JP5376001B2 - Recording / playback device - Google Patents

Description

  The present invention relates to a recording / reproducing apparatus including a recording medium such as a hard disk, an optical disk, or a semiconductor memory.

  Conventionally, when a recording / playback device with a built-in hard disk drive or the like fails, or when there is a possibility of failure, the hard disk drive etc. is taken out after disassembling the recording / playback device and connected to another inspection environment etc. It is necessary to collect information that leads to the identification of the operating status of the drive and the cause of failure, and to check the recorded data.

  Further, in Patent Document 1 below, in a recording / reproducing apparatus with a built-in hard disk drive that is not removable, it is determined whether the recording state information of the signal recorded on the hard disk drive is normal or abnormal. In this case, it is disclosed that the recording state information is transmitted to the factory via a communication line, the recording state information is analyzed on the factory side, and the repair information is transmitted from the factory side to the recording / reproducing apparatus.

JP 2006-293812 A

  However, disassembly of equipment when removing precision parts such as a hard disk drive needs to be performed by a person who requires some skill, and the labor associated with this increases the maintenance cost as a cost. In addition, it is necessary to connect a precision component such as a hard disk drive to the inspection environment and inspect it to some extent regardless of the type of failure, and the cost and time required for the inspection are also a heavy burden. Also, when disassembling the device and removing the hard disk drive, it is generally necessary to turn off the device, but if an abnormal phenomenon occurs due to a temporary cause, turn off the power. As a result, the abnormal phenomenon is not reproduced, and it is difficult to identify the cause.

  In the technique disclosed in Patent Document 1 above, when a failure occurs in a hard disk drive, error information is transmitted to a factory (manufacturer's support center) via a communication line (Internet), and repair information is obtained from the factory side. In order to recover the error, there is an inconvenience that it is necessary to always connect to an external communication line. Further, since the factory side supplies repair information (recovery program) and the user cannot directly check the state of the hard disk drive, important data may be lost during the repair.

  An object of the present invention is to provide an apparatus that can easily perform an abnormality diagnosis on the user side when an abnormality occurs in a built-in storage device of a device.

The present invention relates to a built-in storage means, an input / output interface for connecting to an external device, and the storage means connected to an external device via the input / output interface , wherein the storage means is in a normal operating state. in conjunction to function as a data storage means for transmitting and receiving by Ri data to a particular protocol said storage means, said storage means in abnormal operating conditions and a control means to function the storage means as Ma scan storage.

In one embodiment of the present invention, the control unit causes the storage unit to function as a USB mass storage in an abnormal operation state .

  According to the present invention, even when an abnormality occurs in the internal storage device of the device, the user can easily diagnose or repair the abnormality.

It is a configuration block diagram of an embodiment. It is a functional block diagram of a signal path switching mechanism. It is circuit state explanatory drawing at the time of normal operation. It is circuit state explanatory drawing at the time of abnormal operation. It is a processing flowchart of an embodiment. It is explanatory drawing which shows an example of a hierarchy menu.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing the configuration of a recording / reproducing apparatus according to this embodiment. The recording / reproducing apparatus is a data recorder that records music data in a predetermined format (MP3 or the like), for example. The recording / reproducing apparatus includes a signal processing device 10, a signal path switching mechanism 12, a hard disk drive (HDD) 14 as a built-in storage device, a microcomputer 16, a USB interface device 18, and a USB terminal 20.

  The signal processing device 10 is configured by a DSP (digital signal processor), and executes various processes such as encoding / decoding processing, compression / decompression processing, mixing processing, and effect processing of music data input from an external input terminal (not shown). .

  A hard disk drive (HDD) 14 is connected to the signal processing device 10 via the signal path switching mechanism 12 and stores music data signal-processed by the signal processing device 10. During reproduction, music data stored in a hard disk drive (HDD) 14 is read and supplied to the signal processing device 10 via the signal path switching mechanism 12.

  The USB interface device 18 performs data transmission / reception with an external device connected via the USB terminal 20. The USB interface 18 is connected to a hard disk drive (HDD) 14 via the signal path switching mechanism 12.

  The signal path switching mechanism 12 includes a semiconductor switch circuit such as a MOSFET, and switches the signal path in accordance with a control signal from the microcomputer 16. The signal path switching mechanism 12 connects the signal processing device 10 and the hard disk drive (HDD) 14 with the data line 100 when the device is operating normally, and connects the USB interface device 18 and the hard disk drive (HDD) 14 when the device is operating abnormally. The signal path is switched so as to be connected by the data line 100. Further, the signal path switching mechanism 12 switches the signal path so as to connect the USB interface device 18 and the hard disk drive (HDD) 14 in accordance with an operation from the user even during normal operation of the device.

