SU1372605A1 - Multichannel device for signal detection - Google Patents

Abstract

The invention relates to a pulse technique. The multichannel device for signal allocation contains an analog switch (K) 1, threshold element 2, counters 3-5, 7 pulses, code comparator 6, memory devices 8-11, digital-to-analog converter 12, control unit 13 containing a synchronous frequency generator 14, elements Both 15, 17 and the frequency divider 16, K 18, the reference clock 19 and the output bus 20. The device has increased reliability by eliminating the effect of noise and interference uncorrelated with the signal on the threshold level. 2 Il.

Description

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The invention relates to a pulse technique and can be used in sonar, in particular in the detection of echo signals, using the stabilization of the level of false alarms.

The aim of the invention is to increase the reliability of the device by eliminating the influence of noise and interference uncorrelated with the signal on the threshold level and reducing the number of elements per one spatial channel (one source of information).

Fig. 1 shows a functional electrical circuit of a multichannel device for extracting signals; 2 is a timing diagram of the control signals generated by the control unit of the device for p 4.

The device contains an analog switch 1, the threshold Element 2, the first 3, the second A, the third 5 pulse counters, code comparator 6, the fourth pulse counter 7, the first 8, the second 9, the third 10, the fourth 11 memory devices (D / A), digital-to-analog converter 12 (D / A converter), control unit 13, comprising a synchronous frequency generator 14, a first element 15, a frequency divider 16, a second element 17, a switch 18.

The first input of the code comparator 6 is connected to the output of the third storage device 10, the second to the bus 19 for setting the number of pulses, the output of the switch 18 is connected to the output bus 20 of the device. Moreover, the information outputs of the first 3, second 4, third 5 and fourth 7 pulse counters and D-inputs are connected respectively to the outputs and inputs of the fourth 11, second 9, third 10 and first 8 memories. The recording inputs of the chargers 9, 10 and 11 are connected to the first output of the control unit 13 and the addition inputs of the first 3 and second 4 counters. The address output of the control unit 13 is connected to the address inputs of the analog switch 1, switch 18, and the memory 8-11, the input of the analog switch is connected to the device's p-inputs, and the output to the first input of the threshold element 2, the second input of which is connected to the output of the DAC 12 input of which is connected to the output of memory 8. Synchronous inputs of counters 3-7 are connected to the third output of control unit 13, the second output of which is connected to input Reset of counter 5 and input Record of memory 8. Inputs Reset of counters 3 and 4 are connected respectively to output first element 2 and output Transfer counter 3. Output The transfer of the nose of the counter 4 is connected to the input

summation of the counter 5 and the input of the switch 18. The first and second outputs of the code comparator 6 are connected to the inputs of the summation and subtraction

5 counter 7, respectively.

A device for extracting signals operates as follows.

Depending on the address code present on the control inputs

0 of switch 1, one of the n-inputs of the device is connected to the input of the threshold element 2, and the address changes with such a frequency that in one analyzed time sample

5 all the n-sources of information are compiled. Depending on the ratio of the amplitudes of the input signal and the threshold signal at the output of the threshold element 2, either a unit or zero is formed (pause), and the unit corresponds to the input signal exceeding the threshold. From the address corresponding to the connected channel, from the memory 9-11, the signal from the first rise of the control unit 13 is considered to be codes corresponding to the duration of pauses between pulses (memory 11), pulse duration (memory 9), the number of pulses (memory 10), but by

0, the signal from the third output of the control unit 13 from the memory unit 8 reads the threshold value code. On a signal from the second output of the control unit 13, these codes are recorded in the counters 3,

5) 4, 5, 7, respectively. The threshold code from the output of the charger 8 is fed to the input of the DAC 12, where it is converted into a voltage, and then fed to the control input of the threshold element 2.

