JP5063201B2 - Storage medium playback device and automatic adjustment information storage method - Google Patents

Description

  The present invention relates to a storage medium playback apparatus and an automatic adjustment information storage method, and more particularly, to a storage medium having a function of optimally adjusting a pickup servo system and playing back a newly loaded disk or a loaded disk. The present invention relates to a playback device.

  Audio data is recorded spirally or concentrically with small pits on a signal recording surface on a storage medium (disc) such as a CD (Compact Disc), an MD (Mini Disc), or a DVD (Digital Versatile Disk). The disc playback device tracks the pit row (track) while focusing the laser beam emitted from the optical pickup on the signal recording surface, and reads the recorded signal by detecting the reflected beam at this time with the optical pickup. Is doing.

  Discs such as CD players, MD players, DVD players, etc., so that the laser beam can always be kept in focus with respect to the signal recording surface regardless of the surface runout and center runout of the disc during rotation. The reproducing apparatus is equipped with a pickup servo system composed of a focus servo system and a tracking servo system.

  In order to read the recorded signal without error from the disk, for example, it is necessary to optimally adjust the servo characteristics of the pickup servo system that indicates the speed and accuracy of the pickup position following any change in the target position. is there. Conventionally, the manufacturer of the disk player adjusts the servo characteristics while playing the reference disk before shipping, and performs the optimum adjustment of the servo characteristics when the disk player is turned on or set to the disk player. . By performing such optimal adjustment of the servo system, it is possible to prevent the occurrence of sound interruption and sound skipping due to disturbance such as vibration.

  However, in order to cope with the change in the servo characteristics over time due to the use of the disk reproducing device or to cope with the difference of individual disks that the user wants to listen to, the optimum adjustment is performed every time the disk is reproduced. desirable. Especially in an in-vehicle disk playback device, if the vibration is strong and the servo characteristics are poor, it will cause out-of-focus or out-of-tracking, resulting in frequent sound interruptions and skipping. Therefore, optimal adjustment of the servo characteristics at the start of playback is essential. It is. For this reason, the servo characteristics of the pickup servo system are automatically adjusted to the optimum values when the disk is loaded and when the power of the disk reproducing apparatus is turned on.

With regard to such automatic adjustment of servo characteristics, when a disk loaded in the disk reproducing apparatus is played for the first time, the pickup servo system is automatically adjusted and the adjustment coefficient determined by the automatic adjustment is stored, and the disk reproducing apparatus In order to replay a disc that has already been loaded, a technique has been proposed in which the adjustment coefficient previously stored when the disc is loaded is set in the pickup servo system (see, for example, Patent Document 1). According to this technology, when a disc loaded in the disc playback device is played back again, the adjustment coefficient at the time of automatic adjustment at the time of loading is simply set in the pickup servo system, and automatic adjustment is not performed for each item. However, the optimal adjustment state for the disc can be realized, and a relatively good disc playback state can be ensured without the user having to wait for a long time before starting playback again.
JP-A-7-57276

  In the above-mentioned pickup servo system, signal loss due to scratches on the disk, dust, etc. (hereinafter referred to as disk failure) and misalignment (characteristic adjustment data (focus gain, tracking gain, etc.) during servo adjustment before product shipment) Even if the servo is accurately measured and the servo is adjusted, a servo error may occur due to the difficulty in obtaining the desired servo characteristics when using the pickup servo system after product shipment. As a result, problems such as skipping and noise occur during reproduction of audio data. When a servo error occurs in the pickup servo system in this way, the engineer must first determine whether the cause of the servo error is due to a defective disk or an adjustment error of the pickup servo system. is there.

  However, in the technique described in Patent Document 1 described above, when the loaded disc is played for the first time, the pickup servo system is automatically adjusted, and only the automatic adjustment value determined by the adjustment is stored in the internal storage medium. It was a thing. That is, when a servo error occurs, there is not enough information to analyze the cause of the servo error, so whether the cause of the servo error that occurred in the pickup servo system is due to a defective disk or a misalignment. There was a problem that it was difficult to carve out.

  The present invention has been made to solve such problems, and it is possible to determine whether the cause of the servo error generated in the pickup servo system is due to a defective disk or due to misalignment. The purpose is to make it easy.

In order to solve the above-described problem, in the present invention, it is determined whether or not a predetermined condition for additionally storing automatic adjustment information related to automatic adjustment of the pickup servo system in the internal storage medium is satisfied, and the predetermined condition is satisfied. When it is determined that the automatic adjustment information acquired this time is additionally stored in the internal storage medium, and when it is determined that the predetermined condition is not satisfied, the automatic adjustment information acquired this time is not additionally stored in the internal storage medium, A counter variable indicating the number of times automatic adjustment information is acquired from the time when automatic adjustment information was additionally stored last time until it was not additionally stored until this time, and a counter variable stored as counter variable information in the internal storage medium It is made to increment.
Here, the automatic adjustment information includes the automatic adjustment value determined by the automatic adjustment of the pickup servo system, and the predetermined condition is the absolute value of the difference between the automatic adjustment value acquired this time and the automatic adjustment value acquired last time. If it is determined that the predetermined condition is not satisfied, the automatic adjustment information acquired this time is overwritten and stored in the internal storage medium.

