JP2008217561A - Information processor, information processing system, and data player - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To read out data accumulated in an information processor by a data player, without starting completely the information processor. <P>SOLUTION: This information processor or the like is provided with an HDD 18 for storing the data, a USB connector 19 communicated with an audio device 3 for regenerating the data, a control part 11 for controlling the communication with the audio device 3 and for controlling the read of the data from the HDD 18, and a power control part 13 for supplying electric power to the HDD 18, the USB connector 19 and the control part 11, and the control part 11 supplies the electric power for the HDD 18, to the power control part 13, in response to a received driving signal, when receiving the driving signal for driving the HDD 18 from the audio device 3 via the USB connector 19, when the electric power is not supplied to the HDD 18. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an information processing device, an information processing system, and a data reproduction device.

  2. Description of the Related Art Conventionally, an information processing system (audio system) that reproduces data in a storage unit (HDD (Hard Disc Drive)) of an information processing apparatus (PC (Personal Computer)) with a data reproduction apparatus (audio apparatus) is known.

A conventional audio system 100 will be described with reference to FIG. The audio system 100 includes a PC 101, an audio device 102, and a USB (Universal Serial Bus) cable 103.
Hereinafter, a data reproduction operation executed in the audio system 100 will be described. First, the PC 101 reads data from the HDD. Then, the read data is transmitted to the audio device 102 via the USB cable 103. The audio device 102 receives data and reproduces the received data.

Next, a conventional audio system 200 will be described with reference to FIG. The audio system 200 includes a PC 201, a USB HDD 202, an audio device 203, and a USB cable 204.
Hereinafter, a data reproduction operation executed in the audio system 200 will be described. First, the user connects the PC 201 and the USB HDD 202 with the USB cable 204. After the USB cable 204 is connected, the PC 201 reads data in the HDD. Then, the PC 201 transmits the read data to the USB HDD 202 via the USB cable 204. The USB HDD 202 receives data and stores the received data in the HDD. After storing the data, the user connects the USB HDD 202 and the audio device 204 with a USB cable. The USB HDD 202 reads data stored in the HDD and transmits the read data to the audio device 203 via the USB cable 204. After receiving the data, the audio device 203 reproduces the received data.

In addition, a technique is known that can transfer data to a transfer destination without starting up the entire PC device (see, for example, Patent Document 1). In this technique, the power source of the hard disk device (storage unit) in the PC is turned on by inserting the main body of the PC whose power is turned off into the frame of the relay unit. Thereby, reading and writing of data in the storage unit can be performed.
JP 2004-133542 A

  However, the conventional audio system 100 needs to start up the entire apparatus of the PC 101 when reproducing the HDD data of the PC 101 by the audio apparatus 102. For this reason, it takes time and effort to drive the HDD (storage unit) of the PC 101 and reproduce the data by the audio device 102. Similarly, in the audio system 200, it takes time and effort to reproduce the data in the HDD of the PC 201 by the audio device 203. That is, the audio system 200 needs to be connected with the USB cable 204 when the PC 201 and the USB HDD 202 are connected for communication. Further, when the USB HDD 202 used as the storage unit of the PC 201 and the audio device 203 are connected for communication, it is necessary to connect to the audio device via the PC 201 or connect the USB cable 204 by connecting it. For this reason, it takes time and effort to drive the HDD (storage unit) of the PC 201 and reproduce the data by the audio device 203.

  Further, in the technique of the above-mentioned patent document, the PC must be inserted into the relay unit in order to read and write data in the storage unit other than during normal operation of the PC. Here, “except during normal operation of the PC” refers to a time when the power of the PC is OFF and no power is supplied to the storage unit. That is, in the technique of the patent document, power is not supplied to the storage unit unless the PC is inserted into the relay unit. For this reason, when power is supplied to the storage unit other than during the normal operation of the PC (information processing apparatus), the user takes time and effort for the work. That is, the data stored in the information processing apparatus cannot be read unless the information processing apparatus is completely activated.

  An object of the present invention is to read data stored in an information processing apparatus with a data reproducing apparatus without completely starting the information processing apparatus.

In order to solve the above problem, an information processing apparatus according to claim 1 is provided:
A storage unit for storing data;
A first communication unit that communicates with a data reproduction device that reproduces the data;
A first control unit for controlling communication with the data reproducing device and controlling reading of data in the storage unit;
A power supply unit that supplies power to the storage unit, the first communication unit, and the first control unit;
The first controller is
When power is not supplied to the storage unit, when receiving a drive signal for driving the storage unit from the data reproduction device via the first communication unit, according to the received drive signal, The power supply unit is configured to supply power to the storage unit.

