SU721767A1 - Arrangement for discrete regulation of phase shift between two signals - Google Patents

Description

The invention relates to the field of measuring equipment, in particular to the field of regulation of phase shifts.

A device for discrete phase change of signals containing a master oscillator, trigger frequency dividers and output elements [1].

Such a device does not provide equality of the frequency of the master oscillator and the output frequency of the device. Yu

Closest to this invention is a digital phase-locking device containing a master oscillator, the output of which is connected to series-connected digital distributors, and a control trigger, the counting input of which is connected to the output of the digital distributor, and the outputs - with the inputs of the matching circuits and the reference and measuring channels, the outputs of the matching circuits are connected to the installation inputs of the triggers of the reference and measuring channels [2].

The disadvantage of this device is the difference between the input and output frequencies.

The aim of the invention is the ability to control the phase difference of the signals received at a frequency corresponding to the frequency of the master oscillator.

This is achieved due to the fact that in a device containing a master oscillator, digitally connected valves and a control trigger, the outputs of which are connected: the first - with the first inputs of the first and third coincidence elements and the second - with the first inputs of the second and fourth coincidence elements, while the second and third inputs of the first two coincidence elements are connected to the inputs of the first and second digital valves, the second and third inputs of two other coincidence elements are connected respectively to the outputs the first and second switches of the outputs of the digital distributors connected to the second outputs of the digital distributors, as well as the triggers of the reference and measuring channels, the installation inputs of which are connected to the outputs of the matching elements, a code comparison unit, a memory unit, two pulse counters, a frequency divider, and a voltage reference generator are introduced and a delay element, while one group of inputs of the code comparison unit through the memory unit is connected to the input of the first pulse counter, the counting input of which through the divider is frequent The output is connected to the output of the reference voltage generator, and the installation input of the first pulse counter is connected via the delay element to the output of the master oscillator and the control input of the memory unit, another group of inputs of the code comparison unit is connected to the outputs of the second pulse counter, the counting input of which is connected to the output of the reference voltage generator and the installation input of the second pulse counter is connected to the output of the code comparison unit and to the input of the first digital distributor.

The drawing is a block diagram of the proposed device, where: 1 - driving generator; 3 ^-: digital distributors, 4 - a control trigger, 5, 6, 7, & - matching elements 9, 10 - output switches digital valves 11? 12 - triggers, 13 code comparison block, 14 - memory block, 15 - first pulse counter, 16 - frequency divider, 17 - voltage reference generator, 18 - delay element, 19 - second pulse counter.

A device for discrete control of the phase difference · as follows.

For simplicity of consideration, the division coefficient of the frequency divider 16 and the path of digital allocators 2 and 3 is taken as an example 10. The output voltage of the reference frequency generator 17 is supplied to the frequency divider 16. From the output of the frequency divider, the signal is supplied to the counter 15, which is filled with pulses until one of the pulses of the master oscillator 1 delayed during overwriting into the memory unit 14, a number (in this example, number 2) is written into the memory unit 14, by which the signal frequency of the reference oscillator 17 is divided. a distributor 2 are fed with pulses of a frequency determined by the formula of

- the frequency of the signal of the reference generator 17;

- the frequency of the signal of the master oscillator 1;

- divider divisor often where f ₀ f ₃

N you 16.

The total frequency division coefficient of digital distributors 2, 3, is set

TO

2 ', therefore, at the output of the control trigger 721767, 4 ra 4 voltage is formed with a repetition frequency f ₃ . The voltage from the output of the control trigger 4 gives an enable signal to coincidence elements 5, 6, 7, 8, and when signals from the switches 9, 10 arrive, a trigger 12 is formed, the voltage changes in phase. The reference voltage is generated by trigger 11 when signals from the input and output ^ of the digital distributor 2 arrive.

The test results showed that the proposed technical solution gives a significant positive effect, consisting in the ability to control the phase difference of the signals without changing the frequency.

