SU883790A1 - Digital phase meter - Google Patents

Description

I

The invention relates to radio metering technology and coins to be used in radar, radio navigation, radio control, as well as in other areas of technology where it is necessary to measure the phase of radio signals against the background of noise.

A digital phase meter is known, consisting of two channels of correlation phase measurement, two calculators and a multiplier. This phase meter does not have the error associated with the mismatch between the signal frequencies and the reference generator f | l.

The closest in technical essence to the present invention is a digital phase measurement device comprising a band-pass filter, an analog-to-digital converter, delay elements, multiplication units, sin, cos and arctg trigonometric converters, a generator of arguments, accumulating adders, keys, calculator relations, registers, difference blocks, and control block 2.

A disadvantage of the known devices is the inconsistency of the correlation channels, and, therefore, additional noise errors. The inconsistency of the correlation channels is due to the fact that the integration determining times in the channels must be fundamentally different, although the signal in both channels is the same.

The purpose of the invention is to increase the measurement accuracy.

Claims (2)

The goal is achieved in that a digital phase meter containing a series-connected band-pass filter and an analog-to-digital converter, two multipliers connected by the first inputs to the output of an analog-digital converter, two accumulating adders whose inputs are connected to the outputs of the multipliers, respectively, and the outputs are connected to two the inputs of the ratio determination unit, the output of which is connected to the trigonometric arctg converter, and the control unit, the mixer is entered whose output is connected to the input of the bandpass Iltra, and the input is connected to a phase zeroing unit, the output of which is connected to the inputs of two additional analog-digital converters, with one directly, and the second through a phase shifter 90 f whose outputs are connected to the second inputs of the multiplier, all analog-to-digital converters and accumulating adders are connected to the control unit. The drawing shows a block diagram of a digital phase meter. The phase meter contains a mixer 1, a vacuum filter 2, a phase zeroing unit 3, filled with a frequency divider with a reset, an analog-to-digital converter 4, two additional analog-digital converters 5 and 6, a 90® 7 phase shifter, two multipliers 8 and 9 , two accumulating adders 10 and 11, the ratio determining unit 12, the trigonometric converter 13, and the control unit 14. Phase meter works as follows. The input signal u (t) cos (r (et +%) is fed simultaneously to the input of the mixer 1 and the phase zero unit 3. The frequency conversion of the signal in cm 1 and the division ratio of the phase zero unit 3 are chosen in such a way that Outputs. At the output of mixer 1, we have u (t) cos (U) t + 4ci), and at the output of the phase zeroing unit, u (t) cos (S) t. From the output of mixer 1, the signal passes through a band-pass filter 2 and is fed to analog-digital converter 4. From the output of phase zeroing block 3, the signal is fed to the input of one of the additional analog-to-digital converters 5 and through the phase shifter to the input of another 6. From control block 14 to all analog-to-digital converters 4, 5 and 6 on. a series of sync pulses steps, ensuring simultaneous coding. At the output of the latter, we have (uJKut-npo), NaCk) cosguK t and M7.0) -sinui; Kfik-t, respectively. The outputs of the multipliers are 8 and 9 semi-N (k), tea, respectively, N (k), N (k) and N (k) N3 (k), and the outputs accumulate uk and adders 10 and 11 A -.) M2 (|) and B - 2N, 0) NjW At the output of the ratio determination unit 12, the ratio V / D is formed, and at the output of the arctg converter 13 we obtain the value of the initial phase. signal (f -arctg 0 / D. The measured phase is the phase of the signal at the moment of time determined by the zeroing pulse supplied to the phase zeroing unit 3 from the control unit 14. Thus, by generating a reference signal from the operating signal, the phase measurement becomes independent of its frequencies and the integration time can be selected from the condition of complete consistency with the signal. The latter ensures a reduction to the optimum value of the noise error, i.e., an increase in accuracy. A serially connected bandpass filter and an analog-to-digital converter, two multipliers connected by first inputs to the output of an analog-digital converter, two accumulating adders whose inputs are connected to the outputs of the multipliers, respectively, and the outputs are connected to two inputs of a ratio determining unit whose output is connected to a trigonometric converter arctg, and a control unit, characterized in that, in order to improve measurement accuracy, a mixer is inserted into it, the output of which is connected to the input a bandpass filter, and the input is connected to a phase zeroing unit, the output of which is connected to the inputs of two additional analog digital converters, with one directly, and the second through a phase shifter 90, the outputs of which are connected to the second inputs of the multiplier, all the second digital converters and accumulating adders are connected to the control unit. 0 "Sources of information taken into account during the examination 1. USSR author's certificate number 479050, cl. G 01 R 25/08, 1974. 2. Authors certificate of the USSR 490039, cl. G 01 R 25/08, 1975 (prototype).