  According to the present invention configured as described above, a plurality of automatic adjustment information relating to the automatic adjustment of the pickup servo system is stored in the internal storage medium. The engineer, for example, determines whether or not there is a variation in the automatic adjustment value that indicates an adjustment deviation of the pickup servo system by analyzing a plurality of automatic adjustment information stored in the internal storage medium. Can do. Based on this determination, it is possible to easily determine whether the cause of the servo error that has occurred in the pickup servo system is due to a defective disk or due to misalignment. Furthermore, when the predetermined condition is not satisfied, the counter variable indicating the number of times that the automatic adjustment information acquired this time is not additionally stored in the internal storage medium and the number of times that the automatic adjustment information has not been additionally stored is incremented. By checking the value of the variable, it is possible to check how normal the pickup servo system is automatically adjusted.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating a configuration example of the storage medium playback apparatus 100 according to the present embodiment. In the present embodiment, the storage medium playback device 100 is mounted on a vehicle.

  In FIG. 1, reference numeral 120 denotes a disk (external storage medium) such as a CD or a DVD. Reference numeral 140 denotes a turntable on which the disk 120 is placed and rotated. A spindle motor 160 rotates the disk 120 at a constant speed. A spindle servo circuit 180 controls the speed of the spindle motor 160. An optical pickup 200 emits a laser beam to the disk 120 and detects a reflected beam. A sled motor 220 sends the optical pickup 200 in the radial direction of the disk 120.

  A sled servo circuit 240 performs sled servo control for tracking the track of the disk 120 with respect to the sled motor 220. An RF amplifier 260 amplifies the audio data signal read from the disk 120 by the optical pickup 200. Reference numeral 280 denotes a digital signal processing circuit which inputs the audio data signal amplified by the RF amplifier 260 and demodulates the audio data signal.

  A focus servo circuit 300 drives a focus actuator (not shown) provided in the optical pickup 200 to perform focus servo control. A servo driver 320 amplifies a control signal from the focus servo circuit 300 and drives the focus actuator. A tracking servo circuit 340 drives a tracking actuator (not shown) provided in the optical pickup 200 to perform tracking servo control. A servo driver 360 amplifies a control signal from the tracking servo circuit 340 to drive the tracking actuator. Reference numeral 380 denotes a servo controller, which receives a command from the system controller 400 to be described later, starts up the pickup servo system, and automatically adjusts the coefficient for the pickup servo system (e.g., focus gain, tracking gain, etc. corresponding to the automatic adjustment value of the present invention). ) Adjustments and settings.

  Reference numeral 420 denotes an ACC on / off detection unit that detects the on / off of the ACC accompanying the operation of the engine key. A disk insertion detection unit 440 detects the insertion of the disk 120 into the storage medium playback apparatus 100. A loading unit 460 loads the disk 120 on the turntable 140 or unloads it from the turntable 140 under the control of the system controller 400.

  Reference numeral 480 denotes a media discriminating unit. When the disc 120 is loaded on the turntable 140 by the loading unit 460, the type of the disc 120 (for example, CD-RW (Compact Disc-ReWriteable), CD-DA (Compact Disc Digital). Audio) etc.). Reference numeral 500 denotes an operation unit that performs an eject operation, a switching operation, a switching operation to another source (for example, radio, VICS (Vehicle Information and Communication System) broadcasting), or a source switching operation from another source to the disk 120. Done by the user.

  Reference numeral 520 denotes a temperature information acquisition unit such as a thermistor, which detects the temperature in the vicinity of the pickup servo system. Reference numeral 540 denotes an internal storage medium that stores various data such as TOC information of the disk 120, automatic adjustment information related to automatic adjustment of the pickup servo system, and temperature information related to the temperature detected by the temperature information acquisition unit 520. In the present embodiment, the internal storage medium 540 is an EEPROM (Erasable Programmable Read-Only Memory), and the various data are stored even when the ACC is off.

  A system controller 400 performs overall control of the system necessary for reproducing audio data stored in the disk 120 and storing automatic adjustment information in the internal storage medium 540. In the present embodiment, the system controller 400 includes a TOC information acquisition unit 560, a reproduction control unit 580, an automatic adjustment information acquisition unit 600, a condition determination unit 620, and an automatic adjustment information storage unit 640.

  The TOC information acquisition unit 560 acquires TOC information related to audio data stored in the disk 120 during automatic adjustment of the pickup servo system. Specifically, the TOC information acquisition unit 560 is stored in the lead-in (data area given as an indication of the start of storage) of the disk 120 through the path of the optical pickup 200, the RF amplifier 260, and the digital signal processing circuit 280. TOC information is acquired and temporarily stored in the internal storage medium 540.

  The playback control unit 580 reads the audio data stored on the disc 120, and plays or stops the music based on the read audio data. Specifically, the reproduction control unit 580 reproduces music based on audio data demodulated through the path of the optical pickup 200, the RF amplifier 260, and the digital signal processing circuit 280, and outputs the music from a speaker (not shown).

  The automatic adjustment information acquisition unit 600 acquires automatic adjustment information related to the automatic adjustment of the pickup servo system that is performed before the audio data is read from the disk 120 and reproduced. Whether the condition determination unit 620 satisfies a predetermined condition for additionally storing the automatic adjustment history information including the automatic adjustment information in the internal storage medium 540 when the automatic adjustment information is acquired by the automatic adjustment information acquisition unit 600 Determine whether or not.

