JP6167929B2 - Recording / playback device - Google Patents

Description

  The present invention relates to a recording / reproducing apparatus including a hard disk drive.

  Conventionally, a recording / reproducing apparatus including a hard disk drive is known. In addition, the hard disk drive requires track refresh (rewriting) for recovering the deterioration of the recording data before the recording data cannot be read due to the deterioration of the recording data. For example, in the track refresh, the deteriorated recording data is read from the track, and the read data is written back to the track, thereby returning the recording data to a normal state (see, for example, Patent Document 1).

  Further, there is known a recording / reproducing apparatus including a protection unit that stops driving of the apparatus when the temperature inside the apparatus becomes a certain temperature or higher. When the protection unit operates, the drive of the recording / reproducing apparatus is forcibly stopped to protect the apparatus from damage or the like (see, for example, Patent Document 2).

JP 2011-28810 A JP 2007-122798 A

  The track refresh of the magnetic disk causes a temperature rise because the magnetic disk is frequently accessed. For this reason, when the track refresh operation is performed, the temperature of the magnetic disk exceeds the threshold temperature and the protection unit may operate. If the operation of the protection unit due to the track refresh occurs during use of the user's device, the user may misunderstand that the device is faulty.

  The present invention has been made in view of the above problems, and an object of the present invention is to suppress the stoppage of the apparatus caused by track refresh.

Application example 1
In order to solve the above-described problem, according to one aspect of the present invention, there is provided a recording / reproducing apparatus including a hard disk drive that performs track refreshing, a reproducing unit that reproduces content acquired from the hard disk drive, and a temperature of the hard disk drive. A temperature acquisition unit that acquires temperature information to indicate, a protection unit that stops driving of the playback unit or the hard disk drive if the temperature indicated by the acquired temperature information is equal to or higher than a threshold temperature, and the hard disk drive includes the track A timing adjustment unit that adjusts the execution timing of the track refresh according to the acquired temperature information so that the temperature of the hard disk drive does not exceed the threshold temperature by executing the refresh.

In the invention configured as described above, the timing adjustment unit performs the track refresh execution timing according to the acquired temperature information so that the temperature of the hard disk drive does not exceed the threshold temperature at which the protection unit functions due to the track refresh. Adjust.
For this reason, it is possible to suppress the protection unit from stopping the reproduction of the content due to the execution of the track refresh.

Here, the content includes video data such as still images and operations, and audio data.
Also, the playback unit means a circuit involved in content playback.
The adjustment of the track refresh execution timing includes delaying the start timing when the track refresh is not executed and stopping the execution when the track refresh is executed.

Application example 2
In one aspect of the present invention, before the hard disk drive executes the track refresh, the timing adjustment unit delays the timing for starting the track refresh according to the acquired temperature information.
In the invention configured as described above, the present invention can be applied before the hard disk drive performs track refresh.

Application example 3
In one aspect of the present invention, when the hard disk drive is executing the track refresh, the timing adjustment unit temporarily stops the track refresh according to the acquired temperature information.
In the invention configured as described above, the present invention can be applied even when the hard disk drive performs track refresh.

Application example 4
In one aspect of the present invention, the temperature acquisition unit predicts a temperature increase of the hard disk drive when the track refresh is executed based on the acquired temperature information,
The timing adjustment unit temporarily stops the track refresh when the predicted temperature of the hard disk drive exceeds the threshold temperature.
In the invention configured as described above, since the track refresh is temporarily stopped based on the prediction of the temperature rise, the function of the present invention can be executed flexibly.

Application example 5
In one aspect of the present invention, the timing adjustment unit stops driving the hard disk drive and does not cause the hard disk drive to perform the track refresh. In the invention configured as described above, the functions of the present invention can be realized by diverting known processing.

Application example 6
In one aspect of the present invention, the timing adjustment unit records dummy data in the hard disk drive and does not cause the hard disk drive to perform the track refresh.
In the invention configured as described above, the functions of the present invention can be realized by diverting known processing.

