SU902296A1 - Device for receiving and transmitting discrete information - Google Patents

Description

(5) DEVICE FOR TRANSMISSION AND RECEIVING DISCRETE INFORMATION

Claims (1)

The invention relates to telemechanics and can be used in automated control systems for collecting information about controlled objects. A device for transmitting and receiving discrete information is known, comprising on a transmitting side a serially connected pulse generator a pulse shaper and a power amplifier, on a receiving side serially connected shaper a discharge end selection unit, a delay line and a shift register, as well as serially connected pulse generator and a code converter, the second input and output of which are connected respectively to the output of the delay line and to the input of the shift register, and the third input is connected to the second Shaper output 1. However, the known device does not provide a sufficiently high reliability of information exchange. This is due to the fact that the informational characteristic of the signal is the a6-solar value of the duration of electrical pulses, which is influenced by destabilizing factors in the transmitter, the communication channel and in the receiver. The purpose of the invention is to increase the reliability of information exchange. This goal is achieved by the fact that in a known device on the transmitting side, the pulse shaper is made as a sequence of connected two-bit counter, decoder, AND-OR element and RS trigger, as well as a switch, whose input is connected to the corresponding decoder input and the RS trigger, and RS the outputs are connected to the corresponding inputs of the AND-OR element, on the receiving side the code converter is made in the form of the first valve connected in series, the first counter, the comparison unit and the second valve, and contains the third valve. whose buffer is connected to the input of the second counter, the output of which is connected to the second input of the comparison unit and the delay line whose output is connected to the other inputs of the first and second counter, and the input is connected to the second input of the second valve and to the output of the discharge end of the discharge unit The first input of the third valve is connected to the second input of the first fan, and the second is connected to the input of the discharge end discharge unit, while the inputs of the first valve, the delay lines and the output of the second valve are the inputs and outputs of the code converter. The drawing shows a functional diagram of the proposed device. The device for transmitting and receiving disc information contains, on the nepen-v and the giving side, a pulse generator 1, a pulse shaper 2 consisting of a two-bit counter 3, a decoder, an AND-OR element 5, an RS flip-flop 6, a switch 7 and also an amplifier 8 power, on the receiving side shaper 9, block 10 of the end of bits, delay line 11, shift register 12, pulse generator 13, code converter} k, made of the first 15 valve, first 16 counter, comparison block 17, second 18 valve, as well as the third 19 valve, the second 20 counters j, delay line 21, link 22. The device works as follows. On the transmitting side, the information given in the form of a binary digital code N is fed to the input of the switch 7. The pulse generator 1 generates pulses with a 1 / T following period (where T is the pulse following period at the output of the transmitter), which comes to driver 2 impulses the input of a two-bit counter 3 to four possible states of which correspond to outputs 0,1,2 and 3 of the decoder k. When the two-bit counter 3 overflows, the output of the decoder k appears, 0. This signal arrives at the input of the switch 7 having N states. Each overflow of a two-bit counter 3 corresponds to the transmission of one code bit. Switch 7 performs a running control of all bits of a given NJ code and each period signal is present or at its inverse course, if the corresponding code N bit is written At the zero value, a signal appears at the output 1 of the decoder 4, and at one, the output at the output 3 and excites the AND-OR 5 element. Accordingly, the RS-flip-flop 6 is in the excited state for 1 / T at zero th code value and for 3 / + T with a single code value. The signals from the output of the flip-flop 6 through the power amplifier 8 are fed into the communication channel 22. The signal transmitted over the communication channel 22 is fed to the input side of the imaging unit 9 at the receiving side, which restores the squareness and amplitude of the pulses. The signal from the direct output of the former 9 is controlled. the third 19 valve in the input circuit of the second 20 counter, and the signal from the inverse output - the first 15 valve in the circuit of the first 16 counter. Thus, during the pauses between the received pulses, the first 15 valve is opened and the first 1b counter accumulates pulses from the pulse generator 13, and during the presence of pulses the third 19 gate is opened and the accumulation of pulses from the pulse generator 13 occurs in the second 20 counter. Codes of the first 1b and second 20 counters respectively simulate the duration of the pause and input pulse. The counter codes are compared by block 17 of the logic comparison more - less. The result of the comparison is fed to the input of the recording of the shift register 12 through the second 18 ven (the tile opened at the end of each bit of the input signal by a short pulse selected by the discharge end extracting unit 10. By the same pulse but delayed using delay lines 11 and 21 there is a shift by one bit in the shift register 12 and the reset of the first 1b and 20 counters. When a unit is received, the code of the second counter 20 at the time of unlocking the second valve 18 at the end of the discharge is twice the code of the first counter 16. This causes the unit to write to the input:, shift register 12. When receiving zero, the ratio of counter codes will be reversed, which results to write zero to the input of shift register 12. For undistorted reception, it is sufficient that the zero pulse duration does not exceed half the period. At the end of each bit of the received signal, information in shift register 12 is shifted by one bit to the right, so that at the end stem receiving N bits of the received pulse sequence in zapishuts right rows N bit shift register 12 as information. Thus, the use of the proposed device increases the reliability of the transmission of discrete information using simple technical means characteristic of pulse-width manipulation of signals, and avoids the use of more complex systems — using frequency and phase manipulation. Formula of an Image A device for transmitting and receiving disc information containing a sequentially connected pulse generator, a pulse shaper and a power amplifier on the transmitting side, sequentially connected shaper on the receiving side, a discharge end selection unit, a delay line and a shift register, as well as serially connected oscillators pulses and code converter, the second input and output of which are connected respectively to the output of the delay line and to the input of the shift register, and the third input of the connection With the second output of the driver, characterized in that, in order to increase the reliability of information exchange, on the transmitting side the pulse shaper is designed as a series-connected two-bit counter, a decoder, an AND-OR element and an RS flip-flop, as well as a switch, whose input connected to the corresponding input of the decoder and the R-input of the RS-flip-and-gera, and the outputs are connected to the corresponding inputs of the AND-OR element; the first counter, the comparison unit and the second valve, and also contains the third valve, the output of which is connected to the input of the second counter, the output of which is connected to the second input of the comparison unit, and the delay line, the output of which is connected to the other inputs of the first and second counter and the inlet is connected to the second inlet of the second valve and to the outlet of the discharge end discharge unit; the first inlet of the third valve is connected to the second inlet of the first valve, a. the second input is with the input of the discharge end selection unit, with the inputs of the first valve, the delay lines and the output of the second valve being the inputs. code converter outputs, Sources of information taken into account during the examination 1. Dispatcher set Sprut. Technical description. NIIAchermet; Dnepropetrovsk, 1965 (prototype). Transmitter