JP4287726B2 - Data reproduction system and control device - Google Patents

Description

  The present invention relates to a data reproduction system and a control device.

  A plurality of disc changers can be connected to one control device, and data recorded on a large number of discs (for example, CD (Compact Disc), DVD (Digital Versatile Disc), etc.) can be enjoyed. Data reproduction systems have been developed (see, for example, Patent Documents 1 and 2). Each disk changer device includes a disk storage unit that stores a large number of disks and a disk playback device, and plays back the specified disk in response to a playback instruction from the control device.

  In addition, the control device also includes disc information (content data such as audio data) as well as disc-related data such as TOC (Table Of Contents) information, disc code (disc manufacturer, catalog) for each disc accommodated in each disc changer device. Information such as numbers, text data such as disc titles, track titles, etc.) is acquired and compressed, and recorded as a file in the HDD of the own device, and music is provided without using a disc changer device. Etc. You can enjoy it.

As the usage environment of the data reproduction system, the control device and each disc changer device are installed in a living room and used for enjoying music and movies in the living room, and controlled by a slave unit installed in each room. Connected to the device, each slave unit can access the control device and instruct the reproduction of the file stored in the disk stored in each disk changer device or the HDD of the control device.
JP-A-9-274579 JP-A-8-7546

  By the way, when a plurality of slave units are connected to the control device, there is a possibility that a reproduction instruction may be issued from the plurality of slave units to the HDD (Hard Disk Drive) of the control device. The HDD of the control device can simultaneously reproduce a plurality of files or data at different positions in the same file by using a high-speed reproduction processing function, but usually has only one decoder. The decoded playback data cannot be transmitted to the slave unit. If each slave unit is provided with a decoder, it is possible to handle playback instructions from a plurality of slave units, but the system becomes expensive.

  In addition, in the case of reproducing data stored in the disk by the disk changer device in accordance with a reproduction instruction from the slave unit, the data is decoded on the disk changer side and transmitted to the slave unit via the control unit. Then, since the sound quality deteriorates in the meantime, it is desirable to use the decoder of the control device. However, when the decoding process is performed by the control device, there arises a problem that the reproduction signals from the plurality of disk changers cannot be processed, that is, the reproduction instructions from the plurality of slave units cannot be handled. If each slave unit is provided with a decoder, it is possible to handle playback instructions from a plurality of slave units, but the system becomes expensive.

  Further, during the decoding process of the reproduction signal read from the HDD in the control device, the reproduction of the disk stored in the disk changer is instructed, or the reproduction signal read from the disk changer device is being decoded by the control device. There is a problem that even when an instruction to reproduce data recorded on the HDD is given, it is not possible to cope with it.

  An object of the present invention is to make it possible to respond to reproduction requests of a plurality of slave units not equipped with a decoder by effectively using decoders of a plurality of disc changer apparatuses.

In order to solve the above-mentioned problem, the invention described in claim 1
And multiple player want to play the recording medium;
A control device including a recording medium that is communicably connected to the playback device, controls the playback device, and stores data related to the recording medium read by the playback device ;
The control device and are communicably connected, and a double herring roe machine that instructs reproduction of data recorded on the recording medium in the control device,
A data reproduction system comprising:
The playback device
Decoding processing means for decoding the reproduction signal received from the control device;
Decoded playback signal output means for outputting the decoded playback signal decoded by the decoding processing means to the control device;
With
The controller is
Reproduction means for reproducing the corresponding data recorded on the recording medium in the control device based on the reproduction instruction signal from the control device or the plurality of slave units;
Discriminating means for discriminating the reproducing apparatus in which the decoding processing means is not operating from the plurality of reproducing apparatuses ;
A reproduction signal transmitting means for transmitting a reproduced signal reproduced by said reproducing means to said decoding means is not in operation and the determined said reproducing apparatus by said discrimination means,
It is characterized by having.

The invention described in claim 2
And multiple player want to play the recording medium,
A control device including a recording medium that is communicably connected to the playback device, controls the playback device, and stores data related to the recording medium read by the playback device ;
The control device and are communicably connected, and a double herring roe machine that instructs reproduction of data recorded on the recording medium in the control device,
A data reproduction system comprising:
The playback device
Decoding processing means for decoding the reproduction signal received from the control device;
Decoded playback signal output means for outputting the decoded playback signal decoded by the decoding processing means to the control device;
With
The controller is
Reproduction means for reproducing the corresponding data recorded on the recording medium in the control device based on the reproduction instruction signal from the control device or the plurality of slave units;
Decoding processing means for decoding the reproduced signal reproduced by the reproducing means;
First determination means for determining whether or not the decoding processing means in the control device is operating;
Second discriminating means for discriminating the reproducing device in which the decoding processing means is not operating from the plurality of reproducing devices ;
When the first determination means determines that the decoding processing means is in operation, the reproduction signal is transmitted to the reproduction apparatus having the decoding processing means determined not to be in operation by the second determination means. Reproduction signal transmitting means for
It is characterized by having.