Application example 7
In one aspect of the present invention, the timing adjustment unit stops power supply to the hard disk drive.
In the invention configured as described above, the functions of the present invention can be realized by diverting known processing.

Application Example 8
In one aspect of the present invention, the protection unit stops driving of the hard disk drive only when the track refresh is executed and the temperature information is equal to or higher than the threshold temperature.
In the invention configured as described above, since the protection unit stops only the drive of the hard disk drive, the apparatus can be used as it is when the user is not using the hard disk drive.

The external view which shows a recording / reproducing apparatus. 4 is a functional block diagram illustrating functions of the display device 10. FIG. The figure explaining adjustment of the execution timing of the track refresh by the timing adjustment unit. The figure which shows the hardware constitutions of the display apparatus. The flowchart which shows the process of SOC after the power supply of the display apparatus 10 is turned ON. The flowchart which shows the process performed in FIG.5 S5. The graph explaining 1st temperature. The flowchart which shows the process of SOC after track refresh is started. The figure explaining the method in which the temperature acquisition part 14 estimates temperature based on the temperature information of HDD12. The flowchart which shows the process which the protection part 15 performs.

Hereinafter, embodiments of the present invention will be described in the following order.
1. First embodiment:
(1) Configuration of recording / reproducing apparatus (2) Timing adjustment method Second embodiment:
3. Third embodiment:
4). Other embodiments:

1. First embodiment:
(1) Configuration of Recording / Reproducing Device FIG. 1 is an external view showing the recording / reproducing device.
In the first embodiment, a display device 10 will be described as an example of a recording / reproducing device.
In the display device 10, a display panel 19 that displays an image is exposed on the front surface of the housing 11. The display device 10 can display content on the display panel 19 in accordance with a command output from the remote control device 40 by the user operating the remote control device 40. The display device 10 has a hard disk drive built in the housing 11. Therefore, content such as a television broadcast acquired by a tuner described later can be recorded (recorded) on the hard disk drive. Hereinafter, the hard disk drive is also simply referred to as HDD (Hard Disk Drive).

FIG. 2 is a functional block diagram illustrating functions of the display device 10.
The display device 10 includes an HDD 12, a reproduction unit 13, a temperature acquisition unit 14, a protection unit 15, and a timing adjustment unit 16.

  The HDD 12 records the content acquired by the display device 10. The HDD 12 also has track refresh. As an example, the track refresh returns the recording data to a normal state by reading the deteriorated recording data from the track and writing the read data back to the track.

  The playback unit 13 plays back content read from the HDD 12 or content acquired from other than the HDD 12 (a tuner described later).

  The temperature acquisition unit 14 acquires the temperature of the HDD 12 as temperature information. The temperature information is information indicating the current temperature of the HDD 12.

  The protection unit 15 protects the display device from damage or the like when the internal temperature of the display device 10 is equal to or higher than the threshold temperature. In the first embodiment, the protection unit 15 drives the display device 10 including the reproduction unit 13 when the temperature (temperature information) of the HDD 12 acquired by the temperature acquisition unit 14 exceeds a preset threshold temperature. And the display device 10 is protected.

  The timing adjustment unit 16 adjusts the track refresh execution timing of the HDD 12 according to the current temperature information of the HDD 12 acquired by the temperature acquisition unit 14 so that the protection unit 15 does not operate. That is, the timing adjustment unit 16 adjusts the execution timing of the track refresh executed by the HDD 12 so that the temperature of the HDD 12 does not exceed the threshold temperature when the HDD 12 executes the track refresh.

  FIG. 3 is a diagram illustrating the adjustment of the track refresh execution timing by the timing adjustment unit 16. FIG. 3 shows the temperature change of the HDD 12, with the vertical axis representing temperature (° C.) and the horizontal axis representing time. FIG. 3A shows the temperature change of the HDD 12 when the track refresh execution timing is not adjusted. FIG. 3B shows a change in the temperature of the HDD 12 when the track refresh execution timing is adjusted.