The invention according to claim 2 is the information processing apparatus according to claim 1,
The first controller is
When it is recognized that the data reproduction device is powered on in a state where the normal control operation of the information processing device is released, the power supply unit causes the power supply unit to continue supplying power to the storage unit. .

The invention according to claim 3 is the information processing apparatus according to claim 1 or 2,
The first controller is
When it is recognized that the data reproduction device has been switched from power ON to power OFF while the normal control operation of the information processing device is released, the power supply unit is cut off from the power supply to the storage unit It is characterized by making it.

The information processing system according to claim 4 comprises:
The information processing apparatus according to any one of claims 1 to 3,
The data reproducing device,
The data reproduction device includes:
A playback unit for playing back the data;
A second communication unit that communicates with the information processing apparatus;
A second control unit that generates a drive signal for driving the storage unit, and transmits the generated drive signal to the information processing apparatus via the second communication unit;
It is characterized by providing.

The data reproducing apparatus of the invention according to claim 5 is:
A communication unit for communicating with an information processing apparatus having a storage unit for storing data;
A playback unit for playing back the data;
A control unit that generates a drive signal for driving the storage unit, and transmits the generated drive signal to the information processing apparatus via the communication unit;
It is characterized by providing.

  According to the present invention, data stored in an information processing apparatus can be read out by a data reproducing apparatus without completely starting the information processing apparatus.

  Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings. However, the scope of the invention is not limited to the illustrated examples.

  FIG. 1 shows a configuration example of the audio system 1. FIG. 2 shows an example of the internal configuration of the PC 2. FIG. 3 shows an internal configuration example of the audio apparatus 3. FIG. 4 shows a state transition diagram of the audio system 1.

First, a configuration example of the audio system 1 will be described with reference to FIG. The audio system 1 is a system in which data stored in the HDD 15 of the PC 2 is reproduced by the audio device 3.
An audio system 1 as an information processing system includes a PC 2 as an information processing device, an audio device 3 as a data reproducing device, and a USB cable 4. In this embodiment, data is described as music data.

An example of the internal configuration of the PC 2 will be described with reference to FIG.
The PC 2 includes a control unit 11 as a first control unit, a power switch unit 12, a power control unit 13 as a power supply unit, an execution unit 14, an HDD 18 as a storage unit, and a first communication unit. And a USB connector 19. In FIG. 2, a solid line indicates a signal line, and a broken line indicates a power line.

  The control unit 11 includes a CPU (Central Processing Unit), a RAM (Random Access Memory), and the like. Here, the CPU includes an MPU (Micro Processing Unit) that is converted into an LSI (Large Scale Integration) by a CMOS (Complementary Metal Oxide Semiconductor) or the like. The CPU expands a program designated from the system program and various application programs stored in the HDD 18 in the RAM, and executes various processes in cooperation with the program expanded in the RAM.

  The control unit 11 controls communication with the audio device 3 and controls reading of music data from the HDD 18. When the control unit 11 receives a drive signal for driving the HDD 18 from the audio device 3 via the USB connector 19 when no power is supplied to the HDD 18, the control unit 11 performs power according to the received drive signal. The control unit 13 is made to supply power to the HDD 19. Here, the drive signal refers to a signal for driving the HDD 18. The control unit 11 is constantly supplied with power from the power control unit 13.

  When the control unit 11 recognizes that the audio apparatus 3 is powered on in the state where the normal control operation of the PC 2 is released, the control unit 11 causes the power control unit 13 to continue supplying power to the HDD 18. The state in which the normal control operation of the PC 2 is released refers to a state when the state in which the PC control unit 15 controls the PC 2 is released. That is, it means a state in which the power supply to the execution unit 14 is interrupted and the PC control unit 15 does not perform the control operation of the PC 2. In addition, the power supply of the audio device 3 means that power is supplied to the main body 3A (described later) of the audio device 3.

  Further, when the control unit 11 recognizes that the audio apparatus 3 has been switched from the power ON state to the power OFF state while the normal control operation of the PC 2 is released, the power control unit 13 cuts off the power supply to the HDD 18. Let The audio device 3 being turned from the power ON to the OFF state means that the power is not supplied from the state where the power is supplied to the main body 3A (described later) of the audio device 3.

