JP3731087B2 - Recording / reproducing apparatus and reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording / reproducing apparatus and a reproducing apparatus that can freely reproduce and record various sources such as CD (compact disc) and MD (mini-disc), and more particularly, recording with improved display during recording and reproduction. The present invention relates to a reproduction apparatus and a reproduction apparatus.
[0002]
[Prior art]
In MD, ATRAC is adopted as a standard for recording audio. In ATRAC, there are ATRAC Stereo, ATRAC Mono, ATRAC3 LP2 Stereo, and ATRAC3 LP4 Stereo as recording modes. If the data compression rate of ATRAC Stereo and ATRAC Mono is set to the standard data compression rate, the data compression rate of ATRAC3 LP2 Stereo is twice the standard, and the data compression rate of ATRAC3 LP4 Stereo is four times the standard.
[0003]
[Problems to be solved by the invention]
In a conventional MD recording / reproducing apparatus, during recording of audio on the MD, information indicating which data compression rate is used to record audio on the MD is not presented to the user. Therefore, the user does not know which data compression rate is currently being recorded, which is inconvenient. For example, in ATRAC, the higher the data compression rate, the lower the sound quality. Therefore, when the audio is recorded on the MD without knowing the data compression rate, the sound quality or only one is recorded for later playback. I realize that the maximum recording time of audio that can be recorded on my MD is different from what I thought, and I regret it.
[0004]
In addition, during playback of audio recorded on the MD, in a conventional MD recording / playback apparatus, information indicating in which recording mode the audio is recorded is displayed on the display as text or a light emitting diode. Although there is a conventional technique that is presented by lighting a fixed segment composed of, etc., the conventional technique requires an increase in display area and an increase in the arrangement space of the fixed segment, which is disadvantageous for miniaturization.
[0005]
An object of the present invention is to provide a recording / playback apparatus that allows a user to quickly know the data compression rate being executed.
Another object of the present invention is to provide a reproduction apparatus capable of displaying to a user which recording mode the recording source being reproduced is associated with without increasing the display area and the fixed segment arrangement space. Is to provide.
[0006]
[Means for Solving the Problems]
In the recording / playback apparatus according to the first aspect of the invention, information output from the output source can be recorded on the recording source at a data compression rate selected from a plurality of data compression rates. The recording / reproducing apparatus further includes a display unit that displays a recording source corresponding to the recording source when the recording source is selected, and displays information output from the output source for a period during which the information is recorded in the recording source. The unit changes the display in accordance with the data compression rate being executed in the recording source.
[0007]
The information includes not only the case of both audio information and visual information, but also the case of only audio information and the case of only visual information. The output source includes, for example, a tuner, a CD (compact disc), an MD (mini disc), a cassette tape, a DVD (digital video disc), and the like. Examples of the recording source include an MD, a cassette tape, a CD-R, and a CD-RW. Note that, like MD, the same source may be an output source at one time and a recording source at another time. Furthermore, in a recording / playback apparatus in which a plurality of sources of the same kind are loaded, and the first one is the reproduction and the second one is the recording, the same kind of source is the output source and the recording source. May be selected. The data compression rate includes, for example, standard 2 times compression and 4 times compression in MD ATRAC.
[0008]
In the first invention, the user can quickly know the data compression rate currently being executed by viewing the display corresponding to the selected recording source on the display unit. In the first invention, the display of the output source is arbitrary, and the recording / playback apparatus that does not display the output source is also included in the first invention.
[0009]
In the recording / playback apparatus according to the second aspect of the invention, the information output from the output source can be recorded on the recording source at a data compression rate selected from a plurality of data compression rates. The recording / playback apparatus further includes a first display unit that performs a first display corresponding to the output source when the output source is selected, and a first display unit that corresponds to the recording source when the recording source is selected. And a second display unit that performs display of 2. Then, during the period in which the information output from the output source is recorded in the recording source (hereinafter referred to as “period A”), the second display unit performs data compression during execution of the second display in the recording source. Change according to the rate.
[0010]
In order to enable the user to distinguish between the display corresponding to the output source selected by the user and the display corresponding to the recording source, which display is the output source and the recording source, for example, the following (a ) And (b).
(A) A method in which the first and second displays are set at different specific locations in the same display, and are distinguished by the display location on the display. Example: The first and second displays are arranged on the left side and the right side in the same display, respectively, and are arranged on the upper side and the lower side, respectively.
(B) An arrow is displayed from the first display to the second display on the display, the arrowhead is the first display corresponding to the output source, and the arrowhead is the second display corresponding to the second display. To be.
[0011]
In the second invention, the user can know the data compression rate of the current recording to the recording source by looking at the second display which is a display corresponding to the data compression rate, and appropriately deal with it. be able to.
[0012]
According to the recording / reproducing apparatus of the third invention, in the recording / reproducing apparatus of the second invention, the output source reproduces information, and in the period A, the first display by the first display unit is an output. Varies according to the playback speed being executed on the source.
[0013]
The playback speed at the output source does not necessarily match the recording speed at the recording source. For example, if the playback signal reproduced by the output source is not directly recorded in the recording source, but once written in a semiconductor memory, etc., then read out and recorded in the recording source, the playback speed at the output source Even if the recording speed at the recording source is different, the information can be recorded from the output source to the recording source. However, in that case, the higher the playback speed at the output source and the higher the recording speed at the recording source, the processing is suspended as appropriate in order to match the slower one.
