SU1099414A1 - Device for checking amplitude-frequency response of seized telephone channel - Google Patents

Abstract

A DEVICE FOR MONITORING AMPLITUDE-FREQUENCY CHARACTERISTICS OF BUSY TELEPHONE CHANNELS, containing on the transmitting side a generator measuring the teeibhoro signal and connected to the inputs of the channel-forming unit, adders, the first inputs of which are connected-. with the outputs of information sources, and at the receiving side - an adder connected between the output of the line of controlled telephone channels and the channel-forming unit, as well as the series-connected barrier filter, the pause unit, the key, the level setting and fixing unit and the measuring unit, the second key input connected to the output of the band-pass filter, and the output of the key is connected to the input of the reference generator, the output of which is connected to the second input of the setting and level fixing unit, via the tuner and phase lock; Understanding that, in order to increase the control accuracy, a switch is inserted on the transmitter side, connected between the output of the measuring signal generator and the second inputs of adders, and on the receiving side, a series-connected auxiliary generator, a shift frequency generator, a switch and the first mixer are entered, the output of which connected to the inputs of a bandpass (| Iltra 8 and a barrage filter, a second frequency mixer and a measurement signal analyzer connected between the output of the bandpass signal and the control input of the switch, the output of which is connected to the first input of the second frequency mixer, the second input of which is connected to the output of the tuner and level lock, and the output connected to the second; о со 1; the input of the adder, the first input of which is connected to the second input of the first frequency mixer.