The power switch unit 12 switches supply / non-supply of power to the execution unit 14 and the HDD 18. Supply / non-supply of power to the execution unit 14 and the HDD 18 is triggered by the user pressing a power button (not shown) of the PC 1. Here, when the power button is pressed when power is supplied, the power supply is cut off. In addition, when the power button is pressed when power is not supplied, power supply starts.
For example, when the user performs an operation of supplying power via a power button, the power switch unit 12 outputs a power ON signal for supplying power to the execution unit 14 and the HDD 18 to the control unit 11. The power ON signal is an instruction signal for supplying power. On the other hand, when the user performs an operation of not supplying power through the power button, the power switch unit 12 outputs a power OFF signal for not supplying power to the execution unit 14 and the HDD 18 to the control unit 11. The power OFF signal is an instruction signal for not supplying power.

  The power control unit 13 supplies power to the HDD 18, the USB connector unit 19, and the control unit 11. Specifically, the power control unit 13 supplies power to each unit of the PC 2 based on an instruction from the control unit 11. For example, it is assumed that a power ON signal is output from the power switch unit 12 to the control unit 11. In this case, the control unit 11 outputs an instruction to supply power to the execution unit 14 and the HDD 18 to the power control unit 13. When receiving an instruction from the control unit 11, the power control unit 13 supplies power to the execution unit 14 and the HDD 18 based on the instruction. The power control unit 13 always supplies power to the control unit 11, the power switch unit 12, and the USB connector 19.

The execution unit 14 includes a PC control unit 15, a display unit 16, and an operation unit 17. The PC control unit 15 includes a CPU, a RAM, and the like.
The PC control unit 15 controls each unit of the PC 2 when power is supplied to the execution unit 14. For example, it is assumed that a power ON signal is output from the power switch unit 12 to the control unit 11. In this case, the PC control unit 15 receives an instruction from the control unit 11 to control each unit of the PC 2. And each part of PC2 is controlled based on the said instruction | indication.

  The display unit 16 includes an LCD (Liquid Crystal Display), a CRT (Cathode Ray Tube), and the like, and performs screen display according to a display signal from the PC control unit 15.

  The operation unit 17 includes a keyboard having cursor keys, numeric input keys, various function keys, and the like, and outputs a pressing signal pressed by the user using the keyboard to the PC control unit 15.

  The HDD 18 includes a magnetic recording medium, and stores various types of information in the magnetic recording medium in a readable and writable manner according to instructions from the control unit 11 or the PC control unit 15.

  The USB connector 19 is communicatively connected to the USB connector 35 of the audio device 3 via the USB cable 4 to transmit and receive various types of information.

Next, an internal configuration example of the audio apparatus 3 will be described with reference to FIG.
The audio device 3 includes a main body 3A, a power switch 41, and a power controller 42.

  The main unit 3A includes a system microcomputer 31 as a second control unit, a display unit 32, an operation unit 33, a USB connector 34 as a second communication unit, and a CD (Compact Disc) / MD (Mini Disc). A mechanical unit 35, a DSP (Digital Signal Processor) 36, an HDD 37, a DAC (Digital Analog Converter) 38, an amplifier unit 39, and a speaker unit 40 are provided. The DSP 38, the DAC 40, the amplifier unit 41, and the speaker unit 42 function as a playback unit.

  The system microcomputer 31 includes a CPU, a ROM (Read Only Memory), and a RAM (not shown). The system microcomputer 31 generates a drive signal for driving the HDD 18 of the PC 2 and transmits the generated drive signal to the PC 2 via the USB connector 34.

  The display unit 32 is configured by an LCD (Liquid Crystal Display) or the like, and performs a required display operation during playback or recording of a CD or MD based on a display signal input from the system microcomputer 31. For example, the track number being played, the operation state (fast forward, fast reverse, recording, etc.), the recording mode, etc. are displayed.

  The operation unit 33 includes various input keys such as a play key, a stop key, and a search key, and outputs a press signal to the system microcomputer 31.

  The USB connector 34 is communicatively connected to the USB connector 19 of the PC 2 via the USB cable 4 and transmits / receives various information.

  The CD / MD mechanical unit 35 includes a mechanism that guides a specific CD or MD desired by the user to a CD reproducing unit or an MD reproducing unit (both not shown) and sets them in a reproducible state.

