SU745000A2 - Device for automatic monitoring of communication channel state by noise level and residual attenuation - Google Patents

Description

9 using the control subchannel f by periodically transmitting the control frequency over it, containing on the transmitter-aiefl side a control jacTotbi generator with a power amplifier and a high-pass low-pass filter block, and at the receiving side - a low-pass filter block and high-pass the control frequency and the threshold circuit for measuring the residual voltage of the Gkhani, on the transmitting side, a key amplifier with a cascade of electronic automatic switching is connected to the output of the control frequency generator The control frequency generator, and on the receiving side, is parallel to the channel for measuring the residual attenuation to the distributor. The power is connected to the -1-1.ng channel for measuring the noise level and the electronic switching cascade with control circuits from series-connected amplifiers - Limiter, frequency divider, standby multivibrator & dc amplifier, while the noise level measuring channel contains a key amplifier connected in series, a threshold noise level measuring circuit and delay, key is entered, additional element OR two elements AND, element NOT, additional standby multivibrator and control mode switch5, this is the buffer stage and output- The threshold of the noise level measuring circuit is connected to the first and second inputs of the additional element respectively OR, the output of which is through a series-connected first element AND element NOT, the input of which is combined with the first input of the second element AND, the additional waiting multivibrator and control mode switch are connected to the combined control inputs of the control frequency generator, the first, second, third, and fourth switches, the residual attenuation and noise level measurement circuits, and the first and second AND elements, the output of the OR element is connected to the BTopbnvi inputs of the additional standby m switch and the switch control modes, the output of which and the output of the second element And are the control outputs. {by reserveing, the output of the amplifier power is 1: it is connected to the input of the first key, the output of which and the output of the second key,. the signal input of which is the input from the subscriber is connected to the input of the lowpass filter of the transmission, the output of the lower receive filter is connected to the combined signal-inputs of the third, the output of which is a code to the subscriber, and a fourth key, the output of which is connected -. Litel, and the outputs of the first element, AND, and the element are NOT outputs for displaying the results of xcrol. The drawing shows the structural electrical circuit of the proposed device. The device for automatic control of the communication channel state by noise level and residual attenuation contains a control frequency generator 1, a key amplifier 2 with a cascade of electronic automatic switching, an amplifier of power 3, filters high l low pass frequencies 4 and 5, first and second keys 6 and 7; filters of the upper and lower frequencies gfeem 8 and 9, the third and fourth keys 1О and 11, before: radar i2, distributor of the monkey 13; key amplifier 14, threshold residual attenuation measurement circuit 15, buffer cascade 16, inverter 17, delay circuit 18, amplifier-limiter 19, clock pulse generator 20, divider often 21, standby multivibrator 22, two DC amplifiers 23 and 24 , electronic switching stage 25, key amplifier 26, threshold noise level measurement circuit 27, delay circuit 28, element OR 29, additional element OR DZ, first element AND 31, element 32, additional waiting multivibrator 33, second element 34 and a switch modes to ntrol 35. The device for automatic control of the state of the communication channel by noise level and residual damping (L) works as follows. The device controls in two modes; 1) with switching from the main channel to the backup channel according to the results of control by subchannel; 2). with switching from the main to the backup according to the results of preliminary control over the subchannel and subsequent control over the information channel. In the first mode, the control frequency signal (for example, 3350 Hz) with a highly stable amplitude is transmitted from the output of the control frequency generator 1 through a key amplifier 2 and a power amplifier 3 into a control subchannel with a frequency band of 310 O 3400 Hz, formed using a high-pass filter 4

and a lowpass filter transmission 5. In this mode, the second key 7 is open, and the first key 6 is locked.

At the receiving side, the pilot signal is received through the high-pass filter 8 and the preamplifier 12 is fed to the power distributor 13, and from the output of the latter is transmitted one-by-one to the inputs of the key amplifier 14, the limiting amplifier 19 and the key amplifier 26.

In this mode, the third key 10 is open, and the fourth key 11 is locked.

From the output of the amplifier 1O, the control signal is transmitted through the clock pulse generator 20 to the frequency divider 21 with a division factor equal to the frequency of the control signal, i.e. 3350. As a result of this frequency maker 21, a multivibrator 22 is waiting for approximately 1 second (determined by the selected division ratio) a control pulse is applied.

The waiting multivibrator 22 is tilted and through the DC amplifiers 23 and 24, the inhibitory potential is applied to the key amplifiers 14 and 2 and at the same time the unlocking potential to the key amplifier 26. As a result, the control signal is transmitted to the communication channel for a time approximately equal to 1 second ( until the standby multivibrator 22 returns to its initial state), the key amplifier 26 is unlocked and the noise level is measured using a threshold noise level measurement circuit 27.

When the control signal voltage ceases to arrive at the input of the threshold residual attenuation circuit 15, the control potential Hf divides the frequency divider 21 from its output through the electronic switching stage 25, resulting in the frequency divider 21 returning to the initial (zero) state.

The process of measuring the residual attenuation and noise level is cyclically repeated after the waiting multiviton 22 returns to its original state.

In order to consistently switch the pre-nested device when measuring the residual attenuation and the level of the noise, the frequency divider 21 located on the receiving and transmitting sides of the control subchannel must be synchronized.

In the described device, this is achieved by using frequency divider 21.

In order to eliminate the so-called synchronization, the cascade of electric commutation 25 ensures that frequency divider 21 returns to the zero state with each removal or disappearance of the control signal. Due to this, synchronous operation of frequency divider 21 placed on opposite cogs of the control subchannel is provided according to Prishvin, which is received in start-top systems. To eliminate spurious channel switches, when the pilot signal is removed, the inhibit potential is given at intervals of the measured noise level to the input of the buffer cascade 16 from the output of the DC amplifier 23.

