KR100973165B1 - Method for measuring a writing speed of optical disc drive - Google Patents

Abstract

The present invention relates to a recording speed measurement method of an optical disk drive, which includes a recording application program in a host such as a personal computer, and newly defines and uses ATAPI commands for recording speed measurement of an optical disk drive. After storing the return data of the recording speed information that can be supported by the optical disk drive in advance, and requesting the recording speed information from the host, the recording speed reading information is read and transmitted to the host, such as a personal computer or the like. It is a very useful invention that can more quickly and accurately measure the recordable speeds of an optical disc drive connected to the same host.

Optical disc drive, host, recording application program, ATAPI command, return data, operating code, rotation control bit

Description

Measuring speed of optical disc drive {Method for measuring a writing speed of optical disc drive}             

1 is a flowchart illustrating a method of measuring a recording speed of a general optical disc drive.

2 illustrates a state in which an optical disk drive and a host are connected and connected to the present invention.

3 illustrates an embodiment of a newly defined ATAPI command according to the present invention,

FIG. 4 shows return data for recording speed information of an optical disc drive stored and managed according to the present invention;

5 is a flowchart illustrating a method of measuring a recording speed of an optical disc drive according to the present invention.

[Description of Drawings]

10: optical disc 11: optical pickup

12: playback processing section 13: recording processing section                 

14: microcomputer 15: interface unit

16: servo controller 17: memory

20: recording application program 100: optical disk drive

200: host

The present invention provides a faster and more accurate measurement of the writing speed of an optical disk drive that records and reproduces data on an optical disk such as a CD or DVD on a host such as a personal computer. The present invention relates to a recording speed measuring method of an optical disk drive.

Recently, optical discs such as CDs or DVDs capable of recording and storing digital video and audio data have been widely used and commercialized. Optical disc drives capable of recording and reproducing data on the optical discs include personal computers (PCs) and the like. There is an increasing number of cases of connecting to the same host.

On the other hand, a host such as a personal computer and the optical disk drive Dive perform a series of interface operations using a command defined in the AT Attached Packet Interface (ATAPI) standard.

For example, as shown in FIG. 1, the host refers to a format of the 'Mode Sense (10) 2A Page' defined in the ATAPI standard, and requests a command for inquiring the maximum recording speed of the optical disc drive. After creation, it is transferred to the optical disc drive.

In addition, the optical disk drive generates a response message indicating that the maximum recording speed that can be supported is 'A speed' (for example, 48 times speed) by referring to the format of '2A Page Return Data' defined in the ATAPI standard. After that, it is sent to the host.

Further, the host temporarily sets a recording speed for an optical disk, for example, a CD, generates a command to inquire whether recording at A speed is possible, and transmits the command to the optical disk drive. Send a command requesting a response.

In the meantime, the optical disk drive generates a response message indicating whether or not the A speed can be written and transmits the response message to the host according to the commands requested through the above-described process.

Further, the host temporarily sets a recording speed for the CD and then generates a command for inquiring whether or not recording at the speed (A-2) is possible, and transmits the command to the optical disk drive. Send a command requesting a response.

The optical disk drive generates a response message indicating whether or not (A-2) double speed recording is possible according to the command requested as described above, and then transmits the response message to the host.

On the other hand, as described above, after repeatedly performing an interface operation that inquires and answers whether recording at the maximum recording speed (A speed) at a lower recording speed by '2 times speed' is possible, then inquires whether the 1x speed recording is finally possible. And answers.

However, since the host repeatedly performs such a series of interface operations to complete the measurement of the recording speed of the optical disc drive, for example, when the maximum recording speed of the optical disc drive is 48 times, at the 48 times- When repeatedly inquiring whether recording at a lower recording speed by 2x speed is possible, the interface operation that inquires whether or not recording speed is possible about 25 times or more must be repeatedly performed, so it takes a long time to measure the recording speed of the optical disc drive. In addition, a problem arises in that the system load is increased inefficiently.

