DE10120108A1 - Method for equalizing a roll-off compensating filter in a stereo receiver with a stereo matrix feeds signals to inputs/outputs and a multiplex signal to the stereo matrix with a definite test signal. - Google Patents

Abstract

Adaptive roll-off compensating filters (F1,F2) fit in front of a stereo matrix (M) each in their respective signal paths (L+R,L-R). The L+R path signals (I2,I4) and the L-R path signals (I1,I3) are adjusted in front of and behind the roll-off compensating filters and fed to an equalizing unit (A). Left (E2) and right (E1) channel signals are adjusted at the outputs for the stereo matrix and fed to the equalizing unit. An Independent claim is also included for a stereo receiver with a roll-off compensating filter and a stereo matrix.

Description

The invention relates to a method for comparing a so-called. Roll-off compensation filter in a stereo receiver with an egg ner stereo matrix, one input of which has the (L + R) signal and de ren other input the (L - R) signal is fed to their the R signal at one output and the L- at the other output Signal is taken, the stereo matrix is a multiplex Test signal is supplied, which in one channel, the R or L-channel, a defined test signal, in the other channel, the L- or R channel, however, contains no signal.

The invention further relates to a stereo receiver with mind At least a roll-off filter and a stereo matrix, the egg one input has the (L + R) signal and its other input has the (L - R) signal can be fed, at one output the R signal and at the other output of which the L signal can be removed, where a multiplex test signal can be fed to the stereo matrix, which in a channel, the R or L channel, a defined test i signal, in the other channel, the L or R channel, no signal contains.

FM radio transmitters transmit the so-called stereo multiplex signal, that from the middle audio signal - also called mono signal - to 15 KHz, the stereo pilot tone at 19 KHz and the stereo signal from 23 KHz to 53 KHz is formed.

In a stereo receiver in the stereo matrix by Bil the sum and difference signals from the (L + R) - and the (L - R) signal the audio signals for the left and right Channel calculated.

Because of different damping and running times in (L - R) - and unwanted crosstalk occurs in the (L + R) signal path. In the left channel there are parts of the right stereo signal and in right channel contains parts of the left stereo signal.  

To ensure the most complete channel separation possible at the output of the To achieve a stereo matrix, a so-called roll-off Compensation filter used, the differences in the Attenuation, in the transit time and in the frequency response between the (L + R) - and the (L - R) signal path compensates.

A Multi is usually used to measure the channel separation plex test signal used, in which only in one of the two Ka channels - the right or left channel - a measurement signal occurs while the other channel contains no signal. at poor channel separation properties or inadequate set roll-off compensation filter, however, occur two output channels, both the left and the right signal components.

By comparing the roll-off Compensation filter can optimize the channel separation. The roll-off compensation filter is adjusted in such a way that the unwanted caused by crosstalk Signal components in one channel are minimized by their Amplitude or its performance through a suitable choice of filters parameter is minimized. Such a comparison takes place at analog filters by adjusting potentiometers, with di gital filters by entering filter coefficients. In In both cases, an external measurement setup is required.

It is therefore an object of the invention to provide a method for comparison the roll-off compensation filter of a stereo receiver and to design a stereo receiver so that the adjustment of the Roll-off compensation filter does not require an external measurement setup changed.

In procedural terms, this task is with those in claim 1 given characteristics solved in that in the (L + R) signal path and One adaptive each in the (L - R) signal path in front of the stereo matrix Roll-off compensation filter is provided that the (L + R) - Signal and the (L - R) signal before and after the two roll-off Compensation filters tapped and a matching unit be performed that the R signal and the L signal at the  the outputs of the stereo matrix and the Ab unit are supplied, which the parameters of the at the roll-off compensation filter using an adaptation algo rhythm.

In terms of circuitry, this task is with those in claim 4 given characteristics solved in that in the (L + R) signal path and One adaptive roll-off compensation each in the (L - R) signal path filter in front of the stereo matrix is provided that the (L + R) - Signal and the (L - R) signal before and after the two roll-off Compensation filters can be tapped and a calibration unit are feasible that the R signal and the L signal at the output of Stereomatrix can be picked up and fed to a comparison unit are and that the parameters of the two roll-off compensation filter by means of an adaptation algorithm are adjustable.

According to the invention, in the (L + R) signal path and in (L - R) - Signal path in front of the stereo matrix, one roll-off compensator each tion filter provided. The (L + R) signal and the (L - R) signal are immediately in front of and behind the associated roll-off Compensation filter tapped and a calibration unit guided. The L signal and the R signal at the outputs of the Stereomatrix are also fed to the adjustment unit, which uses an adaptation algorithm to determine the parameters of the optimally sets both roll-off compensation filters.

For example, the filter parameters are set in Iteration loops that are carried out until ei ne definable channel separation is achieved. Alternatively the iteration loop can run for a predeterminable time will run.

The least mean square algorithm is particularly advantageous suitable for setting the filter parameters.

The invention is based on the off shown in the figure example described and explained in more detail.  

The (L + R) signal I2 is at the input of a first compensation onsfilters F1 and at the first input of an adjustment unit A. Likewise, the (L - R) signal I1 is at the input of a second one Roll-off compensation filter F2 and at the second input of the Alignment unit A. The output of the first roll-off Compensation filter F1 is connected to the first input of a step reomatrix M and the third input of the adjustment unit A ver prevented. The output of the second roll-off compensation filter With the second input, F2 is the stereo matrix M and fourth input of the adjustment unit A connected. The exit the stereo matrix M, on which the right audio signal E1 is acceptable, is with the fifth input of the adjustment unit A connected. The other exit of the Stereomatrix M, at which the left audio signal E2 is detachable, is with the sixth Input of the adjustment unit A connected.

