SE513787C2 - Echo and distortion cancellation arrangement for line driver, includes receiver which cancels disturbances of incoming signals by subtracting signals generated across load from incoming signal - Google Patents

Abstract

An additional driver (4) has pair of output terminals that are connected to a load (Z2), whereas input terminals are connected to output terminals of signal source for generating signals across the load. A receiver (2) connected to the load subtracts the signals generated across the load from the signals appearing on the transmission line to cancel echo, distortion and noise.

Description

By subtracting the signal on the telephone line, which includes both the large transmitted signal with its related distortion and the often small, received signal, from the signal "transmitted" by the additional drive circuit to the separate load, which only includes the large transmitted signal and its related distortion, the difference will ideally be the signal received on the telephone line without the transmitted signal as well as transmitted distortion and noise.

Since the transmitted signal has the same currents and voltages in the signal path through both the "normal" line drive circuit and the additional drive circuit and both the line drive circuit and the additional drive circuit are preferably made on the same chip, the difference in distortion and voltage levels of the transmitted signals ITlCIaS.

DESCRIPTION OF THE DRAWINGS The invention is described in more detail below with reference to the accompanying drawing, in which Fig. 1 shows a known line drive circuit with a first embodiment of a device according to the invention, Figs. 2a, 2b and 2c are signal diagrams showing different signals in the embodiment according to fig. 1, and Fig. 3 shows another known line drive circuit with a second embodiment of a device according to the invention.

DESCRIPTION OF THE INVENTION Fig. 1 shows a known line drive circuit 1 with a first embodiment of an echo and distortion elimination device in accordance with the invention.

In a manner known per se, the known line drive circuit 1 has two input terminals and two output terminals.

In the embodiment according to Fig. 1, the output terminals of the line drive circuit 1 are connected via terminating impedances ZT to the respective wire of a two-wire transmission line and to the input terminals of a receiving means 2 for receiving signals received on the transmission line. The impedance of the transmission line is denoted ZL in Fig. 1. The input terminals of the line drive circuit 1 are connected to the output terminals of a signal source 3 for generating output signals to be transmitted on the transmission line.

The output signals of the line drive circuit 1 on the transmission line, which originate from the signal source 3, are superimposed on signals received by the line drive circuit 1 on the transmission line to be received by the receiving means 2 for further processing. The receiving means 2 is connected with its output terminals to signal processing means, for example an analog-to-digital converter (not shown).

The output signals of the line drive circuit 1 on the transmission line, i.e. the transmitted signals, are accompanied by distortion and noise generated by the line drive circuit 1 itself and by the signal source 3.

The output signals are large across the output terminals of the line drive circuit 1.

At the same time, the signals incoming to the line drive circuit 1 on the transmission line, i.e. the received signals, are small in comparison with the transmitted signals.

Fig. 2a schematically shows the power spectral density PSD (Power Spectral Density) in dBm as a function of the frequency f of the signals over the output of the line drive circuit 1 in fi g. 1 towards the transmission line.

The transmitted signal is represented by solid lines, the distortion associated with the transmitted signal is represented by dotted lines and the received signal is represented by dashed lines.

As shown in Fig. 2a, the distortion may be of the same level as the received signal.

In order to eliminate in accordance with the invention echo and distortion occurring over the output terminals of the line drive circuit 1, an echo and distortion elimination device in the form of a modified version of the above-described known line drive circuit is added to the known line drive circuit. to cooperate with this.

The echo and distortion elimination device according to the invention, ie the further drive circuit 4, also has two input terminals and two output terminals.

The output terminals of the further drive circuit 4 are connected via impedances Z1 over a load Z2 and to further input terminals of the receiving means 2.

The input terminals of the further drive circuit 4 are connected to the output terminals of the signal source 3 for generating the same signal over the load Z2 generated by the line drive circuit 1 over the telephone line.

Fig. 2b schematically illustrates the signals over the output of the further drive circuit 4 against the load Z2.

The signal transmitted to the load Z2 is represented by solid lines, while the distortion associated with this signal is represented by dotted lines.

As can be seen, the signals transmitted on the telephone line and to the load Z2 according to Figs. 2a and 2b, respectively, as well as the distortion associated with these signals are the same.

According to the invention, the receiving means 2 is arranged to subtract the signal generated over the load Z2 according to Fig. 2b from the signals on the transmission line according to Fig. 2a in order to eliminate the transmitted signal with its distortion and noise from the signal incoming on the transmission line.

This is schematically illustrated in fi g. 2c according to which only the received signal remains after the subtraction by the receiving means 2. It should be emphasized, however, that in practice also a part of the transmitted signal as well as a part of its associated distortion may remain after the subtraction. In order to reduce the power consumption of the further drive circuit 4 in accordance with the invention, the impedances Z1 are of an impedance value which is k times the impedance value of the termination impedances ZT, where k is an integer. The impedance value of the load Z2 is likewise k times the impedance between the output terminals of the line drive circuit 1.

Furthermore, in accordance with the invention, the size of the output transistors (not shown) of the additional drive circuit 4 is 1 / k times the size of the output transistors (not shown) of the line drive circuit 1.

The reason for scaling the output transistors in the further drive circuit 4 is to achieve the same current density in both the “normal” line drive circuit 1 and the further drive circuit 4 in order to obtain the same distortion.

As a result, echoes and distortions will be effectively eliminated from the input signals on the transmission line which are to be received by signal processing means (not shown) which are connected to the output terminals of the receiving means 2.

Fig. 3 shows another embodiment of a known line drive circuit 5 with a second embodiment of an echo and distortion elimination device in accordance with the invention.

In a manner known per se, the known line drive circuit 5 in Fig. 3 has two input terminals and two output terminals.