Accordingly, the present invention was created to solve the above problems, and in the host such as a personal computer, a new ATAPI command for measuring the recording speed of the optical disk drive can be newly defined and used, and can be supported by the optical disk drive. To provide a recording speed measurement method of an optical disk drive for storing the return data of the recording speed information in advance, and then reading the recording speed information from the host and transmitting the recording speed information more quickly and accurately. The purpose is.

In the recording speed measurement method of the optical disk drive according to the present invention for achieving the above object, after generating a unique ATAPI command for recording speed measurement of the optical disk drive in the recording application program in the host, the ATAPI command is generated. Transmitting to an optical disc drive; And reading out the return data of pre-stored recording speed information from the microcomputer of the optical disc drive, and transmitting the return data to the host.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the recording speed measurement method of the optical disk drive according to the present invention will be described in detail.

2 shows a configuration of an optical disk drive to which the present invention is applied. In the optical disk drive 100, an optical pickup 11, a reproduction processing unit 12, a recording processing unit 13, a microcomputer 14, The interface unit 15, the servo controller 16, the memory 17, and the like are included, and the host 200 includes the recording application program 20.

On the other hand, in the recording application program 20, a new ATAPI command for measuring the recording speed of the optical disk drive is defined and used. For example, as shown in FIG. 3, the recording speed of the optical disk drive is defined. The new ATAPI command for measurement is set to a recording size of 12 bytes in accordance with the existing ATAPI standard.

In addition, a unique operating code value for requesting transmission of the recording speed information that can be supported by the optical disc drive is defined and assigned to the first 1 byte (0 to 7b), and the two consecutive bits are then assigned. It is defined as a rotation control bit to distinguish the CLV mode (eg 00) or CAV mode (eg 01), and the remaining bits are allocated as reserved information.

For example, when the host requests the recording speed corresponding to the CLV mode, as shown in FIG. 3, an operating code of '1011 1110', a rotation control bit of '00', and remaining spare information 12 A new ATAPI command with a byte write size is generated and sent to the optical disc drive.

On the other hand, in the microcomputer 14 of the optical disc drive, when a new ATAPI command is received through the interface unit 15, the reading / speed information stored in advance in the memory 17 is read and referred to. As shown in Fig. 4, recording speed information having an arbitrary data length (0 to X + 1 Bytes) is recorded and stored as return data in a format conforming to the existing ATAPI standard.

In addition, data length information is recorded and stored in the first and second bytes of the return data of the recording speed information, and two consecutive bits are stored in the CLV mode (for example, 00) or CAV mode. (E.g., 01) is recorded and stored as a rotation control bit to distinguish the recording speed, and the remaining bits are recorded and stored at respective recording speed information for the lowest recording speed to the highest recording speed.

When the host requests the recording speed corresponding to the CLV mode, the microcomputer sets the rotation control bit value to '00', and then generates the recording speed information that can be supported in the CLV mode as return data. When the host requests the recording speed corresponding to the CAV mode, the host controller transmits the rotation control bit value to '01' and then transmits the CAV mode. Generates the recording speed information that can be supported by the return data, and transmits to the recording application program 20 of the host.

Accordingly, in the recording application program 20 of the host, the recording speeds that can be supported by the optical disc drive can be measured more quickly and accurately.

FIG. 5 is a flowchart illustrating a method of measuring a recording speed of an optical disc drive according to the present invention. As described above, in the recording application program 20 of the host, Mode Sense 10 defined in the ATAPI standard is described. Refer to the format of " 2A Page ", and generate a command for inquiring the maximum recording speed of the optical disc drive, and then transfer it to the optical disc drive.

On the other hand, the microcomputer 14 of the optical disk drive (Drive), referring to the format of '2A Page Return Data' defined in the ATAPI standard, the response indicating that the maximum recording speed that can be supported is 'A speed', for example, 48 times speed. After generating a message, it performs a series of operations to send it to the host.

