KR19990080514A - MR read / write circuit and baseline wander compensation method - Google Patents

Abstract

Disclosed are a read / write circuit and a baseline wander compensation method of an MR head which sufficiently compensates for the baseline wandering phenomenon and has no data loss upon data recovery. The write / read circuit for performing the baseline wander compensation method extracts a baseline signal of a readback signal while simultaneously processing a readback signal with baseline wandering, and based on the extracted baseline signal. A / D conversion of the data processed signal compensates for the baseline wandering of the readback signal. Therefore, using the read / write circuit and the baseline wandering compensation method, the baseline wandering phenomenon in the MR head can be sufficiently compensated and there is no data loss during data recovery.

Description

MRS head's write-read circuit and baseline wander compensation method

The present invention relates to a hard disk drive, and more particularly to a head of a hard disk drive.

Hard disk drive is composed of electronic device and mechanical device. It is a memory device that records and plays data by converting digital electronic pulse that changes every moment into a more permanent magnetic field. The unit constituting the hard disk drive includes a magnetic head for recording and reproducing data, a recording medium for recording and storing data, a driving mechanism for driving the recording medium and the magnetic head, an interface for connecting the drive to a computer, and driving and controlling them. It consists of an electronic circuit.

In particular, when the magnetic head is wound in a state where a small gap is formed in the conductor with a ring, a strong leakage flux is generated around the gap, which causes the magnetic particles of the media to move in the direction of the current. The process of changing the direction in accordance with is called writing (Writing). In contrast, a process in which a magnetically recorded signal is induced as an electrical signal is called reading. In addition, the head is classified into various types according to the recording method and its material characteristics, and one of them, the MR head, is a new method of reading a high-density recording, and uses a magnetoresistive technology rather than a conventional magnetic induction technology.

In general, however, a MR causes a baseline wandering phenomenon in which a readback signal is shaken. Baseline wandering occurs when the thermal change of the MR sensor caused by the interference between the MR sensor of the MR head and the disk changes the MR resistance. For reference, FIG. 1 illustrates a normal readback signal A and a readback signal B in which a baseline wandering phenomenon occurs.

Conventionally, in order to compensate for the baseline wandering phenomenon, the lead channel is used to minimize the thermal change of the MR sensor caused by the interference between the MR sensor and the disk by using a small capacity of the AC coupling capacitor in front of the VGA. (Read Channel), that is, a method of adjusting the bandwidth of the read / write circuit was used. However, the conventional method does not sufficiently compensate for the baseline wandering phenomenon, and there is a problem that data loss may occur during data restoration.

Accordingly, an object of the present invention is to provide a read / write circuit of an MR head that sufficiently compensates for the baseline wandering phenomenon and has no data loss upon data recovery.

Another object of the present invention is to provide a baseline wandering compensation method of an MR head that sufficiently compensates for the baseline wandering phenomenon and that there is no data loss upon data restoration.

1 is a waveform diagram of a readback signal in which a normal readback signal and a baseline wandering phenomenon are generated.

2 is a block diagram of a preferred embodiment of a write / read circuit in accordance with the present invention.

3 is a flowchart for explaining a baseline wandering compensation method according to the present invention performed in the circuit shown in FIG.

4 is a waveform diagram of respective signals of the write / read circuit shown in FIG.

In accordance with another aspect of the present invention, a write / read circuit of an MR head includes data processing means for processing data by using a readback signal as an input, and extracting a baseline component by using the readback signal as an input. And an A / D converter for A / D converting the output signal of the data processing means by using the baseline component extracting means and the output signal of the baseline component extracting means as a reference signal.

Preferably, the data processing means and the baseline component extracting means are constituted by a low pass filter having respective frequency pass bands set therein.

In accordance with another aspect of the present invention, there is provided a method for compensating a baseline of an MR head, by performing low pass filtering on a readback signal to perform data processing, and extracting a baseline signal by lowpass filtering the readback signal. And A / D converting the data processed signal based on the extracted baseline signal.

Hereinafter, a configuration of a write / read circuit of an MR head according to the present invention and a baseline wandering compensation method performed in the circuit will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a preferred embodiment of the write / read circuit in accordance with the present invention.

Referring to FIG. 2, the write / read circuit according to the present invention includes a VGA 21 for generating a readback signal C and data processing means for processing data by using the readback signal C as an input. (23), a baseline component extracting means 25 for extracting a baseline component by inputting the readback signal C, and an output signal E of the baseline component extracting means 25 as a reference. An A / D converter 27 for converting the output signal D of the data processing means 23 into A / D as a signal is provided.

Preferably, the data processing means 23 and the baseline component extracting means 25 are constituted by low pass filters in which respective frequency pass bands are set.

3 is a flowchart illustrating a baseline wandering compensation method according to the present invention performed in the circuit shown in FIG.

Referring to FIG. 3, the baseline wandering compensation method according to the present invention includes a data processing step 31, a baseline signal extraction step 33, and an A / D conversion step 35.

Hereinafter, an operation and a baseline wander compensating method of a write / read circuit according to the present invention will be described with reference to FIGS. 2 and 3.

2 and 3, first, the data processing means 23, that is, the first low pass filter low-pass filters the readback signal C generated by the VGA 21 and has a baseline wandering. Process (step 31). At the same time, the readback signal C is low-pass filtered by the baseline component extraction means 25, that is, the second lowpass filter to extract a baseline signal (step 33). Next, the A / D converter 27 performs A / D conversion on the data-processed signal D based on the extracted baseline signal E, so that the baseline wander is compensated for the final output signal F. (Step 35).

FIG. 4 is a waveform diagram of signals of the write / read circuit shown in FIG. 2.

Referring to Fig. 4, signal C is the readback signal with baseline wandering, and signal D is the data processed by the data processing means 23, i.e., the first low pass filter. The signal C typically includes noise, and noise is removed from the data processed signal D. Also, the signal E is a baseline signal extracted by the baseline component extraction means 25, that is, a second low pass filter, and the signal F is A / D converted by the A / D converter 27 and is converted into a base. Line wandering is the final output signal compensated.

In conclusion, the write / read circuit for performing the baseline wandering compensation method according to the present invention extracts the baseline signal of the readback signal while simultaneously processing the readback signal with baseline wandering, and extracts the extracted baseline signal. The A / D conversion of the data processed signal based on the line signal compensates for the baseline wandering of the readback signal.

As described above, the present invention has been limited to one embodiment, but not limited thereto. It is obvious that various modifications to the present invention can be made by those skilled in the art within the scope of the spirit of the present invention. .

Using the write / read circuit and baseline wander compensation method of the MR head according to the present invention as described above, there is an advantage that the base line wandering phenomenon in the MR head can be sufficiently compensated and there is no data loss during data recovery.

Claims (4)

Data processing means for performing data processing with a readback signal as an input; Baseline component extraction means for extracting a baseline component using the readback signal as an input; And And an A / D converter for A / D converting the output signal of said data processing means using the output signal of said baseline component extraction means as a reference signal. 2. The read / write circuit of an MR head according to claim 1, wherein said data processing means comprises a low pass filter. 2. The read / write circuit of an MR head according to claim 1, wherein said baseline component extracting means comprises a low pass filter. Low pass filtering the readback signal to perform data processing; Low pass filtering the readback signal to extract a baseline signal; and And A / D converting the data processed signal based on the extracted baseline signal.