[0014]
According to the third invention, the user can know the playback speed currently being executed by viewing the first display.
[0015]
According to the recording / reproducing apparatus of the fourth aspect of the invention, in the recording / reproducing apparatus of the third aspect of the invention, the first and second predetermined points are respectively displayed on the first and second display units from the first and second predetermined points. The first and second areas included in the distance are set, and the changing ranges of the first and second displays are limited to the first and second areas, respectively.
[0016]
The first and second displays may change their display locations from moment to moment. In the first and second displays, even if the display location is changed, the change range of the display location is limited to the first and second regions, respectively, thus saving the area of the first and second display portions. it can.
[0017]
The recording / reproducing apparatus of the fifth invention is the recording / reproducing apparatus of the fourth invention, wherein there are a plurality of output sources and recording sources, respectively. An output source display is defined for each output source, a recording source display is defined for each recording source, a single output source selected from a plurality of output sources and recording sources, and Even when the display corresponding to one recording source is performed on the first and second display units, the range in which the display changes is limited to the first and second regions, respectively.
[0018]
When the recording / playback apparatus includes a plurality of output sources and a plurality of recording sources, the change range of the display location for each combination of the output source and the recording source is first and second, respectively. It is limited to the area. Thus, the area of the first and second display portions can be saved.
[0019]
According to the recording / playback apparatus of the sixth invention, in the recording / playback apparatus of the fifth invention, the display corresponding to one recording source selected from the plurality of recording sources is being executed at the recording source. It changes corresponding to the data compression rate.
[0020]
Even if an arbitrary recording source is selected in this way, the second display for the selected recording source changes corresponding to the data compression rate being executed at the recording source, so that the user can select the data compression rate from the display. Can be recognized smoothly.
[0021]
According to the recording / reproducing apparatus of the seventh invention, in the recording / reproducing apparatus of any one of the second to sixth inventions, the display is a picture and / or a moving picture.
[0022]
The moving picture form includes a diagram in which the contour changes, the contour moves, or the pixels constituting the contour change in color or blink.
[0023]
Since the display is a pictorial diagram and / or a pictorial diagram in the form of a moving image, the user can intuitively grasp the data compression rate in the current recording.
[0024]
According to the recording / playback apparatus of the eighth invention, in the recording / playback apparatus of the seventh invention, the moving picture form of the picture is a color change and / or at least a part of pixels constituting the picture while maintaining the shape of the picture. It is flashing.
[0025]
Since the moving picture form by changing the color of the picture and blinking the pixel is a moving picture expression without moving the picture, it is possible to save the area necessary for displaying the moving picture.
[0026]
According to the recording / reproducing apparatus of the ninth invention, in the recording / reproducing apparatus of any one of the second to eighth inventions, the second display corresponding to the data compression rate being executed in the selected recording source is: This is a display in which the dimensions of the picture are associated with the data compression rate being executed in the recording source.
[0027]
Preferably, the picture size corresponding to the data compression rate at the standard data compression rate is a standard size, and when the data compression rate is larger than the standard data compression rate, the picture size corresponding to the data compression rate is decreased.
[0028]
The user can know the size of the data compression rate of the recording data in the recording source from the size of the picture corresponding to the recording source, and can easily grasp the data compression rate intuitively.
[0029]
According to the recording / reproducing apparatus of the tenth invention, in the recording / reproducing apparatus of any one of the second to ninth inventions, the second display corresponding to the data compression rate being executed in the selected recording source is: A picture of a standard size and a picture of a size corresponding to the data compression rate being executed in the selected recording source are alternately displayed in time.
[0030]
If the picture size corresponding to the data compression rate at the standard data compression rate is the standard size, if the data compression rate is the standard data compression rate, the picture size remains the standard size and is currently implemented. It becomes easy to understand that the data compression rate inside is the standard data compression rate. If the picture size corresponding to the data compression rate is small, it may be difficult to see when it is slightly away from the second display unit. However, the user can clearly see that the data compression rate is different from the standard data compression rate due to the time-alternating display with the standard size picture. Even if it is difficult to see, it is possible to accurately grasp that recording is performed at a data compression rate different from the standard.
[0031]
According to the recording / playback apparatus of the eleventh aspect of the invention, in the recording / playback apparatus of the ninth or tenth aspect of the invention, the first display section, the second display section, and output source selection means for selecting an output source, The recording source selection means for selecting a recording source is disposed on the same operation panel surface of the apparatus main body.
[0032]
For example, regarding the operation to select an output source or recording source, the user can confirm the operation result while checking the hand at the time of the source selection operation without moving the viewpoint so much. Operation confirmation becomes easy.
[0033]
According to the recording / playback apparatus of the twelfth aspect of the invention, in the recording / playback apparatus of any of the second to eleventh aspects of the invention, the first display unit and the second display unit are different in one display surface. Occupies an area and is provided.
[0034]
For example, if a display corresponding to an output source and a display corresponding to a recording source are displayed side by side within one display surface, the user can determine which source is the output source and which source is the recording source. Can be easily identified.
[0035]
In the recording / playback apparatus according to the thirteenth aspect of the invention, information output from an output source for outputting information can be recorded on the recording source in a recording mode selected from a plurality of recording modes. When the recording source is selected, the display unit displays a recording source corresponding to the recording source, and the display unit is configured to record the information output from the output source on the recording source. The display corresponds to the recording mode being executed in the recording source.