The invention according to claim 3
And multiple player want to play the recording medium,
A control device including a recording medium that is communicably connected to the playback device, controls the playback device, and stores data related to the recording medium read by the playback device ;
The control device and are communicatively connected, and a double herring roe machine that instructs reproduction of data recorded on the recording medium of the reproducing apparatus is accommodated recording medium or in the control device,
A data reproduction system comprising:
The playback device plays back a recording medium instructed by the control device;
Reproduction signal output means for outputting the reproduction signal read by the reproduction control means to the control device;
Decoding processing means for decoding the reproduction signal read by the reproduction control means;
Decoded playback signal output means for outputting the decoded playback signal decoded by the decoding processing means to the control device;
With
The controller is
A reproduction instruction signal output means for outputting a reproduction instruction signal of a corresponding recording medium to a reproduction apparatus corresponding to the reproduction instruction based on a reproduction instruction signal from the control device or the plurality of slave units;
Decoding processing means for decoding the playback signal received from the playback device;
Discriminating means for discriminating whether or not the decoding processing means in the control device is operating;
When the determination means determines that the decoding processing means is in operation, the decoded instruction that instructs the reproduction apparatus to which the reproduction instruction signal is output to decode the reproduction signal and transmit it Reproduction signal transmission instruction means;
It is characterized by having.

The invention according to claim 4
A recording medium on which data to be reproduced is recorded, and a reproducing means for reproducing the corresponding data of the recording medium based on a reproduction instruction signal input from a plurality of slave units , via a communication means in controller connected to multiple reproduction apparatus,
Among the multiple reproduction apparatus provided with a decoding means for decoding the reproduction signal received from the control device, determining means for determining the reproducing device the decoding means is not in operation,
A reproduction signal transmitting means for transmitting the reproduced signal to said decoding means said reproducing apparatus is determined as not being operated by said discriminating means,
It is characterized by having.

The invention described in claim 5
A recording medium on which data to be reproduced is recorded, and a reproducing means for reproducing the corresponding data of the recording medium based on a reproduction instruction signal input from a plurality of slave units , via a communication means in controller connected to multiple reproduction apparatus,
First decoding processing means for decoding the reproduction signal read by the reproduction means;
First determination means for determining whether or not the first decoding processing means is operating;
Among previous Kifuku number of reproducing apparatus, provided in each of the reproducing apparatus, and a second discriminating means for discriminating a reproducing apparatus second decoding means for decoding the reproduced signal is not in operation,
When said first decoding means is determined to be in operation by the first discriminating means, wherein said by the second discriminating means second decoding means is determined not in operation the playback Reproduction signal transmitting means for transmitting the reproduction signal to a device;
It is characterized by having.

The invention described in claim 6
Via the communication means, the controller connected to multiple playback devices you reproducing a recording medium,
Reproduction instruction signal output means for outputting a reproduction instruction signal of the corresponding recording medium to the corresponding reproduction device based on reproduction instruction signals input from a plurality of slave units ;
Decoding processing means for decoding the playback signal received from the playback device;
Discriminating means for discriminating whether or not the decoding processing means is operating;
When the determining means determines that the decoding processing means is operating, it instructs the playback device that is the output destination of the playback instruction signal to decode and transmit the playback signal of the recording medium Decoded decoded signal transmission instruction means for performing,
It is characterized by having.

  According to the present invention, by effectively using the decoders of a plurality of disc changer apparatuses, it is possible to respond to playback requests of a plurality of slave units not equipped with a decoder.

<First Embodiment>
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings.
First, the configuration of the data reproduction system 1 will be described with reference to FIG. The data reproduction system 1 includes a disk changer device (hereinafter referred to as a changer) 10-1, 10-2, 10-3, a control device 20, and slave units 30-1, 30-2. Note that the number of disk changers and slave units is not particularly limited.

  The changers 10-1, 10-2, 10-3, and the control device 20 are installed in a main room such as a living room in a user's home, for example, and the control signal performs data transmission based on the connection line 2 (for example, IEEE 1394). .) Are connected in series. Audio and video signals can also be transmitted / received via the connection line 2, but an AV signal transmission line (RCA code or the like) may be used separately.

  Changer codes for uniquely identifying each changer are set in the changers 10-1, 10-2, and 10-3. The changers 10-1, 10-2, and 10-3 refer to data indicating changer codes included in the control data to determine whether or not the various control data transmitted from the control device 20 is for the own device. Judgment. FIG. 2 shows an example of the data structure of control data transmitted from the control device 20 to the changers 10-1 to 10-3. As shown in FIG. 2, the control data transmitted from the control device 20 includes, for example, header information, a changer code indicating which changer the data is for, and a control code indicating a control command (for example, an instruction for decoding transmission data, etc. ).

  The control device 20 controls each unit in the control device 20 and the changers 10-1, 10-2, and 10-3 according to various instructions transmitted from the slave units 30-1, 30-2, and the like.

  The subunit | mobile_unit 30-1 and 30-2 are each installed in subrooms, such as a child's room and a bedroom, respectively, for example, respectively, and connection line 3 (for example, home telephone lines (Home PNA (Home Phoneline Networking Alliance) etc.) etc., respectively. ) Are connected to the control device 20. The slave units 30-1 and 30-2 are stored in files and changers 10-1, 10-2, and 10-3 recorded in the HDD 204 of the control device 20. An instruction to reproduce the content data of the disc can be transmitted to the control device 20.

  Next, each of the changers 10-1, 10-2, 10-3, the control device 20, and the slave units 30-1, 30-2 will be described in detail individually.

