JPH05218800A - Automatic equalizer - Google Patents

Abstract

PURPOSE:To realize the automatic equalizer in which sufficient equalization characteristic of inter-code interference is obtained even when cross polarized wave interference is in existence. CONSTITUTION:A subtractor 32 is provided before a backward equalizer 22 of a discrimination feedback equalizer 20 to compensate cross polarized wave interference. Thus, a signal fed back to the backward equalizer 22 is a signal from which cross polarized wave interference and inter-code interference are eliminated and sufficient equalization characteristic for inter-code interference is realized. The subtractor may be arranged to a pre-stage of the discrimination feedback equalizer.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic equalizer and, more particularly, to an automatic equalizer used on the receiving side of a digital radio communication system using a multilevel quadrature amplitude modulation system or a multiphase phase modulation system in which orthogonal polarization is a co-channel arrangement. Automatic equalizer.

[0002]

2. Description of the Related Art Recently, in digital radio communication systems,
It is necessary to overcome the degradation of channel quality due to frequency selective fading that occurs in the propagation path. For this reason, a transversal equalizer using a linear transversal filter is used on the receiving side. Further, a decision feedback type equalizer has a strong equalization characteristic.

Further, in a transmission line in which orthogonal polarization is a co-channel arrangement, a cross polarization interference compensator is used on the receiving side to compensate cross polarization interference.

FIG. 3 shows the structure of a conventional automatic equalizer. This automatic equalizer uses a decision feedback equalizer and a cross polarization interference compensator in combination.

In the automatic equalizer, an analog baseband signal on the polarization side and an analog baseband signal on the different polarization from a demodulator (not shown) are used as first and second input signals, respectively. It is supplied from two input terminals 11 and 12. The automatic equalizer outputs an output signal from the output terminal 13.

The automatic equalizer has first and second analog / digital (A / D) converters 16 and 17, a decision feedback equalizer 20 ', and a cross polarization interference compensator 30. .. The cross polarization interference compensator 30 has a transversal filter 31 and a subtractor 32.

The first A / D converter 16 sample-quantizes the first input signal and outputs a first digital signal sequence. The decision feedback equalizer 20 'equalizes intersymbol interference due to frequency selective fading that occurs in the propagation path in the first digital signal sequence, and outputs an equalized digital signal.

The second A / D converter 17 sample-quantizes the second input signal and outputs a second digital signal sequence. The transversal filter 31 weights the second digital signal sequence for cross polarization interference compensation, and outputs a cross polarization interference compensation digital signal. The subtractor 32 subtracts the cross polarization interference compensation digital signal from the equalized digital signal, and outputs the signal after cross polarization interference compensation as an output signal from the output terminal 13.

FIG. 4 shows a conventionally used decision feedback equalizer 20 'having a 5-tap configuration. The decision feedback equalizer 20 ′ has a front equalizer 21 and a rear equalizer 22.

The front equalizer 21 includes first and second delay circuits 41 and 42, first to third multipliers 51,
It has 52 and 53 and a first adder 61. In the front equalizer 21, the first digital signal sequence is supplied to the first delay circuit 41 and the first multiplier 51. The first delay circuit 41 delays the first digital signal train to
Output the delayed signal of. The first delayed signal is supplied to the second delay circuit 42 and the second multiplier 52. The second delay circuit 42 delays the first delayed signal and outputs a second delayed signal. The second delayed signal is supplied to the third multiplier 53.

The first to third multipliers 51 to 53 respectively add a control signal generating circuit (not shown) to the first digital signal sequence, the first delayed signal and the second delayed signal. ) Supplied from the first to third tap coefficients C
_-2, C _-1, multiplied by C _0, the first to third multiplied signal m _-2, m _-1, and outputs the m _0. These first to third multiplied signals m _-2 , m _-1 , m ₀ are fed to the first adder 6
1 and the first adder 61 adds these signals and outputs the first added signal.