Then, the recording application program 20 of the host refers to the ATAPI command newly defined by the present invention and transmits a command to the optical disc drive requesting transmission of recording speed information that can be supported in the CLV mode. As described above with reference to FIG. 3, the command transmitted to the optical disc drive includes an ATAPI command having a 12-byte recording size including an operating code of '1011 1110', a rotation control bit of '00', and the remaining spare information. Is sent.

On the other hand, in the microcomputer 14 of the optical disk drive, when the ATAPI command of the 12-byte recording size is received through the above process, the return data which is the recording speed information stored in the memory 15 is read and referred to. For example, the return data including the control bit '00' for indicating the recording speed information that can be supported in the CLV mode is generated as a response message corresponding to the ATAPI command and transmitted to the recording application program of the host. do.

In addition, the recording application program 20 of the host refers to the newly defined ATAPI command and transmits a command to the optical disc drive requesting transmission of recording speed information that can be supported in the CAV mode. As described above with reference to 3, the command transmitted to the optical disc drive is an ATAPI command having a 12 byte recording size consisting of an operating code of '1011 1110', a rotation control bit of '01', and the remaining spare information. .

On the other hand, in the microcomputer 14 of the optical disk drive, when the ATAPI command of the 12-byte recording size is received through the above process, the return data which is the recording speed information stored in the memory 15 is read and referred to. For example, the return data including the control bit '01' indicating that the recording speed information can be supported in the CAV mode is generated as a response message corresponding to the ATAPI command and transmitted to the recording application program of the host. do.                     

Accordingly, in the recording application program 20, in order to measure the recording speeds that can be supported by the optical disc drive, the number of interface operations for transmitting a command to the microcomputer 14 and receiving a corresponding response message is minimized. As a result, the recording speed of the optical disc drive can be measured more quickly and accurately.

For reference, in the operating code included in the newly defined ATAPI command according to the present invention, any unique code value not defined in the existing ATAPI attack may be recorded and used to distinguish the CLV mode and the CAV mode. The control bits and the return data of the recording speed information stored and managed in the memory may be added or replaced with more various information.

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

The recording speed measurement method for an optical disk drive according to the present invention, which is constructed and constructed as described above, includes a recording application program in a host such as a personal computer, and newly defines an ATAPI command for recording speed measurement of an optical disk drive. And storing, in advance, return data of the recording speed information that can be supported by the optical disk drive, and reading the recording speed information when the recording speed information is requested from the host and transmitting the read data to the host. It is a very useful invention that can more quickly and accurately measure the recordable speeds of an optical disc drive used in connection with a host such as a personal computer.

Claims (5)

In a recording application program in the host, generating a unique ATAPI command for recording speed measurement of the optical disk drive, and then transmitting the ATAPI command to the optical disk drive; And In the microcomputer of the optical disk drive, information about the maximum recording speed of the optical disk drive and the supported recording speeds for each recording mode, and reading the return data stored in advance, and transmitting the return data to the host; The recording speed measurement method of the optical disk drive, characterized in that made. The method of claim 1, The unique ATAPI command is defined by a unique operating code for requesting transmission of recording speed information that can be supported by an optical disc drive, a rotation control bit for distinguishing a CLV mode or a CAV mode, and spare information. Recording speed measurement method of an optical disk drive. The method of claim 1, And the return data is allocated data length information, a rotation control bit for distinguishing a CLV mode or a CAV mode, and a plurality of recording speed information. The method of claim 1, In the recording application program in the host, the recording speed measurement method of the optical disk drive, which sequentially requires the maximum recording speed of the optical disk drive, the recording speed information that can be supported in the CLV mode, and the recording speed information that can be supported in the CAV mode. . The method of claim 1, The microcomputer of the optical disc drive sequentially transfers the maximum recording speed of the optical disc drive, the recording speed information that can be supported in the CLV mode, and the recording speed information that can be supported in the CAV mode through an interface with a recording application program in the host. The recording speed measurement method of the optical disk drive, characterized in that.

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