First, the changer 10-1 will be described in detail with reference to FIGS.
Since the changers 10-2 and 10-3 have the same configuration as the changer 10-1, the illustration and detailed description thereof will be omitted below for the sake of brevity.

  Here, it is assumed that the changer 10-1 can store, for example, 400 discs (CD and the like), but the number of discs that can be stored is not limited to 400. Each disc stored in the changer 10-1 includes content data such as audio data, disc related data such as TOC information, disc code (disc manufacturer, catalog number, etc.), disc title, and track. Text data such as a title is recorded.

  The changer 10-1 is a playback device, and relates to the content data of the disc stored in the rotary tray 101, for example, when a disc is stored in the rotary tray 101 or when the control device 20 is reset. The disc related data is read in advance and the reproduction signal is transmitted to the control device 20. Further, the changer 10-1 reads the content data of the disc designated from the control device 20 and transmits the reproduction signal to the control device 20.

FIG. 3 shows a schematic configuration of the disk storage portion of the changer 10-1.
As shown in FIG. 3, in the disk storage section, a rotary tray 101, a rotary tray control motor 102, a disk arm 103, a sensor support plate 104, a first sensor 104a to a disk presence / absence detection sensor 104d, and the like are installed on the substrate 105. ing. Signal lines indicated by reference signs A1 to A6 in the drawing are connected to the microcomputer 106 and its peripheral circuits shown in FIG.

  The rotary tray 101 has 400 slots extending in the radial direction from the center thereof, and holds and stores the disk by standing the disk on these slots, and is installed at a substantially central portion of the substrate 105. Is done. The rotary tray 101 is rotated by power supplied from the rotary tray control motor 102.

  The rotary tray control motor 102 drives the rotary tray 101 in accordance with a control signal output from the rotary tray control motor driver 110 via a signal line indicated by reference numeral A6 in the figure, and performs an accurate rotation operation on the rotary tray 101. Make it.

  The disk arm 103 operates in accordance with a control signal output from the disk arm control motor driver 111 via a signal line indicated by reference numeral A5 in the drawing. That is, in response to the control signal, one disk in the slot at the disk transport position facing the disk arm 103 is pulled out, this disk is set in a reproduction processing unit (not shown), and after the reproduction, it is returned to the original slot again. Store.

  Next, the first sensor 104a to the third sensor 104c and the disk presence / absence detection sensor 104d will be described.

  The first sensor 104 a and the second sensor 104 b are on the substrate 105 and are installed below the rotary tray 101. These detect individual slots (disk storage locations) and detect the rotation direction of the rotary tray 101.

  The first sensor 104a and the second sensor 104b are respectively located on two different moving radii (not shown) extending radially from the rotation center axis of the rotary tray 101, and further, the distance from the rotation center of the rotary tray 101 is set respectively. Installed differently. Further, the installation positions of the first sensor 104a and the second sensor 104b are such that the signal PH1 output from the first sensor 104a and the signal PH2 output from the second sensor 104b are mutually connected by the rotation operation of the rotary tray 101. It is set to a position where it occurs with a quarter cycle shift (see FIG. 4).

  The first sensor 104a outputs a signal PH1 generated by the rotation operation of the rotary tray 101 to the microcomputer 106 via the signal line indicated by reference numeral A1 in the figure, and the second sensor 104b also outputs via the signal line indicated by reference numeral A2 in the figure. Then, the signal PH2 generated by the rotation operation of the rotary tray 101 is output to the microcomputer 106.

The third sensor 104c is installed on the substrate 105 and outputs a signal PH3 used when specifying the position of the rotary tray 101. The third sensor 104c generates a signal PH3 by the rotation operation of the rotary tray 101, and outputs the signal PH3 to the microcomputer 106 via a signal line indicated by reference numeral A3 in the drawing.
The rotary tray 101 is provided with a plurality of sections in the circumferential direction where the signal PH3 is “Low”, and the number of slots formed in each section is different from each other (for example, as shown in FIG. 4A). The “Low” section of the signal PH3 shown corresponds to the section of three slots.)

  The disk presence / absence detection sensor 104d is installed on the sensor support plate 104 installed on the top of the rotary tray 101, and detects the presence / absence of a disk in the slot. The disk presence / absence detection sensor 104d outputs a detection signal indicating the presence / absence of a disk in the slot to the microcomputer 106 via a signal line indicated by reference numeral A4 in the drawing.

  Here, referring to FIGS. 4A and 4B, the position and rotation direction of the rotary tray 101 are specified, and the presence or absence of a disk on the slot of the rotary tray 101 is specified (both are performed by the microcomputer 106). Will be described in detail.

4A is a timing chart of the signals PH1 to PH3 output from the first sensor 104a to the third sensor 104c, and FIG. 4B is a signal PH1 output from the first sensor 104a and the second sensor 104b. , PH2 and a disk presence / absence detection signal output by the disk presence / absence detection sensor 104d.
Reference numerals C1 to C5 in the figure indicate count timings when the microcomputer 106 counts slots one by one. This count timing occurs only when the signals PH1 and PH2 are both “Low”, and in other cases, the count timing does not occur.
Note that the count timings indicated by reference numerals C1 to C5 in the drawing exemplify a part of a plurality of count timings that occur during actual operation.