In order for the short-term interruption of the control signal to avoid false switching to the backup channel, delay circuits 18 and 28 are introduced, through which control potentials are applied to the OR element 29.

To the output of the latter in the mode in question, an executive node of the backup device is connected via the control mode switch 35.

In the case of detection using a threshold scheme for measuring residual attenuation 15 or a threshold scheme for measuring noise level 27 unacceptable deviations from the norms for residual attenuation or level shu, {and from their outputs jTipasion potential is fed to one of the inputs of the OR 29 element and through some the time determined by the parameters of the delay circuits 18 and 28, the terminal subscriber equipment is switched from the main channel to the backup one.

Simultaneously, from the output of the element OR 29, a switch is applied to the control circuits of the first, second, third, and fourth keys 6, 7, 10, and 11, as well as to the control circuits of the threshold circuit for measuring residual ground 15 and the threshold circuit 27 and the control frequency generator 1.

As a result of unlocking the first and fourth keys 6 and 11, the device is connected to the information channel of the tone frequency through low-pass filters of transmission and reception 5 and 9.

At the same time, the second and third keys 7 and 10 are locked, and the subscriber units are disconnected from the information channel.

Under the action of the controlling controller, the frequency of the control frequency of the control frequency 1 is also changed from 3350 Hz to 800 Hz, at which the residual damping of the tone frequency channel is estimated.

In addition, there is a change in the sensitivity of the threshold schemes for measuring the attenuation and the level of shugl 15 and 27. The sensitivity can be changed, for example, by 1–1 measuring the threshold voltage of the limiter.

The permissible deviation of residual zatzani values relative to its nominal value is tO, 25 lei at a frequency of 8OO Hz and a frequency of 3350 Hz for a standard tonal channel with a bandwidth of ZOO-34OO Hz.

Accordingly, the sensitivity of the threshold scheme for measuring the residual attenuation 15 should be reduced by approximately 0.7 aep (6.0 dB),

If the noise in the channel has a spectral density, then when switching the device from the divided subchannel to the PA channel of the tonal frequency with an upper transmission frequency of 31OO Hz, the threshold sensitivity of the noise level measurement circuit 2 should be decreased by about 1.2 np (10.3 dB) .

If a tone frequency deviation from the channel norms is detected by the residual attenuation or by the level (or both mentions M parameters) from the threshold circuit, the residual attenuation 15 is measured through the buffer} 16 stage or from the threshold output circuit; Noise 27 receives control inputs to Bha, along with an additional element OR ZO. From the output of the latter, in this case, the input of the first element I 31 is fed in and, if the control 35 also receives a potential to the second input of this element, then an alarm signal is given to the corresponding input of the counter of communication channels.

If the residual attenuation and noise level in the tonal frequency band is within the norm, then the control power from the outputs of the above threshold residual noise measurement schemes; no noise level 15 and 27 is not supplied to the inputs of the additional element OR 30 and from the output of the element HE 32 to the corresponding; the main input of the scoreboard of the contra-sh channels is given a signal correctly.

In the second of the mentioned1) 1x above control modes, the output of the element OR 29 is connected through the interlocking of the control modes 35 to the input of the additional live multivibrator 33. Therefore, when the control potential potential element OR 29 comes out, the additional live multivibrator 22 is tilted, resulting in the output potentials are given to the control inputs of the threshold schemes for measuring residual attenuation and noise 15 and 27, the generator of the control frequency 1 and the first, second, third and fourth keys 6, 7, 10 and 11, as well as to one of the inputs s second AND gate 34.

The process of checking the status of the information drop in the mode in question does not differ from that described above. If a channel deviates from the norm in terms of residual attenuation or noise level (or in both mentioned parameters), the corresponding potentials of the additional element OR i 30 receive the same potentials. From the output of the latter, the potential is applied to the second output of the second element I 34 and from its output the command is received to switch the terminal user equipment from the main information channel to the backup one. At the same time, the avartes signal is lit on the control panel.

If the control technology does not arrive at the second and second element 34, the switching from the main channel to the backup channel does not occur and the signal on the control panel lights up correctly,.

At the same time, the control potential of the additional standby multivibrator 33 flows from the output of the element HE 32, it overturns, and the device returns to its original state.

Claims (1)

Invention Formula Device for automatic monitoring of the state of the communication channel by noise level and residual attenuation by aut. St. USSR No. 277021, characterized in that, in order to increase the control accuracy, a key is entered, an additional element OR, two AND elements, an NOT element, an additional waiting multivibrator and a control mode switch, while the output of the buffer stage and the threshold threshold .. noise level connected to correspondingly the first and second inputs of an additional OR element, the output of which is through the first element AND connected in series, the element NO, whose input is combined with the primary input of the second element AND, the additional waiting multivibrator and the control mode switch Gdod of the keys to the combined control inputs of the control frequency generator, first, second ,. the third and fourth, threshold schemes for measuring the residual attenuation and noise level and the first and second elements AND, the output of the element OR is connected to the second inputs of the additional standby multivibrator and switch the control mode switch, the output of which and the output of the second element And are the outputs of the control redundancy, the output of the power amplifier is connected to the input of the first key, the output of which and the output of the second key, whose signal input is the input from the subscriber, is connected to the input of the low-pass filter, the output of the low-pass filter is connected to the combined signal inputs of the third key, the output of which is the output to the subscriber, and the fourth key, the output of which is connected to the preamplifier, and the outputs of the first AND element and the NOT element is yuchch with vyhodak and displaying results KOHTV roll.