SU564728A1 - Device for signals duplex transmission - Google Patents

Description

one

The invention relates to telecommunications and can be used when transmitting signals over a cable line.

A device for duplex transmission of signals is known, consisting of two connected transceiver nodes, each of which contains a receiving amplifier and a transmitting amplifier ij

However, the known device does not provide a sufficiently wide range of operating frequencies for duplex transmission of signals over the same communication line due to the use of elements with uneven frequency response as part of the transmitting / receiving units.

The purpose of the invention is to expand the range of operating frequencies when duplex information is transmitted over a single communication line.

For this purpose, an integrated amplifier, an attenuator, and an attenuator are inserted into a device for duplex signaling, which consists of two transceiver connected to each other, each of which contains a receiving amplifier and a transmitting amplifier.

and a resistor, the first end of the resistor is connected to the output of the transmitting amplifier and the attenuator input, the output of the attenuator is connected to One of the inputs of the differential amplifier, another input of the differential amplifier is connected to the second end of the resistor connected to the communication line, and the output of the receiving amplifier.

The drawing shows a structural electrical circuit of a device for duplex signal transmission.

The device consists of two transceiver nodes 1, 2, each of which contains a receiving amplifier 3 and a transmitting amplifier 4. Transmitting-receiving nodes 1 and 2 are connected via a line 5. To each; Transceiver unit 1, 2 introduced differential amplifier 6, attenuator 7 and resistor 8, the first end of the resistor is connected to the output of the transmitting amplifier 4 and the input of the attenuator 7, the output of the attenuator is connected to one of the inputs of the differential amplifier 6, the other input is di (( Pod: 1Uchen to the second end of the resistor 8, one-way

line 5, and the output of the differential amplifier is connected to the input of the receiving amplifier 3.

The device works as follows.

In the absence of signals at the inputs5

transmitting amplifiers, the voltage at points a and b of transceiver nodes 1 and 2 is the same and zero. In this case, the voltage at the inputs of the differential amplifiers is also zero. When transmitting a signal from transceiver node 1 to transceiver node 2 at transceiver node 1, the voltage at point A when using the matching resistor 8 and the attenuator 7 is equal to the voltage at point B, so the differential amplifier 6 does not pea-, indicates a change in the potential at the output of the transmitting amplifier 4. In the transceiver-transmitting node 2, the voltage at point A becomes greater than the voltage at point B, and at 20 the output of differential amplifier 6, as well as at the output of receiving amplifier 3, is a voltage different from zero and about portioned to the signal at the input of the transmitting amplifier 4 of the transceiver-transmitting node-1. The signal from the transmitting-transmitting node 2 to the transmitting-transmitting node 1 is carried out simultaneously. 3 transceiving; Node 2 is proportional to the voltage at the input of the transmitting amplifier 4 of the transceiver node 1 and does not depend on the signal at the output of the transmitting amplifier 4 of the transmitting and receiving node 2, and the input of the transmitting amplifier 4 when the transmitting node 2.

In order to reduce the leakage of the crosstalk signal from the output of the transmitting amplifier 4 to the input of the receiving amplifier 3 of each. transceiver 45 node 1, 2, the transfer ratio of the attenuator 7 is chosen equal to the voltage transfer ratio from the output of the transmitting amplifier 4 to the input of the communication line 5. The matching of the transmitting and receiving nodes 1 and 2 with the communication line 5 is ensured by the choice of matching resistors 8 close to the wave resistance communication lines 5. The use in the proposed device for duplex signal transmission of elements with a uniform frequency characteristic in the frequency range from zero to hundreds of megahertz allows to extend the working range x duplex frequencies for the transmission of information on one link at a time in the low and high frequencies, which makes it possible to increase the information transmission rate and increase link performance.

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formula of invention

A device for duplex signal transmission, consisting of two connected by communication line transceiver nodes, each of which contains a receiving amplifier and a transmitting amplifier, characterized in that, in order to extend the range of operating frequencies during duplex transmission of information through a single communication line, A differential amplifier, an attenuator and a resistor are inserted into each transceiver node, the first end of the resistor is connected to the output of the transmitting amplifier and the input of the attenuator, the output of the attenuator is connected to one of the differential inputs ntsialnogo amplifier, the other input of the differential amplifier - the second end of the resistor connected to the communication line, and the output of the receiving amplifier -.k entry.

Sources of information taken into account in the examination:

1. USSR author's certificate number ZO2838, cl. H O4 B 3/50, 1971.

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