SU1042189A1 - Device for receiving pulse-modulated signals - Google Patents

Abstract

A DEVICE FOR RECEIVING SIGNALS WITH PULSE MODULATION, containing series-connected differential shaper, threshold decisive unit and control signal shaper, the first output of which is connected to the first inputs of the first switching unit and the counter, whose output is connected to the first key input, This first input of the driver of the differential signal is connected to the input of the delay element, the output of which is connected to the second input of the first switching unit, the third input of which is connected to the output one unit of the prediction of the value of the signal, the input of which is connected to the first output of the first switching unit, and the second output of the driver controls the signals to be connected to the second input of the counter, so that, in order to improve the noise immunity, under the influence of anomalous interference, a second switching unit, a memory unit and an interference correlation evaluation unit are introduced, the first input and output of which are connected respectively to the output of the key and the second input of the control signal generator, the second output of which is under It is connected to the second i input of the interference correlation estimator and to the first input of the memory block. The second input and output of which is soy (Linnen respectively with the second output of the first switching block and the second key input, and the output of the signal prediction block is connected to the first input of the second switching unit, the second and third inputs of which are connected respectively to the outputs of the delay element and the counter, and you {the course of the second switching unit SD DO is connected to the second input of the differential signal generator. . :about

Description

The invention relates to radio engineering and can be used in systems for measuring, transmitting and processing messages under the conditions of group anomalous interference. .

A device for receiving and processing signals with pulse modulation, comprising a differential signal generator, a threshold decision block, a control signal generator, one input of which is connected to the output of the threshold decision block, a switch, a control input of which is connected to one output of the control generator, is known. signals, the signal prediction block, whose input is connected to one switch output, and the prediction block output is connected to the second switch input, the signal delay element is controlled A reference, the input of which is connected to the information input of the raster driver, and the output connected to one input of the switch l.

A disadvantage of this device is low noise immunity, since as the values of the group of anomalous noise of large length arrive, the device begins to pass unreliable values, therefore this device is applicable only to groups of anomalous noise of small length.

Closest to the invention is a device for receiving signals with pulse modulation, comprising a serially connected differential driver, a threshold decision unit and a control signal driver, the first output of which is connected to the first inputs of the first switching unit and a counter whose output is connected to the first input key, while the first input of the delimiter shaper is connected to the input of the delay element, the output of which is connected to the second input of the first switching unit, tr Tille input coupled with the output signal value prediction unit whose input Cpd a first output of the first switching unit and the second output of the control signals for connecting a second input of the counter 2. .

However, this device has a low noise immunity when exposed to anomalous interference.

The purpose of the invention is to improve the no-i immunity when exposed to normal noise.

The goal is achieved by the fact that, in a device for receiving signals with impulse modulation, the content of a series-connected differential shaper, a threshold decision unit and a control signal shaper, the first output of which is connected to the first inputs 5 of the first switching unit and the counter whose output is connected with the first key input, with the first input of the differential signal generator connected to the input of the delay element, the output connected to the second input of the first switching unit, the third input of which is Connected to the output of the prediction unit of the signal value, the input of which is connected to the first output of the first switching unit, and the second output of the control signal generator connected to the second input of the counter, the second switching unit, the memory unit and the evaluation unit are entered

0 interference correlation, the first input and output of which are connected respectively to the output of the key and to the second input of the control signal generator, the second output of which is connected to

25 to the second input of the interference correlation estimator and to the first input of the memory block, the second input and the output of which are connected respectively to the second output of the first switching block

0 and with the second key input, and the output of the signal value prediction block is connected to the first input of the second switching block, the second and third inputs of which are connected to the yen respectively

the delay element and the counter, and the output of the second switching unit is connected to the second input of the differential signal generator.

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

A device for receiving signals with pulse modulation contains a differential signal generator 1, 5 threshold decision unit 2, a control generator 3; signals,, counter 4, key 5, evaluation unit b, interference correlation, delay element 7, first switching unit 8, 0 memory block 9, second switching unit 10, prediction unit 11, signal.

