SU1319287A1 - Active interferential system - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to improve the separation accuracy of the transmit and receive signals. The system contains a transmitting amplifier 1, a receiving differential amplifier 2, an attenuator 3, a resistor 4, a matching transformer (CT) 5, a correction circuit 6 and a balanced circuit 7. The goal is achieved by introducing the CT 5 and circuits 6 and 7, with the help of which the phase shifts at the inputs of amplifier 2 and compensation for the non-uniformity of the input impedance CT 5 as a function of frequency. 1 il. i cl with ND OO

Description

The invention relates to telecommunications and can be used in transitional devices for separating the signals of the receive and transmit paths.

The purpose of the invention is to improve the separation accuracy of the transmit and receive signals.

The drawing shows an electrical structural diagram of an active differential system.

Differential system active

2, ensures the equality of phase shifts at the inputs of the receiving differential amplifier 2, which increases the separation accuracy of the receive and transmit paths when working on real communication lines, which certainly have a reactive conductivity component. Correction circuit 6, connected in parallel to the primary winding of matching transformer 5, compensates for a transducer amplifier 1 if the inductance is insufficient, receiving-10 primary winding non-uniformity into dependent differential amplifier 2, attenuator 3, resistor-4, matching transformer 5, correct, circuit 6 and balanced circuit 7.

Active differential system works as follows.

The transmitted signal, amplified by the transmitting amplifier 1 with an output resistance close to zero, goes to the resistor 4 and through it to the primary winding

the frequency of the input resistance of the transformer 5. The signal received from the two-wire line, increased in voltage by the matching transformer 5, is fed to the second input of the receiving differential amplifier 2. The passing of the received signal through the circuit consisting of the resistor 4, attenuator 3 to the first input the receiving differential amplifier 2 is practically absent due to the low matching transformer 5. The nominal output resistance of the transfer resistor 4 is chosen equal to the equivalent amplifier 1. In By selecting the appropriate wave impedance of the communication line, taking into account the transformation ratio of the transformer 5. This ensures accurate

The ratio of the resistors of the receiving differential amplifier 2 is provided by the gain of the receiving differential amplifier 2, which compensates for attenuation in the communication line.

matching with the line of communication and a significant excess of the value of the resistor 4 over the output resistance of the transmitting amplifier 1, which reduces the size of the signal penetrating from the communication line to the output of the transmitting amplifier 1 to a negligible amount. The transmitted signal from the output of the transmitting amplifier 1 through the attenuator 3, composed of resistors, is fed to the first (inverting) input of the receiving differential amplifier 2, to the second (in25

The ratio of the resistors of the receiving differential amplifier 2 is provided by the gain of the receiving differential amplifier 2, which compensates for attenuation in the communication line.

Claims (2)

Invention Formula thirty An active differential system comprising a transmitting amplifier, the output of which is connected to the input of an attenuator, the output of which is connected to the first input of a receiving differential amplifier, the second input of which is connected through a resistor to the output of the transmitting: giving amplifier, which rotates the input in order to increase the signal comes from the output of the resistor 4. the accuracy of separation of the reception signals and the transmission; by selecting the appropriate transmission ratio, the matching transformers included in the input A variable trimmer, a correction circuit and a balanced amplifier 2 and an attenuator 3, a circuit whose output is connected to the input bakes minimizing the level of the transmitted differential amplifier, the output signal of the receiving differential terminal 40 of the correction circuit output is connected to a potential amplifier 2. Balance attemplate of the primary winding of the matching nyuator 7, connected to the first input of the transformer and the second input of the receiving receiving differential amplifier of the differential amplifier. 2, ensures the equality of phase shifts at the inputs of the receiving differential amplifier 2, which increases the separation accuracy of the receive and transmit paths when working on real communication lines, which certainly have a reactive conductivity component. Correction circuit 6, connected in parallel to the primary winding of matching transformer 5, compensates for insufficient inductance of the primary winding irregularity depending on the frequency of the input resistance of the transformer 5. The signal received from the two-wire line, increased by the voltage of the matching transformer 5, is fed to the second input of the receiving differential amplifier 2. The passage of the received signal through a circuit consisting of a resistor 4, an attenuator 3, to the first input of the receiving differential of the amplifier 2 is practically absent due nizkoom20 Nogo the transmitting output resistance of the amplifier 1. The present selecting the corresponding 25 The ratio of the resistors of the receiving differential amplifier 2 is provided by the gain of the receiving differential amplifier 2, which compensates for attenuation in the communication line. Invention Formula