KR20100081387A - Optical disc drive and data line current control method - Google Patents

Abstract

PURPOSE: An optical disk drive and a data line current control method are provided to detect a pulse period of a data line and level transition time, thereby changeably adjusting a current value of the data line. CONSTITUTION: A power supply unit(19) changeably adjusts a current value of a data line connected to a host. A microcomputer(16) detects a pulse period of the data line connected to the host and level transition time. The microcomputer determines whether a value which divides the level transition time by the pulse period is a preset standard value in advance. The microcomputer maintains a current value of the data line or changeably adjusts the current value fo the data line by controlling an operation of the power supply unit.

Description

Optical disc drive and data line current control method

The present invention relates, for example, to various types of optical disc drives (ODDs) and data line current adjusting methods connected to and connected to a host such as a personal computer (PC).

In general, an optical disc drive (ODD) for recording or reproducing data on an optical disc such as a CD or a DVD can be used in connection with a host such as a personal computer (PC).

On the other hand, in the optical disc drive (ODD), when transmitting audio and video data reproduced from the optical disc to the host, the optical disc drive and the host, CRC (Cyclic) in order to check whether a communication error (Error) Redundancy Checking) operation.

For example, the CRC checks whether an error occurs in data transmitted and received through a data line. In the optical disc drive, a 16-bit polynomial or a 32-bit polynomial is applied to a data block to be transmitted. The resulting code is added to the data block for transmission.

In addition, the host applies the same polynomial to the data block and compares the resulting code with the code of the data block sent from the optical disk drive. If the two codes match, the data block is successfully transmitted and received. Otherwise, the optical disc drive is required to resend the data block.

However, if an undershoot or overshoot occurs in a pulse of a data line transmitted from the optical disc drive to a host, a fatal error may occur in the CRC operation as described above. do.

The present invention is connected to a host such as, for example, a personal computer and an optical disk drive (ODD) through an ATAPI interface, and in an optical disk drive, a data line connected to the host. Pulse period T and level transition time t are detected and the current value of the data line is variably adjusted so that the pulse transmitted to the host through the ATAPI data line is undershoot or over. It is to provide an optical disk drive and a data line current control method to prevent the shoot.

A data line current adjusting method of an optical disc drive according to the present invention includes: a step of detecting a pulse period and a level transition time of a data line connected to a host in an optical disc drive; Determining whether a value obtained by dividing the level transition time by a pulse period is a preset reference value; And maintaining or varying the current value of the data line according to the determination result.

In the third step, if the value obtained by dividing the level transition time by a pulse period is a preset reference value, the preset reference current value is maintained in a falling section and a rising section of the data line. Characterized in that,

In addition, in step 3, when the value obtained by dividing the level transition time by a pulse period exceeds a preset reference value, in the falling section of the data line, the preset reference current value is maintained, but the rising ( Rising), it is characterized in that the upward adjustment to a current value higher than the preset reference current value,

In the third step, if the value obtained by dividing the level transition time by a pulse period is less than a preset reference value, the controller 3 maintains the preset reference current value in a falling interval of the data line, and rises. In the section, it is characterized in that the downward adjustment to a current value lower than the preset reference current value,

The data line may be an ATAPI data line connected between an optical disc drive and a host.

In addition, in a falling section and a rising section of the data line, 8 mA, which is a preset reference current value, may be applied, respectively.

In addition, the optical disk drive according to the invention, the interface means for connecting and connecting with the host; Power supply means for variably adjusting a current value of a data line connected to a host; Detecting means for detecting a pulse period and a level transition time of a data line connected to the host; And a control means for operating or controlling the power supply means to determine whether a value obtained by dividing the level transition time by a pulse period is a preset reference value, to maintain or variably adjust the current value of the data line. Characterized in that configured,

In addition, the control means. If the value obtained by dividing the level transition time by a pulse period is a preset reference value, the preset reference current value is maintained in a falling section and a rising section of the data line.

In addition, the control means, when the value obtained by dividing the level transition time by a pulse period exceeds a preset reference value, maintains the preset reference current value in a falling section of the data line, Rising), it is characterized in that the upward adjustment to a current value higher than the preset reference current value,

In addition, the control means, if a value obtained by dividing the level transition time by a pulse period is less than a preset reference value, the control means maintains a preset reference current value in a falling section of the data line and rises. In the section, it is characterized in that the downward adjustment to a current value lower than the preset reference current value,

The data line may be an ATAPI data line connected between an optical disc drive and a host.