  The automatic adjustment information storage unit 640 internally stores automatic adjustment history information including the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit 600 when the condition determination unit 620 determines that the predetermined condition is satisfied. It is additionally stored in the medium 540. On the other hand, when the condition determination unit 620 determines that the predetermined condition is not satisfied, the automatic adjustment information storage unit 640 displays the automatic adjustment history information including the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit 600. Without additionally storing in the internal storage medium 540, the automatic adjustment information acquired this time is overwritten and stored in the same storage position as the storage position where the previous automatic adjustment information is stored. At this time, the automatic adjustment information storage unit 640 is a counter variable indicating the number of acquisitions of automatic adjustment information from the time when automatic adjustment information was additionally stored last time until the time when it was not additionally stored until this time. In 540, the counter variable stored as the counter variable information is incremented.

  Here, the reason why the automatic adjustment information is additionally stored in the internal storage medium 540 according to whether or not the predetermined condition is satisfied will be described. When automatic adjustment using the same disk is continuously performed, if the automatic adjustment information is stored in the internal storage medium 540 each time, the storage area of the internal storage medium 540 may be immediately filled with the automatic adjustment history information. There is. Therefore, in the present embodiment, the automatic adjustment information continuously acquired on the same disk is not added and stored in the internal storage medium 540 each time, but is the same as the storage location where the previous automatic adjustment information is stored. Is overwritten at the storage location.

  Specifically, if all of the following conditions (1) to (4) do not hold, it is estimated that automatic adjustment using the same disk has been normally performed, and automatic adjustment information is stored in the next storage position. Without performing, the automatic adjustment information acquired this time is overwritten and stored in the same storage position as the previous automatic adjustment information. Here, the automatic adjustment information acquired this time does not necessarily need to be overwritten and stored in the same storage position as the previous automatic adjustment information, but is preferably overwritten. The reason is to prevent the possibility that the following condition judgment is not performed correctly due to the accumulation of errors between the automatic adjustment information acquired for the first time and the automatic adjustment information acquired this time for the same disk.

The predetermined conditions mentioned above are the following four.
(1) The TOC information acquired this time by the TOC information acquisition unit 600 is different from the TOC information (the information stored in the internal storage medium 540) acquired last time by the TOC information acquisition unit 600. (2) Automatic adjustment information The absolute value of the difference between the automatic adjustment value (focus gain) acquired this time by the acquisition unit 600 and the automatic adjustment value (focus gain stored in the internal storage medium 540) acquired last time by the automatic adjustment information acquisition unit 600 is (3) The automatic adjustment value (tracking gain) acquired this time by the automatic adjustment information acquisition unit 600 and the automatic adjustment value acquired last time by the automatic adjustment information acquisition unit 600 are equal to or greater than a predetermined value (± 3 dB in the present embodiment). The absolute value of the difference from (the tracking gain stored in the internal storage medium 540) is a predetermined value (± 3 dB in this embodiment) or more. (4) The type of disk 120 when the automatic adjustment information acquisition unit 600 acquired the automatic adjustment information this time and the type of disk 120 when the automatic adjustment information acquisition unit 600 acquired the automatic adjustment information last time (internal What is stored in the storage medium 540)

  FIG. 2 is a diagram illustrating a data structure example of the automatic adjustment history information including the automatic adjustment information acquired by the automatic adjustment information acquisition unit 600. Here, the automatic adjustment history information is information stored in the internal storage medium 540 by the automatic adjustment information storage unit 640 after automatic adjustment of the pickup servo system. As shown in FIG. 2A, the automatic adjustment information (Auto Adjust Info) is stored in Bytes 6 to 12 of the automatic adjustment history information.

  Byte 6 stores an item “FE” indicating a focus error value (a control signal value for avoiding out of focus). Byte 7 stores an item “TE” indicating a tracking error value (a control signal value for avoiding tracking failure). Byte 8 stores an item “RF” indicating an RFGC value set as an adjustment value in the RF amplifier 260. By referring to the value stored in the item “RF”, it is possible to confirm the reflectivity of the laser beam with respect to the disk 120, the writing state of the disk 120, or the deterioration of the optical pickup 200.

  Byte 9 stores an item “FGADD” indicating the focus gain. Byte 10 stores an item “TGADD” indicating a tracking gain. Byte 11 stores an item “DASEL_B” indicating the automatic adjustment Reg selector value (B). Specifically, the item “DASEL_B” stores a gain value for further adjusting the focus gain and tracking gain adjusted by the servo controller 380 to a predetermined level. Byte 12 stores an item “DASEL — 8” indicating the automatic adjustment Reg selector value (8) and an item “Media-Detect” indicating the type of the disk 120 determined by the media determination unit 480. Specifically, the item “DASEL_8” stores a gain value for adjusting an RFGC value set as an adjustment value in the RF amplifier 260 to a predetermined level.

  FIG. 2C shows a data structure example of the item “Media-Detect”. As shown in FIG. 2C, the item “Media-Detect” includes an item “RW / DA” indicating the type of the disc 120 determined by the media determining unit 480, and an item “Reason” indicating the determination material in the determination. Of Media-Detect ”is included. When the type of the disk 120 is CD-RW (low reflection disk), 0 is stored in the item “RW / DA”. In this case, when the value of the item “FE” determines that the type of the disc 120 is CD-RW, 1 is stored in the item “Reason Of Media-Detect” (only Bit 2). Specifically, a threshold value for discriminating between CD-DA and CD-RW is set. When the value of the item “FE” is equal to or larger than the threshold value, the value of the CD-DA and the item “FE” is If it is less than the threshold value, a determination of CD-RW is made.

