SU1728973A1 - Multichannel device for transmitting and receiving current signals over communication line - Google Patents

Abstract

The invention relates to multichannel devices for transmitting and receiving current signals over a communication line. The goal — to increase the noise immunity by reducing the mutual influence of the channels — is achieved by introducing into each channel 2 a compensator 6, providing a change in the magnitude of the voltage drop across the resistance of the receiver 5 signals. 1 hp f-ly, 2 ill.

Description

The invention relates to telecommunications and can be used in remote data acquisition and transmission systems over communication lines.

The aim of the invention is to increase the noise immunity by reducing the mutual influence of the channels.

Fig. 1 shows a structural electrical circuit of a multichannel device for transmitting and receiving current signals over communication lines; figure 2 - structural diagram of the compensator.

The device contains a power source 1 and N channels 2, each of which consists of a source of 3 current signals, a communication line 4, a receiver 5 of signals and a compensator 6 containing the first 7, second 8, third 9, fourth 10, fifth 11 and sixth 12 resistors, differential amplifier 13, large-scale amplifier 14, and voltage follower 15.

The device works as follows.

N channels 2 are powered from source 1. In each channel 2 from source 3 output

the signal in the form of a current change enters the line 4. The electric current flowing through line 4 creates a voltage drop at its internal resistance and at the input resistance of receiver 5. Compensator 5 changes the voltage drop at the resistance of receiver 5. To ensure optimum mode, the fourth and The fifth inputs of the compensators 6 must have a resistance significantly greater than the resistance of the receiver 5 in order not to shunt the latter.

The differential amplifier 13 and the first 7, second 8, fifth 11 and sixth 12 resistors form the input stage of the compensator 6. The scale amplifier 14 and the third 9 and fourth 10 resistors determine the output resistance of the compensator 6. Repeater 15 is the output stage of the compensator 6.

Claims (2)

Claim 1. Multi-channel device for transmitting and receiving current signals through a communication line, containing N channels, first and second A s yu so I the inputs of which are connected to the first and second terminals of the power source, and each channel contains a source of current signals, the first terminal of which is the first channel input, the second terminal of the source of current signals through a communication line with internal resistance Rni (where i 1, N) is connected to The first receiver input of the signals, characterized in that, in order to increase the noise immunity by reducing the mutual influence of the channels, the third inputs of all N channels are connected to the first output of the power source, and the fourth inputs of the channels are connected to a common bus power supply, wherein in each channel compensator introduced, first, second and third inputs of which are the third, second and fourth channel input, a fourth input of the compensator is connected to the first input signal of the receiver, to the second input of which is connected to the output compensator. 2. The device according to claim 1, wherein the compensator contains a differential amplifier, a large-scale amplifier and a voltage follower, the first, second and third inputs of which are connected to the first, second and third inputs the compensator, respectively, the inverting input of the difference amplifier through the first resistor is connected to the non-inverting input of the scale amplifier and to the output of the voltage repetition and is the output of the compensator, the output of the difference amplifier through the second resistor is connected to its inverting input and through The retirement resistor is connected to the inverting input of the masigap amplifier, which through the fourth resistor is connected to the output of a large-scale amplifier connected to a non-inverting input of a voltage repeater, the inverting input of which is connected to its output, the fourth input the compensator is connected via the fifth resistor to the non-inverting input of the differential amplifier, which is connected to the third input of the compensator through the sixth resistor, while the parameters of the compensator satisfy the proportions (R2R4-Ri RaURS + Re) R 4 R 2 (R i + R 2) Rfli Rfll + 4Rnr where Rk (k 1,6) is the resistance of the corresponding resistor; Rni (I 1, N) is the input impedance of the receiver of the i-ro channel signals, Phie, 1 ®ig.2