SU919111A1 - Device for automatic monitoring of communication channel parameters - Google Patents

Description

The invention relates to communications and can be used in information transmission systems when conducting preventive measurements. A device for automatic monitoring of communication channel parameters is known, which contains a control unit whose outputs are connected to the input of the information transfer unit and the Idrka control generators input, often an automatic gain control unit (AGC), whose output is connected to the indicator block input 1. However, the known device provides The reliability of the control is relatively low. The purpose of the invention is to increase the reliability of the control. The goal is achieved by introducing a parameter decoder, AGC track formers, an OR element, drivers for a category of parameters, a driver for control groups, a block of control elements for the sensitivity of the residual attenuation indicator, a block of control elements for the frequency indicator of the indicator noise, and the additional outputs of the control unit are connected to the input of the parameter decoder, the inputs of the former of the parameters and the input of the control group imaging unit, another parameter decoder input is connected to the output of the OR element, the inputs of which are connected to the first outputs of the AGC path formers, the second outputs of which are connected to the AGC block inputs, the first inputs of the residual indicator indicator control elements damping, two blocks, the sensitivity control indicators of the frequency response indicator and the block of noise control indicators control elements are connected according to Respectively with the outputs of the parameter decoder, the second inputs of the path formers, AGC, the sensitivity control elements block of the residual attenuation indicator, the frequency response indicator sensitivity control blocks, the noise characteristic sensitivity control block, are connected to the outputs of the parameter category drivers, the third outputs of the control element blocks sensitivity indicator of the frequency response are connected respectively with the first and second you shifts of the control groups, and the outputs of the sensitivity control elements of the residual attenuation indicator, the frequency control sensitivity control elements of the frequency response indicator and the noise control sensitivity control elements are connected to the corresponding inputs of the indicator block. The drawing shows a structural electrical circuit of the proposed device. The device for automatic control of communication channel parameters contains a control block 1, a block of information transfer 2, a block of 3 control frequency generators, a decoder for 4 parameters, shapers 5 of the AGC path, element OR b, shapers 7 of the parameter category, shaper 8 control groups, block 9 sensitivity control elements of the residual attenuation indicator two blocks 10 and 11 frequency response indicator sensitivity controls, a block of 12 noise indicator sensitivity controls, a block 13 AGC and a block of 14 indicators. Arrangement works as follows. At one of the stations (not shown), after connecting the device to the communication channel (not shown) in block 1, the required threshold values of the control parameters are set. In the proposed device, the threshold values of the control parameters are grouped into categories and groups, and this feature is decisive when the necessary threshold values of the control parameters are set in block 1. Using block 2, a block is transmitted to block 1 of the second station for its installation in the mode of operation for the selected category and control group. In the process of monitoring, block 1, according to a given) program, generates control signals with which block 3, block 13 and block 14 for monitoring parameters, and also block 2 for exchanging interaction signals between two stations are connected to a channel. . After selecting the necessary control category, at the output of block 1, a control signal is generated, which is fed to the input of one of the formers 7, is distributed to four intermediate outputs and the second inputs of the block 9, one of the formers 5, blocks and 11, respectively, connected to it. and block 12. The signal at their inputs is stored for the entire cycle of monitoring the parameters of one communication channel. When monitoring the residual damping, the control signals from the block are fed to the input of block 3 and the input of the decoder 4. At the same time, the required measuring generator of the block 3 is connected to the communication channel on the transmission. At the receiving end of the signal, the generator 3 signal passed through the communication channel input of the block 14. The control signal from the output of the decoder 4 is fed to the first inputs of the control elements of the block 9. If there are two signals on the respective first and second inputs, the signal from the corresponding output of block 9 goes to the block 14. Under its By appropriately selecting the appropriate category, the necessary sensitivity (threshold control value) of the indicator block 14 is set. The frequency response and the level of the noise are monitored taking into account the deviations of the residual attenuation of the communication from the nominal value. The control signals from block 1 to the process of bringing the residual attenuation to the nominal value are fed to the input of block 3 and the input of the decoder 4. At the same time, the required measuring generator of the block 3 is connected to the communication channel in the transmission. connection, is fed to the input of block 13. The control signal from the output of the decoder 4 is fed to the first inputs of the formers 5. If there are two signals at the corresponding first and second inputs, one of the formers 5 is included in the signal path ala block. 13 and, at the same time, the dynamic range of the level control is set accordingly to the selected category. If the dynamic range. the level control is not enough to bring the residual attenuation to the nominal value; the output of the imaging unit 5 produces a signal that through the OR element 6 enters the input of the decoder 4. The presence of a signal from the output of the OR element 6 at the input of the decoder 4 prohibits control of the frequency response and noise level. Monitoring of the frequency response and noise level is carried out in the absence of a signal from the output of the element OR 6. When monitoring the frequency response, the control signals from block 1. arrive at the input of block 3, the input of the decoder 4 and the input of the former 8. At the same time, the necessary measuring generators of the block are connected to the cables / connections to the transmission j. At the receiving end, the signal of the generator of the block 3 passed through the channel s through block 13 arrives at the input of block 14. Depending on the selected control group, the control signal from one of the outputs of the formate 8 is fed to the corresponding third inputs of blocks 10 and 11. The control signal from the output of the decoder 4 is sent to the corresponding first inputs of blocks 10 and 11 When available B three catch on respective inputs blo Cove signals 10 and 11 with their outputs fed to the block 14. Under its influence the selected category, respectively, and group optionally ustanovits | walk sensitivity (threshold value control) Indicator frequency haraktoris iki bloka14. When monitoring the noise level, the control signals from block 1 are fed to the input of block 3 and the input of the decoder 4. In this case, a load resistor is connected to the channel in the transmission (not shown). The control signal from the output of the decoder 4 is supplied to the first inputs of block 12, while the signal from the output of one of the drivers 7 is present at the corresponding second input. If there are two signals at the corresponding inputs of block 12, the signal from its output goes to block 14. Under its effect, according to the chosen category, will establish the required sensitivity (threshold control) of the noise indicator of unit 14. The proposed device provides a significant increase in the reliability of monitoring the parameters of communication channels, and kzhe efficiency of control. Formula 1 of the Invention A device for automatically controlling parameters of communication channels, comprising a control unit, the outputs of which are connected to the input of the information transmission unit and the input of the control frequency generator unit, the automatic gain control unit (AGC), the output of which is connected to the input of the indicator block, characterized by , that, with the purpose of increasing the reliability of the control, cc, the parameter decoder, the AGC path formers, the OR element, the caterers of the category of parameters, the control group of the control groups, the ale The two control units of the sensitivity characteristic of the frequency response indicator and the control unit of the sensitivity indicators of the noise indicator, the additional outputs of the control unit are connected to the input of the parameter decoder, the inputs of the controllers of the categories of parameters, and the input of the generator of the control groups, the other input of the parameter decoder is connected with the output of the OR element, the inputs of which are connected to the first outputs of the AGC path formers, The second outputs of which are connected to the inputs of the AGC unit, the first inputs of the AGC path formers, the sensitivity control block of the residual attenuation indicator, two frequency response indicator sensitivity control blocks, and the noise indicator sensitivity control block, are connected to the parameter decoder outputs, the second inputs of the AGC path conditioners , a block of control elements for the sensitivity of the residual attenuation indicator, a block of control elements the sensitivity of the frequency characteristic indicator, the noise indicator sensitivity control unit are connected respectively to the outputs of the driver categories of parameters, the third inputs of the indicator sensitivity control units are frequency, the characteristics are connected respectively to the first and second outputs of the control group generator, and the outputs of the residual attenuation indicator control unit , blocks of control elements of sensitivity indicator of frequency ha The characteristics and the block of control elements of the indicator / noise sensitivity are connected to the corresponding inputs of the indicator block. Sources of information taken into account during the examination 1. Equipment for testing communication channels ABA 2. Informational message. Institute of Communications, Warsaw, 1973 (prototype).