[0036]
The data compression rate is included in the concept of recording mode. When the recording source is MD, MD recording modes include, for example, ATRAC Stereo, ATRAC Mono, ATRAC3 LP2 Stereo, and ATRAC3 LP4 Stereo. ATRAC Stereo, ATRAC3 LP2 Stereo, and ATRAC3 LP4 Stereo are also recording modes related to the data compression rate.
[0037]
The user can recognize what recording mode the recording process currently being performed from the corresponding display of the recording source on the display unit to the recording source is performed. In addition, when displaying the recording mode to the user, it is possible to omit a fixed segment such as a character display or a light emitting diode prepared separately from the display corresponding to the recording source, so that the space for recording mode display can be reduced.
[0038]
According to a fourteenth aspect of the present invention, a recording source in which information is recorded in a recording mode selected from a plurality of recording modes is reproduced in accordance with the recording mode at the time of recording. Then, the playback device uses a symbol that separates minutes and seconds in the numerical display of the playback-related time information during the playback period of the recording source, corresponding to the recording mode in which the information being played back is recorded in the recording source. A display unit is provided.
[0039]
The reproduction related time information is, for example, a reproduction time, a remaining reproduction time, an entire reproduction time, and an entire remaining reproduction time. The playback unit is a track when the recording source is an audio optical disk, and is, for example, a chapter being played back when the recording source is a video optical disk. The playback time is the elapsed time from the playback start time of the currently playing track or chapter to the current time, and the remaining playback time is the time from the current time to the end of playback of the currently playing track or chapter, The total playback time is the elapsed time from the playback start time to the current time when the current playback is continuously performed on one or more tracks or chapters, and the total remaining playback time Is the time from the current time to the time when playback of the last track or chapter of the currently playing disc ends. When the recording source is MD and the recording mode is ATRAC Stereo, ATRAC Mono, ATRAC3 LP2 Stereo, and ATRAC3 LP4 Stereo, a symbol that separates minutes and seconds in the numerical display of playback-related time information in the MD playback period For example, “:” may be used for ATRAC Stereo, “•” for ATRAC Mono, “-” for ATRAC3 LP2 Stereo, and “=” for ATRAC3 LP4 Stereo.
[0040]
From the symbol that separates minutes and seconds in the numerical display of the playback time in the display section during the playback period of the recording source, the user can determine which recording mode is being played back for the recording source being played back. I can recognize it. In addition, when displaying the information to the user, it is possible to omit fixed segments such as a character display and a light emitting diode that are prepared separately from the reproduction time display, so that the space for displaying the recording mode information can be reduced.
[0041]
According to a fifteenth aspect of the present invention, a playback source that records information in a recording mode selected from a plurality of recording modes performs playback corresponding to the recording mode at the time of recording. The playback device includes a display unit that displays a recording source corresponding to a recording source selected for playback, and the display unit displays a playback period and a recording source of the recording source, and information being played back is recorded in the recording source. It is assumed that it corresponds to the recording mode recorded in the source (hereinafter referred to as “third display”).
[0042]
In the fifteenth aspect, the third display may be either a moving picture form or a still picture form.
[0043]
The user can recognize in which recording mode the recording source being reproduced is being reproduced from the recording source display on the display unit during the reproduction period of the recording source. In addition, in order to make the user recognize in which recording mode the recording source being played is being played back, it is possible to omit fixed segments such as character display and light-emitting diode that are prepared separately from the recording source display. Space can be reduced.
[0044]
According to the playback device of the sixteenth aspect of the invention, in the playback device of the fifteenth aspect of the invention, the third display is a display for identifying the recording mode with which it is associated by a pattern.
[0045]
Since the recording mode can be identified by the pattern without increasing the display area of the third display, the recording mode display space can be reduced. The pattern for identifying the recording mode includes not only a static pattern, that is, a pattern that does not change with time, but also a moving picture pattern, that is, a pattern that changes with time.
[0046]
According to the playback device of the seventeenth aspect, in the playback device of the fifteenth aspect, the third display is a display for identifying the recording mode with which the display is associated with a moving image form.
[0047]
The third display for mutually identifying the recording mode according to the moving image form includes one for identifying the recording mode with the same pattern change at different changing speeds.
[0048]
According to a playback device of an eighteenth aspect of the invention, in the playback device of the seventeenth aspect of the invention, the recording source is a rewritable optical disc, and the recording source display corresponding to the recording source includes a disc shape. In the third display of the moving image form, the disk shape is divided into a plurality of equally divided portions that are equally divided in the circumferential direction, and each equally divided portion has a first or second color. From the first color-coded state of the disk shape by two colors, the equally divided portion occupied by the first color portion is replaced with the equally divided portion occupied by the second color portion one by one in the circumferential direction over time, and finally In the color-coded state, all of the equally divided portions of the disk shape are the first color, and the color-coded state is cyclically repeated with one cycle from the first color-coded state to the last color-coded state. The first color-coded state corresponds to the data compression rate as the recording mode.
[0049]
Optical disks include CD-R, CD-RW, MD, and recordable / reproducible DVD. The display unit includes not only a color type but also a monochrome type display. When the display unit is a monochrome type, the first and second colors are one and the other of black and white, respectively.
[0050]
When the recording source is MD, the first color-coded state is, for example, in ATRAC3 LP2 Stereo with a data compression rate of 2, half of the disk is occupied by the first color, so that the data is ½ of the standard In ATRAC3 LP4, 1/4 of the disk is occupied by the first color, which makes it intuitive to the user that the data is 1/4 of the standard. .
