SU1538261A2 - Device for check of amplitude-frequency characteristics of four-terminal network - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to reduce the measurement time by automating the process of measuring the phase-frequency characteristics of quadrupoles. The goal is achieved by the fact that the device additionally introduces into the receiving part Mr. rr 5 sawtooth voltage, synchronization comparator 6, rr 8 sweeping frequency, phase detector 9, switching unit 17, ADC 18, keys 19, dividers 22, 23 voltage, element OR 26, signal comparator 29 and the upper bound of the pattern and signal comparator 30 and the lower bound of the pattern. The device allows for a short time to provide not only control of the frequency response and measurement of the residual attenuation of the quadrupole, but also control of the phase response and measurement of distortion, which is very important when transmitting discrete information, especially at high speeds. The advantage of the device is that the measurement value is generated in digital form, which makes it easy to interface with a computer. 1 il.

Description

The invention relates to radio engineering, can be used in transmission systems with a frequency distribution of channels for monitoring and automated measurement of amplitude-frequency characteristics (AFC) and phase-frequency characteristics (PFC) of four-terminal and tonal Frequency channels, and is an improvement of the invention according to autosw. S '1259499.

The purpose of the invention is the reduction of measurement time due to automation of the process of measuring the phase-frequency characteristics of four-terminal devices. fifteen

The drawing shows a structural electrical diagram of the proposed device.

The device for controlling the frequency response of the four-terminal network contains on the transmitting side a oscillating frequency generator (GCF) 1, and on the receiving side an indication unit 2, a matching unit 3, an amplitude detector 4, a sawtooth voltage generator 5, a synchronization comparator 6, a reference voltage unit 7, GKCh 8, phase detector 9, converter 10 frequency - voltage, w comparators 11-1-

11- t template boundaries, η comparators 30

12—1—12 — η control frequencies, keys

13, analog to digital converter

14, switching unit 15, memory unit 16, additional switching unit 17, additional analog-to-digital 35 converter 18, additional switches 19, first, second, third and fourth voltage dividers 20 to 23, matching unit 24 with electronic computing machine (computer), element 40 OR 25, additional element OR 26, comparator 27 of the signal and the upper boundary of the template, comparator 28 of the signal and the lower boundary of the template, additional comparator 29 of the signal 45 and the upper boundary of the template, additional comparator 30 of the signal and lower boundary template until the studied quadripole 31 (channel of the PM tonal frequency) „5θ

The device operates as follows.

On the transmitting side GKCH 1 connected to the studied four-terminal 31 generates a signal with _t constant level and smoothly changing frequency in the range of controlled frequencies. The signal from the output of the studied four-terminal 31 arrives at the receiving side to the matching unit 3, which ensures matching of the studied four-terminal 31 with the asymmetric circuit of the device. From the output of the matching unit 3, the signal is fed to an amplitude detector 4, which isolates the signal envelope voltage, a phase detector 9, and also to the converter. 10 frequency.-voltage, the voltage at the output of which changes in proportion to the frequency of the input signal. This voltage is supplied to the first inputs of the comparators 11-1-11-ha of the template boundaries and η comparators 12-1-12-p of the control frequencies.

The need for comparators .12-1 12-p control frequencies is determined as follows. Typically, the boundaries of the pattern for changing the frequency response are not set by all, but only part of the control frequencies. So, in most practically important cases, for monitoring and correcting the frequency response of 25 and the phase response of the PM channel, 13 control frequencies are studied (0.3; 0.4; 0.6; 0.8; 1.0; 1.3; 1.6; 2.1; 2.4; 2.7; 3.0; 3.4 kHz), and the boundaries of the template are determined only by 5 or 7 control frequencies. Therefore, the value of m is determined by the number of limits of the boundaries of the template, and the number η by the number of necessary additional control frequencies at which it is necessary to measure the frequency response and phase response. The second inputs of each of the sh comparators 11-1-11-sh borders of the template and η comparators 12-112-p control frequencies receive a voltage corresponding to the control frequency for this comparator, from the block 7 of the reference voltage.