The rear equalizer 22 includes third and fourth delay circuits 43 and 44, fourth and fifth multipliers 54 and 55, and second and third adders 62 and 63.
And a determination circuit 71. In the rear equalizer 22, the decision circuit 71 decides the output signal (equalized digital signal) of the decision feedback equalizer 20 'and outputs the decided signal. The determined signal is supplied to the third delay circuit 43. The third delay circuit 43 delays the determined signal and outputs the third delayed signal. The third delayed signal is supplied to the fourth delay circuit 44 and the fourth multiplier 54. The fourth delay circuit 44 delays the third delayed signal and outputs the fourth delayed signal. The fourth delayed signal is provided to the fifth multiplier 55.

Fourth and fifth multipliers 54 and 55
Respectively multiply the third delayed signal and the fourth delayed signal by the fourth and fifth tap coefficients C ₁ and C ₂ supplied from a control signal generating circuit (not shown). , Fourth and fifth multiplied signals m ₁ and m ₂
Is output. The fourth and fifth multiplied signals m ₁ and m ₂ are supplied to the second adder 62 and the second adder 6
2 adds these signals and outputs the second added signal. The second added signal is supplied to the third adder 63. The third adder 63 is also supplied with the first added signal from the first adder 61. Third
The adder 63 adds the first added signal and the second added signal and outputs the third added signal as an equalized digital signal.

The first to fourth delay circuits 41 to 44 described above.
Is composed of a flip-flop or the like, and generally gives a 1-bit delay to the signal input to each.

The details of the decision feedback equalizer are as follows.
For example, see Japanese Patent Application No. 2-308827. For details of the cross polarization interference compensator, refer to, for example, Japanese Patent Application No. 2-14241.

[0016]

As described above, in the conventional automatic equalizer, the inter-symbol interference is equalized by the decision feedback equalizer before the cross polarization interference compensation. Therefore, when cross polarization interference occurs in the propagation path, the signal including the cross polarization interference component is fed back to the backward equalizer of the decision feedback equalizer. As a result, the conventional automatic equalizer has a drawback that the equalization ability of intersymbol interference is deteriorated.

Therefore, an object of the present invention is to provide an automatic equalizer capable of obtaining sufficient equalization characteristics of intersymbol interference even in the presence of cross polarization interference.

[0018]

An automatic equalizer according to a first aspect of the present invention is a decision feedback type or the like for equalizing intersymbol interference with respect to a signal supplied from a demodulator on its own polarization side. And
The decision feedback equalizer comprises a combination with a cross polarization interference compensator that creates a cross polarization interference compensation signal from a signal obtained by detecting a modulated wave on the different polarization side, and the decision feedback equalizer is a forward equalizer. And a back equalizer, and the cross polarization interference compensator performs cross polarization interference compensation using a transversal filter that outputs a cross polarization interference compensation signal and the cross polarization interference compensation signal. An automatic equalizer including a subtractor, wherein the subtractor is provided between the front equalizer and the rear equalizer, and the subtractor is configured to output the cross-polarized wave from the output signal of the front equalizer. The interference compensating signal is subtracted, and the signal after the cross polarization interference is compensated is supplied to the rear equalizer.

The automatic equalizer according to the second aspect of the present invention comprises:
A first analog / digital unit that receives a first analog baseband signal supplied from a demodulator on the polarization side, sample-quantizes the first analog baseband signal, and outputs a first digital signal sequence. A converter, a front equalizer of a decision feedback equalizer that forward-equalizes the first digital signal sequence and outputs a forward-equalized signal, and detects a modulated wave on the side of different polarization A second analog / digital converter which receives the second analog baseband signal obtained by performing sample quantization of the second analog baseband signal, and outputs a second digital signal sequence; A transversal filter that outputs a cross-polarization interference compensation signal in response to a digital signal sequence, and a signal after cross-polarization interference compensation compensation by subtracting the cross-polarization interference compensation signal from the forward equalized signal. Out And a backward equalizer of the decision feedback equalizer that equalizes the intersymbol interference of the signal after the cross polarization interference compensation and outputs the signal after the intersymbol interference equalization. Is characterized by.