Claims (1)

Claim A device for automatically monitoring the parameters of communication channels, comprising a control unit, the outputs of which are connected to the input of the information transmission unit and the input of the control frequency generator unit, an automatic gain control unit (AGC), the output of which is connected to the 55 input of the indicator unit, characterized in that, with In order to increase the reliability of control, parameters decoder, AGC path shapers, OR element, parameter category shapers, control group shaper, sense control unit are introduced the duration of the residual attenuation indicator, two blocks of frequency sensitivity indicator sensitivity control elements and a noise indicator sensitivity control element block, the additional outputs of the control unit being connected to the input of the parameter decoder, the inputs of the parameter category shapers and the input of the control group generator, the other input of the parameter decoder is connected to the element output OR, the inputs of which are connected to the first outputs of the shapers of the AGC path, the second outputs of which are connected inenes with 2Q inputs of the AGC block, the first inputs of the AGC channel • formers, the block of control elements for the sensitivity of the residual attenuation indicator, two blocks of control elements for the sensitivity of the frequency response indicator and the block of control elements for the sensitivity of the noise indicator are connected respectively to the outputs of the decoder parameters, the second inputs of the path formers AGC, block of controls for the sensitivity of the indicator of residual attenuation, blocks of controls for the sensitivity of ind the frequency response indicator, the noise indicator sensitivity control unit block are connected respectively to the outputs of the parameter category shapers, the third inputs of the indicator sensitivity control element blocks are frequency), the characteristics are connected respectively to the first and second outputs of the control group generator, and the outputs of the sensitivity control unit of the residual attenuation indicator, blocks of control elements for sensitivity of the indicator of the frequency response and block elem ntov control sensitivity indikatora.shumov connected to respective inputs of the indicator unit.