  The microcomputer 16 determines whether the device is in a normal operation state or an abnormal operation state, outputs a control signal to the signal path switching mechanism 12 via the control line 200 according to the determination result, and the signal path switching mechanism 12. Controls the switching operation. Also, the ON / OFF operation of the USB interface device 18 is controlled via the control line 200 according to the determination result. For example, the microcomputer 16 transmits a command to the hard disk drive (HDD) 14 at the time of starting or at any time and receives a response signal from the hard disk drive (HDD) 14, but a response from the hard disk drive (HDD). It is determined whether the hard disk drive (HDD) is operating normally or in an abnormal state (including no response).

  The signal processing device 10, the signal path switching mechanism 12, the microcomputer 16, and the USB interface device 18 may be integrated as an IC.

  FIG. 2 schematically shows the switching operation of the signal path switching mechanism 12. When the device is in a normal operation state, the microcomputer 16 switches the switch SW of the signal path switching mechanism 12 to the a contact side. Thereby, the signal processing device 10 and the hard disk drive (HDD) 14 are connected. FIG. 3 shows a circuit configuration at this time. A signal processing device 10 and a hard disk drive (HDD) 14 are connected, and music data input from an input terminal (not shown) is subjected to various processes by the signal processing device 10 and recorded in the hard disk drive (HDD) 14. Alternatively, music data recorded on a hard disk drive (HDD) is read out and supplied to the signal processing device 10, subjected to various processes, and output from an output terminal (not shown). On the other hand, the USB interface device 18 and the USB terminal 20 are disconnected from the circuit, and are not involved in transmission / reception of music data. In the default state, the microcomputer 16 switches the contact of the switch SW to the a side and disables the function of the USB interface device 18. Therefore, even if any external device such as a personal computer is connected in the normal operation state, the personal computer does not recognize the hard disk drive (HDD) 14. When the user operates the operation switch or operation button of the device and sets the USB terminal to be valid in the normal state of the device, the microcomputer 16 switches the switch SW of the signal path switching mechanism 12 to the b contact side, and also the USB interface device 18. Enable the function. As a result, the external device and the hard disk drive (HDD) 14 are connected through the path of the USB interface device 18 and the USB terminal 20, and music data can be transmitted and received.

  Next, when the device is in an abnormal operation state, the microcomputer 16 activates the USB interface device 18 to enable it, and switches the switch SW of the signal path switching mechanism 12 to the b contact side. As a result, the USB terminal 20, the USB interface device 18, and the hard disk drive (HDD) 14 are connected. FIG. 4 shows a circuit configuration at this time. The signal processing device 10 is disconnected from the circuit. The microcomputer 16 is connected as a circuit but is in a function stop state. By connecting an external device such as a personal computer 22 to the USB terminal 20, the personal computer 22 is connected to the hard disk drive (HDD) 14 via the USB interface device 18, and the personal computer 22 connects the hard disk drive (HDD) 14 to the USB. It can be recognized as a USB mass storage conforming to the mass storage class. The hard disk drive (HDD) 14 recognized as the USB mass storage can be directly accessed from the personal computer 22, and processing such as status management of the hard disk drive (HDD) 14, data reading, and initialization can be performed. The USB mass storage class is a standard defined for connecting a mass storage device (mass storage) such as a floppy (registered trademark) disk, a hard disk, or a memory card to a USB port of a computer. A USB device that conforms to the standard is recognized as an external storage device when connected to a port, and not only a dedicated application program attached to the device but also a general-purpose OS can be used to exchange data by a normal drag and drop operation. it can.

  The state of FIG. 4 is the same as the case where the USB terminal is set to be valid by a user operation while the device is in a normal operation state. In other words, in the present embodiment, when the microcomputer 16 detects an abnormality in the device, the USB terminal is automatically set to be enabled automatically by using a mechanism for setting the USB terminal to be effective. It can be said that it enables access to the hard disk drive (HDD) 14.

  FIG. 5 shows a processing flowchart of the present embodiment. When the power of the device is turned on, a predetermined startup process is executed, and then a normal operation state is entered (S101). In a normal operation state, recording and reproduction of music data are executed in accordance with user operations. The user's operation is pressing of a recording button, playback button, selection of music data, etc. Music data is encoded by the signal processing device 10, converted into a format such as MP3, and stored in the hard disk drive (HDD) 14. Is done. Other formats other than MP3 may be used. While executing the normal operation, the microcomputer 16 determines whether or not the user has set to enable the USB (S102). The operation for enabling USB is, for example, an operation using a hierarchical menu. FIG. 6 shows an example of a hierarchical menu. The hierarchical menu is sequentially displayed on the display device in accordance with a user operation. When the user selects the menu, the submenu of the first hierarchy is displayed, and when the user selects DISK, the lower hierarchy including submenus such as FORMAT and USB OPEN / CLOSE is displayed. When the user selects the USB OPEN / CLOSE menu, the setting shifts to a setting for enabling USB.

  When the user does not make the setting for enabling USB, the microcomputer 16 maintains the USB interface device 18 in the default state (the switch SW is connected to the a contact side), that is, in the operation stopped state (S103). When the user makes settings for enabling USB using the hierarchical menu, the microcomputer 16 activates and enables the USB interface device 18 and controls the signal path switching mechanism 12 to change the signal path to the USB side (switch SW (B contact side) (S104).