The automatic equalizer according to the third aspect of the present invention comprises:
By using a decision feedback equalizer that equalizes intersymbol interference for the first signal corresponding to the signal supplied from the demodulator on the own polarization side, and the modulated wave on the other polarization side is detected. A cross-polarization interference compensator for compensating cross-polarization interference from the obtained second signal is used in combination, wherein the cross-polarization interference compensator outputs a cross-polarization interference compensation signal and the transversal filter. An automatic equalizer comprising: a subtractor for compensating for cross polarization interference using a cross polarization interference compensation signal, wherein the subtractor is arranged in front of the decision feedback equalizer, and The signal for compensating for the cross polarization interference is subtracted from the signal of 1) and the signal after the cross polarization interference is compensated is supplied to the decision feedback equalizer.

An automatic equalizer according to the fourth aspect of the present invention is
A first analog / digital unit that receives a first analog baseband signal supplied from a demodulator on the polarization side, sample-quantizes the first analog baseband signal, and outputs a first digital signal sequence. A converter and a second analog baseband signal obtained by detecting the modulated wave on the different polarization side are received, the second analog baseband signal is sampled and quantized, and a second digital signal string is output. A second analog / digital converter, a transversal filter that outputs a cross polarization interference compensation signal in response to the second digital signal sequence, and the cross polarization interference from the first digital signal sequence. A subtractor for subtracting the signal for compensation and outputting a signal after cross polarization interference compensation, and an equalized signal for the signal after intersymbol interference equalization by equalizing intersymbol interference of the signal after cross polarization interference compensation When And having a decision feedback equalizer that output Te.

[0022]

Embodiments of the present invention will now be described in detail with reference to the drawings.

Referring to FIG. 1, the automatic equalizer according to one embodiment of the present invention is the same as that shown in FIG. 2 except that the decision feedback equalizers are arranged differently. It has a similar configuration. Therefore, 20 is attached to the decision feedback equalizer. Moreover, the same components as those shown in FIG. 2 are designated by the same reference numerals, and the description thereof will be omitted.

In the conventional automatic equalizer, the subtractor 31 is provided after the decision feedback equalizer 20 ', but in the automatic equalizer according to the present invention, the front of the decision feedback equalizer 20 is provided. A subtractor 32 is provided between the equalizer 21 and the backward equalizer 22.

Therefore, the subtractor 32 subtracts the cross polarization interference compensation digital signal sequence output from the transversal filter 31 from the digital signal sequence output from the front equalizer 21, and after cross polarization interference compensation. The digital signal train of is output. The back equalizer 22 compensates for intersymbol interference of the digital signal sequence after cross polarization interference compensation, and outputs the signal after intersymbol interference compensation as an output signal from the output terminal 13. At this time, the signal returned in the backward equalizer 22 is a signal from which cross polarization interference and intersymbol interference are removed.

In this way, after the cross polarization interference is compensated, the back equalizer 22 is designed to compensate the intersymbol interference of the digital signal sequence. Therefore, when compensating the intersymbol interference, the cross polarization interference is compensated. The intersymbol interference can be compensated without being affected by, and as a result, the cross polarization interference and the intersymbol interference can be completely eliminated.

Next, another embodiment of the present invention will be described with reference to FIG.

In this embodiment, the subtractor 32 is arranged between the A / D converter 16 and the decision feedback equalizer 20, and the subtractor 32 has the first output from the A / D converter 16. , And the cross polarization interference compensation digital signal output from the transversal filter 31 are given, and the subtractor 32 subtracts the cross polarization interference compensation digital signal sequence from the first digital signal sequence, Outputs the digital signal sequence after polarization interference compensation. It will be. The digital signal sequence after cross polarization interference compensation is the decision feedback equalizer 20.
Then, the inter-symbol interference is compensated and output.

Also in this embodiment, after the cross polarization interference is compensated, the decision feedback equalizer 20 compensates the intersymbol interference of the digital signal sequence. The inter-symbol interference can be compensated without being affected by the cross-polarization interference, and as a result, the cross-polarization interference and the inter-symbol interference can be completely eliminated.

