SU597983A1 - Automatic wide-band phase meter - Google Patents

Description

a counter, a memory, a phase indicator, a reference pulse generator, a trigger pulse generator, a comparison circuit and serially connected sets of a generator of a search voltage generator and an adder, the output of which is connected to a tunable local oscillator, and the input of the summator is connected to the output of the master oscillator is connected to a control device, one output of which is connected to a memory device connected to the phase indicator, and the other output of the control device It is connected to the first input of the reversible counter, between the second j input of which and the generator input of the reference interval the output of the comparison circuit is connected, one input of which is connected to another input of the generator of the reference interval and to the second counting input of the reversible counter via a narrowband suppressor connected to to the output of the mixer of the second channel, and another input of the comparison circuit is connected between the output of the generator of the reference interval. And the input of the trigger generator, the output of which is connected to the memory ayuschemu device having an input connected to the output of the reversing account "ka first counting: an input narrow-band via another usilitelogranichitel coupled to the output of the mixer of the first channel. ;

The drawing shows the block diagram of the proposed phase meter containing mixers, 1 and 2, adjustable local oscillator 3, adder 4, low-pass filters 5, phase-locked loop system 6, narrowband amplifiers-limiters 7 and 8, search voltage driver 9, which specifies generator 10, control device 11, reversible counter 12, memory 13, phase indicator 14, reference pulse generator 15, trigger pulse driver 16, comparison circuit 17.

The phase meter works as follows; at once.

The input signals to be measured are fed to mixers 1 and 2, from which the signals of the intermediate frequency through the amplifiers 7 and 8 of the post: go to the counting inputs of the counter 12, where the phase difference of the intermediate signals is converted into a digital code. If the frequency of the intermediate signal is equal to the reference frequency of system 6, then the locking mode 3 begins in the auto-tuning loop, continuing as long as the frequency of the oscillator 3 is within the hold band. Dp provide capture mode in

The device automatically searches for the frequency of the local oscillator 3. From the rectangular voltage of the generator 10 in the driver. 9, a control voltage is formed; With increasing frequency of the local oscillator in the capture band at the outputs of amplifiers 7 and 8 for

0 called transit capture, there are intermediate-frequency bursts, which are used to make the first phase difference measurement cycle, while counter 12 works on addition.

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In the second cycle, the frequency of the local oscillator decreases linearly, with a transit capture at the mirror intermediate frequency and a change in the conversion algorithm. Packs from the outputs of the amplifiers 7, 8 again fall on the counter 12, which is now working on the subtraction. The results of addition and subtraction are recorded in the device 13, and then rewritten 5 seconds into the phase indicator 14. Reversing the counter 12 and rewriting the code into the phase indicator 14 is performed by the device 11, which generates reverse and polling pulses from the rectangular voltage generator 10. The time of measurement of the phase difference is selected several times shorter than the time of the existence of the capture mode, in order to avoid the effect of transient processes at the beginning and end of the capture on the measurement accuracy.

When capturing on the signal harmonics, the duration of the packs is intermediate; frequency is inversely proportional to the harmonic number. This circumstance. Allows the introduction of a selector of the duration of packs into the device, which prevents the measurement of the phase of the harmonics. The selector works as follows.

The bundle from the output of the A-Boundary B body amplifier triggers the generator 15 of the reference interval, the duration of which is 80-90% of the duration of the intermediate-frequency packet when captured by the first harmonic. This interval is then compared in scheme 17 with a packet, and if the packet has a normal duration corresponding to the first harmonic pickup, then a write pulse is generated from the trailing edge of the reference pulse in the former 16, and the digital code from the reversible counter 12 is copied to the device 13 .

If the intermediate frequency packet is shorter than the nominal frequency, then a reset pulse is generated at the output of the circuit 17, which returns the counter 12 and the generator 15 to the initial state.

Changing the conversion algorithm twice during the measurement period allows

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