Identifying the position of the rotary tray 101:
By counting the number of count timings (the number of slots) included in the “Low” section of the signal PH3, the position of the rotary tray 101 can be specified.

Specifying the rotation direction of the rotary tray 101:
Further, the phases of the signals PH1 and PH2 are shifted from each other by a quarter cycle. If the rotation direction of the rotary tray 101 is reversed, this phase is also reversed and the signals PH1 and PH2 in FIG. . That is, the rotation direction of the rotary tray 101 can be specified from the phases of the signals PH1 and PH2.

  For example, if the signal PH1 is switched to “High” after both the signals PH1 and PH2 are counted “Low”, the rotation direction of the rotary tray 101 is specified to be clockwise, and the signal PH2 is switched to “High”. The rotation direction of the rotary tray 101 is specified as the left rotation.

Identifying the presence of a disk:
As shown in FIG. 4B, the disk presence / absence detection sensor 104d outputs a “High” signal as a standard value. When the count timing is generated by the rotation operation of the rotary tray 101, if a disk is stored in the slot corresponding to the count timing, the disk presence / absence detection sensor 104d continuously outputs the standard value, and the microcomputer 106 Stores this data in RAM.

  On the other hand, when the count timing is generated by the rotation operation of the rotary tray 101, if no disk is stored in the slot corresponding to the count timing, the disk presence / absence detection sensor 104d outputs one pulse of the “Low” signal, The microcomputer 106 stores this data in the RAM.

  Next, the configuration of the control system of the changer 10-1 will be described in detail with reference to FIG.

  As shown in FIG. 5, the changer 10-1 includes a microcomputer 106, an input unit 107, a display unit 108, an exchange port opening / closing control motor driver 109, a rotary tray control motor driver 110, a disk arm control motor driver 111, a DSP 112, and a pickup. The unit 113 includes a load / unload SW 114, an exchange port opening / closing control motor 115, an I / F 116, a decoder 117, and the like.

  The microcomputer 106 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory) (not shown), and comprehensively controls the changer 10-1. The ROM stores a main control program for controlling the changer 10-1 and various application programs related to the program. The RAM temporarily stores execution files of the various programs and various data generated during the execution. Stored.

  The microcomputer 106 receives the output signals of the first sensor 104a to the disk presence / absence detection sensor 104d via signal lines indicated by reference signs A1 to A4 in the drawing, and controls the operation of the rotary tray 101 based on the received signal. For this purpose, various position data are calculated and stored in the RAM.

  In response to various operation signals input via the input unit 107, the microcomputer 106 opens and closes the exchange port 100, rotates the rotary tray 101, operates the disk arm 103, or a reproduction processing unit in which a disk is set. Controls reproduction processing and the like performed by (not shown).

  As described above, the microcomputer 106 determines the slot specification, the rotation direction of the rotary tray 101, the presence / absence of a disk, and the like based on the output signals of the first sensor 104a to the disk presence / absence detection sensor 104d.

  The microcomputer 106 controls the changer 10-1 according to various instructions transmitted from the control device 20 via the connection line 2. For example, the microcomputer 106 decodes the data received via the I / F 116 by the decoder 117 in response to an instruction from the control device 20, and transmits the decoded data to the control device 20.

  The input unit 107 includes various operation keys and operation dials (not shown) related to the operation of the changer 10. When these operation keys and operation dial are operated, the operation signal is transmitted to the microcomputer 106.

  The display unit 108 is configured by an LCD (Liquid Crystal Display) or the like, and displays various display data output from the microcomputer 106. For example, the track number of the disc being played, the TOC data of the disc being played, various operation modes of the changer 10 (during rotational movement, disc search, etc.), the open / close state of the exchange port 100, and the like are displayed.

  The exchange port opening / closing control motor driver 109 drives an exchange port opening / closing control motor 115 for opening / closing the exchange port 100 based on a control signal output from the microcomputer 106.

  The rotary tray control motor driver 110 drives a rotary tray control motor 102 for rotating the rotary tray 101 based on a control signal output from the microcomputer 106.

  The disk arm control motor driver 111 drives a disk arm control motor (not shown) for operating the disk arm 103 based on a control signal output from the microcomputer 106.

  A DSP (Digital Signal Processor) 112 converts the content data output from the pickup unit 113 into a data format that can be processed by the microcomputer 106 and transmits the data to the microcomputer 106.

  The pickup unit 113 rotates the disc set in the reproduction processing unit (not shown), and reads disc-related data, content data, etc. recorded in advance on the set disc.

  The load / unload SW 114 reads disk-related data from the disk when a disk is newly set in the reproduction processing unit (not shown), or returns the disk from the reproduction processing unit to the disk storage unit. Then, a signal indicating whether to clear the disk-related data or the like that has already been read and transmitted to the control device 20 is transmitted to the control device 20.

  The I / F 116 includes an interface (for example, a serial interface such as IEEE1394) for transmitting and receiving data to and from the control device 20 and the changers 10-2 and 10-3 via the connection line 2.

  The decoder 117 performs decoding processing (decoding processing) on the data based on the control signal output from the microcomputer 106.

Next, the control device 20 will be described with reference to FIG.
The control device 20 includes a microcomputer 201, an I / F 202, a communication unit 203, an HDD 204, an encoder / decoder 205, an output unit 206, a display unit 207, an input unit 208, and the like.