With increasing frequencies of the output signal, the constant voltage at their first inputs increases. At the moment of equal voltage at the inputs of each of the comparators ll-l-41-m and 12-112 ~ p, a short signal pulse will appear at the output of the corresponding comparator 11-1, then at the output of the comparator 11-2, etc. and finally, the phase distortions can be neglected at the output of the last ll-m.Ha last comparator at a frequency of 1900 Hz according to the CCITT recommendation, therefore, the temporal position of the pulses at the output of the first comparator 12-1, corresponding to this frequency, coincides with the moments of the signal formation from this frequency transmitting side. it

1538261 6 matching used to synchronize GKCh 8 on the receiving side as follows. The pulses from the output of the first comparator 12-1 start the sawtooth voltage generator 5. The sawtooth voltage is supplied to the first input of the synchronization comparator 6, the second input of which receives the corresponding voltage from the reference voltage unit 7. The value of this voltage must be such that the time of saw formation, the amplitude of which is equal to this value, coincides with the 15th time of the change of the frequency of the generators 1 on the transmitting side from the frequency of 1900 Hz to the frequency of 300 Hz, that is, before the start of a new cycle of its operation.

Thus, the temporary position of the pulses from the output of the synchronization comparator 6 is tightly connected with the start of a new cycle of operation of the generator 1 on the transmitting side. These pulses are fed to the control input of the generator 8 on the receiving side and synchronized by the generator 1. From the output of the generator 8, the signal is supplied to the second input of the phase detector 9, which generates a voltage proportional to 30 of the phase difference of the signals from the output of matching unit 3 and the output of the generator 8, t "e" is proportional to the phase distortion of the PM channel in the range of controlled hours · ⁴ · ₃₅ tot. The signals from the outputs of the amplitude and phase detectors 4 and 9 are continuously fed to the inputs of the corresponding keys J 3 and additional keys 19. 40

The number of keys 13 and additional keys 19 corresponds to the sum of the comparators 11–1–11 — m of the boundaries of the template and the comparators 12-1-12-p of the control frequencies R = m + n. Moreover, the control hole 45 of each key 13 and additional key 19 is connected to the output of only the phase difference from the output of the phase detector 9. At the same time, at the output of the corresponding key 13 and additional key 19, signals are generated whose amplitudes are respectively equal to the instantaneous value of the envelope and the phase difference at the corresponding frequencies . Keys 13 and additional keys 19 perform time sampling of the envelope and phase distortions of the signal coming from the T4 cable. The instant values of the envelope and phase distortions corresponding to the given control frequencies are sequentially fed to the input of an analog-to-digital converter (ADC) 14 and to the input of an additional ADC 18 respectively. "From their outputs, information in digital form, respectively, through the switching unit 15 and through an additional switching unit 17 is recorded in the memory unit 16. The outputs of the memory unit 16 are connected to the corresponding inputs of the display unit 2, which provides a digital indication of the values of the residual attenuation and phase distortion of the PM channel at the given control frequencies. The proposed technical solution to the problem of measuring the frequency response and phase response of the PM channel provides the ability to interface the developed device with a computer. For these purposes, block 24 is used, which converts the signals from the output of memory block 16 to a form suitable for processing in a computer and provides digital values of the residual attenuation and phase distortions at control frequencies and the results of monitoring the frequency response and phase response of the memory unit 16 on request.