  As shown in FIG. 3A, the HDD 12 is accessed from time t0 to t1, and the temperature of the HDD 12 rises. When the track refresh of the HDD 12 is started at time t2, the temperature of the HDD 12 rises. At time t3, the temperature of the HDD 12 reaches the temperature d1. The temperature d1 is a threshold temperature at which the protection unit 15 functions. For this reason, when the temperature of the HDD 12 exceeds the threshold temperature (d1), the protection unit 15 operates, and the operation of the display device 10 including the reproduction unit 13 stops, so that the temperature decreases.

On the other hand, in FIG. 3B, the HDD 12 is accessed from time t0 to t1, and the temperature of the HDD 12 rises. Then, between time t4 and time t5, the timing adjustment unit 16 operates to adjust the track refresh execution timing. During a period (t4-t5) in which the timing adjustment unit 16 operates, execution of track refresh by the HDD 12 is prohibited. In FIG. 3B, the track refresh is not started at time t4, but the track refresh may be started before time t4.
Then, when the track refresh of the HDD 12 is executed after the time t5, the temperature of the HDD 12 rises. However, after time t5, the temperature of the HDD 12 is low, and even if the track refresh is executed, the temperature of the HDD 12 does not reach the temperature d1.

FIG. 4 is a diagram illustrating a hardware configuration of the display device 10.
The display device 10 includes a tuner 17, an SOC (System On Chip) 18, a display panel 19, a speaker 20, a ROM (Read Only Memory) 21, a RAM (Random Access Memory) 22, a remote control receiver 23, an HDD 12, and a power supply circuit 27. And comprising.

  The tuner 17 extracts content data corresponding to a predetermined channel from a television broadcast received by an antenna (not shown).

An SOC 18 is connected to the output side of the tuner 17. The SOC 18 demodulates the content data and outputs video data and audio data. The SOC 18 has a built-in CPU that controls the driving of the display device 10 in an integrated manner.
Connected to the output side of the SOC 18 are a display panel 19 for displaying video and a speaker 20 for outputting sound.
Further, the SOC 18 is connected to the remote control receiver 23 through the external bus 28.

In the display device shown in FIG. 4, the playback unit 13 is realized by the SOC 18. Of course, besides this, the reproducing unit 13 may include an SOC 18, a display panel 19, and a speaker 20.
Also, the SOC 18 realizes the protection unit 15 and the timing adjustment unit 16 of the present invention by expanding and executing the program recorded in the ROM 21 on the RAM 22.

Further, the HDD 12 is connected to the external bus 28. The HDD 12 includes a magnetic disk 26 that records content and a memory controller 25 that controls driving of the magnetic disk 26.
The memory controller 25 includes a CPU, ROM, and RAM (not shown). When the memory controller 25 receives a recording request from the SOC 18 via the external bus 28, the memory controller 25 records the content data input from the SOC 18 on the magnetic disk 26. When the memory controller 25 receives a read request from the SOC 18 via the external bus 28, the memory controller 25 reads the content data recorded on the magnetic disk 26 and outputs the read content data to the SOC 18 via the external bus 28.

  Further, the memory controller 25 performs track refresh on the magnetic disk 26 when a predetermined condition is satisfied. As an example of the condition for the memory controller 25 to perform track refresh, there are a case where the number of times the recording data is written to the magnetic disk 26 exceeds a predetermined number, and a case where the HDD 12 is not accessed from the SOC 18. Of course, the conditions under which the memory controller 25 starts track refresh are not limited to the above.

The memory controller 25 has a function of returning the current temperature of the magnetic disk 26 as temperature information when receiving a request for inquiring temperature information from the SOC 18. Therefore, the temperature acquisition unit 14 of the present invention is realized by the functions of the SOC 18 and the memory controller 25. The HDD 12 includes a temperature sensor (not shown).
Of course, realizing the temperature acquisition unit 14 by the functions of the SOC 18 and the memory controller 25 is merely an example, and a temperature sensor that directly measures the temperature of the HDD 12 may be connected to the SOC 18.

