SU733113A1 - Bipolar signal transceiver - Google Patents

Description

J.1, delay unit 12, elements AND 1315, one-shot 16 and trigger 17, a device for transmitting and receiving bipolar signals operates as follows. Random bipo sequence. These signals with different durations are fed to the input of shapers 1 and 2 (Fig. 3, a), which fix the position of the leading edge and normalize the amplitude and duration of the input signals. Each driver, which may include amplifiers, threshold octopus-new vibrators, forms input signals of only one polarity, for example, the first driver 1 captures and normalizes the negative polarity signals (Fig. 3.6), and the second driver 2 signals a positive polarity (Fig. Behind). At the output of the formers 1 and 2, respectively, two pulse sequences of different polarity and short duration are formed, which retain all the information parameters of the input signals (polarity and position of the leading edge). A sequence of positive polarity pulses passes through an inverter (Fig. 3, d), resulting in a phase mismatch between two sequences, i.e., a sequence of pulses with a positive polarity will lag behind a sequence of pulses with a negative polarity a sequence of pulses of positive polarity passes encoder 3, which encodes a pair of pulses (delay between pulses Tj) an inverted sequence of pulses positively polarity (Fig. 3, d), with the first pulses passing encoder 3 without delay. The element OR 4 combines both sequences of pulses (FIG. 3), which, via matching unit 5, for example a power amplifier or a pump generator, arrive at the transmitter 6, for example an LED. Through an optical communication channel, such as a glass-to-window communication cable, light pulses enter the input of the regenerator 8, such as a photodiode, are amplified and fed to the input of decoder 9 (Fig. 3, m). When passing, all pulses are delayed by. PG time, Decoder 9 separates two sequences in such a way that pulses from the first output correspond to negative polarity input signals (Fig. 3, and), and GO-second output are pulses corresponding to positive polarity input signals (Fig 3, a). Both sequences of pulses retain a difference in phase equal to T, and have the same polarity. The pulses during the passage of the decoder 9 are delayed by the time C, To eliminate the phase shift between the sequences of pulses and restore the information parameter of polarity signals, the sequence of pulses from the first output of the decoder 9 passes an inverter 10, the delay time of which is equal to the delay time of the inverter 7 (Fig. 3 , k), then both sequences are combined by adder 12 (Fig. 3, L). Thus, a sequence of bipolar pulses, preserving the informational characteristics of the input signals, namely the polarity and the position of the leading edge, leaves the output of the reception transmission device. The decoder included in the bipolar transmitting / receiving device operates as follows. The pulse sequence (Fig. 4, a) is fed in parallel to the input of the trigger 17 with a clock input, which in the initial state at the forward output has a low voltage level corresponding to the logical O and to the input of the block 12, whose delay time is longer than T by the trigger time 17 and the duration of the input pulses. If a single pulse arrives at the decoder's input, then the trigger 17 overturns, blocks element 15 (fig. 4, c) and opens element 14 (fig. 4.6) to pass pulses from the output of element 13. A single canal pulse, corresponding to negative signals polarity, passed block 12, (Fig. 4, d) and element And 13 (Fig. 4, d), since in the initial state the output of the one-shot 16 corresponds to a logical one, passes to the output of the decoder 9. Setting the trigger 17 to the original the state of the reset pulse arriving from the one-shot 16, occurs with some th delay which allows pulses from the output of AND gate 13 to pass unimpeded to the first output of the decoder 9 via the AND gate 14 (Fig. 4 e). In the case of the occurrence of paired pulses corresponding to the positive polarity signals at the input of the device, the trigger 17 is tilted twice and remains in the initial state, blocking And 14 (Fig. 4p) and opening And 15 (Fig. 4, c) for passing first pulses from the output. element And 15 to the second output of the decoder. In order for the second pulses not to reach the decoder output, the one-shot 16, which is triggered from the first pulses (Fig. 4a), blocks And 13 for the duration of the appearance of the second pulses from the output of block 17. Thus, the decoder 9 separates the input pulse sequence into two unipolar pulse sequences corresponding to a separate; but signals of positive and negative polarity, at the input of the device

fea, and at the same time does not introduce an additional phase mismatch between these pulse sequences.

Transmitting over an optical communication channel, such as a fiberglass cable, bipolar signals, the information parameter of which is polarity, when using a pulsed mode of operation of the radiator, such as an LED, leads to a significant increase in the range of the device, so with short pulses you can get peak power .

Claims (1)

1. A device for transmitting and receiving bi-pip signals containing, on the transmitting side, the first and second pulse shapers combined on the input, the encoder and the OR element connected in series, the matching unit and the transmitter, and the serially connected regenerator and decoder on the receiving side, so that, in order to increase the range of the device’s actions, an inverter is introduced on the transmitting side, the input of which is connected to the output of the first pulse shaper, and the output through the encoder is connected to the input of the OR element, another input of which is connected to the output of the second pulse shaper, on the receiving side - the inverter and adder connected in series, the other input of which is connected to the decoder output, the second output of the latter is connected to the input inverter. Z. The device according to claim 1, that is, so that the decoder consists of a 1 delay unit connected in series, the first I element, a one-shot and a trigger, the output of which is connected to 5 inputs of the second and third elements And, the other inputs of which are connected to the input of the one-shot, the output of the latter is connected to the second input of the first element And, moreover, an input signal is fed to the input of the delay unit and the second trigger input, Sources of information taken into account in the examination 1. Gurevich V. O. Pulse-code modulation in a multi-channel telephone connection. M. 1973, p. 14 (prototype).