  The microcomputer 201 includes a CPU, ROM, and RAM (not shown) and controls the control device 20 in an integrated manner. The ROM stores a main control program for controlling the control device 20 and various application programs such as a file reproduction processing program related to the program. The RAM stores execution files of these various programs and their execution. Various data generated at the time are temporarily stored.

  The microcomputer 201 compresses and encodes the content data and disc related data of each disc read by the changers 10-1, 10-2, and 10-3, and records this compressed file in the HDD 204. Further, the microcomputer 201 creates list data of the disks currently stored in the changers 10-1, 10-2, and 10-3 based on the disk-related data and stores them in the HDD 204.

  The microcomputer 201 displays a list of the contents of the list data on the display unit 207 in accordance with the input instruction. Further, the microcomputer 201 has a function of sorting the list display by using the detailed contents of the disk-related data (for example, the changer code of the changer in which the disk is stored, the disk name or the initial of the song name, etc.) as keys. Have. Also, a function that searches (character search) a disc on which a song that matches the input song name (or part thereof) is recorded based on the list data, and displays the search result (disc number, disc name, etc.) Also have. As a result, the user can display a list of disks in his / her favorite order, and the disk can be easily selected.

  Further, the correspondence between the contents of the disk related data and the disk number used when the user performs the disk operation may be stored in the HDD 204 as LUT (Look Up Table) data. In the disk operation, the changers 10-1, 10-2, and 10-3 are instructed by referring to the LUT.

  When the microcomputer 201 is instructed to reproduce the compressed file recorded in the HDD 204 from the input unit 208 and the slave units 30-1 and 30-2, the microcomputer 201 reads out the instructed file and decodes it by the encoder / decoder 205. Then, the decoded data is transmitted to the slave unit instructed to reproduce or output from the output unit 206. When the encoder / decoder 205 is in the process of decoding, the microcomputer 201 discriminates the changer in which the decoder 117 is not operating, reads out the data of the designated file from the HDD 24, and transmits it to the discriminated changer. The data is decoded.

  Further, when the microcomputer 201 is instructed to reproduce the disk stored in any one of the changers 10-1 to 10-3 from the input unit 208 and the slave units 30-1 and 30-2, the microcomputer 201 performs reproduction to the corresponding changer. The instruction is transmitted, the data (reproduction signal) reproduced by the changer is received, the reproduction signal is decoded by the encoder / decoder 205, and the decoded reproduction signal is transmitted to the slave unit that has instructed reproduction or the output unit 206 Output from. When the encoder / decoder 205 is in the process of decoding, the microcomputer 201 instructs the changer to perform the decoding process and to transmit the decoded reproduction signal to the control device 20 when instructing the changer to reproduce. The decoded playback signal received from the changer is transmitted to or output from the output unit 206 to the slave unit that has instructed playback.

  The I / F 202 includes an interface (for example, a serial interface such as IEEE1394) for transmitting and receiving data to and from the changers 10-1, 10-2, and 10-3 via the connection line 2.

  The communication unit 203 provides an interface (for example, an interface according to HPNA (Home Phoneline Networking Alliance), etc.) for transmitting and receiving data to and from the slave units 30-1 and 30-2 via the connection line 3. Prepare.

  The HDD 204 is a storage device that can be reproduced (read) / written, and various audio data including content data and disc related data of each disc stored in the changers 10-1, 10-2, and 10-3. Video data is stored in MP3 (MPEG1 Audio Layer-3), WMA (Windows (registered trademark) Media Audio), ATRAC (Adaptive TRansform Acoustic Coding), MPEG-4, H.264. Records in a predetermined compressed file format such as H.264. The HDD 204 can simultaneously reproduce a plurality of files or data at different positions in the same file using a high-speed reproduction processing function.

  The encoder / decoder 205 transmits various data such as content data transmitted from the changers 10-1, 10-2, 10-3, etc., to MP3, WMA, ATRAC, MPEG-4, H.264. An encoder that compresses and encodes the data into a predetermined file format such as H.264 and a decoder that decodes (decodes) the data that has been compressed and encoded are provided.

  The output unit 206 includes a D / A converter, an amplifier, and a speaker (or a speaker system including a plurality of speakers), and converts various content data (audio data) transmitted from the microcomputer 201 into analog signals. Sound is emitted from the speaker.

  The display unit 207 includes a large display device such as an LCD (Liquid Crystal Display) or a plasma display, and displays various display data (video data) transmitted from the microcomputer 201 on the display device.

  The input unit 208 includes input keys for inputting various instructions for controlling the control device 20 and the changers 10-1, 10-2, and 10-3, a jog dial that is used when selecting instruction contents, and the like.

Next, the subunit | mobile_unit 30-1 is demonstrated with reference to FIG. In addition, since the subunit | mobile_unit 30-2 has the structure same as the subunit | mobile_unit 30-1, below, detailed description about the subunit | mobile_unit 30-2 is abbreviate | omitted for simplification.
The slave unit 30-1 includes a microcomputer 301, a communication unit 302, an output unit 303, a display unit 304, an input unit 305, and the like.

  The microcomputer 301 includes a CPU, a ROM, and a RAM (not shown), and comprehensively controls the slave unit 30-1. The ROM stores a main control program for controlling the slave unit 30-1 and various application programs related to the program. The RAM stores execution files of these various programs and various data generated during the execution. Stored temporarily.

