JP2006004580A - Device and method for recording and reproducing information - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device and a method for recording and reproducing information, which prevent quality of recording/reproduction from being degraded. <P>SOLUTION: The quality of recording/reproduction can be prevented from being degraded by performing self-diagnostic test according to an instruction from an external host computer (11), and performing readjustment when the readjustment is determined as necessary. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an information recording / reproducing apparatus and an information recording / reproducing method.

In recent years, in the manufacturing process of optical disk drive devices (information recording / reproducing devices) such as CD (Compact Disk) and DVD (Digital Versatile Disk), the drive device is equipped with a program for automatic adjustment and adjustment in the production process. Work is automated to prevent and simplify work errors in adjustment work (see, for example, Patent Document 1).
In order to deal with such a problem, a means for detecting the temperature is provided in the drive device, and readjustment is performed when the temperature in the device exceeds a predetermined value (see, for example, Patent Document 2).
In addition, it describes the automation of LD (Laser Diode) power adjustment, and, as a countermeasure against component deterioration, readjustment is performed every predetermined time (see, for example, Patent Document 3). ).
JP-A-8-339615 Japanese Patent Laid-Open No. 7-50019 Japanese Patent Laid-Open No. 10-228644

However, in the invention described in Patent Document 1, the adjustment is only performed before shipment, and the result of the adjustment performed before shipment is not optimal due to component deterioration or the like, and as a result, the data recording / reproduction is adversely affected. There was a problem of giving.
In the invention described in Patent Document 2, since component deterioration cannot be detected at the drive internal temperature, readjustment due to component deterioration cannot be performed.
Furthermore, in the invention described in Patent Document 3, for example, the degree of deterioration differs between when data is frequently recorded and when almost no data is recorded or when an optical disk is rarely inserted. Therefore, it cannot be said that readjustment is performed efficiently.
In addition, it is supposed that readjustment is performed every time the power is turned on. However, if readjustment is performed each time the power is turned on, readjustment is performed from when the power is turned on until it can be actually used. As a result, each time the user turns on the power, the user has to wait for it. In addition, there is a problem that readjustment is not performed if the user always keeps the power on.

Drive devices capable of recording / reproducing data to / from optical discs such as CDs and DVDs are used as drive devices in the manufacturing process prior to shipment in order to match variations due to solids such as laser diodes and analog LSIs. After installation, make adjustments for each item, such as LD power, amplifier offset, and servo system circuit offset.
In recent years, this adjustment is generally performed automatically by a program incorporated in the drive device. The drive device receives an instruction by a command or the like to execute adjustment from an external system such as a host computer, and performs adjustment operation. The value obtained in the adjustment is stored as a reference value in the memory in the drive device, informs the external system whether the adjustment result is OK or NG, and if it is OK, it is sent to the next process. is there. In this adjustment operation, for example, an adjustment value serving as a reference necessary for controlling the LD power during data recording is obtained and stored in a memory in the drive device. When data is actually recorded / reproduced from an optical disk, the recording / reproduction quality is improved by controlling the light emission power of the LD based on this reference value.

  However, for example, when the LD has deteriorated due to long-term use, even if the LD is caused to emit light based on the reference value, the light emission power is actually insufficient and the recording / reproduction quality is deteriorated. In some cases, an error occurs during recording / playback, and if such an error occurs during recording, the disc may be wasted. As described above, there is a problem in that the reference value obtained by adjustment before shipment is not an optimum value due to the aging of each component, which adversely affects data recording and reproduction.

  Further, the drive device is generally used by being connected to a PC (personal computer), and the power of the drive device is supplied from the PC. Normally, when the PC is turned on and off, the drive device is also turned on and off at the same time. However, depending on the user, the PC may remain on at all times. In such a case, the power supply of the drive device is always on, and the number of power on / off operations is not counted, so that the adjustment cannot be performed again.

  Further, for example, the LD light emission power differs between data recording and data reproduction. Usually, the light emission power is more required during data recording, and therefore, the deterioration of LD is accelerated more when the number of times of data recording is larger than the number of times of data reproduction. As described above, the state is different in data recording / reproduction, but it is often used in recording / reproduction depending on the user. Therefore, it is desirable to count the number of times of data recording and the number of times of data reproduction separately.

Further, although the state is different in data recording / reproduction, it is often used in recording / reproduction depending on the user. Therefore, it is desirable to measure the data recording time and the data reproduction time separately.
While the self-diagnosis test or the adjustment process is being executed, another process such as a command being transmitted from the host computer or a user pressing the eject button may be required. If another process is requested while the self-diagnosis test or adjustment process is being executed and the process is interrupted, an abnormal result may occur in the drive device. When the self-diagnosis test or the adjustment process is being performed, the user cannot know that the process is being performed.
Even if each component to be adjusted (for example, LD) is adjusted according to its life, a normal value may not be determined. In such a case, since the user cannot know that each part has a lifetime, it is conceivable that data is recorded / reproduced with respect to the optical disc. In particular, when recording is performed on an optical disk that can be written only once, such as a DVD-R, recording cannot be performed normally, and the optical disk may be wasted due to a recording error.
Accordingly, the present invention is to provide an information recording / reproducing apparatus and an information recording / reproducing method which prevent deterioration in recording / reproducing quality.