Q If a unit is present at the output of threshold element 2 (the threshold is exceeded), then counter 3 is reset, and one is added in counter 4, and during the existence of this channel address by a signal Record from the first output of control unit 13, new codes are written 11 and 9 respectively. If the output of the threshold element 2 is zero, the unit is added to the counter 3 pauses, and in the counter 4 of the pulse duration, the code remains unchanged. In case in the counter

3 pause code exceeds the specified value (the pause duration is longer than the specified one), then the counter 4 pulse is reset to zero by a signal from the output of counter 3, thereby ensuring the selection of a new pulse after a long pause. When in the counter

4 pulses dial the code corresponding to a predetermined pulse duration, a signal appears at its output and a unit is added to the pulse counter 5, and the switch 18 passes the channel code in which the signal with the specified parameters was sent to the device output bus 20.

When changing the address, the device performs similar operations for the next channel (source of information).

In the next analyzed time interval, operations for all n channels are performed in a similar way.

At the end of the considered section (at the end of the frame), the signal from the third output of the control unit 13 controls the threshold values not only read from the memory 8, but is updated depending on the number of pulses exceeding the threshold. The update is performed as follows. To the input of the code comparator

6 out of memory 10, the number of pulses exceeding the threshold in this channel is read, and from memory 8 to the counter

7 A threshold code is recorded for this channel. Depending on the ratio of codes at the inputs of code comparator 6, one is added or subtracted to counter 7, and the result is written (during a positive pulse from the third output of control unit 13) to memory 8 at the corresponding address. Thus, the threshold code for the next section is generated for each of the n channels. Threshold codes are updated during the dead zone, when signals to the input of the device are not received and from the output of the device are not used.

Claims (1)

The positive technical effect of using the device is to increase the reliability of its operation 5a by eliminating the influence of noise and interference uncorrelated with the signal on the threshold level, which is achieved by introducing a connection between the output of the counter of 4 pulses and the input of the counter of 5 pulses, due to the fact that elements that fulfill the functions of counting pauses between pulses, counting the duration of pulses, counting the number of pulses, comparing the calculated number of pulses with a given value, generating a threshold code, forming a threshold code to the reference voltage, selecting the input signal by voltage level, serves a group of n channels, and the results of the listed performed operations are stored in the corresponding memory devices and are used when servicing the corresponding channel, which allows to reduce the specific the weight of the hardware in terms of one channel. Invention Formula five Multichannel device for signal isolation, containing a threshold element whose output is connected to the input Reset the first pulse pulse counter, output Transfer the first pulse counter connected to the input Reset the second pulse counter output Transfer of which is connected to the control input of the switch, the output of which is the output of the device, the third a pulse counter, the D input of which is connected to the first input of the code comparator, the second input of which is connected to the bus of the number of pulses, the first output of the code comparator is connected to the input of The fourth pulse counter, and the second output, with the subtraction input of the fourth pulse counter, the information output of which is connected to the information input of the first storage device, the output of which is connected to the input of the digital-analogue converter, the output of which  connected to the control input of the threshold element, the control unit, the first output of which is connected to the summing inputs of the first and second pulse counters, the second output connected to the input Reset the third pulse counter and to the input Record of the first memory device, and five 0 five The address input of the first storage device and the information input of the switch, characterized in that, in order to increase the reliability of the device by eliminating the influence of noise and interference uncorrelated with the signal, on the threshold level and reducing the number of elements per channel, analog switch, the second, third and fourth storage devices, the input of the analog switch connected to the p-inputs of the device, and its output connected to the input of the threshold element, the address inputs of the second second, third and fourth memory devices are connected to the address input of the analog switch and the output of the address control unit, outputs a fourth memory connected to the D-inputs of the first pulse counter, which outputs are connected to the information vho- the house of the fourth memory device, the output of the second memory device is connected to the D-input of the second pulse counter, the output of which is connected to the information input of the second memory device, and the output Transfer of the second pulse counter is connected to the summing input of the third pulse counter, the output of the third memory device is connected to D- the input of the third pulse counter, the output of which is connected to the information input of the third storage device, the output of the first storage device ene with a D-input of the fourth pulse counter inputs recording the second, third and fourth memory devices are connected to the first output of the control unit, the third output is connected to the clock terminal of the first, second, third and fourth pulse counters.  LguppJlJgJtlJgJTJllJlГLJ