  When it is determined that the type of the disc 120 is CD-RW based on the value of the item “RF”, 1 is stored in the item “Reason Of Media-Detect” (only Bit 1). Specifically, even if it is determined as CD-DA once based on the value of the item “FE”, only the value of the item “RF” conforms to the standard depending on the reflectivity of the laser beam with respect to the disk 120 and the writing status of the disk 120. May also be smaller. Therefore, a threshold value for discriminating between CD-DA and CD-RW is set for the value of the item “RF”, and when the value of the item “RF” is less than the threshold value, discrimination of CD-RW is performed. Done.

  When it is determined that the type of the disc 120 is CD-RW based on the value of the item “TE”, 1 is stored in the item “Reason Of Media-Detect” (only Bit 0). Specifically, even if the CD-DA is once determined based on the value of the item “FE”, depending on the reflectivity of the laser beam with respect to the disk 120 and the writing status of the disk 120, the tracking on the disk 120 cannot be performed. The value of the item “TE” may be small. Therefore, a threshold value for discriminating between CD-DA and CD-RW is set for the value of the item “TE”, and when the value of the item “TE” is less than the threshold value, discrimination of CD-RW is performed. Is performed (to facilitate tracking on the disk 120). On the other hand, when the type of the disk 120 is CD-DA (normally reflective disk), 1 is stored in the item “RW / DA”. Further, in the item “Reason Of Media-Detect”, 0 is stored in Bit 2 to Bit 0.

  Next, items other than the automatic adjustment information included in the automatic adjustment history information will be described. Bytes 0 to 1 store an item “Time Stamp” indicating a timer value updated every 10 minutes during the reproduction of the audio data read from the disc 120. Bytes 2 to 5 store an item “TOC” indicating the TOC information of the disk 120 acquired by the TOC information acquisition unit 560. The item “TOC” includes an item “A0” indicating the first track number in which audio data is stored in the disc 120, an item “A1” indicating the last track number in which audio data is stored in the disc 120, and an audio An item “A2” indicating the time length (minute, second, frame) of data is stored.

  FIG. 2B shows a data structure example of the item “TOC”. As shown in FIG. 2B, in the item “TOC”, the item “A0” is stored in Bit7, and the item “A1” is stored in Bits 6 to 0. More specifically, in the item “A0”, 1 is stored when the head track number is 1, and 0 is stored when the head track number is other than 1. In the item “A1”, any binary value of 1 to 99 is stored as the last track number.

  In Byte 13, an item “Temp” indicating the temperature of the pickup servo system acquired as temperature information by the temperature information acquisition unit 520 is stored. Byte 14 includes an item “Check Flag” indicating information on the implementation status of the automatic adjustment of the pickup servo system, and automatic adjustment information from the time when the automatic adjustment information was additionally stored until the time when it was not additionally stored until this time. The item “Near Value Counter” indicating the number of acquisitions (the counter variable described above) is stored. Byte 15 stores an item “Check Sum” indicating the XOR value of Bytes 0 to 14 of the automatic adjustment history information as an error detection code of the automatic adjustment history information.

  When all of the above four conditions (1) to (4) do not hold, the automatic adjustment information storage unit 640 displays the item “Near Value Counter” of the automatic adjustment history information stored in the storage position where the previous automatic adjustment information is stored. The automatic adjustment information acquired this time by the automatic adjustment information acquisition unit 600 is overwritten and stored in Bytes 6 to 12. The automatic adjustment information storage unit 640 stores the TOC information acquired this time by the TOC information acquisition unit 560 in bytes 2 to 5 and stores the temperature information acquired this time by the temperature information acquisition unit 520 in byte 13. Similarly, the automatic adjustment information storage unit 640 overwrites and stores the information acquired this time in “Time Stamp” of Byte 0 to 1, “Check Flag” of Byte 14, and “Check Sum” of Byte 15. In other words, if the automatic adjustment itself was performed but the disk was the same as the previous one, and the automatic adjustment values (focus gain, tracking gain) were also close, Overwrites the automatic adjustment information in the same storage location. The item “Near Value Counter” indicates the number of times the automatic adjustment information is overwritten and stored.

  FIG. 2D shows a data structure example of the item “Check Flag”. As illustrated in FIG. 2D, the item “Check Flag” includes an item “Auto Adjust Situation” indicating the implementation status of automatic adjustment, and an item “TOC Read Situation” indicating the acquisition status of TOC information. . Specifically, the item “Auto Adjust Situation” includes an automatic adjustment from the servo give-up state (a state in which a reproduction failure has occurred continuously more than a predetermined number of times) during normal automatic adjustment, automatic adjustment in recovery processing for a reproduction failure. In accordance with each state at the time of adjustment, 0 (binary number notation: 000), 1 (binary number notation: 001), and 2 (binary number notation: 010) are stored. In the item “TOC Read Situation”, TOC information acquisition is incomplete (for example, when a new loading of the disk 120 or after switching operation of the disk 120), TOC information has been acquired (for example, switching of the disk 120) In accordance with each state (eg, after ACC is turned on without operation), 0 and 1 are stored.

