JPH0612882B2 - Eco-canceller - Google Patents

Description

Description: (1) Technical Field of the Invention The present invention relates to an echo canceller that is inserted to improve communication quality in a long distance telephone line or the like having a large propagation delay such as a satellite line.

(2) Conventional technology and its problems For example, in the above-mentioned long distance telephone line, a hybrid for 4-wire / 2-wire conversion is provided to connect with the subscriber side, but an echo is generated due to mismatch between the hybrid and the wire. Occur. When the delay is large as in a long distance telephone line such as a satellite line, this echo significantly deteriorates the call quality. For this reason, in canceling echo, an echo canceller with less deterioration of speech quality has been introduced.

That is, in FIG. 1, audio A from subscriber A 'hybrid H ₁ - but are transmitted to the subscriber B by fart the path of the line X- hybrid H _2, signal A by mismatching of the hybrid H _2' A certain level becomes A'and leaks. Then, the echo canceller EC estimates the pseudo echo signal from the level of the residual echo output from the difference circuit DI,
Input to the difference circuit DI.

However, when the echo canceller EC is converged,
When the subscriber B starts speaking (this state is called "two-way communication"), the signal on the echo path becomes the voice B '+ echo signal A', and the level becomes high. Echo canceller E
For C, this state simply determines that the level of the echo signal A ′ has increased, and therefore the estimation of the propagation characteristic of the original echo path is erroneously impaired.

Therefore, a level comparator CP is provided to compare the levels of the voice A'and the signal on the echo path, and when the signal on the echo path becomes larger, the estimation of the pseudo echo by the residual echo signal is stopped. This makes it possible to prevent actual overcorrection.

However, since the average value of the signal level on the echo path is detected, there is a problem that it takes time to detect the two-way communication state and the echo canceller diverges during that time.

(3) Object of the Invention It is an object of the present invention to eliminate the above problems and provide an echo canceller capable of quickly detecting a two-way communication state.

(4) Configuration of the invention According to the invention, the above object is to input a pseudo echo signal that changes according to a residual echo signal and a signal on an echo path to a difference circuit, perform subtraction processing, and then perform the subtraction process from the difference circuit. The pseudo echo signal is corrected according to the level of the residual echo signal to be output, the received signal and the signal level on the echo path are compared, and when the signal level on the echo path becomes large, In an echo canceller in which correction of similar echo signals is stopped, the maximum value of the instantaneous value of the residual echo at a fixed time near the end of the convergence process of the echo canceller is set as a threshold value, and the residual echo output from the difference circuit is set. This is achieved by an echo canceller characterized in that the correction of the pseudo echo signal is stopped when the instantaneous level of the signal exceeds the threshold value.

(5) Embodiment FIG. 2 is a view showing an embodiment of the present invention, in which LD1, L
D2 is a level detection circuit, OR is an OR gate, G is a prohibition gate, ED is a residual echo amplitude detection circuit, and the same components as those in FIG. 1 are designated by the same reference numerals.

Describing the operation, the echo canceller EC starts to converge as described above when the signal of the abnormal level at the receiving end is input. Also, the level detection circuits LD1 and LD
The level of the signal on the echo path and the level of the voice A'are detected by 2 and compared by the comparator CP. When the level of the signal on the echo path becomes large, a signal for closing the inhibition gate G via the OR gate OR. Is output and the instantaneous value of the residual echo from the residual echo amplitude detection circuit ED is prohibited from being input to the echo canceller EC. This stops the correction of the echo canceller EC. Specifically, the echo canceller EC has a built-in transversal filter, and the suppression signal level is fixed by fixing the coefficient of each tap of the transversal filter.

The above operation is the same as in FIG.

In the present invention, the residual echo amplitude detection circuit ED further detects a two-way call when the instantaneous value of the residual echo exceeds a certain value. In this case, the inhibition gate G does not give the residual echo signal to the echo canceller EC. To do so.
Therefore, the coefficient of each tap of the echo canceller is protected.

FIG. 4 is a diagram showing a configuration of a residual echo amplitude detection circuit of FIG. 3, and FIG. 4 is a diagram showing a time chart of FIG.
A specific example of the residual echo amplitude detection circuit and its operation will be described below with reference to these drawings.

In the figure, T is a timer, AND is an AND gate, B
UF is a buffer and CP1 is an amplitude comparison circuit.
The same components as those in the figure are given the same reference numerals.

First, in the echo canceller EC, when a voice signal is input, a start pulse SP is generated and a timer T is started as shown in FIG.

The timer T outputs a pulse TP for a certain period of time near the end of the convergence process, and the instantaneous value of the residual echo is stored in the buffer BUF. Then, thereafter, within the pulse TP period, the value of the buffer BUF and the instantaneous value of the residual echo are compared by the amplitude comparison circuit CP1, and the buffer B
If the level of the UF output is lower, the instantaneous value of the new residual echo is updated in the buffer.

As a result, the maximum value of the residual echo while the pulse TP is being output is stored in the buffer BUF. When a residual echo larger than the instantaneous value of the residual echo stored in the buffer BUF is input to the comparator CP1 in the steady state, the input of the residual echo signal to the echo canceller EC is prohibited.

In other words, since the echo canceller does not know the transfer function of the echo from the beginning, it can be controlled to minimize the residual echo by setting the tap coefficient of the transversal filter, for example, at the time of line acquisition. is there. Therefore, after the transversal filter converges at the initial stage, only fine adjustment is required. That is, the transfer function of the echo is almost constant once the line is set up. Therefore, a value larger than the maximum value of the residual echo near the end of the convergence process of the echo canceller (that is, also before the end) cannot be output as a residual echo after the convergence. Therefore, when a value larger than the maximum value of the residual echo near the end of the convergence process of the echo canceller is input, it can be determined that the call is a two-way call.

(6) Effects of the Invention As described above, according to the present invention, since the detection of the two-way communication state is performed by using the instantaneous value of the residual echo, it can be detected more promptly than the conventional one. This makes it possible to prevent the echo canceller from diverging during a two-way call.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a conventional echo canceller, FIG. 2 is a diagram showing an echo canceller according to the present invention, FIG. 3 is a diagram showing a configuration of a residual echo amplitude detection circuit, and FIG. FIG. 4 is a diagram showing an operation time chart of FIG. In the figure, ED is a residual echo amplitude detection circuit, G is a prohibition gate,
OR is an OR gate, BUF is a buffer, T is a timer, C
P1 is an amplitude comparator.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Mitsuo Shimada 1015 Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa Fujitsu Limited (56) References JP-A-56-60131 (JP, A)

Claims (1)

[Claims] 1. A pseudo echo signal that changes according to a residual echo signal and a signal on an echo path are input to a difference circuit for subtraction processing, and a pseudo echo signal is output according to the level of the residual echo signal output from the difference circuit. An echo that not only corrects the echo signal but also compares the levels of the received signal and the signal on the echo path, and stops the correction of the pseudo echo signal when the signal level on the echo path becomes large. In the canceller, when the maximum value of the instantaneous value of the residual echo in a fixed time near the end of the convergence process of the echo canceller is set as a threshold, and the instantaneous level of the residual echo signal output from the difference circuit exceeds the threshold. An echo canceller, characterized in that the correction of the pseudo echo signal is stopped.