  The DSP 36 is a high-speed microprocessor, and selects CD music data, MD music data, or music data input via the USB connector 34 in accordance with an instruction from the system microcomputer 31. Then, the selected music data is compressed / expanded to MP3 (MPEG-1 Audio Layer-3) method, WMA (Windows Media (registered trademark) Audio), error correction encoding, EFM (Eight to Fourteen Modulation) ) Various digital signal processing such as modulation processing is performed.

  The HDD 37 includes a magnetic recording medium, and stores various types of information in the magnetic recording medium in a readable and writable manner according to instructions from the DSP 36.

  The DAC 38 converts a predetermined digital signal processed by the DSP 36 into an analog signal and outputs the analog signal to the amplifier unit 39. The amplifier unit 39 amplifies the analog signal output from the DAC 38. The speaker unit 40 outputs a sound to the outside according to the analog signal output from the amplifier unit 39.

  The power switch unit 41 switches supply / non-supply of power to the main body unit 3A. Supply / non-supply of power to the main unit 3A is triggered by the user pressing a power button (not shown) of the audio device 3. The power button of the audio device 3 has the same function as the power button of the PC 1. For example, when the user performs an operation of supplying power via the power button of the audio device 3, the power switch unit 41 outputs a power ON signal to the power control unit 42 and the system microcomputer 31.

  The power control unit 42 supplies / does not supply power to the main body 3 </ b> A of the audio device 3 based on an instruction from the power switch 41. For example, when a power ON signal is output from the power switch unit 41 to the power control unit 42, the power control unit 42 supplies power to the main body unit 3A.

  Next, the state of the audio system 1 will be described with reference to FIG. The state of the audio system 1 means that the power supplied to each unit of the execution unit 14, the HDD 18, and the main unit 3A in the audio apparatus 3 is in a supply state (ON) or a non-supply state (OFF).

FIG. 4A is a diagram showing whether each of the execution unit 14, the HDD 18, and the main unit 3A in the audio system 1 is ON or OFF. For example, when power is supplied to the execution unit 14 from the power control unit 13, the execution unit 14 = ON.
A state A indicates a state in which the execution unit 14 = OFF, the HDD 18 = OFF, and the main body unit 3A = OFF. A state B indicates a state in which the execution unit 14 = OFF, the HDD 18 = ON, and the main body unit 3A = ON. A state C indicates a state in which the execution unit 14 = ON, the HDD 18 = ON, and the main body unit 3A = OFF. A state D indicates a state in which the execution unit 14 = ON, the HDD 18 = ON, and the main body unit 3A = ON.

  Next, state transition of the audio system 1 will be described with reference to FIG. The state transition of the audio system 1 means that each of the execution unit 14, the HDD 18, and the main unit 3A transitions from ON to OFF, or from OFF to ON. In the following description, a case where the PC 2 and the audio device 3 are connected by the USB cable 4 will be described.

  State transitions 1 to 4 indicate transitions of the execution unit 14 from ON to OFF (ON → OFF) or from OFF to ON (OFF → ON). State transitions 5 to 8 indicate transitions of the main unit 3A from ON to OFF (ON → OFF) or from OFF to ON (OFF → ON).

  State transition 1 shows a transition from state A to state C. That is, the state transition 1 indicates a transition of the execution unit 14: OFF → ON, the HDD 18: OFF → ON, and the main unit 3A: OFF → OFF. For example, it is assumed that an operation for supplying power from the state A through the power button of the PC 1 is performed by the user. In this case, execution unit 14: OFF → ON, HDD 18: OFF → ON, and state transition 1 is executed. In this case, the audio device 3 does not operate because the main body 3A remains OFF. Therefore, the PC 2 functions as a normal PC.

  State transition 2 shows a transition from state B to state D. That is, the state transition 2 indicates the transition of the execution unit 14: OFF → ON, the HDD 18: ON → ON, and the main unit 3A: ON → ON. For example, it is assumed that an operation for supplying power from the state B through the power button of the PC 1 is performed by the user. In this case, the execution unit 14 is switched from OFF to ON, and the state transition 2 is executed. Here, the state B indicates a state in which the HDD 18 is used as an external storage device of the audio device 3. Therefore, the state transition 2 indicates a transition in which the execution unit 14 is turned from OFF to ON from the state where the HDD 18 is used as the external storage device of the audio device 3.