  FIG. 3 is a diagram illustrating an example of an operation for storing automatic adjustment history information by the automatic adjustment information storage unit 640. As shown in FIG. 3A, the storage area (EEPROM Address) of the automatic adjustment history information has a capacity capable of storing 12 automatic adjustment history information, and cyclically starts from the oldest automatic adjustment history information at the time of overflow. Overwritten and stored. That is, the automatic adjustment information storage unit 640 stores the automatic adjustment history information in order from the storage area corresponding to the serial number 1, and if the automatic adjustment history information is stored up to the storage area corresponding to the serial number 12, When the automatic adjustment information is further acquired by the information acquisition unit 600, the storage target position (Adjust Pointer) returns to the storage area corresponding to the serial number 1, and the automatic adjustment history information stored in the storage area is overwritten and stored. .

  Note that FIG. 3B is used to determine the storage position of the automatic adjustment history information including the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit 600, and is internal to the automatic adjustment history information. The storage position information stored in the storage medium 540 is shown. As shown in FIG. 3B, each item of the storage position information (“Pointer 1”, “Pointer 2”, “Pointer 3”, “Pointer 4”) includes automatic adjustment history information including the previously acquired automatic adjustment information. The storage position is stored as the same value. The automatic adjustment information storage unit 640 stores the automatic adjustment history information including the automatic adjustment information acquired this time in the internal storage medium 540, and each item value of the storage position information includes the automatic adjustment information acquired this time. The automatic adjustment history information to be stored is updated to the stored location.

  Next, the operation of the storage medium playback apparatus 100 in this embodiment will be described. FIG. 4 is a flowchart showing an operation example of the storage medium playback apparatus 100 according to the present embodiment. Each process in FIG. 4 shows the processing contents of the storage medium playback apparatus 100 when audio data is read from the disk 120 and played back, and starts when ACC is on.

  First, the disc insertion detection unit 440 determines whether or not the disc 120 has been inserted into the storage medium playback device 100 (step S100). If disc insertion detection unit 440 determines that disc 120 is not inserted into storage medium playback apparatus 100 (NO in step S100), the process transitions to step S100, and disc insertion detection unit 440 The determination process in step S100 is repeated until the disc 120 is inserted into the playback apparatus 100. On the other hand, when disc insertion detection unit 440 determines that disc 120 has been inserted into storage medium playback device 100 (YES in step S100), the process transitions to step S120.

  Next, the media discrimination unit 480 discriminates the media of the disc 120 (step S120). Next, the servo controller 380 adjusts the focus gain (step S140). Next, the servo controller 380 adjusts the tracking gain (step S160). Next, the TOC information acquisition unit 560 determines whether or not the TOC information of the disk 120 has already been acquired (step S180). If the TOC information acquisition unit 560 determines that the TOC information of the disk 120 has already been acquired, the process proceeds to step S220. On the other hand, when the TOC information acquisition unit 560 determines that the TOC information of the disc 120 has not yet been acquired, the TOC information acquisition unit 560 passes the optical disc 200, the RF amplifier 260, and the digital signal processing circuit 280 along the path of the disc 120. TOC information stored in the lead-in is acquired and temporarily stored in a temporary storage memory (not shown) such as a RAM (step S200).

  Next, the automatic adjustment information acquisition unit 560 acquires automatic adjustment information (step S220). Next, the temperature information acquisition unit 520 acquires the temperature of the pickup servo system as temperature information (step S240). Then, the automatic adjustment information storage unit 640 stores automatic adjustment history information including TOC information, automatic adjustment information, and temperature information in the internal storage medium 540 (step S260). Details of this automatic adjustment information storage processing will be described later.

  Next, the playback control unit 580 searches for the beginning of the first song with reference to the TOC information of the disc 120 temporarily stored in the temporary storage memory (step S280), and starts playback of the audio data (step S280). S300).

  During the reproduction of the audio data stored on the disc 120, the reproduction control unit 580 determines whether or not a reproduction failure (for example, skipping of sound, interruption of sound, etc.) has occurred (step S320). Here, when reproduction control unit 580 determines that a reproduction failure has occurred (YES in step S320), reproduction control unit 580 determines whether or not the reproduction failure has continued a predetermined number of times (step S340). ). If playback control unit 580 determines that the playback failure has not occurred consecutively a predetermined number of times (NO in step S340), the process transitions to step S140, and storage medium playback apparatus 100 again The processing after step S140 is performed, and the reproduction of the audio data stored in the disc 120 is started.

  On the other hand, when reproduction control unit 580 determines that the reproduction failure has occurred a predetermined number of times (YES in step S340), servo controller 380 adjusts the focus gain (step S360). Next, the servo controller 380 adjusts the tracking gain (step S380). Next, the automatic adjustment information acquisition unit 600 acquires automatic adjustment information (step S400). Next, the temperature information acquisition unit 520 acquires the temperature of the pickup servo system as temperature information (step S420). The automatic adjustment information storage unit 640 stores the automatic adjustment history information including the automatic adjustment information acquired by the automatic adjustment information acquisition unit 600 and the temperature information acquired by the temperature information acquisition unit 520 in the internal storage medium 540. (Step S440). Details of this automatic adjustment information storage processing will be described later. Thereafter, the automatic adjustment information storage process in the storage medium playback apparatus 100 ends.