[0051]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a front view of the audio apparatus main body 10. The audio device main body 10 constitutes one audio system together with left and right speakers (not shown). The audio device main body 10 is integrated with an amplifier unit, a tuner unit, a CD player unit, and an MD recording / playback unit. The front side of the audio device main body 10 serves as an operation panel 11 to operate the power switch 12 and the like. Members are deployed. The audio apparatus main body 10 has various variations, such as adding a tape recording / reproducing unit or replacing the MD recording / reproducing unit with a tape recording / reproducing unit. Various instructions from the user to the audio device main body 10 can be made by directly operating an operation member such as the power switch 12 on the operation panel 11 or by operating a key of a remote controller (not shown). The power switch 12 switches power on / off, and a tuner selection key 13, a CD playback / pause key 14, an MD playback / pause key 15, and an external input selection key 18 are tuner, CD, It is pushed when selecting MD and external input. Each time the CD playback / pause key 14 and MD playback / pause key 15 are pressed, playback and pause are repeated alternately. When the tuner, CD, and external input are selected as input audio sources, the recording key 17 records those audio sources in the MD when pressed. The volume adjustment knob 19 adjusts the volume from the speaker by adjusting the rotational position. The CD slot 23 is a slot through which a CD enters and exits the audio apparatus main body 10, and the MD insertion part 24 is an MD entry / exit part into the audio apparatus main body 10. The liquid crystal display unit 26 capable of expressing a moving picture with a fine picture is capable of so-called full dot display, and various types of information such as a picture to be described later are displayed on the single display surface. .
[0052]
FIG. 2 shows a pictorial diagram in which the user selects an output source or a recording source from a plurality of audio sources in the audio apparatus main body 10 and displays them on the liquid crystal display unit 26 corresponding to the audio device related to the selected source. Yes. In FIG. 2, each picture is shown in order from left to right: (a) tape recording / playback unit, (b) MD recording / playback unit, (c) CD player unit, (d) tuner unit, and (e) external input, It corresponds to.
[0053]
FIG. 3 shows a series of frames arranged in order of display from left to right when the tape recording / playback unit is selected and a cassette tape is being reproduced or recorded. When the user selects the tape recording / reproducing part, the picture of the cassette tape shown in FIG. 2A is displayed on the liquid crystal display unit 26 to indicate that the tape recording / reproducing part has been selected. During operation, the picture on the cassette tape, for example, displays a total of four frames at predetermined time intervals and cyclically (returns to the leftmost frame next to the rightmost frame) on the liquid crystal display unit 26 as a moving image expression. By changing, the left and right reels appear to rotate (see FIG. 3).
[0054]
FIG. 4 shows a series of frames arranged in order of display from left to right when the MD recording / playback unit is selected and MD is played back or recorded. When the user selects the MD recording / playback unit, the MD picture of FIG. 2B is displayed on the liquid crystal display unit 26 to indicate that the MD recording / playback unit has been selected. In each of these MD drawings, the diameter portion of the disc in a predetermined direction has a white portion (this white portion means light reflection from the disc), and the rotation position of this white portion is In the direction of the arrow, it is increased by equiangular intervals in order from the picture on the left side. In the MD picture, for example, a total of eight frames are displayed on the liquid crystal display unit 26 in a cyclic manner with a predetermined time interval, and the disk in the cartridge appears to rotate clockwise.
[0055]
FIG. 5 shows a series of frames arranged in the display order from left to right when the CD player unit is selected and a CD is played. When the user selects the CD player unit, the picture of the CD in FIG. 2C is displayed on the liquid crystal display unit 26 to indicate that the CD player unit has been selected. Next, during the operation of the CD player unit, Each picture of these CDs has a white portion in the diameter direction of the disc in a predetermined direction (this white portion means light reflection from the disc), and this white portion is a picture on the left side in the arrow direction. It is increasing by an equiangular interval in order. The picture of the CD appears as if the disc is rotating in the clockwise direction, for example, by changing the display of a total of eight frames on the liquid crystal display unit 26 in a cyclic manner at predetermined time intervals and cyclically (see FIG. 5). ).
[0056]
FIG. 6 shows a picture relating to the tuner section. 6 is displayed on the liquid crystal display unit 26 when the user selects the tuner, and the picture on the right side of FIG. 6 (radio with radio waves) is displayed. The tower-only picture) is displayed on the liquid crystal display unit 26 when the user selects a tuner and synchronizes with a predetermined broadcast.
[0057]
FIG. 7 shows a picture displayed on the liquid crystal display unit 26 when the CD player unit is selected as a playback source and is paused. In the rest state of the CD player unit, the left top (no diametric white portion) and the right top (diameter white portion) in FIG. 7 are alternately repeated at predetermined time intervals to display the liquid crystal display portion. 26 is displayed. Note that although the illustration of a moving picture when paused during MD playback is omitted, it is processed in the same manner as the CD in FIG. That is, the top of the picture from the left in FIG. 2 and the top of the picture in which the white portion is filled with black are prepared, and they are alternately displayed at predetermined time intervals.