  The communication unit 302 includes an interface (for example, an interface corresponding to HPNA or the like) for transmitting and receiving data to and from the control device 20 via the connection line 3.

  The output unit 303 includes a D / A converter, an amplifier, a speaker (or a speaker system including a plurality of speakers, etc.), and the like, and various audio data (for example, contents of decoded content data) transmitted from the microcomputer 301. Etc.) is converted into an analog signal and emitted from the speaker.

  The display unit 304 includes a display device such as an LCD, and displays various display data (video data) transmitted from the microcomputer 301. For example, the display unit 304 displays information such as a disc name and a song name stored in the changers 10-1, 10-2, and 10-3, and a reproduced video signal.

  The input unit 305 includes input keys for inputting various instructions for controlling the control device 20, the changers 10-1, 10-2, and 10-3, a jog dial that is used when selecting instruction contents, and the like.

Next, the operation will be described.
FIG. 8 shows file reproduction processing executed by the microcomputer 201 of the control device 20. Hereinafter, the file reproduction process will be described with reference to FIG.

  When a reproduction instruction signal for file data recorded in the HDD 204 is input from the input unit 208 or from any of the slave units 30-1 and 30-2 via the communication unit 203 (step S1), the HDD 204 Then, playback (reading) of the file instructed to start is started (step S2). Next, it is determined whether or not the decoder of the encoder / decoder 205 is operating. If not (step S3; NO), the reproduction signal read from the HDD 204 is decoded by the encoder / decoder 205 (step S3). S4) The decoded reproduction signal is output from the output terminal corresponding to the reproduction instruction (step S8). That is, the decoded reproduction signal is output from the output unit 206 or the communication unit 203 and is output to the control device 20 (that is, the own device) or the child device 30-1 or 30-2 that has instructed the reproduction.

  On the other hand, when it is determined that the decoder of the encoder / decoder 205 is operating (step S3; Y), a changer in which the decoder 117 is not operating is determined from the changers 10-1, 10-2, and 10-3. (Step S5) The reproduction signal read from the HDD 204 is transmitted to the changer determined that the decoder 117 is not operating (Step S6). In the changer, when a reproduction signal is received from the control device 20, the decoder 117 performs decoding processing and transmits the decoded reproduction signal to the control device 20 via the I / F 116. When a decoded reproduction signal is received from the changer via the I / F 202 (step S7), this decoded reproduction signal is output from the output terminal corresponding to the reproduction instruction (step S8). That is, the decoded reproduction signal is output from the output unit 206 or the communication unit 203, and is output to the control device 20 or the slave unit 30-1 or 30-2 that has instructed the reproduction.

  Here, as a case where the decoder of the encoder / decoder 205 is operating in step S3, a case where the encoder / decoder 205 decodes a reproduction signal received from any one of the changers 10-1 to 10-3, There is a case where the decoder of the encoder / decoder 205 decodes the reproduction signal read out by the HDD 24. In any case, when the encoder / decoder 205 is performing the decoding process, the reproduction signal read from the HDD 24 is transmitted to the changer in which the decoder 117 is not operating, and the decoding process is performed.

  As described above, according to the microcomputer 201 of the control device 20 to which the present invention is applied, from the input unit 208 or the slave unit 30-1 or 30-2 via the communication unit 203 into the HDD 204. When a data reproduction instruction for the recorded file is received, the reproduction instructed data is read out by the HDD 24, and it is determined whether or not the decoder of the encoder / decoder 205 is operating. Identifies the changer in which the decoder 117 is not operating among the changers 10-1, 10-2, and 10-3, and transmits the reproduction signal read from the HDD 24 via the I / F 202 to the determined changer. . When the decoded playback signal is returned from the changer, the control device 20 receives it and transmits it to the slave unit that has instructed playback via the communication unit 203 or outputs it from the output unit 206.

  Therefore, when the decoder of the control device 20 is in operation, the decoding process is performed in parallel by effectively utilizing the decoder of the vacant changer, so that it is possible to respond to the reproduction requests of a plurality of slave units and control devices. This makes it possible to eliminate the need for an expensive decoder in each slave unit.

<Second Embodiment>
Hereinafter, a second embodiment of the present invention will be described with reference to the drawings.
In the present embodiment, the configuration of the data playback system 1 and the devices constituting the data playback system 1 are the same as those described in the first embodiment, and a description thereof will be omitted.

  FIG. 9 shows a disk reproduction process executed by the microcomputer 201 of the control device 20. Hereinafter, the disc playback process will be described with reference to FIG.

  When a playback instruction signal for a disk stored in one of changers 10-1 to 10-3 is input from either slave unit 30-1 or 30-2 via input unit 208 or communication unit 203 (Step S11), it is determined whether or not the decoder of the encoder / decoder 205 is in operation. If it is not in operation (Step S12; NO), a reproduction instruction signal is sent to the changer instructed to reproduce via the I / F 202. Is transmitted (step S13). In the changers 10-1 to 10-3, when the reproduction instruction signal is received from the control device 20, a disk is loaded into the reproduction processing unit and reproduction (reading) is performed based on the reproduction instruction, and the read reproduction is performed. The signal is transmitted to the control device 20 via the I / F 116.