  On the other hand, if the playback control unit 580 determines that no playback failure has occurred during playback of the audio data stored on the disc 120 (NO in step S320), the process transitions to the flowchart shown in FIG. To do. Next, the system controller 400 determines whether or not the user has performed an eject operation on the operation unit 500 (step S460). If the system controller 400 determines that the user has performed an eject operation on the operation unit 500 (YES in step S460), the reproduction control unit 580 stops reproduction of audio data (step S480), and the process is as follows. The process proceeds to step S100. Thereafter, when the user replaces and inserts into another disc 120 (YES in step S100), the storage medium playback device 100 performs the processing from step S120 onward again, and starts playback of audio data stored in the disc 120. .

  On the other hand, if it is determined by system controller 400 that the user has not performed an eject operation with operation unit 500 (NO in step S460), system controller 400 confirms that the user has turned the ACC off by turning the engine key. Then, it is determined whether or not the ACC on / off detection unit 420 detects (step S500). If the system controller 400 determines that the ACC on / off detection unit 420 has detected ACC off (YES in step S500), the reproduction control unit 580 stops reproduction of audio data (step S520). . Thereafter, the automatic adjustment information storage process in the storage medium playback apparatus 100 ends.

  On the other hand, when the system controller 400 determines that the ACC on / off detection unit 420 has not detected ACC off (NO in step S500), the system controller 400 allows the user to perform a disk switching operation using the operation unit 500. It is determined whether or not it has been performed (step S540). If system controller 400 determines that the user has performed a disk switching operation using operation unit 500 (YES in step S540), reproduction control unit 580 stops reproduction of audio data (step S560). Thereafter, when a disk switching operation is performed (step S580), the storage medium playback apparatus 100 performs the processing from step S120 onward again to start playback of audio data stored in the switched disk 120.

  If the system controller 400 determines that the user has not performed a disk switching operation using the operation unit 500 (NO in step S540), the system controller 400 uses the operation unit 500 to switch to another source ( For example, it is determined whether or not an operation of switching from a disk to a radio or the like has been performed (step S600). If the system controller 400 determines that the user has performed an operation of switching to another source using the operation unit 500 (YES in step S600), the playback control unit 580 stops playback of the audio data (step S620). ). Thereafter, when the user performs a source switching operation to disk 120 using operation unit 500 (YES in step S640), storage medium playback apparatus 100 performs the processes in and after step S120 again, and the disk whose source has been switched from the radio or the like. The reproduction of the audio data stored in 120 is started.

  Next, the automatic adjustment information storage process will be described. FIG. 6 is a flowchart showing an example of automatic adjustment information storage processing of the storage medium playback apparatus 100 according to the present embodiment. First, the condition determination unit 620 determines whether or not the TOC information acquired this time by the TOC information acquisition unit 560 is different from the TOC information acquired last time by the TOC information acquisition unit 560. If the condition determination unit 620 determines that the TOC information acquired this time is different from the TOC information acquired last time (YES in step S700), the automatic adjustment information storage unit 640 includes an automatic adjustment information acquisition unit. The automatic adjustment history information including the automatic adjustment information acquired this time in 600 is additionally stored in the internal storage medium 540 (step S720), and the automatic adjustment information storage process in FIG.

  On the other hand, when the condition determination unit 620 determines that the TOC information acquired this time and the TOC information acquired last time are the same (NO in step S700), the condition determination unit 620 displays the automatic adjustment information acquisition unit. It is determined whether the absolute value of the difference between the focus gain acquired this time by 600 and the focus gain previously acquired by the automatic adjustment information acquisition unit 600 is ± 3 dB or more (step S740). If the condition determination unit 620 determines that the absolute value of the difference between the focus gain acquired this time and the focus gain acquired last time is ± 3 dB or more (YES in step S740), automatic adjustment information storage is performed. The unit 640 additionally stores the automatic adjustment history information including the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit 600 in the internal storage medium 540 (step S720), and the automatic adjustment information storage process in FIG. To do.

  On the other hand, when condition determination unit 620 determines that the absolute value of the difference between the focus gain acquired this time and the focus gain acquired last time is less than ± 3 dB (NO in step S740), condition determination unit 620 Determines whether the absolute value of the difference between the tracking gain acquired this time by the automatic adjustment information acquisition unit 600 and the tracking gain previously acquired by the automatic adjustment information acquisition unit 600 is ± 3 dB or more ( Step S760).

  If the condition determination unit 620 determines that the absolute value of the difference between the tracking gain acquired this time and the tracking gain acquired last time is ± 3 dB or more (YES in step S760), automatic adjustment information storage is performed. The unit 640 additionally stores the automatic adjustment history information including the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit 600 in the internal storage medium 540 (step S720), and the automatic adjustment information storage process in FIG. To do.

  On the other hand, when condition determination unit 620 determines that the absolute value of the difference between the tracking gain acquired this time and the tracking gain acquired last time is less than ± 3 dB (NO in step S760), condition determination unit 620 Determines whether the media discrimination result acquired this time by the media discrimination unit 480 is different from the media discrimination result previously acquired by the media discrimination unit 480 (step S780).

  If the condition determination unit 620 determines that the media determination result acquired this time is different from the media determination result acquired last time (YES in step S780), the automatic adjustment information storage unit 640 is acquired this time. The automatic adjustment history information including the automatic adjustment information is additionally stored in the internal storage medium 540 (step S720), and the automatic adjustment information storage process in FIG.

