JP3169370B2 - Automatic equalizer - Google Patents

Description

The present invention relates to an equalizer (equalizer) used for a transmission circuit of, for example, a recording / reproducing device or a communication device, and particularly, a parameter is automatically and optimally set. The present invention relates to an automatic equalizer.

B. Summary of the Invention The present invention relates to an automatic equalizer used in a transmission circuit such as a recording / reproducing apparatus or a communication apparatus, in which the parameters of the equalizer are varied to extract a degree of a change in an error rate, and this error is extracted. The parameters are set optimally based on the degree of the rate change.

C. Prior Art In general, an equalizer (equalizer) is used in a transmission circuit such as a recording / reproducing device or a communication device in order to reduce distortion in an analog signal and errors in digital data.

Conventionally, in such an equalizer, parameters for determining its characteristics have been appropriately adjusted and fixed at the time of product shipment or the like.

D. Problems to be Solved by the Invention However, if the parameters of the equalizer are fixed, not only cannot it follow the fluctuation of characteristics due to environmental changes such as temperature, time, humidity, etc. However, there is a drawback that it is not possible to cope with variations and changes of the above.

In order to solve such a drawback, there has been proposed an automatic equalizer that automatically changes parameters in accordance with a change in a waveform pattern of a synchronization signal or the like and always seeks optimum characteristics.

However, such automatic equalizers have drawbacks such as poor responsiveness due to the need for complicated processing, and high cost due to the need for large-scale circuits.

The present invention has been proposed in view of such circumstances, and has as its object to provide a practical automatic equalizer in which parameters are automatically and optimally set.

E. Means for Solving the Problems In order to achieve the above object, an automatic equalizer according to the present invention includes an equalizer having at least two parameters (C ₁ and C ₂ ) that can be set variably, Variable means for varying the parameters of the equalizer within a predetermined range; detecting means for detecting an error rate of a signal output from the equalizer; and a change in an error rate according to the parameter varied by the variable means Extracting means for extracting the degree of the error rate, and setting a parameter to reduce the error rate of the equalizer based on the degree of change of the error rate extracted by the extracting means, and supplying the parameter to the variable means. Means for changing the parameters (C ₁ , C ₂ ) set by the setting means within predetermined small ranges (C ₁ , C ₂ ), (C ₁ +1, C ₂ ), (C ₁ + _1, C ₂
+1) and (C ₁ , C ₂ +1) in order to oscillate orthogonally to change the parameter, and the setting means corrects the parameter changed by the variable means according to the degree of change of the error rate. Calculate the new parameter by adding the value,
It is characterized in that it is supplied to the variable means.

F. Function In the automatic equalizer according to the present invention, the parameters set by the setting means are varied within a predetermined range by the variable means and provided to the equalizer. The equalizer outputs an output corresponding to the changed parameter, and the error rate is detected by the detecting means. From the change in the error rate of the output according to the change in the parameter of the equalizer, the degree of change in the error rate with respect to the change in the parameter is extracted by the extraction means,
Based on the degree of the change in the error rate, the setting unit sets the parameters of the equalizer so that the error rate decreases. Then, by providing the set parameters to the equalizer via the variable means, the error rate is minimized, that is, the parameters of the equalizer are optimized.

G. Examples Hereinafter, examples of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows a case in which an automatic equalizer according to the present invention is applied to a reproducing system transmission circuit of a recording / reproducing apparatus.

In the automatic equalizer 1 shown in FIG. 1, a reproduction RF signal reproduced from a magnetic recording medium by a reproduction head 10 is sent to an analog / digital (A / D) conversion circuit 12 via an amplifier 11, The digital signal is supplied by the A / D conversion circuit 12 and supplied. The automatic equalizer 1 outputs a digital signal that has been subjected to equalization processing, and outputs a PLL (Phase Locked) signal.
d Loop) circuit 13 to the data processing circuit 14.

The automatic equalizer 1 includes an equalizer 2 connected between the A / D conversion circuit 12 and the PLL circuit 13, and a variable unit provided for setting parameters of the equalizer 2. 3, comprising detecting means 4, extracting means 5 and setting means 6.

The equalizer 2 is an FIR digital filter whose characteristics are controlled by, for example, three parameters C ₁ , C ₂ , and C ₃ , and converts the digital signal supplied from the A / D conversion circuit 12 into a digital signal. Equalization characteristics according to the parameters C ₁ , C ₂ , and C ₃ are given and sent to the PLL circuit 13.

As such an equalizer 2, for example, as shown in FIG. 2, a digital signal supplied to an input terminal 21 is supplied to a first multiplier 24, and the digital signal is sequentially passed through delay elements 22 and 23. 2, given to the third multipliers 25 and 26, respectively, weighted according to the parameters C ₁ , C ₂ and C ₃ by the multipliers 24, 25 and 26, and then added by the adder 27 A signal output via the output terminal 28 can be used.

In the automatic equalizer 1, the parameters C _1, C _2, C ₃ to determine the characteristics of the equalizer 2, the parameter C ₃ is is always fixed at a predetermined value, the parameter C _1, C ₂ is variable It is free. And these variable parameters C ₁ , C ₂
Is varied according to the output from the varying means 3.