In the same way as described above in connection with ñg. 1, the output terminals of the line driver circuit 5 are connected to the respective wire of a two-wire transmission line and two input terminals of a receiving means 6 for receiving signals received on the transmission line. In Fig. 3, the transmission line has a line impedance Z3.

The input terminals of the line drive circuit 5 are connected to the output terminals of a signal source 7 for generating output signals to be transmitted on the transmission line. 10 15 20 25 30 513 787 6 The input terminals of the line drive circuit are also connected in a manner known per se to the output terminals of a current-voltage converter 8, which is connected with its input terminals to the wires of the transmission line.

The line drive circuit outputs on the transmission line, which originate from the signal source 7, are superimposed on signals input to the line drive circuit 5 on the transmission line to be received by the receiving means 6 for further processing. The receiving means 6 is connected with its output terminals to signal processing means, for example an analog-to-digital converter (not shown).

The line drive circuit output signals on the transmission line, i.e. the transmitted signals, are accompanied by distortion and noise which are generated, inter alia, by the signal source 7.

As described above in connection with Fig. 1, the output signals are large over the output terminals of the line drive circuit 5, while signals received at the line drive circuit 5 on the transmission line, i.e. the received signals, are small in comparison with the transmitted signals. Also in the line drive circuit 5 in Fig. 3, the power spectral density PSD as a function of the frequency f of the signals over the output of the line drive circuit 5 will be as shown in Fig. 2a.

In order to eliminate echo and distortion occurring over the output terminals of the line drive circuit 5, also in the embodiment according to Fig. 3 an echo and distortion elimination device in the form of a modified version of the above-described known line drive circuit 5 is added to the known line drive circuit 5. to cooperate with this.

The echo and distortion elimination device according to the embodiment in Fig. 3, i.e. the further drive circuit 9, has two input terminals and two output terminals. 10 15 20 25 30 513 787 7 The output terminals of the further drive circuit 9 are connected to a load Z4 and to further input terminals of the receiving means 6.

The input terminals of the additional drive circuit 9 are connected to the output terminals of the signal source 7 for generating the same signals over the load Z4 generated by the line drive circuit 5 over the telephone line. Also in this case Fig. 2b schematically shows the signal on the output of the further drive circuit 9 towards the load Z4.

The input terminals of the further drive circuit 9 are also connected to the output terminals of a current-voltage converter 10, which is connected with its input terminals to the output terminals of the further drive circuit 9.

As in the embodiment of Fig. 1, the receiving means 6 in Fig. 3 is arranged to subtract the signal generated over the load Z4 from the signals on the transmission line in order to eliminate the transmitted signal with its distortion and noise from the incoming signals on the transmission line.

In order to reduce the power consumption of the further drive circuit 9 in accordance with the invention, the impedance value of the load Z4 is k times the impedance between the output terminals of the line drive circuit 5, where k is an integer.

Furthermore, in accordance with the invention, the current-voltage converter 10 has a current-voltage conversion factor which is k times the current-voltage conversion factor of the current-voltage converter 8. Also in this case, the size of the output transistors (not shown) of the additional drive circuit is 9 l / k times the size of the output transistors (not shown) of the line drive circuit 5 in order to provide current density in both the "normal" line drive circuit 5 and the additional drive circuit 9 in order to obtain the same distortion.

Claims (4)

10 15 20 25 30 513 787 8 PATENT REQUIREMENTS An echo and distortion elimination device for a line drive circuit (1, 5) with two input terminals and two output terminals, the output terminals of the line drive circuit (1, 5) being connected to the respective wire of a two-wire transmission line (10) and to the input terminals (of a receiving means). 2, 6) for receiving incoming signals on the transmission line, while the input terminals of the line drive circuit (1, 5) are connected to the output terminals of a signal source (3, 7) for generating output signals on the transmission line, characterized by a further detective circuit (4, 9). ) with two input terminals and two output terminals, the output terminals of the further drive circuit (4, 9) being connected to a load (Z2, Z4) and to further input terminals of said receiving means (2, 6), the further drive circuit (4, 9) input terminals are connected to the output terminals of the signal source (3, 7) for generating signals over the load (Z2, Z4) and wherein the receiving means (2, 6) are arranged at t subtract the signals over the load (Z2, Z4) from the signals on the transmission line to eliminate echo, distortion and noise from the input signals on the transmission line. Device according to claim 1, wherein the output terminals of the line drive circuit (1) are connected to the respective wire of a two-wire transmission line via termination impedances (ZT, ZT), characterized in that - the output terminals of the further drive circuit (4) are connected to the load (Z2) via impedances (Z1, Z1), - that the load (Z2) has an impedance value which is k times the impedance value (ZL) between the output terminals of the line drive circuit (1), where k is an integer, and that said impedances (Z1, Z1) have an impedance value which is k times the impedance value of the terminating impedances (ZT, ZT). Device according to claim 1, wherein the input terminals of the line drive circuit (5) are connected to the output terminals of a first current-voltage converter (8) which is connected with its input terminals to the wires of the transmission line, characterized in that the load (Z4) has a impedance value which is k times the impedance value (Z3) between the output terminals of the line drive circuit (5), where k is an integer, and that the input terminals of the additional drive circuit (9) are connected to the output terminals of a second current-voltage converter (10) connected with its input terminals to the output terminals of the further drive circuit (9), the second current-voltage converter (10) having a current-voltage conversion factor which is k times the current-voltage conversion factor of the first current-voltage converter (8). Device according to Claim 1, 2 or 3, characterized in that the output transistors of the further drive circuit (4, 9) are 1 / k times the size of the output transistors of the line drive circuit (1, 5).