SU284165A1 - MONO-PULSE PHASOMETER - Google Patents

Description

The invention relates to the field of phasemetry and is intended to measure a phase difference between two radio signals.

Known mono-pulse phasemeters of the interference type, containing phase shifters, a phase detector and an oscillator indicator, have an insufficiently high measurement accuracy and a relatively narrow frequency range,

The proposed phase meter allows you to improve the accuracy and expand the frequency range due to TOMV, which is equipped with two inputs: two radio impulses, each of which is made of a series of 1 delays, amplifiers and switches connected to the phase detector inputs The output of which is connected via a threshold device to one of the inputs of the calculating device, the second input of which is connected to one of the recirculators via an amplitude detector.

FIG. I depicts a block diagram of the described phase method; in fig. 2 is a diagram of the interference pattern at the output of the phase detector.

The phase meter consists of the following nodes: lines I, 2 delays, amplifiers 3, 4, (keys 5, 6 of phase detector 7, threshold device 8, computer 9, PM-detector W.

Line / delay, amplifier 3 and key 5 n are similar to line 2 for liege, amplifier 4 and key 6 are an image of UT reverberation of radio and PCCH. Time delay lines. a linin 2 - r. Radnonmshulsy from inputs I and II are received simultaneously. for a phase of 7 n l lines / and 2 delays. Chepez delay time and radio pulses, having passed through tiltles 3 and 4, keys 5 and 6, will again be sent to a random detector and delay delay, etc. Under certain CONDITIONS, the process may last for a long time.

At the time of arrival of the radio pulses at the inputs I and II, a voltage is formed at the phase detector

L.T / (- cos cf,

where: K-ratio proportional. wp is the phase difference between the radio pulses.

After the first caliper of the radio pulse, since TI is not equal to the value of the voltage at the 30 iBo: i detector will be

l, / (COsRp + OM (TI-T:) 1.

where 0) 1 is the frequency of filling the radio pulse. After the second circulation

d. . + m., (t, -) 1 After the 10th Circulation, the voltage on the phase detector is

Thus, at the output of the phase selector, an interference pattern is observed (Fig. 2). The initial phase of the envelope of this picture coincides with the magnitude of the phases of the studied signals. The moments of the transition of the envelope of this pattern through zero (intervals a and 6) are determined using the threshold and counting devices. The magnitude of these intervals is expressed in the amount of circulation with an accuracy determined by a threshold device. With one zero level IB device, this accuracy is .--

circulation An increase in the number of levels leads to an increase in the accuracy of determining the interval a to b. For calculating the circulation number, 1c counters 9 and an amplitude detector 10 are used.

The result is calculated by the calculating device 10 according to the formula

but -

2b

For normal operation of the phase meter, it is necessary that the duration of the measured pulses be less than the line delay time. If the input signals have a longer duration, they are gated. Keys 5 and 6 are used to open the circulation circuit of radio pulses. They are turned on and off by the control device signal. During the recirculation process, a certain duration, frequency and amplitude of the radio pulse is established. Therefore, in order to achieve high accuracy of the device, it is desirable to apply radio pulses to the phase meter with parameters that do not lead to transients. However, since the amplitude transient is quite fast (ro (3-5 circulations in the test sample), and the transient in frequency and duration is very slow (200-300), the normal operation of the phase meter is provided in a significant frequency range with the required accuracy.

As can be seen from the operation of the phase meter, the voltage at the output of the phase detector represents the mutual correlation function of the input signals. This means that signal processing is performed, which is close to optimal, which allows for high noise immunity of the phase meter.

The accuracy of the phase meter is determined by the number of circulations used in the interference pattern and the number of thresholds.

levels. In the test run, the accuracy of 1 ° obtained is not the limit for data. th phase meter.

Subject invention

A single-pulse phase meter with an interference type, containing phase and amplitude detectors, a threshold and counting device, characterized in that, in order to improve accuracy and expand the frequency range, the phase meter at the inputs is equipped with two recirculators of radio pulses, each of which is made of series-connected delay lines , amplifier and key connected to the inputs

a phase detector, the output of which is connected via a threshold device to one of the inputs of the counting device, the second input of which is connected to one of the recirculators via an amplitude detector.

the second

23 Number

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