In order to solve the above-mentioned problems, the invention of claim 1 of the present invention is an information recording / reproducing apparatus for recording / reproducing data on / from an optical disc such as a CD or a DVD, and an adjusting means for adjusting predetermined parts after assembly. Storing means for storing the result obtained by the adjusting means in a memory as a reference value; and recording / reproducing that operates based on the reference value stored in the memory when recording / reproducing data on the optical disc A self-diagnosis test means for executing a self-diagnosis test to determine whether or not a reference value stored in the memory is an optimum value in accordance with an instruction from an external host computer; and If it is determined that the reference value stored as a result is not the optimum value, the adjustment means is caused to execute the adjustment program and each adjustment is performed again to obtain the reference value. And readjusting means, a reference value obtained is characterized in that a overwriting means for overwriting the standard value stored in the memory.
According to the first aspect of the present invention, the self-diagnostic test is performed in response to an instruction from the external host computer, and when it is determined that readjustment is necessary, readjustment is performed to improve the quality of storage / reproduction. Deterioration can be prevented.

According to a second aspect of the present invention, in the information recording / reproducing apparatus according to the first aspect, the self-diagnosis test means performs a self-diagnosis test when a specific button is operated under a predetermined condition different from a normal operation. It is characterized by that.
According to the second aspect of the present invention, the self-diagnosis test can be performed even with the information recording / reproducing apparatus alone. When readjustment is necessary, the readjustment is automatically performed, so that the recording / reproduction quality can be improved. Deterioration can be prevented.

According to a third aspect of the present invention, in an information recording / reproducing apparatus for recording / reproducing data with respect to an optical disc such as a CD or a DVD, an adjustment means for adjusting a predetermined part after assembly, and a result obtained by the adjustment means Is stored in a memory as a reference value, and recording / reproducing means that operates based on the reference value stored in the memory when data is recorded / reproduced to / from the optical disk. Count means for counting the stored number of times and storing in the memory, and when the number of times the power is turned on exceeds a predetermined value, the adjustment means is caused to execute an adjustment program, and each adjustment is performed again to perform a reference value. Readjustment means for obtaining the reference value, and overwriting means for overwriting the reference value obtained by the readjustment means on the reference value stored in the memory.
According to the third aspect of the present invention, since the optimum reference value is used at the time of data recording / reproducing by performing the readjustment automatically, it is possible to prevent the deterioration of the recording / reproducing quality. .

According to a fourth aspect of the present invention, in the information recording / reproducing apparatus according to the third aspect, the means for measuring the energization time when the power is turned on, and the adjustment program for the adjusting means when the energization time exceeds a predetermined value And a re-adjustment unit that performs each adjustment again to obtain a reference value, and an overwriting unit that overwrites the reference value stored in the memory with the reference value obtained by the readjustment unit. And
According to the invention described in claim 4, when the energization time is measured and the energization time exceeds a predetermined time, the readjustment is automatically performed, so that the optimum reference value is used at the time of data recording / reproduction. Therefore, it is possible to prevent deterioration in recording / reproducing quality.

According to a fifth aspect of the present invention, in the information recording / reproducing apparatus according to the third aspect, the number counting means for counting the number of inserted optical disks, and the number counted by the number counting means exceeds a predetermined value. A re-adjustment unit that causes the adjustment unit to execute an adjustment program and performs each adjustment again to obtain a reference value; and an overwrite unit that overwrites the reference value stored in the memory with the reference value obtained by the readjustment unit; It is provided with.
According to the fifth aspect of the present invention, the number of inserted optical disks is counted, and when a predetermined number of sheets is exceeded, readjustment is automatically performed, so that an optimum reference value is used when recording / reproducing data. Therefore, it is possible to prevent deterioration in recording / reproduction quality.

According to a sixth aspect of the present invention, in the information recording / reproducing apparatus according to the third aspect, the number counting means for counting the number of times data is recorded / reproduced on the optical disc, and the number of times counted by the number counting means. When the value exceeds a predetermined value, the adjustment unit is caused to execute an adjustment program, each adjustment is performed again to obtain a reference value, and a reference value obtained by the readjustment unit is stored in the memory. An overwriting means for overwriting the value is provided.
According to the sixth aspect of the present invention, the number of times of data recording / reproducing with respect to the optical disc is counted, and when the predetermined number of times is exceeded, the readjustment is automatically performed, so that the optimum reference value for recording / reproducing data is obtained. Therefore, it is possible to prevent deterioration in recording / reproduction quality.

According to a seventh aspect of the present invention, in the information recording / reproducing apparatus according to the sixth aspect, the individual count means for individually counting the number of times data has been recorded / reproduced on the optical disc, and the individual count means A comparison unit having a predetermined value A for determining the recorded number of times and a predetermined value B for determining the number of reproductions, and comparing the recording number and the reproduction number with values A and B, respectively. When either the number of recordings or the number of reproductions exceeds a predetermined value A or B, the adjustment unit is caused to execute an adjustment program, and each adjustment is performed again to obtain a reference value; And overwriting means for overwriting the reference value obtained by the adjusting means over the reference value stored in the memory.
According to the seventh aspect of the present invention, readjustment can be performed at an optimum timing by separately counting the number of times of data recording and the number of times of reproduction.

According to an eighth aspect of the present invention, there is provided the information recording / reproducing apparatus according to the third aspect, wherein a measuring unit that measures a time during which data is recorded / reproduced with respect to the optical disc, and a recording / reproducing unit that is measured by the measuring unit. When the reproduction time exceeds a predetermined value, the adjustment unit is caused to execute the adjustment program, and each adjustment is performed again to obtain a reference value, and the reference value obtained by the readjustment unit is stored in the memory. And overwriting means for overwriting the reference value.
According to the eighth aspect of the present invention, the time during which data recording / reproduction is performed on the optical disc is measured, and when the predetermined time is exceeded, the readjustment is automatically performed, whereby the data recording is performed. / Since the optimum reference value is used at the time of reproduction, deterioration of the recording / reproduction quality can be prevented.