  A power supply circuit 27 is connected to the external bus 28. The power supply circuit 27 supplies power to each unit through a power supply line (not shown). Further, when the SOC 18 functions as the protection unit 15, the supply of power supplied to each unit is stopped.

(2) Timing Adjustment Method Next, a method for adjusting the track refresh execution timing in the display device 10 will be described. FIG. 5 is a flowchart showing the SOC processing after the display device 10 is powered on.

  When the main power supply of the display device 10 is turned on, the SOC 18 rotates the HDD 12 in step S1. The SOC 18 monitors the operation of the remote control device 40 from the user.

When the remote control receiving unit 23 receives an operation input by an input from the remote control device 40, the SOC 18 receives a command corresponding to the operation input (step S2: YES). In step S3, the SOC 18 executes processing corresponding to the command. Hereinafter, in this embodiment, it is assumed that the recording request is for the HDD 12.
Therefore, the memory controller 25 receives the recording request and records the content data output from the SOC 18 on the magnetic disk 26. The recording process is continued until a set recording time or an operation input for stopping recording is performed from the user. As a method for determining the recording process by the SOC 18, for example, it is determined by a change in an internal register by a command output from the memory controller 25.

  Further, the SOC 18 (temperature acquisition unit 14) monitors the temperature of the HDD 12 during the process of step S3. If the current temperature of the HDD 12 is equal to or higher than the threshold, the process proceeds to step S10, and the SOC 18 stops driving the display device 10 (protection function).

In step S4, if the process of step S3 is not completed (step S4: NO), the SOC 18 returns to step S2 and repeats the loop.
On the other hand, if the process of step S3 has been completed (step S4: YES), in step S5, the SOC 18 performs a process for adjusting the track refresh execution timing of the HDD 12.

  FIG. 6 is a flowchart showing the processing executed in step S5 of FIG. With the processing shown in FIG. 6, the track refresh execution timing of the HDD 12 is adjusted according to the current temperature of the HDD 12.

  In step S51, the SOC 18 acquires temperature information of the HDD 12. The SOC 18 requests temperature information from the HDD 12. Then, the memory controller 25 of the HDD 12 outputs temperature information to the SOC 18.

If the temperature information of the HDD 12 acquired in step S51 is equal to or lower than the first temperature (step S52: YES), the SOC 18 ends the program and returns to step S6.
FIG. 7 is a graph illustrating the first temperature. In FIG. 7, the vertical axis represents temperature (° C.) and the horizontal axis represents time. In FIG. 7, the threshold temperature is D1, and the first temperature is D2. tn indicates the current time. The temperature of the first temperature D2 is set based on the maximum temperature increase amount ΔD of the HDD 12 that is increased by the track refresh when the HDD 12 performs the track refresh. That is, the first temperature D2 is set based on the temperature obtained by subtracting the temperature increase amount ΔD from the threshold temperature D1. Therefore, if the temperature information of the HDD 12 acquired in step S51 is equal to or lower than the first temperature D2, even if the HDD 12 starts track refresh, the temperature of the HDD 12 does not rise to the threshold temperature D1 at which the protection unit 15 operates. Become.

On the other hand, if the temperature information of the HDD 12 is equal to or higher than the first temperature (step S52: NO), in step S53, the SOC 18 outputs a command to the memory controller 25 to stop the rotation of the magnetic disk 26 (spin-up stop). To do.
That is, by stopping the rotation of the magnetic disk 26, the memory controller 25 cannot perform track refresh on the magnetic disk 26, and the start of track refresh is delayed.

  In step S54, the SOC 18 stands by until a predetermined time T elapses with an internal timer. That is, by stopping the drive of the HDD 12 for a predetermined time, the temperature of the HDD 12 is lowered to the first temperature or lower. When the predetermined time has elapsed (step S54: YES), in step S55, the SOC 18 outputs a command to the memory controller 25 so as to resume the rotation of the magnetic disk 26.