  State transition 3 indicates a transition from state C to state A. That is, the state transition 3 indicates a transition of the execution unit 14: ON → OFF, the HDD 18: ON → OFF, and the main unit 3A: OFF → OFF. For example, it is assumed that from state C, the user has performed an operation of not supplying power via the power button of the PC 1 or the like. In this case, execution unit 14: ON → OFF, HDD 18: ON → OFF, and state transition 3 is executed. Here, the state C indicates a state in which the PC 2 functions as a normal PC. Therefore, the state transition 3 indicates a transition in which the execution unit 14 and the HDD 18 are turned on from the state where the PC 2 functions as a normal PC.

  State transition 4 indicates a transition from state D to state B. That is, the state transition 4 indicates the transition of the execution unit 14: ON → OFF, the HDD 18: ON → ON, and the main unit 3A: ON → ON.

  The state transition 4 will be specifically described. For example, it is assumed that from state D, the user has performed an operation of not supplying power via the power button of the PC 1 or the like. In this case, normally, the execution unit 14 and the HDD 18 are turned off as in the state transition 3. However, when the PC 2 and the audio device 3 are connected and the main body 3A of the audio device 3 is ON, the control unit 19 recognizes that the main body 3A is ON. In this case, as shown in state transition 4, only the execution unit 14 is turned off.

  State transition 5 shows a transition from state A to state B. That is, the state transition 5 indicates the transition of the execution unit 14: OFF → OFF, the HDD 18: OFF → ON, and the main unit 3A: OFF → ON.

  The state transition 5 will be specifically described. For example, it is assumed that an operation for supplying power from the state A via the power button of the audio device 3 is performed by the user. In this case, the power switch unit 43 transmits a power ON signal to the system microcomputer 31. At this time, the system microcomputer 31 transmits a drive signal to the PC 2 via the USB connector 34 using the power ON signal as a trigger. The control unit 11 receives the drive signal via the USB connector 19. Then, the control unit 11 transmits an instruction to turn on the HDD 18 to the power control unit 13. The power control unit 13 supplies power to the HDD 18 based on an instruction from the control unit 11.

  After the transition of the state transition 4 and the state transition 5 is executed (that is, the state B), the execution unit 14 is OFF, the HDD 18 is ON, and the main body unit 3A is ON. In this case, even when the execution unit 14 is OFF, the music data stored in the specific area of the magnetic storage medium in the HDD 18 can be reproduced by the audio device 3. The specific area refers to a partial area of the magnetic storage medium of the HDD 18. The specific area may be a folder unit.

  In state B, the execution unit 14 is turned off. Therefore, the PC control unit 15 does not operate. In this case, the control unit 11 controls each unit of the PC 2 (that is, the power switch unit 12, the power control unit 13, the HDD 18, and the USB connector 19).

  Here, the case where the audio device 3 reproduces the music data stored in the specific area of the magnetic storage medium of the HDD 18 in the state B will be described. First, the system microcomputer 31 transmits an instruction signal for reproducing the music data stored in the specific area in the magnetic storage medium of the HDD 18 to the PC 2 via the USB connector 34. When the control unit 11 receives the instruction signal via the USB connector 19, the control unit 11 reads out music data stored in a specific area in the magnetic storage medium of the HDD 18. Then, the read music data is transmitted to the audio apparatus 3 via the USB connector 19. The system microcomputer 31 receives the music data via the USB connector 34. And the music of the said music data is output from the speaker part 42. FIG.

  State transition 6 indicates a transition from state B to state A. That is, the state transition 6 indicates a transition of the execution unit 14: OFF → OFF, the HDD 18: ON → OFF, and the main unit 3A: ON → OFF. For example, it is assumed that from state A, the user has performed an operation of supplying no power via the power button of the audio device 3. In this case, the main unit 3A is switched from ON to OFF, and the state transition 6 is executed. Here, when the PC 2 and the audio device 3 are being connected, the control unit 19 recognizes that the main unit 3A is turned off. Then, the control unit 19 turns off the HDD 18.

  State transition 7 indicates a transition from state C to state D. That is, the state transition 7 indicates a transition of the execution unit 14: ON → ON, the HDD 18: ON → ON, and the main unit 3A: OFF → ON. For example, it is assumed that an operation of supplying power from the state C via the power button of the audio device 3 is performed by the user. In this case, the main body 3A: OFF → ON, and the state transition 7 is executed. Here, the state D indicates the state of the execution unit 14: ON, the HDD 18: ON, and the main unit 3A: ON. In the state D, as in the state B, the music data stored in the specific area in the magnetic storage medium in the HDD 18 can be reproduced from the audio device 3. The operation in this case is as follows.