According to a ninth aspect of the present invention, in the information recording / reproducing apparatus according to the eighth aspect, the individual measuring means for individually measuring the time during which data is recorded / reproduced on the optical disc, and the individual measuring means An individual time having a predetermined value A for determining the measured recording time and a predetermined value B for determining the reproduction time, and comparing the recording time and the reproduction time with the values A and B, respectively. When either the recording time or the reproduction time exceeds a predetermined value A or B by the comparison means and the individual time comparison means, the adjustment means is caused to execute an adjustment program, and each adjustment is performed again to perform a reference. Readjustment means for obtaining a value, and overwrite means for overwriting the reference value obtained by the readjustment means on the reference value stored in the memory.
According to the ninth aspect of the present invention, readjustment can be performed at the optimum timing by separately measuring the data recording time and the reproduction time.

The information recording / reproducing apparatus according to any one of claims 1 to 9 is requested when another process is requested during execution of the self-diagnosis test or the adjustment. It is characterized by comprising a transmission means for ignoring the processing and transmitting that processing is being performed through an external interface without interrupting the self-diagnosis test or the adjustment.
According to the tenth aspect of the present invention, even if another process is requested during execution of the self-diagnosis test or the adjustment process, the process is continued without interruption, thereby preventing an abnormal result.

According to an eleventh aspect of the present invention, in the information recording / reproducing apparatus according to any one of the first to ninth aspects, when the self-diagnosis test or the adjustment is performed, a process is performed by a user by turning on a light emitting element. It is characterized by having a notification means for notifying that it is inside.
According to the eleventh aspect, the user can know that the self-diagnosis test or the adjustment process is being executed.

According to a twelfth aspect of the present invention, in the information recording / reproducing apparatus according to any one of the first to eleventh aspects, if the self-diagnostic test fails or a normal value cannot be determined even after adjustment, an external interface is provided. It further comprises transmission means for transmitting that the error is further, and other notification means for informing the user that the error is caused by blinking of the light emitting element.
According to the twelfth aspect of the present invention, the user can know that the self-diagnostic test has failed or an adjustment error has occurred, and that the component in the drive device has a lifetime.

The invention according to claim 13 is an information recording / reproducing method for recording / reproducing data on / from an optical disc such as a CD or a DVD. The result is stored in the memory as a reference value, and when recording / reproducing data on the optical disc, the operation is performed based on the reference value stored in the memory, and is stored in the memory by an instruction from an external host computer. A self-diagnosis test is performed to determine whether or not the reference value is an optimum value, and when it is determined that the stored reference value is not the optimum value based on the result of the self-diagnosis test, an adjustment program is stored in the adjustment unit. And performing each adjustment again to obtain a reference value, and the obtained reference value is overwritten on the reference value stored in the memory.
According to the thirteenth aspect of the present invention, the self-diagnosis test is performed in response to an instruction from an external host computer, and when it is determined that readjustment is necessary, readjustment is performed, thereby improving the storage / reproduction quality. Deterioration can be prevented.

According to a fourteenth aspect of the present invention, in the information recording / reproducing method according to the thirteenth aspect, a self-diagnosis test is performed when a specific button is operated under a predetermined condition different from the normal operation.
According to the fourteenth aspect of the present invention, the self-diagnosis test can be carried out even with the information recording / reproducing apparatus alone. When readjustment is necessary, the readjustment is automatically performed to thereby improve the recording / reproduction quality. Deterioration can be prevented.

The invention according to claim 15 is an information recording / reproducing method for recording / reproducing data on / from an optical disc such as a CD or a DVD, wherein an adjustment means is adjusted for a predetermined part after assembly, and a result obtained at the time of the adjustment is obtained. When the data is recorded / reproduced to / from the optical disk, the number of times the power is turned on is counted, and the number of times is stored in the memory. When the number of times the power is turned on exceeds a predetermined value, the adjustment unit is caused to execute the adjustment program, each adjustment is performed again to obtain a reference value, and the obtained reference value is stored in the memory. It is characterized by overwriting the value.
According to the fifteenth aspect of the present invention, since the optimum reference value is used at the time of data recording / reproduction by performing the readjustment automatically, it is possible to prevent deterioration of the recording / reproduction quality. .

According to a sixteenth aspect of the present invention, in the information recording / reproducing method according to the fifteenth aspect, the energization time is measured when the power is turned on, and the adjustment program of the adjusting means is executed when the energization time exceeds a predetermined value. Each adjustment is performed again to obtain a reference value, and the obtained reference value is overwritten on the reference value stored in the memory.
According to the invention described in claim 16, the energization time is measured, and when the energization time exceeds a predetermined time, the readjustment is automatically performed, so that the optimum reference value is used at the time of data recording / reproduction. Therefore, it is possible to prevent deterioration in recording / reproducing quality.

According to a seventeenth aspect of the present invention, in the information recording / reproducing method according to the fifteenth aspect, the number of inserted optical disks is counted, and when the counted number exceeds a predetermined value, the adjusting means is caused to execute an adjustment program. Each adjustment is performed again to obtain a reference value, and the obtained reference value is overwritten on the reference value stored in the memory.
According to the seventeenth aspect of the present invention, the optimum reference value is used when recording / reproducing data by counting the number of inserted optical discs and automatically performing readjustment when the number exceeds the predetermined number. Therefore, it is possible to prevent deterioration in recording / reproduction quality.