[0058]
FIG. 8 shows the display contents of the liquid crystal display unit 26 when a radio broadcast is recorded on the MD. When the user selects the tuner as the output side source, a pictorial diagram corresponding to the tuner is displayed on the left half of the liquid crystal display unit 26, and the MD recording / playback unit is selected as the recording side source. When selected, a picture as shown in FIG. 2B corresponding to the MD recording / reproducing unit is displayed on the right half of the liquid crystal display unit 26. During recording of the radio broadcast on the MD, in the liquid crystal display unit 26, the audio source and recording source information is displayed in characters and / or numerical values on the upper end and lower end, respectively, and the vertical direction excluding the upper and lower ends. In the central range, a picture corresponding to the tuner at the time of tuning is displayed in the left half, and a picture corresponding to the MD recording / playback part is changed in the right half to change the moving image expression. Therefore, in FIG. 8, the left half of the liquid crystal display unit 26 has a radio wave that is selected as an audio source and is in a tuning state for a predetermined radio broadcast (= a state in which a radio wave having a predetermined electric field strength or more is received) A picture of the radio tower is displayed, and in the right half of the liquid crystal display unit 26, the MD picture representing the MD recording / playback part selected as the recording source is displayed and changed in the moving picture representation of FIG. The user can visually recognize that recording on the MD is being performed by seeing that the MD picture on the right half of the liquid crystal display unit 26 is a moving image expression that rotates the disk unit. In FIG. 8, the letters and numerical values “FM P01 81.30 MHz” at the upper end indicate that an FM broadcast having a frequency of 81.30 MHz preset as the preset number 01 is selected, The numerical value “010 64: 55R” on the lower side of the two pictures indicates that the audio recording in the MD is performed on track 10 and the remaining recordable time is 64 minutes 55 seconds.
[0059]
FIG. 9 shows the display contents of the liquid crystal display unit 26 when a CD song is recorded on the MD. Note that this recording is performed by the user using the O.D. T. T. et al. E. It is executed by one-touch operation of the key. When this key is operated, all music on the CD is automatically dubbed to the MD. That is, O.I. T. T. et al. E. By operating the key, the CD player unit is selected as the output source, and a picture diagram as shown in FIG. 2D corresponding to the CD player unit is displayed on the left half of the liquid crystal display unit 26. The MD recording / playback unit is selected as the recording side source, and a pictorial diagram corresponding to the MD recording / playback unit is displayed on the right half of the liquid crystal display unit 26 as shown in FIG. During recording from the CD player unit to the MD recording / playback unit, the CD and MD pictures on the liquid crystal display unit are changed in display in the moving image representations of FIGS. 5 and 4, respectively, and the disc seems to rotate. Reflected in. And this record is O.D. T. T. et al. E. Therefore, the display change of the moving image representation of the CD and MD pictures is synchronized. That is, the display changes of the CD and MD moving image expressions follow the flow of frames in FIGS. 5 and 6, respectively, and the frames in the same order from the left in FIGS. 5 and 6 are simultaneously displayed on the liquid crystal display unit 26. Thus, the rotation angle of the white portion representing the rotation angle of the CD and the white portion representing the rotation angle of the MD are made equal to each other. In FIG. 9, the character at the upper end and the numerical value “CD 01 1:56” indicate that the track 1 of the CD is being played and that the playback time has elapsed 1 minute 56 seconds from the start of playback of the track 1. In addition, the numerical value “009 72: 47R” at the lower end indicates that the audio recording in the MD is performed on track 9 and the remaining recordable time is 72 minutes 47 seconds. .
[0060]
O. T. T. et al. E. Instead of recording by the user, the user sequentially selects the CD player section as the playback-side audio source and the MD recording / playback section as the recording-side audio source, and the recording key 17 of the audio device body 10 or the recording key of the remote control (FIG. The CD and MD pictorial representations when performing recording from CD to MD by operating (not shown) are the same except that the above-described synchronous representation is not included from the representation of FIG. That is, in recording by operating the recording key 17 or the like, the CD player unit is first selected as the output source by the user's key operation, and the left half of the liquid crystal display unit 26 corresponds to the CD player unit. 2 (c) is displayed. Next, the MD recording / playback unit is selected as the recording-side source. In the right half of the liquid crystal display unit 26, FIG. 2 (2) corresponding to the MD recording / playback unit is displayed. A picture as shown in b) is displayed. During recording from the CD player unit to the MD recording / reproducing unit, the white portions of the CD and MD pictures do not have the same rotation angle but maintain different rotation angles.
[0061]
Also, the user can select two recording speeds, normal speed and double speed, when dubbing from CD to MD. When double speed is selected, the recording time is half of the normal speed recording time. The disc rotation speed in the CD and MD pictures in the recording at the double speed (this rotation speed is understood by the user from the rotation speed of the white portion (display changing speed)) is the CD and MD in the recording at the normal speed. This is twice the disc rotation speed (display change speed) in FIG. Thus, the user can know whether the current recording is performed at normal speed or double speed from the disk rotation speed in the CD and MD pictures in the liquid crystal display unit 26. O. T. T. et al. E. In the double speed recording and normal speed, the CD and MD pictures are rotated (display change) at the rotational speed corresponding to the double speed and the normal speed, and as described above, the rotation position of the white portion indicating the rotational phase is Synchronized with changes in the animated representation of rotation to be equal to each other.