Description

11 The invention relates to telecommunications, allows the control of the amplitude-frequency characteristic of the group path, which is used to transmit information, and can be used in the practice of operating wired communication lines. A device for monitoring the amplitude-frequency characteristic of occupied telephone channels is known, comprising on the transmitting side a series connected generator and measuring signal generator, outputs which are connected to the inputs of an adder, to another input of which a voice signal is fed, and the output of the adder is connected and on the receiving side - a matching unit whose output is connected to the input of the adder, the output of which is connected to the input of the subscriber unit and to the inputs of the filter and key, another input cat It is connected to the output of the filter through a blocking unit, the output of the key is connected to the inputs of filters of measuring frequencies, the outputs of which are connected to the inputs of the signal level meter and Other inputs of the adder through the corresponding blocks of setting and latching Frequencies through the unit for setting and fixing the phase and the compensating generator are connected to one input of the imaging unit whose outputs are connected to the inputs of the non-uniformity meter of the phase-frequency characteristic lj. The drawback of the device is the impossibility of monitoring the amplitude-frequency characteristic of the group path, since it is possible to measure the characteristics of only one telephone channel. The closest to the technical essence of the invention is a device for monitoring the amplitude-frequency characteristic of occupied telephone channels, containing on the transmitting side a measuring signal generator and connected to the inputs of the channel-forming unit adder l, the first inputs of which are connected to the sources of information sources, and to the receiving side - an adder connected between the output of the line of monitored telephone channels and the input of the channel-forming unit, as well as successively connected minelayer 42 filter unit vscheleni pauses, the key setting unit and fixation layer and the measuring unit, the second input switch connected to the output of bandpass filter and the output of the key through the phase adjustment and fixing unit is connected to the input of the reference generator. torus, the output of which is connected to the second input of the tuner and level lock iz. However, in the known device, the amplitude-frequency characteristic of only one channel is monitored, and to monitor the amplitude-frequency characteristic of the group path, a large number of such devices are required, and the distribution of measurement frequencies in the group path spectrum in this case does not coincide with the points at which it is necessary to monitor, which does not provide the required accuracy of control and adjustment of the amplitude-frequency characteristics of the group path. The purpose of the invention is to improve the accuracy of monitoring the amplitude-frequency characteristics of the group path, as well as reducing the composition of the equipment. The goal is achieved by the fact that the device for controlling the amplitude-frequency characteristic of occupied telephone channels contains on the transmitting side a measuring signal generator and adders connected to the inputs of the channel-forming unit, the first inputs of which are connected to the outputs of information sources, and on the receiving side an adder , connected between the output of the line of controlled telephone channels and the input of the channel-forming block, as well as the series-connected barrier switch, tuner and fixer level and measuring unit, the second key input is connected to the output of the bandpass filter, and the key output is connected to the input of the reference generator, the output of which is connected to the second input of the setting and level fixing unit, and a switch is inserted on the transmitting side between the generator output of the measuring signal and the second inputs of the adders, and on the receiving side entered in series are connected an additional generator, a driver of the shear frequencies, a switch and the first mixer frequency, the output of which is connected to the inputs of a bandpass filter and a barrier filter, a second frequency mixer and a measurement signal analyzer connected between the output of the bandpass filter and the control input of the switch, the output of which is connected to the first input of the second frequency mixer, the second input of which is connected with the output of the tuner and fixer, and the output is connected to the second input of cyMMavopa, the first input of which is connected to the second input of the first frequency mixer. - The goal is achieved by using speech pauses in several channels in that at the transmitting end alternately in not: How many channels that are located at selected points in the spectrum of the group path, regardless of the useful information, does the measuring signal of one control frequency of a known level, and to the receiving end in front of the channel-forming equipment, the measuring signal is compensated by an antiphase signal, which is generated by a local reference generator, adjusted in the speech pause waves Nala phase and level came in one .From measurement signal channels. The value of the phase and level of the compensating signal is fixed at the end of each pause and maintained until the next pause, in which the adjustment is made again. The drawing shows a structural electrical circuit device for monitoring the amplitude-frequency characteristic of busy telephone channels. The device contains on the transfer side connected to the outputs of sources 1 1, ..., 1 information adders, ... 2, switch 3, the input of which is connected to the output of the generator 4 of the measuring signal, and the outputs are connected through adders 2, 2, .. ., the inputs of the channel-forming unit 5, connected to the line 6 controlled telephone channels, and on the receiving side - the first mixer 7 frequencies, switch 8, driver 9 shift frequencies, additional generator 10, band-pass filter 11, barrier filter 12, key 13, block 14 pause highlighting, block 15 Menus and phase locking, reference oscillator 16, configuration unit 17 and fixing layer, the measuring unit 18, a second frequency mixer 19, an adder 20, whose output is connected to an input of the channelization unit 21 and the analyzer 22, the presence of the measurement signal. The device works in the following way. On the transmitting side, regardless of the presence of speech signals from information sources 1, 1, ..., 1, the adders 2 2, ..., 2 (according to the number of selected channels), in turn, set by switch 3, receive a measurement signal from generator 4. The formed mixture of signals in one of the adders 2, 2, ..., 2 and voice signals from other adders are fed to the inputs of the channel-forming unit 5 and from there, separated in a certain order along the spectrum of the group path, in line 6. At the receiving side in the mixer 7, the spectrum of the group path is shifted in this manner. Therefore, the channel in which there is a measurement signal is in the range of the standard telephone channel. The transfer of the group path spectrum is accomplished by switching the switch 8 of the shift frequencies from the generator 9, which forms from a certain frequency an additional generator 10. The sequence of connecting different shift frequencies corresponds to the sequence of connecting the generator 4 to the adders 2, 2, ..., 2 on the transmitting side . From the output of the mixer 7, the mixture from the speech and the south signal meter is fed to the bandpass filter 11 and the barrier filter 12, the barrier filter 12 cuts the measurement signal, and the speech signal enters the pause allocation block 14. The gap selection unit 14 analyzes the speech signal and, if present, opens it for a duration of 13, allowing the measurement signal to pass through the band-pass filter 11 to the tuning and phase fixing unit 15, which adjusts the phase of the signal of the reference generator 16 in phase with the incoming measurement signal and fixes it during no pause in speech signal. The phase-adjusted signal of the reference oscillator 16 is fed to the level setting and latching unit 17, where it is adjusted by the level of the measurement signal, which arrives here in parallel with the phase setting and latching unit 15. The signal of the reference generator adjusted in phase and balance is fed to the measuring unit 18, where its level is measured, and in parallel to the mixer 19, where it is shifted to a certain part of the spectrum of the group path. For the shift, the same frequency is applied as to the mixer 7, which improves the accuracy of compensation of the measuring signal by the received antiphase signal in the adder 20. From the adder 20, the speech signal is fed to the input of the cannibrading unit 21. For ensuring synchronous operation of the switch 3 and the switch 8 serves analyzer 22 the presence of the measuring signal. In the initial position, the switch 3 connects the generator 4 to the first adder 2 and the switch 8 connects to the mixer 7 the shift frequency necessary for selecting the first of the selected channels. When the switch 3, regardless of the switch 8, connects the generator 4 to the next adder 2, the measurement signal disappears at the receiving side at the output of the band-pass filter 11. When the measurement signal disappears, the analyzer 22 activates the measurement signal and feeds the signal to the switch 8 to connect the next shift frequency to detect in the mixer 7 a little bit of the selected channels. The device provides control of the amplitude-frequency characteristic of the group path at specified points, and not at random points of the channels, thereby increasing the accuracy of the control, since the rates at the frequency response are set at these points, and hence the accuracy of the adjustments. When using the proposed device, the technical and economic indicators are improved in comparison with the known, namely, the complexity of the control equipment is reduced, since the task is solved with almost one set of equipment and the gain in its complexity approximately coincides with the number of channels of the controlled multi-channel communication system.

Claims (1)

DEVICE FOR MONITORING THE AMPLITUDE-FREQUENCY CHARACTERISTICS OF EMPLOYED TELEPHONE CHANNELS, containing on the transmitting side a measuring signal generator and adders connected to the inputs of the channel-forming unit, the first inputs of which are connected. They are connected with the outputs of the information sources, and on the receiving side there is an adder connected between the output of the line of monitored telephone channels and the input of the channel-forming unit, as well as a series-connected blocking filter, a pause highlighting unit, a key, a level setting and fixing unit, and a measuring unit, . The swarm input of the key is connected to the output of the bandpass filter, and the output of the key through the tuner and phase lock is connected to the input of the reference generator, the output of which is connected to the second input of the tuner and level lock, characterized in that, in order to improve the accuracy of control, a switch is introduced on the side, connected between the output of the measuring signal generator and the second inputs of the adders, and on the receiving side, an additional generator, a shear frequency former, a switch, and the first frequency mixer, the output of which is connected to the inputs of the bandpass filter and the trap filter, the second frequency mixer and the analyzer of the presence of the measuring signal connected between the output of the bandpass filter and the control input of the switch q, the output of which is connected to the first * input of the second frequency mixer , the second input of which is connected to the output of the tuning and level fixing unit, and the output is connected to the second input of the adder, the first input of which is connected to the second input of the first frequency mixer.