Said varying means 3, by varying in a predetermined small range parameters C _1, C ₂ set by the setting means 6 for each predetermined short period as described later, the parameters C ₁ of the equalizer 2 , C
It is supposed to be given as ₂ . These parameters C ₁ and C ₂
The variable method of ( ₁ ) uses the parameters (C ₁ ,
(C ₂ ) (hereinafter referred to as a value), (C ₁ +1 and C ₂ ) (hereinafter referred to as a value), (C ₁ +1 and C ₂ +1) (hereinafter referred to as a value), ( (C ₁ , C ₂ +1) (hereinafter referred to as a value) is repeated from the above value to the above value, and the vicinity of the above value is vibrated orthogonally by a predetermined amount (in this case, 1) at a high speed. It is effective to do.

When such values are successively given as the parameters C ₁ and C ₂ , the equalizer 2 performs equalization processing on the digital signal in accordance with the values and outputs the data to the data processing circuit from the PLL circuit 13 at the subsequent stage. Send to 14. Then, part of the digital signal sent to the data processing circuit 14 is again supplied to the automatic equalizer 1 and sent to the detecting means 4.

The detecting means 4 detects an error rate of the digital signal from the data processing circuit 14, forms data SR indicating the detected error rate, and supplies the data SR to the extracting means 5.

The extraction means 5 receives data indicating the value from the value from the variable means 3 and captures the data SR indicating the error rate when the value is in the range from the value to the value. Error rate SR
Detect SR. Then, from the result, The degree of change of the error rate for the change of the parameters C ₁ at And also the following equation The degree of change of the error rate for the change of the parameter C ₂ at Is extracted.

Data indicating the degree of these changes is sent to the setting means 6, which sets the following equation: To the previous value C ₁ , A new parameter C ₁ of the equalizer 2 is calculated so that the error rate is reduced. To the previous value C ₂ , The parameter C2 of the equalizer ₂ is calculated so that the error rate is reduced. It should be noted that such a new parameter calculation process is not limited to a linear process as long as good characteristics can be obtained, and may be a non-linear process.

The new parameters (C ₁ ,
C ₂ ) is given to the variable means 3. Then, the variable means 3 varies the new parameters (C ₁ , C ₂ ) as described above and provides the same to the equalizer 2.

In the automatic equalizer 1, the above operation is repeated by each of the above-mentioned means, so that the error rate of the output of the equalizer 2 is reduced.
C ₁ and C ₂ change automatically. Finally, the parameters are automatically set so that the error rate is minimized, that is, the parameters C ₁ and C _{2 of the} equalizer ₂ are optimized.

In addition, since the automatic equalizer ₁ is configured to set the parameters C ₁ and C ₂ of the equalizer 2 based on the degree of change in the error rate as described above, a simple circuit configuration And the system size and cost can be reduced. Further, as described above, the parameters C ₁ , C ₂
Can be calculated by simple processing, so that it is possible to converge to an optimal parameter at high speed. As described above, the automatic equalizer 1 is very practical.

Although the above embodiment has described the automatic equalizer 1 that handles digital signals, the automatic equalizer that handles analog signals also detects the error rate of the output of the analog equalizer by, for example, digital signal processing. This can be realized by performing the same processing.

H. Effects of the Invention The automatic equalizer according to the present invention has the following excellent effects because it is configured as described above.

First, since the parameters of the equalizer are automatically and optimally set, it is possible to follow the fluctuation of the characteristic due to the environmental change, and to automatically cope with the aging of the circuit and the variation and the change of the recording medium and the like. be able to. For this reason, by using the automatic equalizer, a highly reliable system with excellent exchangeability can be realized.

Further, since the configuration is such that the parameters of the equalizer are set based on the degree of change in the error rate, it can be realized with a simple circuit configuration, which contributes to downsizing and cost reduction of the system.

In addition, since the parameters of the equalizer can be calculated by simple processing, it is possible to converge on the optimum parameters at high speed.

In particular, by using the variable method of vibrating the parameters orthogonally as described above, it is possible to set the optimum parameters at a very high speed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an automatic equalizer according to the present invention, FIG. 2 is a block diagram showing a configuration example of an equalizer used in the above automatic equalizer, and FIG. FIG. 7 is a diagram for explaining the variation of the parameter of FIG. DESCRIPTION OF SYMBOLS 1 ... Automatic equalizer 2 ... Equalizer 3 ... Variable means 4 ... Detecting means 5 ... Extracting means 6 ... Setting means

 ────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-63-177363 (JP, A) JP-A-60-97729 (JP, A) Edited by the IEICE, “Digital Signal Processing,” Third Edition, p. . 238-239 (Showa 51)

Claims (1)

(57) [Claims] An equalizer having at least two variably settable parameters (C ₁ , C ₂ ); a variable means for changing the parameters of the equalizer within a predetermined range; and an output from the equalizer. Detecting means for detecting the error rate of the signal, extracting means for extracting the degree of change of the error rate according to the parameter changed by the variable means, and the degree of change of the error rate extracted by the extracting means And setting means for setting the parameter to reduce the error rate of the equalizer based on the parameter, and supplying the parameter to the variable means, wherein the variable means sets the parameters (C ₁ , C ₂ ) In a predetermined minute range (C ₁ , C ₂ ), (C ₁ +1
C ₂ ), (C ₁ +1, C ₂ +1), and (C ₁ , C ₂ +1) vibrate orthogonally in this order to change the parameter, and the setting means changes the parameter changed by the variable means. An automatic equalizer characterized in that a new parameter to which a correction value according to the degree of change of the error rate is added is calculated and supplied to the variable means.