The invention according to claim 18 is the information recording / reproducing apparatus according to claim 15, wherein the number of times data is recorded / reproduced on the optical disc is counted, and the adjustment is performed when the counted number exceeds a predetermined value. The adjustment program is executed by the means, each adjustment is performed again to obtain a reference value, and the obtained reference value is overwritten on the reference value stored in the memory.
According to the eighteenth aspect of the present invention, the number of times of data recording / reproducing with respect to the optical disk is counted, and when the predetermined number of times is exceeded, readjustment is automatically performed, so that an optimum reference value is obtained at the time of data recording / reproducing. Therefore, it is possible to prevent deterioration in recording / reproduction quality.

According to a nineteenth aspect of the present invention, in the information recording / reproducing method according to the eighteenth aspect, the number of times data is recorded / reproduced on the optical disc is individually counted, and the number of times of recording is compared with a predetermined value A. At the same time, the number of reproductions is compared with a predetermined value B, and when either the number of recordings or the number of reproductions exceeds a predetermined value A, B, the adjustment unit is caused to execute an adjustment program, and each adjustment is performed again. A reference value is obtained by executing, and the obtained reference value is overwritten on the reference value stored in the memory.
According to the nineteenth aspect of the present invention, it is possible to perform readjustment at an optimal timing by separately counting the number of times of data recording and the number of times of reproduction.

According to a twentieth aspect of the present invention, in the information recording / reproducing method according to the fifteenth aspect, a time during which data is recorded / reproduced on the optical disc is measured, and the measured recording / reproduction time is set to a predetermined value. If exceeded, the adjustment unit is caused to execute an adjustment program, each adjustment is performed again to obtain a reference value, and the obtained reference value is overwritten on the reference value stored in the memory.
According to the twentieth aspect of the present invention, the time during which data recording / reproduction is performed on the optical disc is measured, and when the predetermined time is exceeded, the readjustment is automatically performed, thereby recording the data. / Since the optimum reference value is used at the time of reproduction, deterioration of the recording / reproduction quality can be prevented.

According to a twenty-first aspect of the present invention, in the information recording / reproducing method of the twentieth aspect, the time during which data is recorded / reproduced on the optical disc is individually measured, and the recording time and a predetermined value A are obtained. At the same time, the reproduction time is compared with a predetermined value B. When either the recording time or the reproduction time exceeds a predetermined value, the adjustment means is caused to execute an adjustment program, and each adjustment is performed again. A reference value is obtained by executing, and the obtained reference value is overwritten on the reference value stored in the memory.
According to the twenty-first aspect of the present invention, readjustment can be performed at an optimum timing by separately measuring the data recording time and the reproduction time.

According to a twenty-second aspect of the present invention, in the information recording / reproducing method according to any one of the thirteenth to twenty-first aspects, a request is made when another process is requested during the self-diagnosis test or the adjustment. It is characterized in that the user is notified by transmitting that the process is being performed through an external interface without interrupting the self-diagnostic test or the adjustment while ignoring the process.
According to the twenty-second aspect, even if another process is requested during execution of the self-diagnosis test or the adjustment process, the process is continued without interruption, thereby preventing an abnormal result.

The invention according to claim 23 is the information recording / reproducing method according to any one of claims 13 to 21, wherein when the self-diagnosis test or the adjustment is performed, a process is performed by a user by turning on a light emitting element. It is characterized by notifying that it is inside.
According to the twenty-third aspect, the user can know that the self-diagnosis test or the adjustment process is being executed.

The invention according to claim 24 is the information recording / reproducing method according to any one of claims 13 to 23, wherein when the self-diagnosis test fails or a normal value cannot be determined even after adjustment, an external interface is provided. It is further characterized in that the error is transmitted and the user is notified of the error by blinking the light emitting element.
According to the twenty-fourth aspect of the present invention, the user can know that the self-diagnosis test has failed or an adjustment error has occurred, and that the components in the drive device have a lifetime.

  A self-diagnosis test is performed in accordance with an instruction from an external host computer, and when it is determined that readjustment is necessary, readjustment can be performed to prevent deterioration in storage / reproduction quality.

(Structure of the invention)
FIG. 1 shows a configuration example (optical disc drive apparatus) of an embodiment of an information recording / reproducing apparatus to which the information recording / reproducing method of the present invention is applied.
The drive device as an information recording / reproducing device is a CD (CD-RAM that can be written many times (more than 100,000 times), CD-RW that can be written many times (more than 1,000 times), CD-R that can be written only once) , DVD (DVD-RAM writable many times (more than 100,000 times), DVD-RW writable many times (more than 1,000 times), DVD-R writable only once) optical disc (1) at any rotation speed The motor (2) that rotates in the direction of the arrow P and the rotation control unit (3) that controls the motor (2) are provided. The drive device also includes a pickup (4) for irradiating the optical disk (1) with laser light, a laser drive circuit (9) for driving the laser light of the pickup (4), and a pickup (4) for the optical disk (1). An actuator control unit (5) that performs control to move in the radial direction and a signal control unit (6) that controls a signal from the pickup (4) are provided.
Further, the drive device controls the entire drive device such as an external interface (10) for exchanging signals with an external host computer (11) and a buffer (8) which is a temporary storage place for data and the like. It consists of a controller (7).

