SU575580A1 - Phase-meter - Google Patents

Claims (1)

The invention of Iocits for phase-measuring technology can be used in communication technology in the development of circuits operating on the principle of phase manipulation. A device is known for analyzing statistical processes, for example, for measuring the function and density of distribution of random processes, which converts a time interval proportional to the phase of the measured signal to a voltage followed by its measurement. The known device containing nullorgans, a trigger, a generator of linearly varying voltage, comparison circuits, counters, allows measuring the distribution functions of random processes and their distribution density. However, it cannot measure the integral characteristics of the distribution of changes in the function, for example, the characteristics of the distribution of the rates of change of the phase shift Ll. The purpose of the invention is to extend the functionality of the phase meter by achieving a linear voltage generator connected to the trigger output connected in series to the phase output to a phase meter containing zero-organs connected to the trigger input. + 1 blocks compared (shy with the corresponding counters, some of the inputs of all comparison blocks are connected to the generator output of a linearly varying voltage, and the other inputs are connected respectively to (l) the outputs of the reference voltage source, the integrator is entered, the input and output of which are connected corresponding to the first and second inputs of the / I-unit of the comparison. The drawing shows a structural electrical circuit of the device. The phase meter contains zero-organs 1 and 2, a trigger with separate inputs 3, a generator of linearly varying voltage 4, the integrator 5, the source of reference voltages 6, comparison blocks 7–9 and counters 1–12 of the generator 4 are connected to one input of comparison blocks 7–9; the outputs of reference voltage source 6, whose zero is not grounded, are connected to their other inputs The input of the integrator 5 is connected to the first input of the comparator unit 8, the output ci is -cr to its second input. The phase meter operates as follows. The reference and measured voltage is fed to the inputs of the zero-organs 1 and 2, which form short pulses at the outputs. moment of transition of sinusoids of voltage across zero. The pulses arrive at the corresponding inputs of trigger 3, which. produces a pulse of duration corresponding to the phase shift of the measured and reference sinuoid signals. The duration of the received pulse is converted into the amplitude of the imnul1-la of the generator 4. A linearly varying voltage, the amplitude of the pulse of which is proportional. the duration of the pulse itself in each clock cycle, and therefore the phase shift of the measured, mobile and reference signals, is fed to the integrator 5 with adjustable integration time and to the signal inputs of the comparison blocks 7-9. At the output of the integrator 5, an average value of the phase change for a certain period of time is obtained in the form of an appropriate voltage level. As a result of the fact that the average potential output of the source voltage 6 is connected to the output of the integrator 5, the sum inputs of the integrator 5 and the potential of the corresponding output source 6 are applied to the reference inputs of blocks 7–9 relative to the average potential output. This total voltage, which is different for all comparison blocks, determines the response level of each of these blocks. If it is exceeded, block 7, 8, or 9 of the comparison generates pulses at the output, recorded by the corresponding counter 10, 11, 12. Since. the amplitude of each pulse is proportional to the phase shift of the voltages at the corresponding period of oscillations tp - | c | U, the condition for the operation of the blocks of comparison 7, 8, 9 corresponds to the expression FHM-FC F -), gae f | - phase shift in the Kth period; ICi is the coefficient proportional to: ti (positive value); Uj is the amplitude of generator 4 in the K – thm period; - phase shift in K - 1st period, s (ph. Since 3t TT r –d, | ЗФ1 is the mean value of the velocity of change of the phase shift during the period T of the reference voltage oscillations, the proposed device allows measuring the integral characteristic distribution of the phase shift rate. When the integrator integrates amplitude amplitude 5, the output loss of it becomes proportional to the average value of the phase shift for the time interval equal to integrator's integration time. As a result, the selection allows to measure the phase deviation shift for the previous time interval equal to the integration time. In this case, the device operates in each measure as described above. The use of an integrator favorably distinguishes the proposed phase meter from the known one, since it allows us to most completely characterize random processes in a statistical sense, which is necessary with noCTpoem equipment, taking into account more complete characteristics of the processes, especially non-stationary ones. The invention of a phase meter containing zero-organs connected to the trigger input, a generator of linearly varying voltage, connected by an input to the output Tpin-ref a, connected in series 2n + 1 comparison blocks with corresponding counters, one of the inputs of all comparison blocks is connected to the output of the generator is a linearly varying voltage, and the others are connected respectively to 2n + 1 outputs of the reference and source source, characterized in that, in order to expand its functionality, an integration is introduced into it op, the input and output of which are connected respectively to first and second inputs of the n -. Nogo comparing unit. Sources of information taken into account in the examination: 1. USSR Author's Certificate No. 32948О, 6 01 f 25/04, 03.08.70.