The power supply means may apply 8 mA, which is a preset reference current value, in a falling section and a rising section of the data line, respectively.

In the optical disk drive and the data line current adjusting method according to the present invention, for example, a host such as a personal computer and the like, and the optical disk drive (ODD) connected through an ATAPI interface, and in the optical disk drive, After detecting the pulse period (T) and the level transition time (t) of the data line (Data Line) connected to and connected with each other, it is determined whether the value (t / T) obtained by dividing the level transition time by the pulse period is a preset reference value. By determining or maintaining or variably adjusting the current value of the data line, the pulse transmitted to the host through the ATAPI data line is undershooted or overshooted. This prevents fatal CRC errors in the data transmission process.

Hereinafter, exemplary embodiments of an optical disk drive and a data line current adjusting method according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention is applied to an optical disk drive (ODD) connected to a host such as a personal computer through, for example, an ATAPI (ATAPI) interface.

On the other hand, in the optical disk drive (ODD) to which the present invention is applied, for example, as shown in FIG. 1, the optical disk 10, the optical pickup 11, the RF signal processing unit 12, and the digital signal processing unit 13. , An interface unit 14, an LD (laser diode) driver 15, a microcomputer 16, a servo unit 17, a memory 18, and a power supply unit 19.

In addition, the microcomputer 16 determines the type of the optical disk 10 inserted into the optical disk drive, and then, at the request of the user, the servo unit 17, the LD driver 15, and the digital signal processing unit 13. ) To read and reproduce the data recorded on the optical disc 10.

In addition, the playback data is output to a host 200 such as a personal computer connected and connected through the interface unit 14, for example, an ATAPI data line for data transmission to the host 200. The current value (Data Line Current) is variably adjusted according to the power applied to the falling resistor and rising resistor included in the interface unit 14 in the power supply unit 19.

For example, the current value of the data line is set to 8 mA, respectively, according to a preset Automatic Program Control (APC) Spec 1 and APC Spec 2, wherein the APC Sepc 1, the falling of the data line (Falling) The APC Sepc 2 corresponds to a rising period of a data line.

In the A / D converter included in the digital signal processor 13, a pulse of an ATAPI data line connected to the host is converted from an analog signal to a digital signal and output to the microcomputer 16. For example, the A / D converter may be configured separately from the digital signal processor.

In addition, the microcomputer 16 receives the digital signal, and the pulse period T of the ATAPI data line (for example, 60 ns) and the level transition time (t), for example, rising (or The level transition time t from the polling section to the polling (or rising) section is detected.

Then, after determining whether the value (t / T) obtained by dividing the level transition time by the pulse period is a preset reference value, for example, (4.75 ns to 5.25 ns) / 60 ns, the power supply unit 19 By controlling the operation, the current value of the data line is maintained as it is, or by adjusting the current value up or down by a predetermined step, the pulse of the ATAPI data line transmitted to the host is undershooted. Unde Shoot or Over Shoot is prevented, which will be described in detail below.

2 is a flowchart illustrating an embodiment of a data line current adjusting method in an optical disk drive according to the present invention. For example, as described above with reference to FIG. 1, an ATAPI interface is provided. In the state in which the optical disk drive 100 and the host 200 are connected and connected (S10), when a system booting operation is performed, the microcomputer 16 operates and controls the power supply unit 19 to operate the interface unit ( The current value applied to the ATAPI data line 14) is set to a preset reference current value (S11).

For example, APC (Auto Program Control) spec 1 = 8 mA is applied to the falling register of the ATAPI data line, and APC spec 2 = 8 mA is applied to the rising register of the ATAPI data line ( S12).

The microcomputer 16 detects the pulse period T and the level transition time t of the ATAPI data line converted from the analog signal to the digital signal by the A / D converter of the digital signal processing unit 13. (S13).

For example, as shown in FIG. 3, the pulse period (T = 60ns) of the data line is applied to the polling register and the rising register of the ATAPI data line while 8 mA is respectively applied to a preset reference current value. The level transition time t is detected.

If the value (t / T) obtained by dividing the level transition time by a pulse period is a preset reference value (for example, (4.75ns to 5.25ns) / 60ns), a falling section and a rising interval of the data line are determined. In the rising period, 8mA, which is a preset reference current value, is continuously applied.