  A non-volatile memory (12) is also connected to the drive device in order to record information unique to the drive device. The nonvolatile memory (12) includes, for example, EEPROM (Electrically Erasable Program Read Only Memory), FeRAM (Ferroelectric Random Access Memory), MRAM (Magnetic RAM) Etc.) and programs for adjusting the drive controller (7) (adjustment means, storage means, self-diagnosis test means, readjustment means, overwrite means, etc.) are also stored. The pickup (4), actuator control unit (5), signal control unit (6), and laser drive circuit (9) constitute a recording / reproducing means.

FIG. 12 is a diagram showing an example of automatic adjustment means used in the information recording / reproducing apparatus shown in FIG.
This automatic adjustment means includes, for example, an operational amplifier OA, a feedback capacitor C connected between the inverting input terminal and the output terminal of the operational amplifier OA, and an input resistor R connected to the inverting input terminal of the operational amplifier OA. It is configured and means for obtaining a reference value necessary for controlling the LD power during data recording. The reference value and input value are output to the LD through the operational amplifier OA. The input value is fixed and becomes the same value as the reference value (input value = reference value). The reference value is obtained by calculation and set by the LSI. The value of A is obtained by calculation from the value set as the reference value (expected value). However, the value of A differs from the expected value due to component variations and the like. For this reason, adjustment is required.
Therefore, an offset is added to the value set as the reference value to obtain a value at which the value of A is the same as the expected value.
The obtained value is stored in the drive device as a reference value. Thereafter, by using this reference value, A = expected value, and light can be emitted with an optimum power.

(Operation of the invention)
Next, the operation of the drive apparatus according to claims 1 and 2 will be described based on the operation flow of FIG.
The drive device determines whether or not to execute a self-diagnosis test from the host computer (11) (step A1). Wait until an instruction to execute the self-diagnostic test is received (step A1 / No). When an instruction to execute the self-diagnostic test is received (step A1 / Yes), a self-diagnostic test to determine whether readjustment is necessary (Step A2, where the command from the host computer (11) is an ATAPI (Advanced Technology Attachment Packet Interface: standard for connecting a device other than a hard disk to the ATA interface) command.) An example of this is shown in FIG.
As a result of the self-diagnosis test (step A2), it is determined whether readjustment is necessary (step A3). When the drive device determines that readjustment is necessary (step A3 / Yes), the drive device executes the adjustment program to perform the adjustment operation (step A4), and the result obtained by the adjustment operation is stored in the nonvolatile memory ( Overwrite the previous adjustment result saved in 12) (step A5). When it is determined that readjustment is not necessary (step A3 / No), the drive device ends the operation.
With the above operation, the optimum adjustment value can be obtained, and it becomes possible to prevent the deterioration of the data recording / reproduction quality on the optical disk thereafter (claim 1). Further, the drive device according to claim 2 takes into account the case where the host computer (11) is not connected, and a specific button, for example, an eject button is operated under a predetermined condition different from the normal operation (for example, It is determined that a self-diagnosis test execution command has been received (step A1 / Yes) and the self-diagnosis test is executed (step A2).

Next, the operation of the drive apparatus according to claims 3 to 9 will be described based on the operation flow of FIG.
The drive device determines whether or not readjustment is necessary according to readjustment execution conditions (step B1). If it is determined that readjustment is necessary (step B1 / Yes), the drive device executes the adjustment program. The adjustment operation is performed (step B2), and the result obtained by the adjustment is overwritten on the previous adjustment result stored in the nonvolatile memory (12) and stored (step B3). The readjustment execution condition (step B1) is different for each drive device according to claims 3 to 9.
This process (steps B1 to B3) is performed when the drive device is in an idle state.
Here, the idle state means a state where there is no disk access or command response with the host computer, and the drive device is not performing any processing.

Next, the operation of the drive device according to the third aspect will be described based on an operation flow in which the operation flow shown in FIG. 4 and the operation flow shown in FIG. 5 are combined.
When the power is turned on, the drive device increments a counter that counts the number of times the power is turned on (step C1), and adds the count value to the previous count value stored in the nonvolatile memory (12). Save overwriting (step C2). When the stored count value exceeds a predetermined value (for example, 1,000 times) (step B1 / Yes), an adjustment operation is executed (step B2). If the count value is equal to or smaller than the predetermined value (step B1 / No), the process is terminated without performing readjustment.

Next, the operation of the drive device according to claim 4 will be described based on an operation flow in which the operation flow shown in FIG. 4 and the operation flow shown in FIG. 6 are combined.
When the power is turned on, the drive device starts an energization time measurement timer (timer A) and a storage period measurement timer (timer B) (step D1), and starts energization time measurement (step D2).
The drive device determines whether or not the retention period measurement timer matches a predetermined value (for example, 60 seconds) (step D3). When the retention period measurement timer matches the specified value (step D3 / Yes), the value of the energization time measurement timer, which is the energization time, is overwritten with the previous measurement value stored in the nonvolatile memory (12). Save (step D4).
At this time, the value of the storage period measurement timer is also cleared. When the stored energization time measurement value is equal to or greater than a predetermined value (for example, 1,000 hours) (step B1 / Yes), the adjustment operation is executed (step B2).
By using the timer for measuring the storage period, the power-on time is saved every 60 seconds, so even if the drive device is turned off halfway, the error can be reduced to about 60 seconds at the maximum. .

Next, the operation of the drive device according to claim 5 will be described based on an operation flow in which the operation flow shown in FIG. 4 and the operation flow shown in FIG. 7 are combined.
The drive device determines whether or not the optical disc (1) is newly inserted (step E1). If it is determined that the optical disk (1) is newly inserted (step E1 / Yes), the counter for counting the number of optical disks (1) is incremented by 1 (step E2), and the count value is stored in the nonvolatile memory (12). Overwrite and save the previous count value stored in (Step E3).
When the count value stored in the non-volatile memory (12) becomes a predetermined value (for example, 1,000 times) or more (step B1 / Yes), the adjustment operation is executed (step B2). If the count value is less than or equal to the predetermined value (step B1 / No), the process loops until the optical disc (1) is newly inserted.