  First, the system microcomputer 31 transmits an instruction signal for reproducing the music data stored in the specific area in the magnetic storage medium of the HDD 18 to the PC 2 via the USB connector 34. When the PC control unit 15 receives the instruction signal via the USB connector 19, the PC control unit 15 reads music data stored in a specific area in the magnetic storage medium of the HDD 18. Then, the read music data is transmitted to the audio apparatus 3 via the USB connector 19. The system microcomputer 31 receives the music data via the USB connector 34. And the music of the said music data is output from the speaker part 42. FIG.

  State transition 8 shows a transition from state D to state C. That is, the state transition 8 indicates a transition of the execution unit 14: ON → ON, the HDD 18: ON → ON, and the main unit 3A: ON → OFF. For example, it is assumed that from state D, the user has performed an operation of not supplying power via the power button of the audio device 3. In this case, the main unit 3A is switched from ON to OFF, and the state transition 8 is executed. In the state transition 8, the PC 2 functions as a normal PC.

  As described above, according to the present embodiment, when power is not supplied to the HDD 18, the control unit 11 receives a drive signal for driving the HDD 18 from the audio device 3, and then performs power according to the received drive signal. The control unit 13 can supply power to the HDD 18. Thus, the music data stored in the HDD 18 of the PC 2 can be read out by the audio device 3 without completely starting up the PC 2. That is, the work load on the user can be reduced, and the data in the HDD 18 of the PC 2 can be read. Further, when the HDD 18 is driven, it is not necessary to supply power to the execution unit 14, so that power consumption can be reduced.

  Further, when the control unit 11 recognizes that the audio apparatus 3 is powered on in the state where the normal control operation of the PC 2 is released, the control unit 11 can continue the supply of power to the HDD 18 in the power control unit 13. As a result, the data in the HDD 18 can be read even when the normal control operation of the PC 2 is released.

  Further, when the control unit 11 recognizes that the audio device 3 is switched from the power ON to the OFF state while the normal control operation of the PC 2 is released, the control unit 11 causes the power control unit 13 to cut off the supply of power to the HDD 18. be able to. As a result, the power supply to the HDD 18 can be cut off, so that the power consumption of the PC 2 can be reduced. In addition, when the supply of power to the HDD 18 is interrupted, the user's work burden can be reduced.

  Further, the system microcomputer 31 can generate a drive signal and transmit the generated drive signal to the PC 2 via the USB connector 34. Thus, the music data stored in the HDD 18 of the PC 2 can be read out by the audio device 3 without completely starting up the PC 2.

  Even if the execution unit 14 is OFF, the HDD 18 can be driven simply by turning on the main unit 3A of the audio apparatus 3. Thereby, since it is not necessary to turn ON the execution part 14, time is not required for starting of the execution part 14. FIG.

  Further, the HDD 18 of the PC 2 can be used as an external storage device of the audio device 3. This eliminates the need to purchase a new HDD.

  Moreover, since it is not necessary to mount the built-in HDD in the audio device 3, the product cost can be reduced.

<Modification>
A modification of the embodiment according to the present invention will be described with reference to FIG. In this modification, the PC 2 in the audio system 1 is replaced with a PC 2A. FIG. 5 shows an internal configuration example of the PC 2A according to the present invention. Hereinafter, the same parts as those of the PC 2 in the audio system 1 are denoted by the same reference numerals, and the detailed description thereof will be used to describe the different parts.

  The control unit 11A controls transmission / reception of information to / from the audio device 3 and controls reading of music data from the HDD 18. When the control unit 11A receives a drive signal for driving the HDD 18 from the audio device 3 via the USB connector 19 when no power is supplied to the HDD 18, the control unit 11A The controller 13A is made to supply power to the HDD 19.

  The power switch unit 12A turns on / off the supply (supply) of power to the execution unit 14A and the HDD 18.

  The power control unit 13A supplies power to the HDD 18, the USB connector unit 19, and the control unit 11A. The main body unit 14 </ b> A includes a display unit 16 and an operation unit 17.

  The state transition in the audio system 1 using the PC 2A is the same as that in the above embodiment.

