an amount. corresponding to the preset code does not change its position with a further change in the position of Fj. The signals Gdd come to block 10 control of the account mode. The counting mode control unit 10 gives permission for the measurement counter to be filled with 11 high-frequency generator pulses 1 for a time equal to the interval between pulses of x x Ti or F. G and fo, from; depending on the sign of the phase difference of these signals, it sends P – 1 counting pulses to the summing or spinning input of the counter 12 transitions through 2lt. When n pulses appear .OT between two pulses j FT, or n pulses in the gap between two pulses Gd, respectively, the sign of the phase difference at the moment of equality to zero, the contents of the counter 12 transitions through 2 IT, is determined by what input a t2 transition counter through Zli appears a counting pulse. Thus, the number corresponding to the relative difference between the phases of the operative and measuring signals relative to the initial setting is within the limits of t in the measuring counter of the recording. and in the counter 12 transitions through ZIL, the number of phase intersections of the measured signal of the reference signal o, from the forward or reverse direction relative to the initial setup. The ability to measure the relative phase shift from an arbitrarily set value distinguishes the proposed digital phase from the known one, since it expands the functionality of the device. As a result, when using a phase meter in conjunction with sensors of linear and angular displacements in most systems of software 3 control and digital readout, the speed and performance of the latter are increased. The invention of the digital phase meter according to ed.St. No. 859953, characterized in that, in order to expand its functionality, a preset block is inserted in it, the first output of which is connected to the third input of the conversion counter after 21, the second output - to the second input of the forming counter, and the input to the fourth input of the mode control block reference, with the third input of the second element And is connected to the third output of the synchronization unit. Sources of information taken into account in the examination 1. USSR author's certificate "f 859953, cl. G 01 R 25 / 0t, 1980.