[0062]
As described above, when the recording / playback apparatus includes the source A that outputs information and the source B that can record the information output from the source A, when the user selects the source A as an output source, The picture A corresponding to the source A is displayed on the left half of the liquid crystal display 26, and if the source B as the recording side source is selected, the picture B corresponding to the source B is displayed on the right half of the liquid crystal display 26. Is displayed. In this example, regardless of the type of the output side source or the recording side source, when the user selects the output side source, a picture corresponding to the output side source is displayed on the left half of the liquid crystal display unit 26, and the recording side source is selected. When selected, the picture corresponding to the recording-side source is always displayed at a position including the right half of the liquid crystal display unit 26, and the picture can be expressed with high flexibility. That is, at least the liquid crystal display unit 26 includes the first display point and the second display point in the left half and the right half, respectively, and when the user selects the output side source, the picture corresponding to the output side source is When the recording source is selected and displayed at a position including the first display point, a picture corresponding to the recording source is displayed at a position including the second display point. During recording from the source A (output side source) to the source B (recording side source), the pictures A and B respectively displayed on the liquid crystal display unit 26 are moving images according to the output and recording conditions at the display positions. (In the above example, the picture corresponding to the tuner is not changed, and at least the picture corresponding to the source B (recording source) displayed on the liquid crystal display unit 26 is being recorded. Is a moving image expression depending on the recording status at the display position.)
[0063]
ATRAC is used for recording on MD, but ATRAC Stereo and ATRAC Mono as standard (same size) due to the difference in data compression rate, and ATRAC3 as data compression rate twice as high as standard There are LP2 Stereo and ATRAC3 LP4 Stereo as a data compression rate of 4 times. In recording audio to the MD, the recording side of the liquid crystal display unit 26 (= right side of the liquid crystal display unit 26 in the example) so that the user can intuitively recognize the data compression rate from the display of the liquid crystal display unit 26. It is appropriate to make the size of the MD picture displayed on the screen correspond to the data compression rate. FIG. 10 shows a display change in the liquid crystal display unit 26 when audio is dubbed from CD to MD by standard ATRAC. In FIG. 10 and FIGS. 11 and 12, which will be described later, each stage divided by a broken line indicates a display state of the liquid crystal display unit 26 at the same time, and an arrow indicates a change with time. On the left and right of each stage, pictures of CDs and MDs selected as the output source (left side) and the recording source (right side) in the current dubbing are displayed. As in the case of FIG. 10, when the data compression rate in the MD is standard, the outer dimension of the MD picture is the same as the outer dimension of the CD picture (hereinafter referred to as “standard dimension Ls”). The In the figure, 8 pieces of CD and MD are repeated as one cycle, and the disk appears to rotate clockwise as shown in FIGS. 4 and 5 described above. The number can be set arbitrarily other than eight.
[0064]
FIG. 11 shows a change in display on the liquid crystal display unit 26 when audio is dubbed from CD to MD by ATRAC with a data compression rate larger than the standard. When the data compression rate in the MD is larger than the standard, the outer dimension of the MD picture is smaller than the standard dimension Ls (hereinafter referred to as “small dimension L1”) and displayed on the liquid crystal display unit 26. The The user knows that the current recording on the MD is performed by ATRAC with a data compression rate larger than the standard by viewing the picture of the MD of the small dimension Ll on the liquid crystal display unit 26.
[0065]
FIG. 12 shows a second example of a display change on the liquid crystal display unit 26 when audio is dubbed from CD to MD by ATRAC with a data compression rate larger than the standard. In FIG. 11, the external dimensions of the MD picture are maintained at a predetermined small dimension L1 during audio recording. However, the MD dimensions in FIG. 12 repeat the standard dimension Ls and the small dimension Ll alternately. ing. Since the picture of the small dimension Ll may be difficult to see from a little distance, it is displayed alternately with the picture of the standard dimension Ls, and the user does not clearly know the picture of the standard dimension Ls of MD and MD. It is recognized that some small pictures are displayed alternately and repeatedly, so that the user understands that the current recording on the MD is performed at a data compression rate larger than the standard. .
[0066]
When the data compression ratio is set to the standard dimension Ls and the small dimension Ll, and the recording is performed at the standard data compression ratio, the picture having the outer dimension of the standard dimension Ls. When the recording is performed at a data compression rate different from the standard, it may be a dimension switching type that uniformly displays a picture having an outer dimension of the small dimension Ll. However, the ATRAC3 LP4 is more suitable for the ATRAC3. Since the data compression rate is larger than that of LP2, if the data compression rate is different, the outer dimensions of the picture are necessarily different, and the outer dimensions of the picture showing ATRAC3 LP4 are smaller than the outer dimensions of the picture showing ATRAC3 LP2. It's also good.
[0067]
In FIG. 11 and FIG. 12, the identification of the data compression rate at the time of recording on the MD is displayed due to the difference in the outer dimensions of the MD picture, but which data compression is performed during the reproduction of the audio from the MD. In order to inform the user of whether or not the audio recorded at a rate is playback, the audio data compression rate on the playback side is also used for the external dimensions of the MD picture displayed on the liquid crystal display unit 26 during the audio playback of the MD. Accordingly, the external dimensions of the MD picture of the liquid crystal display unit 26 can be switched. That is, FIG. 13 shows the display change of the MD on the liquid crystal display unit 26 when reproducing the MD in which the audio is recorded at different data compression rates. The vertical series in FIG. 13A is a display change at the time of reproduction when the data compression rate in the MD is standard, and is the same as the display change in FIG. 4, and the picture diagram maintains the standard dimension Ls. On the other hand, the vertical series in FIGS. 13B and 13C are display changes during reproduction when the data compression rate in the MD is larger than the standard, and the MD is selected as the recording source in FIGS. This is the same as the display change at the time, and the picture is maintained at the small dimension L1 in FIG. 13 (b), and the standard dimension Ls and the small dimension Ll are alternately repeated in FIG. 13 (c). Thus, the user can know at what data compression rate the current playback audio is recorded in the MD when playing back the MD.