In step S <b> 53, the SOC 18 may not execute track refresh by writing dummy data to the magnetic disk 26. Here, the dummy data is recording data with a small amount of information. At this time, the memory controller 25 continuously writes the dummy data to the magnetic disk 26 until the predetermined time T in step S4 has elapsed. It should be noted that the interval at which the dummy data is recorded on the magnetic disk 26 is preferably longer than the track refresh.
With the configuration as described above, the functions of the present invention can be realized by diverting known processing.

  Returning to step S6 in FIG. 5, the SOC 18 monitors the execution of the track refresh of the HDD 12. If the track refresh is not started (step S6: NO), the SOC 18 monitors the input.

  On the other hand, if the track refresh has been started (step S6: YES), the SOC 18 loops the process until the track refresh is completed (steps S7 to S9). During this time, the SOC 18 acquires temperature information from the HDD 12 in step S7 and monitors the temperature of the HDD 12 (step S8).

  In step S8, if the temperature information of the HDD 12 is equal to or higher than the threshold temperature (step S8: YES), the SOC 18 (protection unit 15) stops the driving of the display device 10 in step S10. Of course, in the present invention, the track refresh timing is adjusted in step S5, and the process does not proceed to step S10.

  When the track refresh is finished (step S9: YES), the SOC 18 monitors the input.

  As described above, in the first embodiment, the timing adjustment unit 16 performs the track refresh according to the acquired temperature information so that the temperature of the HDD 12 does not exceed the threshold temperature at which the protection unit 15 functions. Adjust the track refresh execution timing. Therefore, it is possible to suppress the protection unit 15 from stopping the display device 10 due to the execution of the track refresh.

2. Second embodiment:
The adjustment of the track refresh execution timing of the HDD 12 may be performed while the HDD 12 is executing the track refresh.
FIG. 8 is a flowchart showing SOC processing after track refresh is started. The flowchart shown in FIG. 8 is, for example, processing executed between step S6 (step S6: YES) and step S7 in the flowchart shown in FIG.

  In step S <b> 11, the SOC (temperature acquisition unit 14) 18 acquires temperature information of the HDD 12. Then, in step S12, the SOC (temperature acquisition unit 14) 18 predicts the temperature after the increase that increases in the track refresh from the temperature information acquired in step S11.

FIG. 9 is a diagram illustrating a method in which the temperature acquisition unit 14 predicts the temperature based on the temperature information of the HDD 12. In FIG. 9, the vertical axis represents temperature (° C.) and the horizontal axis represents time. In FIG. 9, the threshold temperature is D1, and the temperature indicated by the temperature information is indicated by Dn. In step S12, when the HDD 12 continues the track refresh, the SOC 18 predicts the maximum temperature of the HDD 12 that increases due to the track refresh.
For example, the SOC 18 predicts the maximum temperature of the HDD 12 during the track refresh based on the current temperature of the HDD 12 acquired in step S11, the track refresh time, and the temperature increase rate.

  If the temperature of the HDD 12 predicted in step S12 is equal to or lower than the threshold temperature (step S13: YES), the SOC 18 ends the program and proceeds to step S7 in FIG. In this case, even if the track refresh is immediately executed, the temperature of the HDD 12 does not exceed the threshold temperature, so that the protection unit 15 does not operate.

On the other hand, if the temperature of the HDD 12 predicted in step S12 in FIG. 8 is equal to or higher than the threshold temperature D1 (step S13: NO), the SOC 18 sends a command to the memory controller 25 to stop the rotation of the magnetic disk 26 in step S14. Output.
That is, by stopping the rotation of the magnetic disk 26, the memory controller 25 is prevented from performing track refresh on the magnetic disk 26.
In addition, the memory controller 25 may write dummy data on the magnetic disk 26.