On the other hand, as shown in FIG. 4, the value (t / T, e.g., 5.5 ns / 60 ns) obtained by dividing the level transition time by a pulse period is a preset reference value (e.g., (4.75 ns to 5.25 ns) / 60 ns ), In the falling section of the data line, 8 mA, which is a preset reference current value, is continuously applied. In the rising section of the data line, 8 mA, which is a preset reference current value, is continuously applied. One step (for example, 1 Step = 2 mA) is adjusted up (Up) to a higher current value (S16).

As shown in FIG. 5, the value (t / T, e.g., 4.5 ns / 60 ns) obtained by dividing the level transition time by a pulse period is a preset reference value (eg, (4.75 ns to 5.25 ns) / 60 ns. Less than), the 8 mA, which is a preset reference current value, is continuously applied in the falling section of the data line, but in one step (eg, 8 mA) than the preset reference current value, 8 mA in the rising section of the data line. : 1 Step = 2mA) Down control to low current value (S17).

When the value (t / T) obtained by dividing the level transition time by the pulse period through the detection and adjustment operation as described above is equal to a preset reference value (for example, (4.75ns to 5.25ns) / 60ns), the optical disc A series of optical disc reproducing operations for reproducing and transmitting the data recorded in the host to the host is performed (S18).

Accordingly, since a pulse transmitted to the host through the ATAPI data line is prevented from being undershooted or overshooted, a fatal CRC error in the data transmission process is prevented. The occurrence can be prevented efficiently.

 It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. , Alteration, substitution, addition, or the like.

1 illustrates a configuration of an embodiment of an optical disk drive according to the present invention,

2 is a flowchart illustrating an embodiment of a data line current adjusting method of an optical disk drive according to the present invention;

3 to 5 illustrate embodiments of a detection result of a data line pulse and a current adjusting process according to the present invention.

[Description of Drawings]

10: optical disc 11: optical pickup

12: RF signal processing unit 13: digital signal processing unit

14: interface unit 15: LD driver

16: microcomputer 17: servo unit

18: memory 19: power supply

100: optical disk drive 200: host

Claims (12)

Detecting, by the optical disk drive, a pulse period and a level transition time of a data line connected to a host; Determining whether a value obtained by dividing the level transition time by a pulse period is a preset reference value; And And maintaining or variably adjusting the current value of the data line according to the determination result. The method of claim 1, In step 3, if the value obtained by dividing the level transition time by a pulse period is a preset reference value, maintaining the preset reference current value in a falling section and a rising section of the data line. A data line current adjusting method of an optical disc drive. The method of claim 1, In the third step, if the value obtained by dividing the level transition time by a pulse period exceeds a preset reference value, the voltage value is maintained at a preset reference current value in a falling section of the data line, but rising. In the section, the data line current control method of the optical disk drive, characterized in that the upward adjustment to a current value higher than the preset reference current value. The method of claim 1, In the third step, if the value obtained by dividing the level transition time by a pulse period is less than a preset reference value, in a falling section of the data line, the step is maintained at a preset reference current value and a rising section The data line current adjusting method of the optical disc drive, characterized in that the downward adjustment to a current value lower than the preset reference current value. The method of claim 1, And the data line is an ATAPI data line connected between the optical disc drive and the host. 3. The method of claim 2, The data line current control method of the optical disk drive, characterized in that for applying the reference current value of 8mA, respectively, in the falling section and the rising section of the data line. Interface means for a connection connection with a host; Power supply means for variably adjusting a current value of a data line connected to a host; Detecting means for detecting a pulse period and a level transition time of a data line connected to the host; And And determining, by determining whether the value obtained by dividing the level transition time by a pulse period is a preset reference value, and controlling the power supply means to maintain or variably adjust the current value of the data line. And an optical disc drive. The method of claim 7, wherein The control means. If the value obtained by dividing the level transition time by a pulse period is a preset reference value, the optical disc drive maintains a preset reference current value in a falling section and a rising section of the data line. . The method of claim 7, wherein When the value obtained by dividing the level transition time by the pulse period exceeds a preset reference value, the control unit maintains a preset reference current value in a falling section of the data line, but is rising. In the section, the optical disk drive, characterized in that the upward adjustment to a current value higher than the preset reference current value. The method of claim 7, wherein If the value obtained by dividing the level transition time by a pulse period is less than a preset reference value, the control unit maintains a preset reference current value in a falling section of the data line and raises the rising section. The optical disc drive, characterized in that the downward adjustment to a current value lower than the preset reference current value. The method of claim 7, wherein And the data line is an ATAPI data line connected between an optical disc drive and a host. The method of claim 7, wherein And the power supply means applies 8 mA, which is a preset reference current value, in a falling section and a rising section of the data line, respectively.

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