Next, the operation of the drive device according to claim 6 will be described based on an operation flow in which the operation flow shown in FIG. 4 and the operation flow shown in FIG. 8 are combined.
The drive device determines whether or not to record / reproduce data with respect to the optical disc (1) (step F1). When it is determined to record / reproduce data (step F1 / Yes), the drive / recorder The counter for counting the number of reproductions is incremented by 1 (step F2), and the count value is overwritten and stored by adding the previous count value stored in the nonvolatile memory (12) (step F3).
When it is determined that the stored count value has reached a predetermined value (for example, 1,000 times) or more (step B1 / Yes), the drive device performs an adjustment operation (step B2). If it is determined that the stored count value is a predetermined value (for example, 1,000 times) or less (step B1 / No), the drive device loops until a new recording / reproduction is performed.
When recording / reproducing data, the drive device emits LD with recording / reproducing power and irradiates the disc with laser light. Therefore, the number of times of recording / reproducing is counted when the LD is caused to emit light with recording / reproducing power.

Next, the operation of the drive device according to the seventh aspect will be described based on an operation flow in which the operation flow shown in FIG. 4 and the operation flow shown in FIG. 9 are combined.
The drive device determines whether or not to record data on the optical disk (1) (step G1). When recording data (step G1 / Yes), the drive device counts the number of recording times. The counter (counter A) is incremented by 1 (step G2), and the count value is overwritten and saved by adding the count value for the previous recording count stored in the nonvolatile memory (12) (step G3).
When the data is not recorded (step G1 / No), the drive device determines whether or not to perform reproduction (step G4).
When performing reproduction (step G4 / Yes), the drive device increments a reproduction number counter (counter B) for counting the number of reproductions by one (step G5), and stores the count value in the nonvolatile memory (12). Is overwritten and added to the previous count value for the number of playbacks stored in (step G6).
The values of the recording count counter and the reproduction count counter are stored separately. The stored value of the counter for recording times is compared with a predetermined value for determining the number of recording times (for example, 1,000 times), and the value of the stored counter for reproducing number of times is determined to be a predetermined value for determining the number of times of reproduction (for example, 2,000 times) If either of them is equal to or greater than a predetermined value (step B1 / Yes), an adjustment operation is executed (step B2). Thus, readjustment can be performed efficiently by counting separately in recording / reproduction.
In the case of recording / reproducing data, the drive device emits an LD with a recording power during recording and irradiates the optical disc (1) with a laser beam for recording. Further, at the time of reproduction, the LD is made to emit light with reproduction power, and the optical disk (1) is irradiated with the laser beam for reproduction. Therefore, the number of times of recording is counted when the LD is caused to emit light with recording power, and the number of times of reproduction is counted when the LD is caused to emit light with reproducing power.

Next, the operation of the drive device according to the eighth aspect will be described based on an operation flow in which the operation flow shown in FIG. 4 and the operation flow shown in FIG. 10 are combined.
The drive device determines whether or not to record / reproduce data with respect to the optical disc (1) (step H1). When it is determined to perform recording / reproduction (step H1 / Yes), the drive device records / reproduces. The timer for time measurement is started (step H2), and measurement of the recording / playback time is started (step H3).
The drive device determines whether or not the recording / reproducing process has ended (step H4), and if it determines that the recording / reproducing process has ended (step H4 / Yes), it measures the recording / reproducing time that is the recording / reproducing time. The timer value is overwritten by adding the previous measured value stored in the nonvolatile memory (12) (step H5).
If the drive device determines that the stored recording / playback time measurement value has reached a predetermined value (eg, 1,000 hours) or more (step B1 / Yes), it executes the adjustment operation (step B2).
Note that the recording / reproduction time is measured when the LD emits light with recording / reproduction power.

Next, the operation of the drive device according to claim 9 will be described based on an operation flow in which the operation flow shown in FIG. 4 and the operation flow shown in FIG. 11 are combined.
The drive device determines whether or not to record data on the optical disc (1) (step I1). When it is determined that data is to be recorded (step I1 / Yes), it starts a timer ( Step I2), recording time measurement is started (Step I3).
The drive device determines whether or not the recording process is completed (step I4), and if it is determined that the recording process is completed (step I4 / Yes), the measured value of the recording time is stored in the nonvolatile memory (12). Overwrite and save the previous measured value (step I5).
The drive apparatus determines not to record data (step I1 / No), and determines whether to perform reproduction (step I6).
If it is determined that playback is to be performed (step I6 / Yes), the drive device starts a timer (step I7) and starts measuring playback time (step I8).
The drive device determines whether or not the playback process has ended (step I9), and if it determines that the playback process has ended (step I9 / Yes), it stores the measured playback time in the nonvolatile memory (12) Overwrite and save the previous measured value (step I10).
The recording time measurement value and the reproduction time measurement value are stored separately. The recording time measurement value is compared with a predetermined value for recording time determination (for example, 1,000 hours), and the reproduction time measurement value is compared with a predetermined value for determination of reproduction time (for example, 2,000 hours). If it is equal to or greater than the value (step B1 / Yes), the adjustment operation is executed (step B2).
Thus, the readjustment can be performed efficiently by measuring the execution time separately for recording / reproduction.

