SU1083371A1 - Device for matching two-wire and four-wire sections - Google Patents

Abstract

DEVICE FOR MATCHING two-wire and four-wire path comprising series-connected controlled emy attenuator paraphase amplifier and adder, and two multiplier, the adder output being coupled to the first input of the first multiplier, a second input coupled to the inverting input of the adder, characterized in that, with in order to improve the accuracy of matching, a phase shifter, two integrators, two limiter amplifiers are introduced into it, the first input of the controlled phase shifter It is connected to the second input of the first multiplier and through the first amplifier-limiter to the first input of the second multiplier, the output of which is connected to the control input of the controlled phase shifter through the first integrator, the output of which is connected to the first input of the controlled attenuator, and the output of the adder through the second amplifier ( The limiter is connected to the second input of the second multiplier J, the output of the first multiplier is connected via a second integrator to the control input of the controlled attenuator. oh with SAE

Description

The invention relates to a technique of wire communication and can be used in the equipment of automatic telephone stations, as well as in two-channel radio engineering systems. A device for adjusting the two-wire and four-wire paths, containing an amplifier adder and two multipliers Cl 3, is known. However, this device has insufficient coordination accuracy and low manufacturability in microelectronic implementations. The closest to the present invention is a transitional device for matching two-wire and four-wire strokes containing serially connected controls, a shielded attenuator, a paraphase amplifier and an adder, as well as two residential signals, the output of the adder being connected to the first input of the first multiplier, the second input of which is connected with the input of the adder C23. However, the known device is characterized by insufficient accuracy of matching the two-wire and three-wire paths. . The purpose of the invention is to improve the accuracy of matching. The goal is achieved by the fact that a device for matching two-wire and four-wire paths containing a series-connected controlled attenuator, a paraphase amplifier and an adder, as well as two multipliers, the adder output connected to the first input of the first multiplier, the second input of which is connected to the inverting input an adder, a controllable phase shifter, two integrators, two amplifier-limiters are output, the first input of the controlled phase shifter l is connected to the second input of the first first the multiplier and through the first limiting amplifier to the first input of the second multiplier, the output of which through the first integrator is connected to the control input of the controlled phase shifter, the output of which is connected to the first input of the controlled attenuator, and the output of the adder through the second amplifier to the limiter connected to the second input of the second the multiplier, the output of the first multiplier, through the second 71 2 integrator is connected to the control input of the controlled attenuator. The drawing shows a structural electrical circuit of the proposed device. The device for matching two-wire and four-wire paths contains a controlled phase shifter 1, a controlled attenuator 2, a paraphasic amplifier 3, an adder 4, the first 5 and second 6 multipliers, the first 7 and second 8 integrators, the first 9 and second 10 amplifiers are limiters. The device works as follows. The signal intended to be received by the subscriber arrives at the input cascade — controlled phase shifter 1, where its phase changes such that the signal passes to the transmission channel is minimized, to the output of adder 4. After controlled phase shifter 1, the received signal passes the control the attenuator 2, in which the signal amplitude varies according to the same criterion, and the paraphase amplifier 3. At the outputs of the paraphase amplifier connected to a two-wire communication line. with the subscriber, two antiphase ones are created, metric with respect to the earth bus voltage, the amplitude and phase of which are regulated in the voltage attenuator 2 and the phase shifter 1. The same signals are sent to the two inputs of the adder 4, the output signal of which is a signal transmitted from the subscriber to the wire line. To compensate for the receiving signal at the output of the adder 4, the latter has a third, inverting input, to which the receiving signal is fed directly from the receiving input of the device. The adjustment of the amplitude of the signals according to the criterion of the minimum of the output signal — the signals received at the output of the adder 4 is organized by an automatic amplitude control loop, including the first multiplier 5, the first integrator 7, the control attenuator 2, the paraphasic amplifier 3, and the adder 4. The loop is closed in such a way as to minimate the correlation coefficient between the receiving signals and the signals at the output of the adder 4. The evaluation of the 31 correlation coefficient (more precisely, the covariance between the two voltages) is carried out using the first multiplier 5 and first integrator 7 by time-averaged analog multiplied voltages. As the first multiplier 5, a phase detector can also be used, which operates in the corresponding mode, however, it is preferable to use standard analog multiplier chips, for example, the 526th or 140th series. The first multiplier 5 is identical to the second multiplier 6 used in the phase control loop of the signals, but the voltages applied to its inputs are preliminarily limited in amplitude in the first and second amplifiers x 9 and 10. As a result, the voltage at the output of the second integrator 8 it is determined only by the average phase difference between the signals at the inputs of limiting amplifiers 9 and 10 and does not depend on the amplitude of these signals. Since the amplitudes of the voltages in the telephone lines; in1X reach at least several tenths of a volt (the maximum amplitude of the useful signals is normalized and is 1.1-1.5 V per load of 600 Ohms) the x-bounds amplifier of readers 9 and 10 is easy to carry out 14 and the separation of the phase information from the amplitude information is high quality. As a result, despite the presence of common blocks in the phase and amplitude control loops — the controlled attenuator 2, the paraphase amplifier 3, and the adder 4 — the transients in the circuit are faster, and the phase control is almost independent of the voltage amplitude. Tick as telephone signals are broadband, then the phase is controlled by its average value within the spectrum. To improve the accuracy of determining the estimated phase difference at the output of the first integrator 7, the first and second limiting amplifiers 9 and 10 can be supplemented with filters that extract the middle part of the spectrum of their input signals and are circuit-aligned with the limiting amplifiers 9 and 10 themselves, on amplifiers 1-53-series. Another feature of the dynamics of the proposed device is the choice of constant integration in integrato 7 and 8. The proposed device allows achieving a high degree of accuracy in matching the two-wire and four-wire paths (crosstalk attenuation to 34–40 dB).

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Claims (1)

A device for matching two-wire and four-wire paths, comprising a serially connected controlled attenuator, a paraphase amplifier and an adder, as well as two multipliers, the output of the adder being connected to the first input of the first multiplier, the second input of which is connected to the inverting input of the adder, which is different from to increase the accuracy of matching, a controlled phase shifter, two integrators, two limiter amplifiers are introduced into it, and the first input of the controlled phase shifter is connected the second input of the first multiplier and through the first amplifier-limiter - with the first input of the second multiplier, the output of which through the first integrator is connected to the control input of the controlled phase shifter, the output of which is connected to the first input of the controlled attenuator, and the output © of the adder through the second amplifier is connected to the second input of the second multiplier, the output of the first multiplier through the second integrator is connected to the control input of the controlled attenuator. >