  In the control device 20, when a reproduction signal is received from the changer via the I / F 202 (step S14), the decoder / encoder 205 decodes the received reproduction signal (step S15). A reproduction signal is output from the output terminal corresponding to the reproduction instruction (step S18). That is, the decoded reproduction signal is output from the output unit 206 or the communication unit 203 and is output to the control device 20 (that is, the own device) or the child device 30-1 or 30-2 that has instructed the reproduction.

  On the other hand, when it is determined that the decoder of the encoder / decoder 205 is in operation (step S12; Y), a reproduction instruction signal is transmitted to the changer instructed to reproduce via the I / F 202, and the disc A signal instructing to decode and transmit the reproduced signal is transmitted (step S16). In the changers 10-1 to 10-3, when the reproduction instruction signal is received from the control device 20, a disk is loaded into the reproduction processing unit and reproduction (reading) is performed based on the reproduction instruction, and the read reproduction is performed. The signal is decoded by the decoder 117, and the decoded reproduction signal is transmitted to the control device 20 via the I / F 116.

  When the controller 20 receives the decoded reproduction signal from the changer via the I / F 202 (step S17), the decoded reproduction signal is output from the output terminal corresponding to the reproduction instruction (step S18). That is, the decoded reproduction signal is output from the output unit 206 or the communication unit 203, and is output to the control device 20 or the slave unit 30-1 or 30-2 that has instructed the reproduction.

  Here, as a case where the decoder of the encoder / decoder 205 is operating in step S12, a case where the decoder of the encoder / decoder 205 is decoding a reproduction signal received from another changer, and a case where the encoder / decoder 205 is the HDD 24 There is a case where the reproduction signal read out by is decoded. In any case, when the encoder / decoder 205 is performing the decoding process, the changer instructed to perform the reproduction process of the reproduction signal.

  As described above, according to the microcomputer 201 of the control device 20, the changers 10-1 to 10-3 are input from the input unit 208 or the slave units 30-1 and 30-2 via the communication unit 203. When a playback instruction signal for a disc stored in any of the above is input, it is determined whether or not the decoder of the encoder / decoder 205 is in operation. A slave unit that transmits a playback instruction signal and an instruction to decode the playback signal read from the disc, and receives the decoded playback signal from the changer, the playback unit instructs the playback of the decoded playback signal via the communication unit 203. Or output from the output unit 206.

  Therefore, when the decoder of the control device 20 is in operation, the decoding process is performed in parallel by effectively utilizing the decoder of the vacant changer, so that it is possible to respond to the reproduction requests of a plurality of slave units and control devices. This makes it possible to eliminate the need for an expensive decoder in each slave unit.

  The description in the above embodiment shows an example of the data reproduction system 1 according to the present invention, and the present invention is not limited to this.

  For example, in the above embodiment, the changer 10-1, 10-2, 10-3 has been described by taking a CD as an example, but a DVD, a CD-R (CD-Recordable) or a CD-RW ( CD-ReWritable) is also applicable. Further, the content data and data recorded in the HDD 204 may be video data as well as audio data.

  There is no problem even if the control device and the changer are accommodated in the same housing.

  In addition, the detailed configuration and detailed operations of the data reproduction system 1 and the devices constituting the data reproducing system 1 can be changed as appropriate without departing from the spirit of the present invention.

1 is a diagram showing an overall configuration of a disc playback system 1 according to the present invention. It is a figure which shows the data structure of the control data transmitted to the changer 10-1, 10-2, 10-3 from the control apparatus 20 of this invention. It is a figure which shows schematic structure of the disk storage part of the changer 10-1 of FIG. (A) is a timing chart of signals PH1 to PH3 output from the first sensor 104a to the third sensor 104c, and (b) is a signal PH1 and PH2 output from the first sensor 104a and the second sensor 104b and the presence / absence of a disk. 6 is a timing chart of a disk presence / absence detection signal output from a detection sensor 104d. It is a block diagram which shows the functional structure of the control system of the changer 10-1 of FIG. It is a block diagram which shows the functional structure of the control apparatus 20 of FIG. It is a block diagram which shows the functional structure of the subunit | mobile_unit 30-1 of FIG. It is a flowchart which shows the file reproduction | regeneration processing performed by the microcomputer 201 of FIG. It is a flowchart which shows the disk reproduction | regeneration processing performed by the microcomputer 201 of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Disc reproduction | regeneration system 10-1, 10-2, 10-3 Disc changer apparatus 20 Control apparatus 30-1, 30-2 subunit | mobile_unit 101 Rotary tray 102 Rotary tray control motor 103 Disc arm 104 Sensor support plate 104a 1st sensor 104b Second sensor 104c Third sensor 104d Disc presence / absence detection sensor 105 Substrate 106 Microcomputer 107 Input unit 108 Display unit 109 Exchange port opening / closing control motor driver 110 Rotary tray control motor driver 111 Disc arm control motor driver 112 DSP
113 Pickup unit 114 Load / unload SW
115 Exchange port opening / closing control motor 116 I / F
117 Decoder 201 Microcomputer 202 I / F
203 Communication unit 204 HDD
205 Encoder / Decoder 206 Output Unit 207 Display Unit 208 Input Unit 301 Microcomputer 302 Communication Unit 303 Decoder 304 Output Unit 305 Display Unit 306 Input Unit

Claims (6)