The recording time is measured when the LD emits light with recording power, and the reproduction time is measured when the LD emits light with reproducing power.
In this embodiment, the case where there is no means for notifying the user during the process of adjustment, readjustment, etc. has been described, but the present invention is not limited to this. For example, if another process is requested while a self-diagnosis test or adjustment is being performed, the requested process is ignored and the self-diagnosis test or adjustment is not interrupted. You may provide the transmission means to transmit. In this case, even if another process is requested during execution of the self-diagnosis test or the adjustment process, the process is continued without interruption, thereby preventing an abnormal result.

  Further, the present invention may be provided with notification means for notifying the user that processing is being performed by turning on a light emitting element (for example, a light emitting diode) when performing a self-diagnosis test or adjustment. In this case, the user can know that the self-diagnosis test or the adjustment process is being executed.

  Further, according to the present invention, when the self-diagnostic test has an error, or when a normal value is not determined even after adjustment, the transmission means for transmitting an error from the external interface and the error by blinking the light emitting element. And other notification means for informing the user. In this case, the user can know that the self-diagnosis test has failed or the adjustment error has occurred, and that the components in the drive device are at the end of their lives.

It is a figure which shows the structural example of one Embodiment of the information recording / reproducing apparatus to which the information recording / reproducing method of this invention is applied. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the command sent to the information recording / reproducing apparatus from the external host computer of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the operation | movement flow of the information recording / reproducing apparatus shown in FIG. It is a figure which shows an example of the automatic adjustment means used for the information recording / reproducing apparatus shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Optical disk 2 Motor 3 Rotation control part 4 Pickup 5 Actuator control part 6 Signal control part 7 Drive controller 8 Buffer memory 9 Laser drive circuit 10 External interface 11 Host computer 12 Non-volatile memory

Claims (24)