The adjustment unit A calculates from the (L + R) signal I2, the (L - R) signal I1, the output signal I4 of the roll-off Compensation filter F1, the output signal I3 of the roll-off Compensation filter F2, the right audio signal E1 on one Output of the stereo matrix M and the left audio signal E2 am other output of the Stereomatrix M using an adapter the parameters of the two roll-off compensation filter F1 and F2 and compares the two filters.

The comparison is preferably carried out in several iterations grinds that are carried out until a specified channel separation at the output of the Stereomatrix M is achieved.

It is also possible, based on empirical values and measurement time to determine after which a sufficient Ka separation is achieved.

By comparing the two roll-off compensation filters F1 and F2 will both differ in terms of term as well the attenuation between the (L - R) signal path and the (L + R) - Signal path balanced.  

For example, the stereo multiplex test signal contains one Channel a sine wave with a frequency of 1 KHz.

As already mentioned, the so-called Least Mean Square Algorithm especially for the automatic adjustment of the roll-off Compensation filter F1 and F2 suitable.

The method according to the invention and the ste reo receivers need to adjust the roll-off Compensation filter no longer an external measurement setup because of Alignment carried out automatically by an alignment unit is, which is preferably integrated in the stereo decoder. To completed adjustment are the respective parameters for the Roll-off compensation filter fixed in the stereo decoder algorithm involved so that the adjustment of the roll-off compensation filter can be carried out again at any time. For this, le diglich a test signal to the stereo receiver and to start the corresponding software module.  

LIST OF REFERENCE NUMBERS

A adjustment unit
E1 R signal
E2 L signal
F1 roll-off compensation filter
F2 roll-off compensation filter
I1 (L - R) signal
I2 (L + R) signal
I3 output signal of the roll-off filter F2
I4 Output signal of the roll-off compensation filter F1
M stereo matrix

Claims (9)

1. Method for comparing a so-called roll-off compensation filter in a stereo receiver with a Stereoma trix (M), one input of which is the (L + R) signal (I2) and the other of which is the input (L - R) - Signal (I1) is supplied, at one output of which the L signal (E2) and at the other output of which the R signal (E1) is taken, where a multiplex test signal is supplied to the stereo matrix (M) which is in one channel , the L or R channel, a defi ned test signal, in the other channel, the R or L channel, on the other hand, contains no signal, characterized in that in the (L + R) signal path and in (L - R) signal path in front of the stereo matrix (M) an adaptive roll-off compensation filter (F1, F2) is provided, that the (L + R) signal (I2, I4) and the (L - R) signal ( I1, I3) before and after the two roll-off compensation filters (F1, F2) are tapped and supplied from an equalization unit (A) that the L signal (E2) and the R signal (E1) at the outputs of the Stereomatrix (M) a grasped and supplied to the adjustment unit (A), which sets the parameters of the two roll-off compensation filters (F1, F2) by means of an adaptation algorithm. 2. The method according to claim 1, characterized in that the Ab unit (A) the parameters of the two roll-off Compensation filter (F1, F2) in iteration loops see above changes long until a predefinable channel separation is achieved becomes. 3. The method according to claim 1, characterized in that the Ab unit (A) the parameters of the two roll-off Compensation filter (F1, F2) in iteration loops one predeterminable time changes.   4. Stereo receiver with at least one roll-off Compensation filter and a stereo matrix (M), whose egg nem input the (L + R) signal (I2) and their other on the (L - R) signal (I1) can be fed to one of them Output the L signal (E2) and at their other output the R signal (E1) is removable, the stereo matrix (M) a multiplex test signal can be supplied, which in one Channel, the L or R channel, a defined testi gnal, in the other channel, the R or L channel, no Si gnal contains, characterized in that the (L + R) signal (I2) the input of a first roll-off Compensation filter (F1), the output of which is the first Input the stereo matrix (M) and the third input one Adjustment unit (A) is connected, and the first input the adjustment unit (A) is fed that the (L - R) - Signal (I1) the input of a second roll-off Compensation filter (F2), the output of which is connected to the second Input of the stereo matrix (M) and the fourth input of the Adjustment unit (A) is connected, and the second input the adjustment unit (A) is fed that the first off the stereo matrix (M) at which the L signal (E2) is tapped, with the sixth input of the adjustment Unit (A) is connected to the second output of the stereo matrix (M) on which the R signal (E1) can be removed, with the fifth. Input of the adjustment unit (A) connected is that the first control output of the adjustment unit (A) with the control input of the first roll-off Compensation filter (F1) is connected to the second Control output of the adjustment unit (A) with the control unit gear of the second roll-off compensation filter (F2) ver is bound and that the parameters of the two roll-off Compensation filter (F1, F2) by means of an adaptation algo the adjustment unit (A) can be set.   5. Stereo receiver according to claim 4, characterized in that the Para meters of the two roll-off compensation filters (F1, F2) from the adjustment unit (A) in iteration loops for so long are changeable until a predefinable channel separation is aiming. 6. Stereo receiver according to claim 4, characterized in that the Para meters of the two roll-off compensation filters (F1, F2) from the adjustment unit (A) in iteration loops are changeable for a definable time. 7. Procedure or stereo receiver according to one of the preceding the claims characterized in that for the Adaptation algorithm the least mean square algorithm is or is provided. 8. Method or stereo receiver according to one of the preceding the claims characterized in that the at the roll-off compensation filter (F1, F2), the stereoma trix (M) and the adjustment unit (A) in the stereo decoder of the Stereo receiver can be integrated. 9. Method or stereo receiver according to one of the preceding the claims characterized in that the Mul tiplex test signal in one channel - the R channel or the L- Channel - is a sinusoidal signal with a frequency of 1 KHz.