  On the other hand, when the condition determination unit 620 determines that the media determination result acquired this time and the media determination result acquired last time are the same (NO in step S780), the automatic adjustment information storage unit 640 acquires the current determination result. The automatic adjustment history information including the adjusted automatic adjustment information is overwritten and stored in the internal storage medium 540 (step S800). Finally, the automatic adjustment information storage unit 640 increments a counter variable stored as counter variable information in the internal storage medium 540 (step S820), and the automatic adjustment information storage process in FIG. 6 ends.

  As described above in detail, in the present embodiment, a plurality of automatic adjustment information relating to the automatic adjustment of the pickup servo system performed before reading out and reproducing audio data from the disk 120 is stored in the internal storage medium 540. . In this way, the engineer analyzes the plurality of automatic adjustment information stored in the internal storage medium 540, for example, whether there is a variation in the automatic adjustment value that suggests an adjustment deviation of the pickup servo system. It can be judged whether or not. Based on this determination, it is possible to easily determine whether the cause of the servo error that has occurred in the pickup servo system is due to a defective disk or due to misalignment.

  Furthermore, in the present embodiment, when all of the predetermined conditions (1) to (4) are not satisfied, the automatic adjustment information acquired this time is not additionally stored in the internal storage medium 540, but is additionally stored from the previous additional storage. Since the counter variable indicating the number of times of failure has been incremented, the engineer can check the normal value of the pickup servo system by checking the value of the counter variable. .

  In the present embodiment, the automatic adjustment information storage unit 640 cyclically stores the automatic adjustment history information including the automatic adjustment information acquired by the automatic information acquisition unit 600 using a predetermined area of the internal storage medium 540. By doing so, a plurality of automatic adjustment information can be held in a small storage area. Furthermore, when the latest automatic adjustment history information is stored in the internal storage medium 540, when analyzing the cause of the most recent servo error in the pickup servo system, the latest automatic adjustment history information can be easily referred to. Therefore, the cause analysis time can be reduced.

  In the present embodiment, the temperature information related to the temperature of the pickup servo system detected when the pickup servo system is automatically adjusted is included in the automatic adjustment history information. In this way, when a servo error occurs in the pickup servo system, the cause of the error can be analyzed by including the temperature environment of the pickup servo system as one of the causes of the servo error. Although it is preferable to include temperature information in the automatic adjustment information as in this embodiment, it is not always necessary to include it.

  In this embodiment, the automatic adjustment information storage unit 640 stores the automatic adjustment history information including the automatic adjustment information in the internal storage medium 540 when there are a plurality of pieces of automatic adjustment information acquired by the automatic adjustment information acquisition unit 600. Although twelve are stored, the present invention is not limited to this. For example, when the storage capacity of the internal storage medium 540 is large, the automatic adjustment information storage unit 640 stores 13 or more pieces of automatic adjustment history information including the automatic adjustment information acquired by the automatic adjustment information acquisition unit 600 in the internal storage medium 540. It may be memorized. In this case, the automatic adjustment information storage unit 640 may not store the automatic adjustment history information in the internal storage medium 540 cyclically.

  In the present embodiment, an example in which the above-described predetermined conditions (1) to (4) are all used as conditions for the automatic adjustment information storage unit 640 to additionally store the automatic adjustment history information in the internal storage medium 540 will be described. However, it is not always necessary to use all of them, and only one of them may be used.

  If the servo controller 380 does not normally adjust the automatic adjustment coefficient (focus gain, tracking gain, etc.) for the pickup servo system, the automatic adjustment information storage unit 640 reads out and reproduces the audio data from the disk 120. Automatic adjustment information related to the automatic adjustment of the pickup servo system performed previously may be stored. When the adjustment of the automatic adjustment coefficient (focus gain, tracking gain, etc.) for the pickup servo system is forcibly terminated by the servo controller 380, the automatic adjustment information storage unit 640 reads the audio data from the disk 120 and reproduces it. Automatic adjustment information relating to the automatic adjustment of the pickup servo system to be performed may be stored.

  In addition, after the servo controller 380 normally adjusts automatic adjustment coefficients (focus gain, tracking gain, etc.) for the pickup servo system, the TOC information acquisition unit 560 displays the TOC information stored in the lead-in of the disk 120. Even when acquisition is not successful, the automatic adjustment information storage unit 640 may store automatic adjustment information related to automatic adjustment of the pickup servo system performed before reading out and reproducing audio data from the disk 120. In this way, when a servo error occurs in the pickup servo system, it can be easily determined that the cause of the error is due to a disk defect (recording abnormality with respect to the disk 120 or a partial defect of the disk 120). . Furthermore, if the servo controller 380 does not properly adjust the automatic adjustment coefficients (focus gain, tracking gain, etc.) for the pickup servo system, the cause of the servo error that occurred in the pickup servo system may be a problem on the disk side. It becomes easy to squeeze to.

  In addition, each of the above-described embodiments is merely an example of implementation in carrying out the present invention, and the technical scope of the present invention should not be construed in a limited manner. In other words, the present invention can be implemented in various forms without departing from the spirit or main features thereof.