In an information recording / reproducing apparatus for recording / reproducing data on / from an optical disc such as a CD or DVD,
Adjusting means for adjusting a predetermined part after assembly;
Storage means for storing the result obtained by the adjustment means in a memory as a reference value;
Recording / reproducing means that operates based on a reference value stored in the memory when recording / reproducing data on the optical disc;
Self-diagnostic test means for executing a self-diagnosis test whether or not the reference value stored in the memory is an optimum value by an instruction from an external host computer;
When it is determined that the reference value stored by the result of the self-diagnosis test is not an optimal value, the adjustment unit is caused to execute an adjustment program, and each adjustment is performed again to obtain a reference value;
An information recording / reproducing apparatus comprising: overwrite means for overwriting the obtained reference value over the reference value stored in the memory. The information recording / reproducing apparatus according to claim 1,
The information recording / reproducing apparatus is characterized in that the self-diagnosis test means performs a self-diagnosis test when a specific button is operated under a predetermined condition different from a normal operation. In an information recording / reproducing apparatus for recording / reproducing data on / from an optical disc such as a CD or DVD,
Adjusting means for adjusting a predetermined part after assembly;
Storage means for storing the result obtained by the adjustment means in a memory as a reference value;
Recording / reproducing means that operates based on a reference value stored in the memory when recording / reproducing data on the optical disc;
Counting means for counting the number of times the power is turned on and storing it in the memory;
When the number of times the power is turned on exceeds a predetermined value, the adjustment unit is caused to execute an adjustment program, and each adjustment is performed again to obtain a reference value.
An information recording / reproducing apparatus comprising: overwriting means for overwriting the reference value obtained by the readjustment means over the reference value stored in the memory. The information recording / reproducing apparatus according to claim 3,
Means for measuring energization time when the power is turned on;
A readjustment means for executing an adjustment program of the adjustment means when the energization time exceeds a predetermined value, and performing each adjustment again to obtain a reference value;
An information recording / reproducing apparatus comprising: overwriting means for overwriting the reference value obtained by the readjustment means over the reference value stored in the memory. The information recording / reproducing apparatus according to claim 3,
Number counting means for counting the number of inserted optical discs;
A readjustment means for causing the adjustment means to execute an adjustment program when the number counted by the number counting means exceeds a predetermined value, and performing each adjustment again to obtain a reference value;
An information recording / reproducing apparatus comprising: overwriting means for overwriting the reference value obtained by the readjustment means over the reference value stored in the memory. The information recording / reproducing apparatus according to claim 3,
A time counting means for counting the number of times data is recorded / reproduced with respect to the optical disc;
A readjustment means for causing the adjustment means to execute an adjustment program when the number of times counted by the number counting means exceeds a predetermined value, and performing each adjustment again to obtain a reference value;
An information recording / reproducing apparatus comprising: overwriting means for overwriting the reference value obtained by the readjustment means over the reference value stored in the memory. The information recording / reproducing apparatus according to claim 6.
Individual counting means for individually counting the number of times data recording / reproduction is performed on the optical disc;
It has a predetermined value A for determining the number of recordings counted by the individual counting means, and a predetermined value B for determining the number of reproductions, and the recording number and the reproduction number are values A and B, respectively. A comparison means for comparing with,
When either the number of times of recording or the number of times of reproduction exceeds a predetermined value A, B, the adjustment unit executes an adjustment program, each adjustment is performed again, and a readjustment unit that obtains a reference value;
An information recording / reproducing apparatus comprising: overwriting means for overwriting the reference value obtained by the readjustment means over the reference value stored in the memory. The information recording / reproducing apparatus according to claim 3,
Measuring means for measuring a time during which data is recorded / reproduced with respect to the optical disc;
A readjustment means for causing the adjustment means to execute an adjustment program when the recording / reproduction time measured by the measurement means exceeds a predetermined value, and performing each adjustment again to obtain a reference value;
An information recording / reproducing apparatus comprising: overwriting means for overwriting the reference value obtained by the readjustment means over the reference value stored in the memory. The information recording / reproducing apparatus according to claim 8,
Individual measuring means for individually measuring the time during which data is recorded / reproduced with respect to the optical disc;
It has a predetermined value A for determining the recording time measured by the individual measuring means, and a predetermined value B for determining the reproduction time, and the recording time and the reproduction time are values A and B, respectively. Individual time comparison means to compare with,
When either the recording time or the reproduction time exceeds a predetermined value A or B by the individual time comparison means, the adjustment means is caused to execute an adjustment program, and each adjustment is performed again to obtain a reference value. Adjusting means;
An information recording / reproducing apparatus comprising: overwriting means for overwriting the reference value obtained by the readjustment means over the reference value stored in the memory. The information recording / reproducing apparatus according to any one of claims 1 to 9,
If another process is requested while the self-diagnosis test or the adjustment is being performed, the requested process is ignored and the self-diagnosis test or the adjustment is being processed through the external interface without interruption. An information recording / reproducing apparatus comprising transmission means for transmitting the information. The information recording / reproducing apparatus according to any one of claims 1 to 9,
An information recording / reproducing apparatus comprising a notification means for notifying a user that processing is being performed by turning on a light emitting element when performing the self-diagnosis test or the adjustment. The information recording / reproducing apparatus according to any one of claims 1 to 11,
When the self-diagnostic test has an error, or when a normal value is not determined even after adjustment, a transmission means for transmitting an error from the external interface;
An information recording / reproducing apparatus comprising: other notification means for informing a user that an error occurs due to blinking of the light emitting element. In an information recording / reproducing method for recording / reproducing data on / from an optical disc such as a CD or DVD,
After assembly, let the adjustment means adjust the specified parts,
The result obtained at the time of the adjustment is stored in a memory as a reference value,
When recording / reproducing data to / from the optical disc, it operates based on the reference value stored in the memory,
A self-diagnosis test is performed to determine whether or not the reference value stored in the memory is an optimum value according to an instruction from an external host computer,
When it is determined that the reference value stored by the result of the self-diagnosis test is not an optimal value, the adjustment unit is caused to execute an adjustment program, and each adjustment is performed again to obtain a reference value.
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing method according to claim 13,
A method for recording and reproducing information, characterized in that a self-diagnosis test is performed when a specific button is operated under a predetermined condition different from normal operation. In an information recording / reproducing method for recording / reproducing data on / from an optical disc such as a CD or DVD,
After assembly, let the adjustment means adjust the specified parts,
The result obtained at the time of the adjustment is stored in a memory as a reference value,
When recording / reproducing data with respect to the optical disc, it is performed based on a reference value stored in the memory,
Count the number of times the power was turned on, save the number of times in the memory,
When the number of times the power is turned on exceeds a predetermined value, the adjustment unit is caused to execute an adjustment program, each adjustment is performed again to obtain a reference value,
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing method according to claim 15,
When the power is turned on, the energization time is measured,
When the energization time exceeds a predetermined value, the adjustment program of the adjustment means is executed, each adjustment is performed again to obtain a reference value,
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing method according to claim 15,
Count the number of inserted optical discs,
When the counted number exceeds a predetermined value, the adjustment unit is caused to execute an adjustment program, each adjustment is performed again to obtain a reference value,
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing apparatus according to claim 15,
Count the number of times data was recorded / reproduced on the optical disc,
When the counted number exceeds a predetermined value, the adjustment unit is caused to execute an adjustment program, each adjustment is performed again to obtain a reference value,
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing method according to claim 18,
Count the number of times data was recorded / reproduced to / from the optical disc,
Compare the number of recordings with a predetermined value A, compare the number of playbacks with a predetermined value B,
When either the number of times of recording or the number of times of reproduction exceeds a predetermined value A, B, the adjustment unit is caused to execute an adjustment program, each adjustment is performed again to obtain a reference value,
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing method according to claim 15,
Measure the time for recording / reproducing data on the optical disc,
When the measured recording / reproduction time exceeds a predetermined value, the adjustment means is caused to execute an adjustment program, and each adjustment is performed again to obtain a reference value.
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing method according to claim 20,
Individually measuring the time of recording / reproducing data on the optical disc,
Compare the recording time with a predetermined value A, compare the playback time with a predetermined value B,
When either the recording time or the reproduction time exceeds a predetermined value, the adjustment unit is caused to execute an adjustment program, and each adjustment is performed again to obtain a reference value.
An information recording / reproducing method, wherein the obtained reference value is overwritten on the reference value stored in the memory. The information recording / reproducing method according to any one of claims 13 to 21,
If another process is requested while the self-diagnosis test or the adjustment is being performed, the requested process is ignored and the self-diagnosis test or the adjustment is being processed through the external interface without interruption. An information recording / reproducing method characterized in that a user is notified by transmitting a message. The information recording / reproducing method according to any one of claims 13 to 21,
An information recording / reproducing method characterized in that when performing the self-diagnosis test or the adjustment, the user is informed that the process is being executed by turning on a light emitting element. The information recording / reproducing method according to any one of claims 13 to 23,
If the self-diagnostic test fails, or if normal values are not determined after adjustment, send an error message from the external interface.
An information recording / reproducing method characterized in that a user is notified of an error by blinking the light emitting element.

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