SU1264352A1 - Device for checking amplitude-frequency characteristic - Google Patents

Abstract

The invention relates to telecommunications and improves accuracy of control. The device contains a measuring path 2, on the transmitting side there is a generator of I oscillating frequency, and on the receiving side there is an amplitude detector 3, a driver 4 of the reference signal, consisting of frequency converter 5 into a code, a decoder 6 and block 7 of sampling and storage, shapers 8 and 9 upper and lower frequency limits, two subtraction units (BV) 10 and 11, two valves 12 and 13, a signal combiner (BF) 14, quad 15, amplitude selector (AC) 16, integrator 17, pulse shaper 18 , indicator 19, element OR 20 and instantaneous indicator 21. When exiting the measured value of the frequency response over the permissible limits of the signal from the output of the BFB 14 through the quad 15 and the integrator 17 enters the indicator 19. According to the zero readings of the indicator 19 and the absence of operation of the inertialess indicator 21 during the entire cycle of changing the frequency frequency, it is possible to judge that the controlled frequency response matches the specified norm The goal is achieved by introducing the formers 8, 9 and 18, the BV 11, the valves 12 and 13, the BFB 14, the quad 15, the AC 16, the integrator 17, the OR element 20 and the indicators O) 19 and 21. 1 il. 4:00

Description

The invention relates to telecommunications and can be used to control and adjust the amplitude-frequency characteristic (AFC) of channels and paths of transmission systems. The purpose of the invention is to increase the accuracy of the control. The drawing shows a structural electrical circuit for controlling the frequency response. The device contains a oscillating frequency generator (GCCH) 1, measured path 2, amplitude detector 3, a reference signal maker 4, consisting of a frequency converter 5 into a code, a decoder 6 and a sampling and storage unit 7, a shaper 8 upper frequency response, lower limit generator 9, subtraction unit 10, additional viitani block 11, first 12 and second 13 gates, signal combining unit 14, quad 15, amplitude selector 16, integrator 17, pulse shaper 18, indicator 19, OR element 20 and inertial-free indicator 21 Device works as follows., The signal from the GCCH 1 through the measured path 2 is fed to the amplitude detector 3 and the frequency converter 5 to the code. The envelope signal at the output of the amplitude detector 3, proportional to the measured frequency response, is fed to the first input of the subtraction unit 10 and the second input of the additional subtraction unit 11, as well as to the input of the sampling and storage unit 7. The other input of block 7 receives a control signal generated by decoder 6 at the moment when the current signature frequency at the input of converter 5 coincides with the reference frequency specified for / for the given path. Thus, the reference signal generator 4 extracts from the measured signal and memorizes the reference value of the frequency response. From this value, in the imaging unit 8 and 9, respectively, the values of the upper and lower permissible limits of the frequency response are formed, which are fed respectively to the second input of the subtraction unit 10 and the first input of the additional subtracting unit 11. The signal from the output of block 10 through the first valve 12 to one input of block 14 combining signals enters when the measured value exceeds the 22 upper limit of the frequency response, and from the output of block II through the second valve 13 and the other input of block 14 when the measured value is less than the lower limit of the frequency response, i.e. the signal at the output of the combining unit 14 will be present only when the measured value exceeds the permissible limits. This signal through the quad 15 and the integrator 17 is fed to the indicator 19, the readings of which are proportional to the integral value. From the square of the signal value at the output of the block 1 4. When adjusting the offset, the operator tends to achieve a zero integration result, which indicates that the controlled frequency response satisfies the norm. At the same time, the fine structural distortions that do not exceed the permissible value do not affect the result of measurement and tuning, and the operator performing it. control and tuning of the frequency response in the serviced amplifying point, can judge the results of work in the absence of information on the form of the frequency response eliminating the need for panoramic devices at intermediate points. The display system, providing an integral estimate of the amplitude-frequency distortion, is inertial, so when using it, the operator can skip narrow (on the frequency axis) frequency response over tolerance limits. To avoid this, the device provides an amplitude selector 16, which is triggered when the signal level exceeds a predetermined nopq, shaper 18 pulses, designed to increase the duration of short pulses, the element OR 20 and the instantaneous indicator 21. Thus, the compliance of the monitored AFC with the specified norm can be judged by the zero readings of the indicator 19 and the absence of the response of the instantaneous indicator 21 during the entire cycle of oscillation of the oscillating frequency. Formula of the invention. Device for controlling the amplitude-frequency characteristic, containing on the transmitting side of the generator 3

oscillating frequency tor, the output of which is connected to the input of the measured path, and on the receiving side - indicato), an amplitude detector connected in series, the input of which is connected to the output of the measured path, and a subtraction unit, as well as a shaper of the reference signal, completed in the form of serially connected the frequency converter in the code, the input of which is connected to the input of the amplitude detector, the decoder and the sampling unit t, and storage, which is so that, in order to increase the accuracy of control, it is entered into the second side of the shaper is the upper limit of the amplitude-frequency characteristic, connected in series with the first valve,. a signal combining unit, a quad and an integrator connected in series to the lower limit of the amplitude-frequency characteristic, an additional subtraction block 643524

Neither the second valve and the amplitude selector, the pulse shaper, the OR element and the instantaneous indicator, connected in series, 5 the second input and the output of the sampling and storage unit are connected respectively to the output of the amplitude detector and the inputs of the lower limit of the amplitude-frequency characteristic and the upper limit generator amplitude-frequency characteristic, the output of which is connected to the second input of the subtraction unit, the output and first input of which are connected respectively to the input of the first vent and a second subtracting input of the additional unit, the output of the second gate is connected to the second input of the signal combination unit whose output is the key to entry pod20 amplitude selector, which output is connected to the second input of the OR gate, and the integrator output is connected to the input of the indicator.

Claims (1)

Claim A device for monitoring the amplitude-frequency characteristics, containing on the transmitting side an oscillating frequency generator, the output of which is connected to the input of the measured path, and on the receiving side is an indicator, an amplitude detector connected in series, the input of which 5 is connected to the output of the measured path, and a subtraction unit, and also a driver of the reference signal, made in the form of series-connected frequency inverter to code, 10 input of which is connected to the input of the amplitude detector, decoder and sampling unit - ^ and storage, it is noteworthy that, in order to increase the accuracy of control, 15 shafts are introduced on the receiving side of the former — the upper boundary of the amplitude-frequency characteristic, the first valve is connected in series, , a square-to-twenty integrator, series-connected low-amplitude-frequency-frequency characteristic lower boundary generator, an additional subtraction unit and a second valve, and an amplitude-selector, pulse-shaper, OR element, and inertialess indicator connected in series Oh, while the second input and output of the sampling and storage unit are connected respectively to the output of the amplitude detector and the inputs of the driver of the lower boundary of the amplitude-frequency characteristic and the driver of the upper boundary of the amplitude-frequency characteristic, the output of which is connected to the second input of the subtraction unit, the output and first input of which connected respectively to the input of the first gate and the second input of the additional subtraction unit, the output of the second valve is connected to the second input of the signal combining unit, the output of which connected to the input of the amplitude selector, the output of which is connected to the second input of the OR element, and the output of the integrator is connected to the input of the indicator.