SU765748A1 - Phase difference measuring device - Google Patents

Description

I

The device relates to phase measurements and is intended to measure a phase difference between the envelopes of two amplitude modulated pulse sequences, preferably with different unknown pulse repetition periods.

A device for measuring the phase difference is known, which consists of a series-connected envelope detector, a multiplier and an integrator, as well as a second envelope detector, the output of which is connected to the second input of the multiplier 1.

The result of measuring the phase difference of the envelopes depends on the pulse repetition period,

which is a disadvantage of the known device.

It is also known a device for measuring the phase difference, which consists of a series-connected first peak detector, a first filter and a phase detector, and a second peak detector connected in series and a second filter, the output of which is connected to the second input of the phase detector (21

A disadvantage of the known device is the presence of a measurement error with unknown OR varying repetition period.

The purpose of the invention is to increase accuracy.

Claims (2)

The goal is achieved by the fact that in series with the second peak detector and the first filter connected to one of the inputs of the phase detector and the second peak detector and the second filter, the output of which is connected to the second input of the phase detector, are in series connected the peak detector and the third filter, the fourth peak detector and the fourth filter, the first limiter and the first modulator, as well as the second limiter and the second modulator, while the outputs of the first and second modulators are connected to the inputs of the first and second peak detectors, respectively, the second inputs of the first and second modulators to the output of the third and fourth filters, respectively, the inputs of the first limiter and the fourth peak detector, and the inputs of the second limiter and the third peak detector - with the second input of the device. The drawing shows the block diagram of the device. The scheme contains the first peak detector 1, the first filter 2, the phase detector 3, the second peak detector 4, the second filter 5, the first stop 6, the second limiter 7, the third peak detector 8, the third filter 9, the first modulator 10, the fourth peak detector 11 the fourth filter 12 and the second modulator 13. The device operates as follows. There are two pulse sequences with pulse repetition periods T 2 that are unknown. Both sequences have amplitude sinusoidal modulation with a period Td, with T and T 7 Td, the phase of the envelope of the first sequence 4. and the second f 2. It is necessary to measure the phase difference p. between the envelopes of these pulse sequences. The first sequence goes to the inputs of limiter 6 and peak detector 11, and the second to the inputs of limiter 7 and peak detector 8. Peak detector 11 highlights the envelope of the first sequence, which in the course of detector 11 has a step function, and the height of the steps is determined by the amplitude of the corresponding pulse sequence. From the output of the peak detector 11, the step envelope enters the input of the filter 12, the parameters of which are chosen optimal for the envelope of the sequence .. In the filter 12, the envelope of the first sequence of which is characterized by an additional phase shift is selected. From the output of the filter 12, the envelope with an additional phase shift enters the first input of the modulator 13, the second input of which receives amplified and limited pulses with a repetition period g already with a constant amplitude, the second sequence from the output of the limiter 7. The modulator 13 converts the signals , fed to its inputs in an amplitude modulated pulse sequence (let's call it conditionally third), which has a pulse repetition period T2 and an envelope and phase f × -). From the modulator output, 13 is the third sequence nocTjmaei to the input of the peak detector 4, in which the envelope is represented as a step function. Then the step envelope enters the filter 5, which selects the envelope of the third sequence. When this is highlighted, the envelope acquires another additional shift: From the output of filter 5, the envelope goes to the second input of phase detector 3. Thus, as the signal passes through detector 11, filter 12, modulator 13, detector 4 and filter 5, i.e. at the second input of the phase detector 3, the envelope of the first pulse sequence has a phase equal to X, - & /, th / a. The second pulse sequence enters the input of the peak detector 8. The envelope as a stepwise function enters the filter 9, which selects the envelope the second pulse sequence with an additional phase shift equal to T0 - T From the output of the filter 9, the envelope goes to the first input of the modulator 10, the second input of which receives the amplified and limited pulses of the first sequence c to output of the limiter 6. The modulator 10 converts the signals applied to its inputs into an amplitude modulated pulse sequence (let's call it conditionally fourth), which has a repetition period T and an envelope with a fikMg phase of the model 10 output and the fourth one is fed to the input of the peak detector 1, from the output of which the envelope in the form of a step function is fed to the input of filter 2. Filter 2 selects the envelope of the fourth sequence, in this case an additional phase shift is equal. From the output of the filter 2, the envelope enters the first input of the phase detector 3. So, when the signal passes through detector 8, filter 9, module tor1 10, detector 1 and filter 2, i.e. already at the first input of the phase detector 3, the envelope of the second pulse sequence has a phase equal to f .. Phase detector 3 measures the phase difference between the envelopes fed to its inputs: lf-h + lf (4c,). 57 which does not depend on the pulse repetition periods. Thus, the device eliminates the dependence of the measurement of the phase difference between the envelopes of two amplitude-modulated pulse sequences on the values of the pulse repetition periods. Apparatus of the Invention A device for measuring a phase difference comprising a first peak detector connected in series and a first filter connected by its output to one of the inputs of a phase detector and a second peak detector connected in series and a second filter whose output is connected to the second input of a phase detector, different that, in order to increase accuracy, it is equipped with a third peak detector and a third filter, a fourth peak detector and a fourth filter, the first the boundary and the first modulator, as well as the second limiter and the second modulator, while the inputs of the first and second modulators are connected to the inputs of the first and second peak detectors, respectively; the limiter and the fourth peak detector are connected to the first input of the device, and the inputs of the second limiter and the third peak detector to the second input of the device. Sources of information taken into account in the examination 1. Theoretical foundations of radar. Ed. Ya. D. Shirman. M., Soviet Radio 1970, p. 296. 2. Skolnik M.S. Basics of radar. World, 1965, p. 216-218.