SU798621A1 - Apparatus for measuring group time delay of four-terminal networks - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF GROUP TIME OF FOUR-POLE LAGING

This invention relates to a radio measurement technique. A device is known for measuring the group time of lag, containing two signal generators, the signals from the outputs of which are fed to the inputs of a sumphorus connected to the quadrupole under study and a bath modulator, phase-matching element, low-frequency generator, frequencies, second balanced modulator, amplifier c AGC and O Indicator Нед The disadvantage of this device is the low accuracy and insufficient part of the range. Navigation close to the technical essence of the present invention is a device containing two oscillating frequency oscillators, the outputs of which are connected to the inputs of the mixer and the quadrupole under investigation, the output of which is connected through a series of amplitude to the phase detectors connected to the first input (contact switch, BTopc input is connected from the control loops of the oscillating frequency generators, the mixer output being connected through the filter to the first input of the phase-matching element, the second input of which is connected to the first input the house of the reference generator, the second output of which is connected to the second input of the phase detector, and the phase-matching element is connected to the second control input of one of the oscillating frequency generators, and the voltage generator 2. There is not enough accuracy. increase in measurement accuracy. The goal is achieved by the fact that a device containing two oscillating frequency oscillators, the outputs of which are connected to the inputs of the mixer and is not being studied in four different fields. An output, whose output is connected to the first input of the indicator through the successively connected amplitude phase detectors, the second input of which is connected to the control inputs of the oscillating oscillator and the mixer output is connected to the first input of the phase-matching element through the filter, the second input of which is connected to the first input of the reference generator, the second output of which is unified with the second input of the phase detector, and the output of the phase element is equal to the second input of one of the power generators The input frequency and the sawtooth generator were introduced ({kmpulse regulator, transducer, phase-detection detector, synchronizer and adder, the output connected to the generator control inputs. frequency, the first input is connected to the output of the saw-tooth generator, and the second input is connected to the first input of the saw-tooth generator, Chrsod, and its own-phase detector, the first input of which is connected to the second output pulse generator and the converter through the successively connected pulse generator and converter. the input of the pulse-phase detector a is connected to the second input of the converter and the first output from the {w} phonizer, the second output of which is connected to the second input of the sawtooth generator apr wife The structural electrical circuit of the device is shown in the drawing. The device comprises generator 1 and 2 of oscillating frequency, adder 3, mixer 4, pulse shaper 5, amplitude detector 6, filter 7, converter 8, phase detector 9, phase equalizing element 1О, pulse phase detector 11, sawtooth generator 12, indicator 13 , reference generator 14, synchronizer 15. The drawing also shows the quadrupole under study 16.. The principle of operation of the device concludes with the following. The voltage U and jja of the oscillator & 1 and 2 oscillator frequencies generally have a distorted modulation law containing the harmonics of the fundamental frequency. These voltages are simultaneously applied to the inputs of the quadrupole 16 and the mixer 4 under study. At the output of the mixer 4, the voltage of the differential frequency is formed. 79 voltages are supplied from the output of the generator 14. The output voltage of the phase-matching element 10 is fed to one of the oscillating frequency generator 1 a 2 inputs, ensuring that the frequency difference between the oscillators 1 and 2 of the oscillating frequency is constant. In the process of modulating generators 1 and 2, at the second code of mixer 4 there is a beat voltage with increasing frequency, of which the short pulses are increasing at the increasing frequency of the speddaiy in FS 5, from the sequence of ECC pulses received at the converter input, Only the first, 4th ....,, .J} are the output H (the pulse of the pulse of the former is shaken 5). Since the phase of the pulses varies according to a quaatary law, the sequence obtained at the output of the converter 8 mpulsov be strictly linear in time. Pulse sequence, linear. But the time variable from the output of the converter 8 is fed to one of the inputs of the pulse-phase detector 11, whose reference pulses are pulses that receive the output p of the sync output 15. jQ | The detector 11, the reference pulse sequence from the synchronizer 15 is shifted by half of the perird following these pulses. . At the same time, the strobe signals from the output of the sanhdaaizator 15 control the operation of the conversion device 8, a. also by starting and stalling oscillations of the saw-tooth generator. Streaming errors with high impedance detector are applied to one of the inputs of the adder. For integrated circuits, for example, for units with a decoding code of 1 mncccrrrrrrr. Detectors 11 to 12 forked vari ants, summed up by S cyMwaTcpt 3, do not control, frequency @ generater, the frequency of f 9 wearing “1”; tion

Claims (2)

Claim A device for measuring the group, jp delay time of the four-terminal network containing two oscillating frequency generators, the outputs of which are connected to the inputs of the mixer and the studied four-terminal network, the output of which through the series-connected amplitude and phase detectors is connected to the first input of the indicator, the second input of which is connected to the control inputs of the generators . oscillating frequency, and the output. the mixer through a filter is connected to the first input of the phase-comparing element, the second input of which is connected to the nepgw input of the reference oscillator, the second VICHRD of which is connected: to the second input of the phase detector, and the output of the phase-comparing element is connected i "£ to the second control input of one oscillator of the oscillating frequency, and the herator sawtooth voltage, with the fact that, with «Ы1Ы9 I’ve increased the timing * TI measurements, a pulse shaper, a converter are introduced into it. impudence · but-phase detector, synchronizer and adder, the output of which is connected to the control inputs of the oscillating frequency generators, the first input is connected to the output of the sawtooth voltage generator, and the second input is connected © the first input of the sawtooth voltage geishrator, c. unit ^: I & * Hector, 'YMM * whose input is connected through a sequentially connected ίφφΜΒρρ & βτρ ^ pulse generator and converter dyves to the second input of the mixer, and the second input of the pulse-phase detector is connected to the second input pvdobrezovoy voltage generator. Sources accepted in vkimanve at examination 1. USSR author's certificate No. 504157, cl. 0 01 R 25/00, 07/30/74. 2. USSR author's certificate No. 586308. class »01 R 28/00, 08.27.77. VNIIPI Order Tyrezh / MZ Pedddsdre “YAYII” 1111 * ΠδΤΡΒΤ '' · ’!! . U) Yuyurod, uz.Proektnaya, 4