It is a figure which shows the structural example of the storage medium reproducing | regenerating apparatus by this invention. It is a figure which shows the example of a data structure of the automatic adjustment log | history information in which the automatic adjustment information by this embodiment is contained. It is a figure which shows the example of the storage method of the automatic adjustment log | history information by this embodiment. It is a flowchart which shows the automatic adjustment information storage operation example of the storage medium reproducing | regenerating apparatus by this embodiment. It is a flowchart which shows the automatic adjustment information storage operation example of the storage medium reproducing | regenerating apparatus by this embodiment. It is a flowchart which shows the automatic adjustment information storage operation example of the storage medium reproducing | regenerating apparatus by this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Storage medium reproducing device 120 Disk 140 Turntable 160 Spindle motor 180 Spindle servo circuit 200 Optical pickup 220 Thread motor 240 Thread servo circuit 260 RF amplifier 280 Digital signal processing circuit 300 Focus servo circuit 320 Focus servo driver 340 Tracking servo circuit 360 Tracking servo Driver 380 Servo controller 400 System controller 420 ACC on / off detection unit 440 Disc insertion detection unit 460 Loading unit 480 Media discrimination unit 500 Operation unit 520 Temperature information acquisition unit 540 Internal storage medium 560 TOC information acquisition unit 580 Playback control unit 600 Automatic adjustment Information acquisition unit 620 Condition determination unit 640 Automatic adjustment information storage unit

Claims (6)

An automatic adjustment information acquisition unit for acquiring automatic adjustment information related to automatic adjustment of a pickup servo system performed when audio data is read from an external storage medium and reproduced;
A condition determination unit that determines whether or not a predetermined condition for additionally storing the automatic adjustment information in an internal storage medium is satisfied when the automatic adjustment information is acquired by the automatic adjustment information acquisition unit;
When it is determined by the condition determination unit that the predetermined condition is satisfied, the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit is additionally stored in the internal storage medium, and the predetermined determination by the condition determination unit If it is determined that the condition is not satisfied, the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit is not additionally stored in the internal storage medium, and the automatic adjustment information is additionally stored last time. a counter variable indicating the number of acquisition times of the automatic adjustment information up when not allowed to add memory to, and an automatic adjustment information storage unit for incrementing a counter variable that is stored as the counter variable information in the internal storage medium ,
The automatic adjustment information includes an automatic adjustment value determined by automatic adjustment of the pickup servo system,
The predetermined condition is a condition that an absolute value of a difference between the automatic adjustment value acquired this time by the automatic adjustment information acquisition unit and the automatic adjustment value acquired last time by the automatic adjustment information acquisition unit is a predetermined value or more,
A storage medium playback device, wherein when the condition determination unit determines that the predetermined condition is not satisfied, the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit is overwritten and stored in the internal storage medium . The storage medium playback device according to claim 1,
A TOC information acquisition unit that acquires TOC information related to audio data stored in the external storage medium during automatic adjustment of the pickup servo system;
The storage medium playback apparatus according to claim 1, wherein the predetermined condition is a condition that the TOC information acquired this time by the TOC information acquisition unit is different from the TOC information acquired last time by the TOC information acquisition unit. The storage medium playback device according to claim 1,
A storage medium type determination unit for determining the type of the external storage medium;
The predetermined condition includes the type of the external storage medium determined by the storage medium type determination unit when the automatic adjustment information is acquired this time by the automatic adjustment information acquisition unit, and the automatic adjustment by the automatic adjustment information acquisition unit. A storage medium playback apparatus characterized in that the condition is that the type of the external storage medium determined by the storage medium type determination unit when the information was acquired last time is different. The storage medium playback device according to any one of claims 1 to 3 ,
When performing automatic adjustment of the pickup servo system, a temperature information acquisition unit that acquires the temperature of the pickup servo system as temperature information;
A storage medium playback device comprising: a temperature information storage unit that stores temperature information acquired by the temperature information acquisition unit in the internal storage medium. The storage medium playback device according to any one of claims 1 to 4 ,
The automatic adjustment information storage unit cyclically stores the automatic adjustment information acquired by the automatic adjustment information acquisition unit using a predetermined area of the internal storage medium. A first step of acquiring automatic adjustment information related to automatic adjustment of a pickup servo system performed when audio data is read out from an external storage medium and reproduced;
A second step of determining whether or not a predetermined condition for storing the automatic adjustment information in an internal storage medium is satisfied when the automatic adjustment information is acquired in the first step;
When it is determined in the second step that the predetermined condition is satisfied, the automatic adjustment information acquired this time in the first step is additionally stored in the internal storage medium, and the second step If it is determined that the predetermined condition is not satisfied, the automatic adjustment information acquired this time in the first step is not additionally stored in the internal storage medium, and the automatic adjustment information is additionally stored last time. A counter variable indicating the number of times of acquisition of the automatic adjustment information until it is not additionally stored until a counter variable stored as counter variable information in the internal storage medium is included ,
The automatic adjustment information includes an automatic adjustment value determined by automatic adjustment of the pickup servo system,
The predetermined condition is a condition that an absolute value of a difference between the automatic adjustment value acquired this time by the automatic adjustment information acquisition unit and the automatic adjustment value acquired last time by the automatic adjustment information acquisition unit is a predetermined value or more,
Automatic adjustment information storage, wherein the automatic adjustment information acquired this time by the automatic adjustment information acquisition unit is overwritten and stored in the internal storage medium when the condition determination unit determines that the predetermined condition is not satisfied Method.