Claims (2)

This invention relates to the field of measuring technology and, in particular, to the field of controlling phase shifts. A device for discretely changing the phase of signals is known, which contains a master oscillator, trigger frequency dividers and output elements 1. Such a device does not ensure equality of the master oscillator frequency and the output frequency of the device. Closest to this invention is a digital phase-mapping device containing a master oscillator, the output of which is connected to serially connected digital distributors, and a control trigger, the counting input of which is connected to the output of the digital distributor, and the outputs at the inputs of the coincidence circuit and the reference and measuring channels The OUTPUTS of the matching circuit are connected to the setup inputs of the trigger of the reference and measurement channels 2. A disadvantage of this device is the difference between the input and output frequencies. The goal of the invention is to make it possible to control the phase difference of the signals received at the frequency corresponding to the frequency of the master oscillator. This is achieved due to the fact that the device containing the master oscillator is connected in series with uc {distributors and a control trigger whose outputs are connected: the first with the first inputs of the first and third match elements and the second with the first inputs of the second and fourth matches , while the second and third inputs of the first two coincidence elements are connected to the inputs of the first and second digital distributors, the second and third inputs of the other two coincidence elements are connected respectively to the output first and second switch outputs digital valves connected to the second output digital valves, and also triggers the reference and yumeritelnogo channels installation whose inputs are connected to outputs zlementy coincidences entered code comparing unit, din whith block. 37 two pulse counters, a frequency divider, a reference voltage generator and a delay element, while one group of inputs of the code comparison unit is connected via a memory block to the input of the first IMGR / HLW counter, the counting input of which is connected via a frequency divider to the output of the reference voltage generator , and the installation input of the first pulse counter is connected through the delay element; the output of the master oscillator and the control input of the memory unit, the other pear of the inputs of the code comparison unit are connected to the outputs of the second pulse counter, the counting input of which is connected to the output of the reference voltage generator, and the setup input of the second pulse counter is connected to the output of the code comparison unit and to the input first digital rzh; limiter. The drawing shows the block diagram of the proposed device, video; 1 is the master hemerator; 2, 3 are digital valves, 4 is a control trigger, 5, 6, 1, & - coincidence elements 9, 10 - output switches of digital distributors, 11, 12 - flip-flops, 13 block of code comparison, 14 - memory block, 15 - first pulse counter, 16 - frequency divider, 17 - reference voltage generator, 18 - element delays, 19 - second pulse counter. The device for discrete control of the phase difference works as follows. For simplicity, as an example, the division factor of frequency divider 16 and the path of digital distributors 2 and 3 is equal to 10. The output voltage of reference frequency generator 17 is applied to frequency divider 16. From the output of frequency divider, the signal is fed to counter 15, which is filled with pulses Before the arrival of one of the pulses of the master oscillator 1 delayed by the rewriting time in the memory block 14, the number 14 in this example (number 2 in this example) is divided by the frequency of the reference oscillator 17 signal. Distributor 2 is supplied with pulses with a frequency defined by the formula fo-N-f. f. the frequency of the signal of the reference generator 17; fa is the frequency of the signal of the master oscillator 1; N is the division factor of the frequency divider 16. The total division factor of the frequency of the digital valves 2, 3 is set, therefore, at the output of the control trigger 4, a voltage is formed with a repetition frequency fs. The output of the control trigger 4 gives a resolving signal for the coincidence elements 5, 6, 7, 8 and upon the arrival of signals from the switches 9, 10, the trigger voltage 12 is formed, the phase voltage varies. The reference voltage is generated by trigger 11 when signals arrive at the input and output of the digital distributor. 2. The test results showed that the proposed technical decision has a significant positive effect, consisting in the possibility of controlling the phase difference of the signals without changing the frequency. Apparatus of the Invention A device for discretely controlling the phase difference of signals comprising a master oscillator, serially connected digital distributors and a control trigger, the outputs of which are connected: the first to the first inputs of the first and third match elements and the second to the first inputs of the second and fourth matches, This second and third inputs of the first two elements of the coincidence are connected to the inputs of the first and second digital distributors, and the second and third inputs of the other two elements coincide They are connected respectively to the outputs of the first and second switches, the outputs of the digital valves, connected to the second outputs of the digital valves, as well as the triggers of the reference channel and the measuring channel, the installation inputs of which are connected to the outputs of the coincidence elements, characterized in that phase differences of the switches at a frequency corresponding to the frequency of the master oscillator, a code comparison block, a memory block, two pulse counters, a divider the generator, the reference voltage generator and the delay element, while one group of inputs of the comparison block is connected to the input of the first pulse counter, the counting input of which is connected to the output of the reference naf, via the frequency divider, and the setting input of the first counter- impulses through the delay element connected to the output of the master oscillator and yvravlivayuschy input of the block shm from, another group of inputs of the block comparison code is connected to the outputs of the second pulse counter, the counting input of which is connected with the output of the reference voltage generator, and the installation input of the second pulse counter is connected to the output of the comparison unit 57217676 codes and with the input of the first digital distribution-.1. Copyright svdedelstao USSR N 464860, letter .Y1. G 01 R 25/04, 1975. Sources of information, 2. USSR author's certificate N 229058, taken into account during examination. G 01 R 25/04, 1969,