  In step S15, the SOC 18 waits until a predetermined time T elapses with an internal timer. That is, the temperature of the HDD 12 is lowered by stopping the drive of the HDD 12 for a predetermined time. For example, the drive of the HDD 12 is stopped for about 15 minutes. When the predetermined time has elapsed (step S15: YES), the temperature of the HDD 12 is predicted in step S16. The temperature prediction of the HDD 12 in step S16 is the same as in step S12.

In step S17, if the predicted temperature of the HDD 12 is equal to or lower than the threshold temperature (step S17: YES), in step S18, the SOC 18 outputs a command to the memory controller 25 to resume the rotation of the magnetic disk 26.
On the other hand, when the predicted temperature exceeds the threshold temperature (step S17: NO), the process returns to step S15, and the SOC 18 extends the stop of the drive of the HDD 12. Thereafter, if the predicted temperature of the HDD 12 becomes equal to or lower than the threshold temperature (step S17: YES), in step S18, the SOC 18 outputs a command to the memory controller 25 to resume the rotation of the magnetic disk 26.

  Thereafter, the SOC 18 returns to the flow of FIG. At this time, even if the track refresh is immediately executed, the protection unit 15 does not operate because the temperature of the HDD 12 does not exceed the threshold temperature.

As described above, in the second embodiment, when the HDD 12 is performing the track refresh, the timing adjustment unit 16 temporarily stops the track refresh according to the acquired temperature information. Therefore, the present invention can be applied even when the HDD 12 is performing track refresh.
Further, since the track refresh is temporarily stopped based on the prediction of the temperature rise of the HDD 12, the function of the present invention can be executed flexibly.

3. Third embodiment:
Even when the temperature of the HDD 12 exceeds the threshold temperature, the protection unit 15 may be configured to stop only the drive of the HDD 12 instead of stopping all the circuits when the HDD 12 is performing track refresh.

FIG. 10 is a flowchart showing processing executed by the protection unit 15.
The flowchart shown in FIG. 10 is a process executed when, for example, the temperature information in FIG. 5 exceeds the threshold temperature (for example, step S10).

  In step S <b> 21, the SOC (protection unit 15) 18 determines whether or not track refresh is currently being executed in the HDD 12. If the track refresh is executed, the SOC 18 proceeds to step S22.

  In step S22, the SOC 18 controls the power supply circuit 27 so as to stop only the power supply of the HDD 12. Then, after the predetermined period has elapsed (step S23: YES), if the newly acquired temperature information is equal to or lower than the threshold temperature (step S24: YES), the stop of power supply to the HDD 12 is canceled in step S25. On the other hand, if the temperature information is equal to or higher than the threshold temperature (step S24: NO), the process returns to step S23 and the loop is repeated.

  On the other hand, in step S21, if track refresh is not currently being executed in the HDD 12, the SOC 18 operates a normal protection function. That is, in step S26, the SOC 18 controls the power supply circuit 27 so as to stop the power supply of all circuits including the HDD 12. Then, after the predetermined period has elapsed (step S27: YES), if the newly acquired temperature information is equal to or lower than the threshold temperature (step S28: YES), the stop of the power supply to each circuit is canceled in step S29. . On the other hand, if the temperature information is equal to or higher than the threshold temperature (step S28: NO), the process returns to step S27 and the loop is repeated.

  As described above, in the third embodiment, the protection unit 15 changes the circuit that stops driving depending on whether or not the HDD 12 performs track refresh. If the temperature rise is caused by the track refresh, the circuits other than the HDD 12 are not the cause of the temperature rise, so that the other circuits can be driven by stopping only the HDD 12. In particular, since the track refresh is performed when recording or the like is not performed on the HDD 12, a process in which the display device 10 does not use the HDD 12 (for example, the tuner 17 is used) during the track refresh period. (Viewing content). Therefore, in such a case, even if the temperature of the HDD 12 exceeds the threshold temperature, the driving of the display device 10 is not stopped, which is beneficial.

