SU1278918A1 - Device for transmission and reception of signals through switched communication lines - Google Patents

Abstract

The invention relates to the field of signal transmission and can be used to control technological processes in explosive atmospheres. The aim of the invention is to increase the reliability of the device. To achieve this goal, contactless switching blocks are introduced into the device, each of which is made on an electromagnetic and magnetoelectric converters, and the magnetic core of the electromagnetic converter is made detachable. This allows, by the simplest mechanical connection, to carry out the commutation of communication channels, forming various configurations of computer networks. 1 hp ff, 1 ill.

Description

IND

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The invention relates to signal transmission and can be used to control processes in explosive atmospheres.

The aim of the invention is to increase the reliability of the device.

The drawing shows a diagram of the proposed device.

The device contains in the one direction of information transfer the signal source 1 (computer general registers), signal matching unit 2, contactless switching units 3, modulator 4, power amplifier 5, communication line 6, demodulator 7, amplifier-shaper 8, receiving register 9 (or other computer's general purpose registers); electromagnetic converter 10; magnetoelectric converter 11.

The device works as follows.

When information is transmitted from a computer to a technological unit, information message codes stored in general purpose registers 1 are transmitted to matching unit 2, which converts the video pulse into a harmonic signal of the required frequency (tuning frequency of resonant amplifiers of electromagnetic and magnetoelectric converters). The signal from the output of block 2 is fed to the input of block 3 of contactless switching, consisting of an electromagnetic transducer 10 and a magnetoelectric transducer 11.

A video pulse from the output of the magneto-electric converter 11 is fed to the input of the modulator 4, then to the power amplifier 5 and transmitted via the communication line 6. At the receiving side, channel signals are received by block 2, demodulator 7, and fed to the input of block 3.

The video signal conversion in blocks 10 and 11 of the receiving side is similar to the video signal conversion on the transmitting side. The video signal from the output of the magnetoelectric converter 11 is fed to the input of the amplifier-former 8 and further to the registers 9 of the technological unit when exchanging information with the control object or to the general purpose registers of another computer when exchanging information with the computer. The transfer of information from a technological object to a computer is carried out similarly, only via a different communication channel. Considered information channels can be both parallel and sequential. In the case of parallel channels, each data bit of a message organizes its own data transmission channel, i.e., in any direction of information transfer, as many switching units with galvanic isolation of electrical circuits as there are bits in the information channel are used.

The contactless switching unit 3 is built according to the modulator-demodulator principle, however the difference is fundamental, the novelty of the proposed device is that the electromagnetic and magnetoelectric converters are connected structurally by means of separating magnetic circuits that form a closed magnetic circuit in such a way that by simplest mechanical connection and disconnection. It was possible to connect any electro-magnetic converter to any magneto-electric converter and vice versa. This allows without switching off the power supply of the device to carry out the switching of information signals, thereby forming various

0 configurations of computer networks, not violating their information mode of operation and ensuring intrinsic safety.

Claims (2)

1. Device for transmitting and receiving signals via dial-up communication lines, containing a signal source on the transmitting side, the output of which is connected to the signal conditioning unit, a modulator, the output of which is connected to the line input through the power amplifier, and on the receiving side The connection is connected to the input of the amplifier-coordinator, the output of which is connected to the input of the demodulator, a signal-shaping amplifier, the output of which is connected to the input of the receiving register, characterized in that, in order to increase reliability, electromagnetic transducers and magnetoelectric transducers are introduced, at the transmitting side there is no output of the signal matching unit through serially connected electromagnetic. magnetic transducer and magnetoelectric transducer connected to the modulator input, on the receiving side demodulator output through serially connected electromagnetic transducer and magnetoelectric transducer connected to amplifier -forming signals. 2. The device according to claim 1, characterized in that Q the electromagnetic transducer comprises an amplifier, the output of which is connected to the transformer, the core of the transformer is made detachable.