And multiple player want to play the recording medium,
A control device including a recording medium that is communicably connected to the playback device, controls the playback device, and stores data related to the recording medium read by the playback device ;
The control device and are communicably connected, and a double herring roe machine that instructs reproduction of data recorded on the recording medium in the control device,
A data reproduction system comprising:
The playback device
Decoding processing means for decoding the reproduction signal received from the control device;
Decoded playback signal output means for outputting the decoded playback signal decoded by the decoding processing means to the control device;
With
The controller is
Reproduction means for reproducing the corresponding data recorded on the recording medium in the control device based on the reproduction instruction signal from the control device or the plurality of slave units;
Discriminating means for discriminating the reproducing apparatus in which the decoding processing means is not operating from the plurality of reproducing apparatuses ;
A reproduction signal transmitting means for transmitting a reproduced signal reproduced by said reproducing means to said decoding means is not in operation and the determined said reproducing apparatus by said discrimination means,
A data reproduction system comprising: And multiple player want to play the recording medium,
A control device including a recording medium that is communicably connected to the playback device, controls the playback device, and stores data related to the recording medium read by the playback device ;
The control device and are communicably connected, and a double herring roe machine that instructs reproduction of data recorded on the recording medium in the control device,
A data reproduction system comprising:
The playback device
Decoding processing means for decoding the reproduction signal received from the control device;
Decoded playback signal output means for outputting the decoded playback signal decoded by the decoding processing means to the control device;
With
The controller is
Reproduction means for reproducing the corresponding data recorded on the recording medium in the control device based on the reproduction instruction signal from the control device or the plurality of slave units;
Decoding processing means for decoding the reproduced signal reproduced by the reproducing means;
First determination means for determining whether or not the decoding processing means in the control device is operating;
Second discriminating means for discriminating the reproducing device in which the decoding processing means is not operating from the plurality of reproducing devices ;
When the first determination means determines that the decoding processing means is in operation, the reproduction signal is transmitted to the reproduction apparatus having the decoding processing means determined not to be in operation by the second determination means. Reproduction signal transmitting means for
A data reproduction system comprising: And multiple player want to play the recording medium,
A control device including a recording medium that is communicably connected to the playback device, controls the playback device, and stores data related to the recording medium read by the playback device ;
The control device and are communicatively connected, and a double herring roe machine that instructs reproduction of data recorded on the recording medium of the reproducing apparatus is accommodated recording medium or in the control device,
A data reproduction system comprising:
The playback device plays back a recording medium instructed by the control device;
Reproduction signal output means for outputting the reproduction signal read by the reproduction control means to the control device;
Decoding processing means for decoding the reproduction signal read by the reproduction control means;
Decoded playback signal output means for outputting the decoded playback signal decoded by the decoding processing means to the control device;
With
The controller is
A reproduction instruction signal output means for outputting a reproduction instruction signal of a corresponding recording medium to a reproduction apparatus corresponding to the reproduction instruction based on a reproduction instruction signal from the control device or the plurality of slave units;
Decoding processing means for decoding the playback signal received from the playback device;
Discriminating means for discriminating whether or not the decoding processing means in the control device is operating;
When the determination means determines that the decoding processing means is in operation, the decoded instruction that instructs the reproduction apparatus to which the reproduction instruction signal is output to decode the reproduction signal and transmit it Reproduction signal transmission instruction means;
A data reproduction system comprising: A recording medium in which data to be subjected to reproduction is recorded, based on the reproduction instruction signals input from a plurality of the slave unit, and reproducing means for reproducing the corresponding data of the recording medium, through the communication means in controller connected to multiple reproduction apparatus,
Among the multiple reproduction apparatus provided with a decoding means for decoding the reproduction signal received from the control device, determining means for determining the reproducing device the decoding means is not in operation,
A reproduction signal transmitting means for transmitting the reproduced signal to said decoding means said reproducing apparatus is determined as not being operated by said discriminating means,
A control device comprising: A recording medium on which data to be reproduced is recorded, and a reproducing means for reproducing the corresponding data of the recording medium based on a reproduction instruction signal input from a plurality of slave units , via a communication means in controller connected to multiple reproduction apparatus,
First decoding processing means for decoding the reproduction signal read by the reproduction means;
First determination means for determining whether or not the first decoding processing means is operating;
Among previous Kifuku number of reproducing apparatus, provided in each of the reproducing apparatus, and a second discriminating means for discriminating a reproducing apparatus second decoding means for decoding the reproduced signal is not in operation,
When said first decoding means is determined to be in operation by the first discriminating means, wherein said by the second discriminating means second decoding means is determined not in operation the playback Reproduction signal transmitting means for transmitting the reproduction signal to a device;
A control device comprising: Via the communication means, the controller connected to multiple playback devices you reproducing a recording medium,
Reproduction instruction signal output means for outputting a reproduction instruction signal of the corresponding recording medium to the corresponding reproduction device based on reproduction instruction signals input from a plurality of slave units ;
Decoding processing means for decoding the playback signal received from the playback device;
Discriminating means for discriminating whether or not the decoding processing means is operating;
When the determining means determines that the decoding processing means is operating, it instructs the playback device that is the output destination of the playback instruction signal to decode and transmit the playback signal of the recording medium Decoded decoded signal transmission instruction means for performing,
A control device comprising:

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