SU765852A1 - Device for receiving telemechanics information thriugh pipeline communication channel - Google Patents

Description

The output of the first element I is connected to the second input of the comparison unit b and through the unit 7 of the formation of the reference pulse to the second input of the first element I 5. The output of the comparison unit 6 is connected to the input of the control unit 8 and to the first input of the pulse counter 9, the second input of which is connected to one of the outputs (with the third) of the control unit 8, and the third input of the pulse counter 9 with the output of the generator of 10 pulses. The first and second outputs of the control unit 8 are connected respectively to the first inputs of the second element 11 and the memory block 12, the output of the pulse counter 9 is connected via the second connected second element 11 and the memory block 12 to the input of the decoder 13.

Signal and noise from pipeline channel 2-3 is fed to a low-pass filter 1. From the filter output, a sinusoidal signal is fed to the input of time delay element 4, the output of which gives a pulse through a time equal to t longer than the duration of a series of pulse interference from a circuit to two or three The impulse from the output of the time delay element 4 is fed to the first inputs of the first element 5 and the comparison block 6. The leading edge of the output-pulse of the first element AND 5 is started by the reference pulse shaping unit 7, the output pulse from the time delay element 4 in block 6 is compared with the reference pulse received through the AND 5 element from the reference pulse shaping unit 7 and, if they are equal, translates it returns to its initial state Tom samsh control unit 8 and on the first input locks the counter 9 pulses. The pulse counter charging from the pulse generator 10 is stopped. At this point, the control unit 8 outputs three successive control pulses.

The first pulse from the output of the control unit 8 enters the block 12. memory and sets it to its original state, thereby erasing the information that was previously stored in it.

. The second pulse removes the prohibition on the first input with the second element, and on the second input information is transferred from the counter 9 pulses to the memory block 12. From the output of the memory block, the information enters the decoder 13.

The third pulse from the control unit 8 sets the pulse counter 9 to the initial state, and the last one is prepared for the measurement of the next information.

After the time t (, f, equal to q at the output of the reference impulse formation unit 7, the impulse through the element 5 acts on the second input of the comparing unit 6 and puts it into a working state. The leading edge of the impulse from the output of the comparing unit 6 is removed from the first input to filling the counter 9. From the pulse generator 10, the counter is filled for a time equal to the duration of the information pause following, i.e. the device receives the next information parameter.

Such a solution allows to increase the noise immunity of the device and the reliability of the received information through the pipeline channel. The device can be implemented on any elements of digital technology.

Claims (1)

Invention Formula A device for receiving telemechanical information via a pipeline communication channel, containing a low-pass filter connected to the communication channel, a time delay element, a pulse generator, a pulse counter, and AND elements, characterized in that, in order to improve the noise immunity of the device, the comparison unit, the reference pulse shaping unit, the control unit, the memory unit and the decoder, the output of the low-pass filter through the time delay element connected to the first inputs of the first And element and the unit compared . The output of the first element I is connected to the second input of the comparison unit and through the reference pulse shaping unit to its second input, the output of the comparison unit is connected to the first input of the pulse counter and the input of the control unit, the outputs of which are connected respectively to the second input of the pulse counter and to the first inputs of the second element I and the memory unit, the third input of the pulse counter is connected to the output of the pulse generator, and the output is connected through the serially connected second element I and the memory unit connected to the input of the decoder