SU1707777A1 - Discrete data communication system - Google Patents

Abstract

The invention relates to communication technology and can be used in the development of telegraph communication systems and data transmission systems in computer complexes. The aim of the invention is to improve noise immunity while simplifying. The system contains transceiver devices 1.1 ..... 1.N. two-wire communication line 2, power supply unit 3, and each of transceiver devices 1.1, ..., 1.N contains information input unit 4, information output unit 5, being controlled

Description

The invention relates to communication technology and can be used in the development of telegraph communication systems and data transmission systems in computer complexes.

The aim of the invention is to improve noise immunity while simplifying.

The drawing shows a structural electrical circuit system.

The system contains transceiver devices 1.1, 1.2, ... 1.N, two-wire communication line 2, power supply unit 3, and each of transceiver devices 1.1, 1.2 ..... 1.N contains information input unit A, unit 5 information output, controllable ghv-ratsr b stabilized tokoz, ilol 7 zdedelegi (a. xeni information and r, s,; s -; soevne and.

The ostema of discrete information transfer, rg, runs with ... oneself and in the same way.

In the initial state, the controlling Si1 -: - s are not the outcomes 1, 2 ..... and there is no information. In this .0, TSAOV re-distributors 6 have a minimum operating impedance and in line 2 the maximum current flows from the source 3 of the power supply. This current provides in blocks 7 of all transceiver devices 1.1, 1.2, ..., 1.N the value of the voltage drop of a deliberately greater value of the highest of the calibrated potentials at the P-type sources P. At the same time, the potentials do not coincide by any There are no signals from the inputs of the comparison unit 10 and the signals at its outputs, and, consequently, to the exod-block 5 of the information output.

: When transmitting information, for example, from transceiver 1.1, control signals appear alternately at the outputs of its unit 4. These signals fall on the corresponding inputs of the control of the generator 6 stabilized

currents. In addition, each of the input signals causes the appearance of a non-output generator 6 currents of a certain value. These currents, flowed through the blocks 7 of all transceiver devices 1.1 ,, .., 1.N, connected by link 2, create on these blocks a number of discrete values of the voltage drop. At the same time, for each of the values of the current flowing in line 2 of the connection, there will be a potential balance at one of the inputs 1, 2, .. ,, l blocks of the comparison with the potential of their common inputs 0, and at the corresponding outputs of the comparison blocks 10 will play The output signals driving the information output blocks 5 are output.

Thus, the information transmitted by device 1.1 is reproduced circularly on all transceivers of the system, including device 1.1, in which the reproduction of the transmitted information ensures control of its transmission.

If the D system does not need to provide a circular reception of information, then it is possible to organize address transmission of information between any two or more transceiver devices of the system. To do this, it is enough to organize the transmission of address code combinations to select the required transceiver devices before transmitting working information.

As an information input unit 4, for example, a keyboard with an encoder that converts transmitted messages to an n-element code can be used. interface with computer, transmitter, etc. As an information output unit 5, an automatic printing device, a display, an interface with a computer, etc. can be used, equipped with a decoder of the n-element code. The function of a controlled generator of stabilized currents can

perform, for example, known devices for stabilizing a constant current on bipolar or field-effect transistors, on operational amplifiers, etc., ensuring the independence of the output current from the load resistance over a wide range. The role of block 7 can be performed, for example, by a resistor, on which certain voltage drops are recorded during the flow of the set values of the currents generated by block 6. The source 9 of calibrated potentials can be performed, for example, in the form of a step resistor divider or as a set of voltage stabilizers, etc. As a comparison unit 10, devices can be used that ensure the comparison by balanced methods of the values of calibrated potentials of source 9 with the values of voltage drops in information receiving unit 7.

Claims (1)

Claims of the Invention A discrete information transmission system comprising a power supply unit and transceiver devices connected in series to a two-wire communication line, consisting of information input and output units, characterized in that increase noise immunity while simplifying, are introduced in each of the transceiver devices serially connected controlled constant current generator and unit stress extraction information, as well as a balance analyzer consisting of a series-connected source of critical potential. y. - the comparison, the outputs of which are connected to the corresponding inputs of the information output unit, the outputs of the information input unit are connected to the corresponding inputs of the controlled stabilized current generator, the second input of which and the output of the information voltage isolation unit are connected to the communication line, and the input and output of the information voltage extraction unit are connected respectively to the common output of the calibrated source potentials and with the common input of the comparison unit.