[0068]
FIG. 14 shows display changes on the liquid crystal display unit 26 when CD audio is recorded on a CD-R. Similarly to the case of FIG. 10, each stage divided by a broken line indicates a display state of the liquid crystal display unit 26 at the same time, and an arrow indicates a time change. On the left and right of each stage, pictures of CDs and CD-Rs selected as output sources and recording sources in the current dubbing are displayed. In FIG. 14, the CD and CD-R pictures are the same, but different picture figures may be set for each so that the CD and CD-R can be identified. The audio apparatus main body 10 is equipped with only one CD player. However, in order to realize audio recording from a CD to a CD-R, it is necessary to be equipped with a CD-R drive. Further, the CD player of the audio device main body 10 is also used as a CD-R drive. If you If necessary, audio can be recorded from a tuner or cassette tape to a CD-R.
[0069]
ATRAC Stereo, ATRAC Mono, ATRAC3 LP2 Stereo, and When playing back an MD in which audio is recorded by ATRAC3 LP4 Stereo, the playback time, remaining playback time, and overall playback are shown to indicate in which recording mode the audio being played back was recorded in the MD. The recording mode is associated with the time and the symbol that separates the minute and second of the remaining reproduction time. For example, “:” is used as a delimiter in ATRAC Stereo, “•” in ATRAC Mono, “−” in ATRAC3 LP2 Stereo, and “=” in ATRAC3 LP4 Stereo. For example, when the playback-related time is 1 minute 23 seconds, the playback track is “1:23” when the playback track is related to ATRAC Stereo recording, and “1 · 23” when the playback track is related to ATRAC Mono recording. 23 ”,“ 1-23 ”when the recording relates to the recording of ATRAC3 LP2 Stereo, and“ 1 = 23 ”when the recording relates to the recording of ATRAC3 LP4 Stereo. In a general audio player, during MD playback, the elapsed time from the start of playback of the track being played back is displayed as playback time, so the recording mode information is separated into minutes and seconds of playback time. By expressing with a supplementary symbol, it is possible to omit adding a new display space for the information and reduce the display area.
[0070]
FIG. 15 is a pictorial diagram of an MD associated with each recording mode. (A) is associated with ATRAC Stereo, (b) is associated with ATRAC Mono, (c) is associated with ATRAC3 LP2 Stereo, and (d) is associated with ATRAC3 LP4 Stereo. These (a) to (d) are not displayed in a still image form, but may be displayed in a moving image form in which a pattern is rotated clockwise on the basis of these (a) to (d) as shown in FIG. it can. These (a) to (d) indicate that, when an MD is reproduced, a corresponding picture is displayed on the liquid crystal display unit 26 in accordance with the recording mode in which the track being reproduced is recorded. When selecting MD as the output source and recording source when copying Output source Also displayed on the liquid crystal display unit 26 as being associated with the recording mode.
[0071]
FIG. 16 shows the MD moving image format associated with ATRAC3 LP2 Stereo. A total of nine frames (still images that are displayed in order at regular intervals during video display) were prepared, and these frames were recorded with the ATRAC3 LP2 Stereo recording mode of the track during MD playback. When it is, it is displayed on the liquid crystal display unit 26 in a cyclic order in the direction of the arrow. 16 to 18, the disk is divided into 16 equal parts in the circumferential direction. In FIG. 16, the top left top is set as the first top of the moving image cycle. In the monochrome liquid crystal display unit 26, the eight divided parts in the right half are filled with black, and the eight parts in the left half are filled. The divided part is displayed in white. In the moving image cycle, the divided portions filled with black increase one by one in the clockwise direction, and when all the divided portions become black (bottom left in FIG. 16), one cycle is completed. When a pause (pause) operation is performed during playback with ATRAC3 LP2 Stereo, the top left frame in FIG. 16 instructed to be stopped is continuously displayed during the pause period.
[0072]
FIG. 17 shows the motion picture form of MD associated with ATRAC3 LP4 Stereo. A total of thirteen pieces are prepared, and these pieces are displayed on the liquid crystal display unit 26 in order in a cyclic manner in the direction of the arrow when the recording mode of the track being played back is recorded with ATRAC3 LP4 Stereo. Is displayed. In FIG. 17, the top left top is set as the first top of the moving image cycle. In the monochrome liquid crystal display unit 26, the four divided portions in the range of 90 ° from the top to the right in FIG. The other divided parts are white. In the moving image cycle, the number of divided portions filled in black increases one by one in the clockwise direction, and one cycle ends when all the divided portions become black. When a pause (pause) operation is performed during playback with ATRAC3 LP4 Stereo, the top left frame in FIG. 17 instructed to be stopped is continuously displayed during the pause period.
[0073]
FIG. 18 is a pictorial diagram of an MD associated with ATRAC Stereo and ATRAC Mono. 18A and 18B correspond to ATRAC Stereo and ATRAC Mono, respectively. In the ATRAC Stereo picture, the cross-direction divided portions are white, and the other divided portions are filled with black. On the other hand, the ATRAC Mono picture has a black and white reversal relationship with the ATRAC Stereo picture, and the cross-direction divided portion is painted black and the other divided portions are white. Note that the divided parts constituting the cross may be fixed, but normally, as the time elapses, the cross is rotated so that each divided part moves sequentially clockwise. It is considered as a moving image expression.
