SU1102049A1 - Generator for digital signal transmission system - Google Patents

Abstract

DIGITAL SIGNAL TRANSMISSION SYSTEM REGENERATOR, containing a correction amplifier, a decision block, input and output capacitors connected to the shells, input and output coaxial pairs, as well as a chain of series-connected input low-pass filter, remote power receiver and output low-pass filter, turned on between the input of the correction amplifier and the output of the decision block, with the first and second outputs of the remote power receiver connected to the bus common and wire of the decision block, which is also distinguished by the fact that, in order to increase the noise immunity, the first, second and third reactive quadrupoles, the choke and the first, second and third capacitors, the first plates of which are connected to the common bus and the second plates - respectively, with the common wire of the correction amplifier, the power supply bus of the correction amplifier and the common wire of the decision block, the choke is connected between the power buses of the correction amplifier and the decision block, the output of the first reaction cable The three-pole network is connected to the output of the corrective amplifier, the first input of the first reactive quadrupole is connected to the central living coaxial pair, and the second input of the first reactive four-pole SO with the second input capacitor is connected between the outputs of the corrective amplifier and the inputs of the deciding unit whose outputs are connected to the input the third jet quadrupole, the first output of which is connected to the central residential output coaxial pair, and the second the output of the third reactive element. connected to the second plate of the output capacitor.

Description

The invention relates to telecommunications and can be used for the regeneration of digital signals in cable lines. The known regenerator of digital signal transmission systems contains a cylinder-shaped separation capacitor, the outer and inner surfaces of which are electrodes of the capacitor, and inside the cylinder are connected in series the connected correction amplifier and decider unit ij. The disadvantage of this digital system regenerator. Signal transmission is low noise immunity. The closest technical solution to the invention is a digital signal transmission system regenerator containing a correction amplifier, a decisive unit, input and output capacitors connected to the shells of the input and output coaxial pairs, respectively. as well as a circuit of series-connected input low-pass filter, remote power receiver and output low-pass filter, switched on Between the input of the correction amplifier and the output of the decision block, the first and second outputs of the remote power receiver are connected respectively to the power bus and the common wire of the decisive block. The disadvantage of the well-known generator of digital signal transmission systems is also low noise immunity. The purpose of the invention is to increase the noise immunity. To achieve this goal, a regenerator of digital signal transmission systems, containing a correction amplifier, a deciding unit, input and output capacitors connected to the shells of input and output coaxial pairs, as well as a chain of input-output1-1Ltransmitters connected in series, respectively a remote power supply and an output low-pass filter, connected between the input of the corrective amplifier and the output of the decision block, the first and second outputs of the remote power receiver dinenes, respectively, with the power bus and the common wire of the decisive unit, the first, second and third reactive two-port networks, the choke and the first, second and third capacitors, the first plates of which are connected to the common bus, and the second covers, respectively, the power bus, are inserted corrective amplifier and. the common wire of the decision block, the choke is connected between the tires of the correction amplifier and the decision block, the output of the first reactive quadrupole is connected to the output of the corrective Amplifier, the first input of the first reactive quadruple (Osnik - with the central core of the input coaxial pair, and the second input of the first reactive quadrupole with the second plate of the input capacitor, the second reactive quadrupole is connected between the outputs of the correction amplifier and the inputs of the decision block, the outputs of which are connected with the inputs of the third reactive quadrupole, the first input of which is connected to the central residential output coaxial pair, and the second output of the third reactive element is connected to the second plate of the output capacitor. The drawing shows a structural electrical diagram of the regenerator of digital signal transmission systems. the capacitor 1, the first reactive quadrupole 2, the correction amplifier 3, the second reactive quadrupole 4, the decisive unit 5, third reactive quadripole 6 output capacitor 7, the first, second and third capacitors 8-10, respectively, the throttle 11, the input filter 12 is a low pass receiver 13 and remote power-off filter 14, a lowpass. The regenerator of digital signal transmission systems works in the following way. The signal on the input coaxial pair passes to the input of the correction amplifier 3 through the input capacitor 1 and the first reactive quadrupole 2, which, like the second and third reactive quadrupoles .4 and 6, is equivalent to a long line and can be made as a transformer , the windings of which are included in the rupture of the communication line. The first, second, and third reactive quadrupoles 2.4 and 6 do not significantly affect the transmission of the useful signal. The receiver 13 is connected between the input wire of the correction amplifier 3 and the output wire of the decision unit 5 through the input and output filters 12 and 14. The supply voltage comes from the output of the receiver 13 to the decision unit 5. directly, and the correction amplifier 3 through the choke 11, the second reactive quadrupole 4, which have a low DC resistance, so that a noticeable drop in the supply voltage to them does not occur.

Transient disturbance from the output to the input of the regenerator occurs in the output circuit of the regenerator due to the fall, the voltage of the signal on the output capacitor 7, which has some parasitic inductance.

The interference voltage is transmitted to the input of the regenerator via the common wires of the decision block 5 and the correction amplifier 3. To reduce the interference on this signal path, an LC filter consisting of the second reactive quadrupole 4 of the first capacitor 8, the Second L C filter is introduced from the throttles 11 and the second capacitor 9 is inserted between the power buses of the decision unit 5 and the correction amplifier 3, i.e. on the path that bypasses the first filter.

Further attenuation of transient interference is achieved by introducing

nepBorjp reactive quadrupole. 2. Since the interference attenuated by the filters enters the input of the correction amplifier 3 through a voltage divider formed by the output resistance of the coaxial input pair and the input resistance of the correction amplifier, the inductance of the first reactive quadrupole 2 introduced into this divider increases the voltage dividing ratio, i.e. reduces crosstalk. The action of the third reactive quadrupole 6 is similar to the action of the first reactive quadrupole 2.

The use of the invention allows to increase the noise immunity of coaxial communication lines and to increase the length of the regeneration section.

Claims (1)

DIGITAL SYSTEM REGENERATOR * SIGNAL TRANSMISSION, containing a correction amplifier, a deciding unit, input and output capacitors connected to the shells, respectively. input and output coaxial pairs, as well as a chain of series-connected input low-pass filter, remote power receiver and output low-pass filter, connected between the input of the correction amplifier and the output of the decision unit, the first and second outputs of the remote power receiver are connected respectively to the power bus and the common wire of the decisive unit, characterized in that, in order to increase the noise immunity, the first, second and third reactive four-terminal, throttle and ne the second, third and third capacitors, the first plates of which are connected to the common bus, and the second plates - respectively, with the common wire of the correction amplifier, the power bus of the correction amplifier and the common wire of the decision block, a choke is connected between the power buses of the correction amplifier and the decision block, the output of the first reactive the four-terminal is connected to the output of the correction amplifier, the first input of the first reactive four-terminal is connected to the central core of the yhrd-coaxial pair, and the second input <g of the first active quadrupole with a second lining of the input capacitor, the second reactive four-pole 6SH0TG ns gangway is connected between the outputs of the correction amplifier and the inputs of the decisive block, the outputs of which are connected to the inputs of the third reactive four-terminal, the first output of which is connected to the central core output of the coaxial pair, and the second, the output of the third reactive element .connected to the second plate of the output capacitor.