[0030]

As described above, in the automatic equalizer of the present invention, the signal after cross polarization interference compensation is equalized by the decision feedback equalizer to compensate for intersymbol interference. There is an effect that compensation of inter-polarization interference is not affected by cross-polarization interference, and as a result, cross-polarization interference can be compensated and sufficient equalization characteristics of inter-symbol interference can be obtained.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of an automatic equalizer according to the present invention.

FIG. 2 is a block diagram showing another embodiment of the automatic equalizer according to the present invention.

FIG. 3 is a block diagram showing a conventional automatic equalizer.

FIG. 4 is a block diagram showing a decision feedback equalizer used in an automatic equalizer.

[Explanation of symbols]

 11, 12 input terminal 13 output terminal 16, 17 A / D converter 20 decision feedback equalizer 21 forward equalizer 22 backward equalizer 30 cross polarization interference compensator 31 transversal filter 32 subtractor

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location H04L 25/03 C 8226-5K

Claims (4)

[Claims] 1. A decision feedback equalizer for equalizing intersymbol interference with respect to a signal supplied from a demodulator on its own polarization side, and a modulated wave on a different polarization side. A cross-polarization interference compensator for compensating cross-polarization interference from a signal, wherein the decision feedback equalizer includes a front equalizer and a rear equalizer, and the cross-polarization interference compensator is provided. Is an automatic equalizer including a transversal filter that outputs a cross polarization interference compensation signal and a subtracter that compensates for cross polarization interference using the cross polarization interference compensation signal, wherein the forward equalizer And the rear equalizer, the subtractor is disposed between the subtractor and the backward equalizer, and the subtractor subtracts the cross polarization interference compensation signal from the output signal of the front equalizer to compensate cross polarization interference. Automatically characterized in that a signal is supplied to the rear equalizer Equalizer. 2. A first analog baseband signal supplied from a demodulator on the self-polarization side is received, the first analog baseband signal is sampled and quantized, and a first digital signal sequence is output. A first analog / digital converter, a first equalizer that equalizes the first digital signal sequence and outputs a first equalized signal, and a modulated wave on the side of different polarization A second analog / signal for receiving the obtained second analog baseband signal, sample-quantizing the second analog baseband signal, and outputting a second digital signal sequence.
A digital converter, a transversal filter that outputs a cross polarization interference compensation signal in response to the second digital signal sequence, and a subtraction of the cross polarization interference compensation signal from the first equalized signal A subtracter that outputs a signal after cross polarization interference compensation and a signal after inter-code interference equalization by equalizing inter-symbol interference of the signal after cross-polarization interference compensation are output as a second equalized signal. An automatic equalizer, comprising: a second equalizer, wherein the first and second equalizers form a decision feedback equalizer. 3. A decision feedback equalizer for equalizing intersymbol interference with respect to a first signal corresponding to a signal supplied from a demodulator on its own polarization side, and a modulated wave on a different polarization side. And a cross polarization interference compensator for compensating cross polarization interference from a second signal obtained by detecting the cross polarization interference interference compensator, which outputs a cross polarization interference canceling signal. In an automatic equalizer comprising a transversal filter and a subtractor that compensates for cross polarization interference using the cross polarization interference compensation signal, the subtractor is arranged in a stage before the decision feedback equalizer. The automatic equalizer is characterized in that the signal for compensating the cross polarization interference is subtracted from the first signal and the signal after the cross polarization interference is compensated is supplied to the decision feedback equalizer. .. 4. A first analog baseband signal supplied from a demodulator on the self-polarization side is received, the first analog baseband signal is sampled and quantized, and a first digital signal sequence is output. 1 analog / digital converter and a second analog baseband signal obtained by detecting the modulated wave on the different polarization side, sample-quantizes the second analog baseband signal, and outputs the second analog baseband signal. A second analog / digital converter that outputs a digital signal sequence;
Transversal filter that outputs a signal for cross polarization interference compensation in response to the digital signal sequence, and a signal after cross polarization interference compensation by subtracting the signal for cross polarization interference compensation from the first digital signal sequence. And a decision feedback equalizer that equalizes the intersymbol interference of the signal after the cross polarization interference compensation and outputs the signal after the intersymbol interference equalization as an equalized signal. Characteristic automatic equalizer.