[0074]
The pictorial diagrams of FIGS. 16 to 18 show the audio tracks in addition to the corresponding pictorial diagrams displayed on the liquid crystal display unit 26 according to the recording mode in which the reproducing track is recorded when reproducing the MD. When the MD is selected as the output source and the recording source in the case of copying, it is also displayed on the liquid crystal display unit 26 as being associated with the MD with recording mode information.
[Brief description of the drawings]
FIG. 1 is a front view of an audio device main body.
FIG. 2 shows a pictorial diagram in which a user selects an output source or a recording source from a plurality of audio sources and displays them on a liquid crystal display unit corresponding to an audio device related to the selected source in the audio apparatus main body.
FIG. 3 is a diagram showing a series of frames arranged in order of display from left to right when operating in recording.
FIG. 4 is a diagram showing a series of frames when recording, arranged in order of display from left to right.
FIG. 5 is a diagram showing a series of frames arranged in order of display from left to right when a CD player unit is selected and a CD is played.
FIG. 6 is a diagram illustrating a pictorial diagram relating to a tuner unit;
FIG. 7 is a diagram showing a picture displayed on the liquid crystal display unit when the CD player unit is selected as a playback source and is paused (paused).
FIG. 8 is a diagram illustrating display contents of a liquid crystal display unit when a radio broadcast is recorded on an MD.
FIG. 9 is a diagram illustrating display contents of a liquid crystal display unit when a CD music is recorded on an MD.
FIG. 10 is a diagram showing a display change in the liquid crystal display unit when audio is dubbed from CD to MD by standard ATRAC.
FIG. 11 is a diagram showing a display change on the liquid crystal display unit when audio is dubbed from CD to MD with ATRAC having a data compression rate larger than the standard.
FIG. 12 is a diagram illustrating a second example of a display change on the liquid crystal display unit when audio is dubbed from CD to MD by ATRAC with a data compression rate larger than the standard.
FIG. 13 shows changes in MD display on the liquid crystal display unit when MDs with audio recorded at different data compression rates are reproduced.
FIG. 14 is a diagram showing a display change on the liquid crystal display unit when CD audio is recorded on a CD-R.
FIG. 15 is a pictorial diagram of an MD associated with each recording mode.
FIG. 16 shows a moving image form of MD associated with ATRAC3 LP2 Stereo.
FIG. 17 shows a moving image form of MD associated with ATRAC3 LP4 Stereo.
FIG. 18 is a pictorial diagram of MDs associated with ATRAC Stereo and ATRAC Mono.
[Explanation of symbols]
10 Audio equipment (recording / playback equipment)
26 Liquid crystal display (display)

Claims (4)

In a recording / playback apparatus capable of recording information output from an output source that outputs information to a recording source at a data compression rate selected from a plurality of data compression rates,
A period during which the information output from the output source is recorded in the recording source (hereinafter referred to as “period A”);
A first display unit that displays a pictorial representation of the output source as a first display;
A second display unit that displays a pictorial representation of the recording source and corresponding to a data compression rate being executed in the recording source as a second display;
Equipped with a,
The recording / playback apparatus, wherein the second display is a display in which a size of a picture is associated with a data compression rate being executed in the recording source. In a recording / playback apparatus capable of recording information output from an output source that outputs information to a recording source at a data compression rate selected from a plurality of data compression rates,
A period during which the information output from the output source is recorded in the recording source (hereinafter referred to as “period A”);
A first display unit that displays a pictorial representation of the output source as a first display;
A second display unit that displays a pictorial representation of the recording source and corresponding to a data compression rate being executed in the recording source as a second display;
Equipped with a,
Wherein the second display, and characterized in that for displaying a pictorial of dimensions to correspond to the data compression ratio in execution in the graphical recording source said selected standard sizes alternately in time Recording / playback equipment. The first display section, the second display section, output source selection means for selecting an output source, and recording source selection means for selecting a recording source are arranged on the same operation panel surface of the apparatus body. The recording / reproducing apparatus according to claim 1 , wherein the recording / reproducing apparatus is provided. In a playback apparatus for performing playback corresponding to a recording mode at the time of recording with respect to a recording source in which information is recorded in a recording mode selected from a plurality of recording modes,
Playback period of the recording source,
A plurality of pictures imitating the recording source are displayed in a moving picture form, and the first picture in the moving picture cycle is a picture corresponding to a recording mode in which information being reproduced is recorded in the recording source. A display unit for displaying a third display ;
The recording source is an rewritable optical disc,
The recording source display corresponding to the recording source includes a disk shape,
In the third display, the disk shape is divided into a plurality of equally divided portions that are equally divided in the circumferential direction, and each equally divided portion is set to a first or second color, and the first and second colors are used as the first display. From the first color-coded state of the disk shape, the equally divided portion occupied by the first color portion is replaced with the equally divided portion occupied by the second color portion one by one in the circumferential direction over time, and in the last color-coded state, All of the equally divided portions of the disk shape are the first color, and the color-coded state is cyclically repeated as one cycle from the first color-coded state to the last color-coded state. Corresponds to a data compression rate as a recording mode.

Images