The device works as follows

5 The controlled sample is fed to one input of the former 1 of the differential signal and to the input of the delay element 7. On the other input, the imager 1 receives a signal

0 through the second switching unit 10 or from the output of unit 11 in the absence of a signal at the control input of the second switching unit 10 about the presence of a group of anomalous clocks. or a delay element 7 in the presence of a signal on the arrival of a group of anomalous interference on the control input of the second switching unit 10. In the first case, a split difference signal is generated at the output of shaper 1. In the second case - the signal of finite difference. The difference signal from the output of a differential signal generator 1 is fed to the input of a threshold cutting unit 2, where it is compared with a predetermined known horizontal value of the differential signal. If there is no anomalous interference, the signal of the generated difference does not exceed the value of the specified threshold, and the input signal from the output of the threshold solver of block 2 is zero at the input of the control signal generator 3. The signal on the other input of the driver is also zero in this case. At the output of the imaging unit 3, connected to the control input of the first switching unit 8 and with the counting input of the counter.4, the signal is also zero, and at the other output of the inverter 3 control signals connected to the other input of the count 4, with the input memory block 9 and with the input of the interference correlation estimator 6, the signal for setting the counter 4 is generated, memory block 9 and the interference correlation estimator 6 to zero In this case, the monitored sampling through the first switching unit 8 from the output of the delay element 7 enters the output of the device and the input of the bl Signal prediction value 11, in which a predictable estimate of the next monitored reference is generated in a known manner. . If the monitored count contains a single anomalous interference, the signal at the output of the imaging unit 1 exceeds the value of the specified threshold. At the output of the threshold decision block 2, the signal will be different from zero. At one output of the generator 3, in this case, a control signal other than zero appears, since there is also no signal in this case at the other input of the former 3. The control signal from the output of the spinner 3 is fed to the counting input of the counter 4 and to the control input of the first switching unit 8. The counter 4 is set to the position corresponding to the arrival of the control signal, and to the memory unit through the first switching unit 8 from the output the delay element 7 receives an abnormal interference value signal; A predicted estimate of the monitored reference is fed to the output of the device through the first switching unit from the output of the unit 11 for predicting signal values. When the group of anomalous interference arrives, the counter 4 counts the control signals from the imaging unit 3 generated with the arrival of each anomalous disturbance, and the memory unit 9 stores the values of the anomalous disturbance. When accumulating in the counter 4 a certain number of control pulses m, where m. Is a predetermined number, in the output of counter 4 a signal appears about the presence of anomalous interference group, opening key 5 and arriving at the control input of the second switching unit 10. At the same time to the other input of the imaging unit 1 through the second switching unit 10 receives the signal of the previous controlled reference from the delay element 7. Shaper 1 produces in this case a signal of finite difference. From memory block 9 through the public key 5, memorized signals of the anomalous interference values are received by the public key 5 into the interference correlation estimator. If the group of anomalous interference is uncorrelated, then there is no signal at the output of the interference correlation evaluation unit 6. If the group of anomalous interference has a degree of correlation equal to or greater than the degree of correlation of the monitored process, then the signal of the final difference at the output of shaper 1 does not exceed the specified threshold, and at the output of the threshold decision block 2, as in the absence of anomalous interference, the signal equals zero. But in the case of a drive of a correlated group of anomalous interferences, a signal appears at the output of the interference correlation evaluation unit 6, which generates a signal at the output of the generator 3, inverse to the signal from the output of the threshold block 2, so that the correlated anomalous interference group does not pass to device output. Upon arrival, the value of the signal corresponding to the end of the anomalous interference group (the beginning of a reliable section of the monitored process). The difference signal exceeds the threshold value: at the output of the threshold decision unit 2, a signal appears which is inverted in the driver 3. At the control input of the first switching element block 8, the signal is zero, and at another output of the driver 3, the signal for setting the counter 4, memory block 9, and interference correlation estimator 6 to zero appears. Device coming

to the state corresponding to a reliable controlled reading.

Thus, the introduction of additional blocks and links allows: to increase the noise immunity, devices for receiving and processing signals with pulse modulation by detecting anomalous noise correlated with the controlled sample of the Group and by detecting from the split difference to the end end groups of anomalous interference, i.e. The proposed device allows detection of large-length anomalous interference groups.

We control the countdown

Claims (1)

DEVICE FOR RECEIVING SIGNALS WITH PULSE MODULATION, containing a series differential signal driver, a threshold decision unit and a control signal generator, the first output of which is connected to the first inputs of the first switching unit and counter, the output of which is connected to the first input of the key, while the first input a differential signal former is connected to the input of the delay element, the output of which is connected to the second input of the first switching block, the third input of which is connected to the output of the block and _x predicting the value of the signal whose input is connected to the first output of the first switching unit, and the second output of the driver of the control signal is connected to the second input of the counter, so that in order to increase the noise immunity, when exposed of abnormal interference, enter the memory Λ block and the interference correlation estimation block, the first input and output of which are connected respectively to the key output and to the second input of the control signal, the second output of which is connected to the second input of the noise correlation estimation block q and to the first input of the memory block. ® ® • the second input and output of which are connected respectively to the second output of the first switching block and to the second input of the key, and the output of the block predicting the signal value is connected to the first input of the second switching unit, the second and third inputs of which are connected respectively to the outputs of the delay element and counter, and the output of the second switching unit is connected to the second input irovatelya difference signal.