4). Other embodiments:
As a timing adjustment method, power supply to the HDD 12 may be stopped. For example, in step S <b> 53 of FIG. 5, the SOC 18 stops supplying power to the HDD 12. In the invention configured as described above, even when the memory controller 25 does not accept a spin-up stop or dummy data recording request from the SOC 18, the power supply from the power supply circuit 27 is stopped so that the function of the present invention is achieved. Can be realized.

  Further, the description of the display device 10 as an example of the recording / reproducing device is merely an example. For example, in addition to the HDD, the present invention can be applied to a recorder having a memory capable of recording and reproducing content, a PC including the HDD, and the like.

  In addition, the reproduction unit 13, the temperature acquisition unit 14, the protection unit 15, and the timing adjustment unit 16 are realized by the SOC 18 executing a program only as an example. For example, the recording / reproducing apparatus may include hardware corresponding to each unit. Further, a part of the configuration disclosed in the embodiment may be replaced with hardware.

Needless to say, the present invention is not limited to the above embodiments. It goes without saying for those skilled in the art,
・ Applying mutually interchangeable members and configurations disclosed in the above embodiments by appropriately changing the combination thereof.− Although not disclosed in the above embodiments, it is a publicly known technique and the above embodiments. The members and configurations that can be mutually replaced with the members and configurations disclosed in the above are appropriately replaced, and the combination is changed and applied. It is an embodiment of the present invention that a person skilled in the art can appropriately replace the members and configurations that can be assumed as substitutes for the members and configurations disclosed in the above-described embodiments, and change the combinations and apply them. It is disclosed as.

  DESCRIPTION OF SYMBOLS 10 ... Display apparatus, 11 ... Housing, 12 ... HDD, 13 ... Reproduction | regeneration part, 14 ... Temperature acquisition part, 15 ... Protection part, 16 ... Timing adjustment part, 17 ... Tuner, 18 ... SOC, 19 ... Display panel, 20 ... Speaker, 21 ... ROM, 22 ... RAM, 23 ... Remote control receiver, 25 ... Memory controller, 26 ... Magnetic disk, 27 ... Power supply circuit, 28 ... External bus, 40 ... Remote control device

Claims (8)

A recording / reproducing apparatus including a hard disk drive for performing track refreshing,
A playback unit for playing back content acquired from the hard disk drive;
A temperature acquisition unit for acquiring temperature information indicating the temperature of the hard disk drive;
If the temperature indicated by the acquired temperature information is equal to or higher than a threshold temperature, a protection unit that stops driving the playback unit or the hard disk drive;
A timing adjustment unit that adjusts the track refresh execution timing according to the acquired temperature information so that the hard disk drive performs the track refresh so that the temperature of the hard disk drive does not exceed the threshold temperature. And a recording / reproducing apparatus.   The timing adjustment unit delays the timing for starting the track refresh according to the acquired temperature information before the hard disk drive performs the track refresh. Recording and playback device.   The said timing adjustment part stops the said track refresh temporarily according to the acquired said temperature information, when the said hard disk drive is performing the said track refresh. Recording and playback device. The temperature acquisition unit predicts a temperature increase of the hard disk drive when the track refresh is executed based on the acquired temperature information,
The recording / reproducing apparatus according to claim 3, wherein the timing adjustment unit temporarily stops the track refresh when the predicted temperature of the hard disk drive exceeds the threshold temperature.   5. The recording / reproducing apparatus according to claim 1, wherein the timing adjustment unit stops driving the hard disk drive and does not cause the hard disk drive to perform the track refresh. 6. .   5. The recording / reproducing according to claim 1, wherein the timing adjustment unit records dummy data in the hard disk drive and does not cause the hard disk drive to perform the track refresh. 6. apparatus.   The recording / reproducing apparatus according to claim 1, wherein the timing adjustment unit stops power supply to the hard disk drive.   The said protection part stops only the drive of the said hard-disk drive, if the said track refresh is performed and the said temperature information is more than the said threshold temperature, Any of the Claims 1-7 characterized by the above-mentioned. A recording / reproducing apparatus according to claim 1.

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