  The above processing is repeatedly executed in the normal operation state.

  On the other hand, the microcomputer 16 determines whether there is an abnormality in the device, more specifically, the built-in hard disk drive (HDD) 14 by an interrupt process or the like based on a command response from the hard disk drive (HDD) 14 (S105). If there is no abnormality, the normal operation state is maintained. When an abnormality occurs such as no response from the hard disk drive (HDD) 14 or data cannot be read, the microcomputer 16 automatically outputs a control signal to the signal path switching mechanism 12 without any user operation. Then, the switch SW is switched to the b contact side (S106), and the USB interface device 18 is activated and activated (S107). Thus, the circuit state shown in FIG. 4 is obtained, and the user can access the hard disk drive (HDD) 14 as the USB mass storage by connecting the personal computer 22 to the USB terminal 20. Further, an error message and a message indicating that the USB has been activated are displayed on the display device (LCD or the like) of the device (S108).

  After performing abnormality diagnosis of the hard disk drive (HDD) 14 using the personal computer 22 or performing repair work, the user temporarily turns off the power of the device and then turns on the power again. Then, the microcomputer 16 sets the USB interface device 18 to the invalid state which is the default state, switches the switch SW of the signal path switching mechanism 12 to the contact a side (inside), and returns to the circuit state shown in FIG.

  As described above, in this embodiment, when an abnormality occurs in the device, the microcomputer 16 automatically switches the signal path and shifts the hard disk drive (HDD) 14 to a state where it can be recognized as a USB mass storage. When an abnormality occurs in the device, the user can access the hard disk drive (HDD) 14 from the personal computer 22 simply by connecting the personal computer 22 to the USB terminal 20 of the device. Therefore, in this embodiment, even if an abnormality occurs in the device, the hard disk drive (HDD) 14 is used by using a versatile application program installed in a versatile personal computer without connecting to a specific inspection environment. The data can be read from or written to, and the cause of the malfunction or the clue for specifying the cause can be easily obtained. In addition, there is a possibility that the problem can be solved relatively easily by rewriting data recorded in the hard disk drive (HDD) 14. It can be said that this is an extremely convenient device for the user. Furthermore, in the present embodiment, the USB is invalidated during normal operation, and the USB remains invalid unless a predetermined operation (an operation of selecting a predetermined menu by tracing the hierarchical menu) is performed. A situation in which the hard disk drive (HDD) 14 is inadvertently operated from the outside can be prevented, and the confidentiality of data can be maintained.

  Although the hard disk drive (HDD) 14 has been described as an example in the present embodiment, a semiconductor memory such as a flash memory or an optical disk drive using an optical disk as a recording medium may be used.

  In this embodiment, the USB has been described as an example. However, the present invention can also be applied to other interfaces such as Bluetooth, IEEE 1394, and PLC (power line communication).

  In addition, when a special protocol is used in communication with an external device without using a USB mass storage class in a normal use range by a user, for example, a specific protocol is used by connecting the device to a specific web site. In the case of downloading music data, it is also preferable to switch to general-purpose USB mass storage by interrupting data transmission / reception using a special protocol only when a failure is detected. When applying to the present embodiment, for example, a submenu of Music Download is prepared in the hierarchical menu, and when this is selected, the USB interface device 18 is released in the download mode (operating with a special protocol). Thus, a specific web site is connected through the USB terminal 20 and the personal computer 22.

  In the present embodiment, when an abnormality or failure of the device is detected, the microcomputer 16 automatically enables the USB so that the hard disk drive (HDD) 14 can be recognized as a USB mass storage. Alternatively, when a failure is detected, the microcomputer 16 may validate the USB with an operation from the user as a trigger. For example, when a failure is detected in a case where music data is downloaded using a specific protocol by connecting to a specific web site, the microcomputer 16 causes the specific protocol to be operated by the user operating a specific button of the device. The data transmission / reception may be interrupted to shift to a state in which the built-in memory can be recognized as a USB mass storage. Even if the music data cannot be downloaded using a special protocol, the user can perform operations such as reading data already recorded on the device from a personal computer.

  10 signal processing device, 12 signal path switching mechanism, 14 hard disk drive (HDD), 16 microcomputer, 18 USB interface device, 20 USB terminal.

Claims (4)

Built-in storage means;
I / O interface for connecting to external devices,
A case of connecting the storage means to an external device via the output interface, the storage unit is in normal operating conditions with to function as a data storage means for transmitting and receiving data Ri by the particular protocol said storage means and control means to function the storage means as Ma scan storage in said storage means abnormal operation state,
A recording / reproducing apparatus comprising: The apparatus of claim 1.
The recording / reproducing apparatus, wherein the control unit causes the storage unit to function as a USB mass storage in an abnormal operation state. The apparatus according to claim 1,
The recording / reproducing apparatus, wherein the storage means is a hard disk, a semiconductor memory, or an optical disk. The apparatus according to claim 1,
The recording / reproducing apparatus, wherein the input / output interface is a USB.

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