  As described above, according to the present modification, when the power is not supplied to the HDD 18, the control unit 11 </ b> A receives a drive signal for driving the HDD 18 from the audio device 3, and performs power control according to the received drive signal. The unit 13A can supply power to the HDD 18. Thereby, the music data stored in the HDD 18 of the PC 2A can be read out by the audio device 3 without completely starting the PC 2A. That is, the work load on the user can be reduced, and the data in the HDD 18 of the PC 2 can be read.

  Note that the descriptions in the above-described embodiment and modifications of the embodiment are examples of the audio system 1 according to the present invention, and the present invention is not limited to this.

  For example, in the above embodiment and the modification of the embodiment, the communication between the PC 2 and the audio device 3 is configured to use a USB cable, but may be a wireless USB, a LAN (Local Area Network), or the like.

  Further, USB On-The-Go may be used as a communication standard between the PC 2 and the audio device 3.

  The drive signal transmitted from the system microcomputer 31 to the PC 2 may be transmitted as a trigger when the DSP 36 selects music data input via the USB connector 34.

  The audio device 3 may be a portable music player, for example.

  In addition, it is assumed that the control unit 11 and the USB connector 19 are always supplied with power. For example, the main unit 3A is changed from the state A (execution unit 14: OFF, HDD 18: OFF, main unit 3A: OFF). When turned on, power may be supplied from the audio device 3 to the HDD 18, the control unit 11, and the USB connector 19 via the USB cable 4.

  The state transition in the embodiment is configured such that the PC 2 and the audio device 3 are connected by the USB cable 4. For example, when the USB cable 4 is disconnected, the main body 3A of the audio device 3: It may be changed from ON to OFF.

  The data is music data, but the present invention is not limited to this. For example, image data such as still images and moving images (for example, movies, comics, TV dramas, etc.) may be used as other types of data.

  In addition, the detailed configuration and detailed operation of the audio system 1 in the above embodiment can be changed as appropriate without departing from the spirit of the present invention.

1 is a configuration example of an audio system 1 according to the present invention. It is an internal structural example of PC2. 3 is an example of an internal configuration of an audio device 3. 2 is a state transition diagram of the audio system 1. FIG. It is an example of an internal configuration of PC2A. 1 is a schematic configuration diagram of conventional audio systems 100 and 200. FIG.

Explanation of symbols

1,100,200 Audio system 2,2A PC
3 Audio device 4 USB cable 11, 11A Control unit 12, 12A, 41 Power switch unit 13, 13A, 42 Power control unit 14, 14A Execution unit 15 PC control unit 16, 32 Display unit 17, 33 Operation unit 18, 37 HDD
19, 34 USB connector 31 System microcomputer 35 CD / MD mechanical part 36 DSP
38 DAC
39 Amplifier 40 Speaker 3A Body

Claims (5)

A storage unit for storing data;
A first communication unit that communicates with a data reproduction device that reproduces the data;
A first control unit for controlling communication with the data reproducing device and controlling reading of data in the storage unit;
A power supply unit that supplies power to the storage unit, the first communication unit, and the first control unit;
The first controller is
When power is not supplied to the storage unit, when receiving a drive signal for driving the storage unit from the data reproduction device via the first communication unit, according to the received drive signal, An information processing apparatus that causes the power supply unit to supply power to the storage unit. The first controller is
When it is recognized that the data reproduction device is powered on in a state where the normal control operation of the information processing device is released, the power supply unit causes the power supply unit to continue supplying power to the storage unit. The information processing apparatus according to claim 1. The first controller is
When it is recognized that the data reproduction device has been switched from power ON to power OFF while the normal control operation of the information processing device is released, the power supply unit is cut off from the power supply to the storage unit The information processing apparatus according to claim 1, wherein: The information processing apparatus according to any one of claims 1 to 3,
The data reproducing device,
The data reproduction device includes:
A playback unit for playing back the data;
A second communication unit that communicates with the information processing apparatus;
A second control unit that generates a drive signal for driving the storage unit, and transmits the generated drive signal to the information processing apparatus via the second communication unit;
An information processing system comprising: A communication unit for communicating with an information processing apparatus having a storage unit for storing data;
A playback unit for playing back the data;
A control unit that generates a drive signal for driving the storage unit, and transmits the generated drive signal to the information processing apparatus via the communication unit;
A data reproducing apparatus comprising:

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