The control of the frequency response and phase response of the channel of the PM consists in generating Norm signals if the frequency response or phase response is within the established pattern, and Not normal if the frequency response or phase response of the output comparator 11-1-11-w and 12-1-12-p corresponding to it. In accordance with this, the signals to the control inputs of the keys 13 and additional keys 19 are received sequentially. Since the signals at the outputs of the comparators 11-1-11-w and 12-1-12-p are short pulses, the keys 13 and additional keys 19 open for a fairly short time, skipping the instantaneous values of the envelope from the amplitude detector 4 and passes beyond the boundaries installed template. From the comparators 11-1-11-w borders of 50 templates, the signal also goes to the corresponding inputs of the first and second voltage dividers 20 and 21 and the third and fourth voltage dividers 22 and 23. Under the action of signals from comparators 11-211-sh, the formation of output voltages corresponding to the first 20 and third 23 voltage dividers phase-frequency characteristics of the upper border of the board 7

New, determining the permissible deviations of the frequency response and phase response, respectively, and on the second 2! and on the fourth 23 voltage dividers - the lower boundary of the same patterns. Voltages corresponding to the permissible limits of the frequency response patterns are applied to one of the inputs of the signal comparator 27 and the upper limit of the frequency response pattern and to one of the inputs of the signal comparator 28 and the lower boundary of the template Frequency response.

The voltages corresponding to the permissible boundaries of the phase-response patterns are supplied to one of the additional inputs 5 of the additional signal comparator 29 and the upper boundary of the phase-response pattern and to one of the inputs of the additional signal comparator 30 and the lower ipaHsmbi of the phase-response pattern. The second inputs of the comparators 27 and 28 receive voltage from the output of the amplitude detector 4, and the second inputs of the additional comparators 29 and 30 from the output of the phase detector 9. When the signal from the output of the amplitude 4 or phase 9 detectors reaches the upper boundary of the template, an abrupt change in voltage occurs The output of the comparator 27 and the additional comparator 29, respectively.

In the event that the signal from the output of the amplitude 4 or phase 9 detectors is less than the lower boundary of the template, an abrupt change in voltage is observed at the output of the comparator 28 or additional comparator 30. In any of these cases, a signal appears at the output of the OR 25 element or the additional OR 26 element. , indicating the inconsistency of the frequency response or phase response of the tested channel PM to the required standards. The output of the OR element 25 and the additional element OR 26 is connected to the memory unit 16. The monitoring results (signals of the Normally Frequency Response, Norm of the Frequency Response, iHe the norm of the Frequency Response, Not the norm of the Frequency Response), from the output of the memory unit 16 are sent to the display unit 2.

Claims (1)

Claim A device for monitoring the amplitude-frequency characteristics of four-terminal devices; by auto No. 1259499, characterized in that, in order to reduce the measurement time by automating the process of measuring the phase-frequency characteristic with> .50 four-terminal, on the receiving side, the output of the first control frequency comparator is connected to one corresponding input of the display unit through the sawtooth generator, synchronization comparator, the second input of which is connected to the additional output of the reference voltage unit, the oscillating frequency generator, phase detector, the second whose input is connected to the output of the matching unit, an additional comparator of the signal and the upper boundary of the template and an additional OR element, the output which is connected to the corresponding inputs of the memory unit and the display unit and is an additional output of the device, in addition, the output of the phase detector is connected to the corresponding inputs of the memory unit through the first additional key, an additional analog-to-digital converter and an additional switching unit, the other inputs of which are connected and connected connected to the corresponding outputs of the control frequency comparators and the template border comparators, in addition, the third and fourth dividers are introduced voltage, the first and second inputs of which are connected respectively to the outputs of the first and last comparators of the template boundaries, the output of the fourth voltage divider is connected to the second input of the additional element OR through the complementary comparator of the lower boundary of the template, its voltage divider by the input of an additional signal comparator and the upper boundary of the template, phase output detector - with the second input of an additional signal comparator and the lower border of the template, the output of the OR element is connected to another corresponding input block and indications, in addition, introduced η-l additional. relative keys, the information inputs of which are connected to the output of the phase detector, and the control inputs of all the additional keys are connected respectively to the outputs of the corresponding comparators of the control frequencies and comparators of the template boundaries, and the outputs η-l of the additional keys are connected to the input of the analog-to-digital converter. entered pre-signal and output third to second