JP3624504B2 - Information signal recording / reproducing apparatus and recording / reproducing method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording / reproducing apparatus, for example, when recording an audio signal reproduced by a compact disc player by a mini-disc apparatus, by displaying a reproducing position, a recording position, etc. by a bar graph display arranged side by side. The time information necessary for grasping the situation is visually and sensibly displayed, and through this display, the situation of recording and reproduction can be grasped intuitively.
[0002]
[Prior art]
Conventionally, in compact discs and minidiscs, various management information is recorded in the lead-in area formed on the innermost circumference, and this management information indicates the recording start position, recording end position, overall performance time, etc. of each song. It can be detected. In a compact disc, position information is recorded together with an audio signal, and in a minidisc, position information is recorded by a pregroove that forms a guide groove for a laser beam.
[0003]
By effectively using the management information and the position information, the compact disc player can perform the entire performance time, the accumulated reproduction time up to the present (hereinafter referred to as reproduction accumulation time), and the remaining reproduction time (hereinafter referred to as reproduction remaining time). And so on. Similarly, in the mini-disc device, the recording area is converted to time information (hereinafter referred to as recording integrated time) and the remaining recordable time (hereinafter referred to as remaining recording time) is displayed. As a result, the user-friendliness is improved.
[0004]
Here, these time displays are formed by displaying these time information as character information on a liquid crystal display panel or the like, for example, and the display of the accumulated reproduction time is, for example, 12 minutes 34 seconds from the start of the compact disc. Is reproduced by displaying the characters “12:34” on a liquid crystal display panel or the like. As a result, the compact disc player and the mini disc device allow the user to easily and reliably confirm the performance time and the like.
[0005]
[Problems to be solved by the invention]
By the way, in this type of audio device, there is a device in which a compact disc player and a mini disc device are held together so that an audio signal reproduced by the compact disc player can be recorded by the mini disc device (so-called dubbing). ).
[0006]
In this dubbing, the total performance time of the compact disc does not necessarily match the recordable time of the mini disc, and it is also possible to record on the mini disc following the already recorded performance. If at least the accumulated reproduction time, the remaining reproduction time, the accumulated recording time, and the remaining recording time can be confirmed at the same time, it is possible to judge the dubbing situation, which is convenient.
[0007]
In this case, as shown in FIG. 11, a method of displaying these four types of time information side by side is conceivable. That is, it is indicated by the character display of “CD” indicating that it is time information of the compact disc, adjacent to this display, the reproduction integrated time (displayed as “12:34”), and the remaining playback time (“REMAIN 30:10”). Display). Further, it is indicated by the character display of “MD” that it is the time information of the mini-disc, and the accumulated recording time (displayed as “12:34”) and the remaining recording time (“REMAIN 47:26”) are adjacent to this display. Display).
[0008]
However, if time information is simply displayed side by side in this way, there is a problem that it is difficult to immediately grasp the progress of dubbing. In this case, if this type of time information can be grasped visually and sensuously, it is considered that the progress of dubbing can be intuitively grasped.
[0009]
The present invention has been made in view of the above points, and an object of the present invention is to propose a recording / reproducing apparatus that can visually and sensibly grasp time information necessary for grasping a recording / reproducing situation.
[0010]
[Means for Solving the Problems]
In this invention,
In a recording / reproducing apparatus for reproducing an information signal recorded on a first disk-shaped recording medium and recording the information signal on a second disk-shaped recording medium,
The recording / reproducing apparatus comprises:
Reproduction position detection means for detecting reproduction position and generating reproduction position information based on position information recorded on the first disc-shaped recording medium;
Recording position detecting means for detecting the recording position and generating the recording position information based on the position information recorded on the second disc-shaped recording medium;
With predetermined display means
Have
The display means is
Based on the reproduction position information and the recording position information, the first and second bar graph-shaped displays corresponding to the first and second disk-shaped recording media are formed side by side,
While displaying the reproduction position and the recording position by the first and second bar graph display,
Forming the first bar graph display so that the maximum length of the first bar graph display corresponds to the reproducible data amount of the first disc recording medium;
The maximum length of the second bar-graph display is equal to the maximum length of the first bar-graph display, and corresponds to the recordable data amount of the second disc-shaped recording medium. To form the second bar graph display
Information signal recording / reproducing apparatus
It is what.
[0011]
Furthermore, in this invention,
In a recording / reproducing apparatus for selectively reproducing an information signal recorded on a first disk-shaped recording medium and recording the information signal on a second disk-shaped recording medium,
The first and second disc-shaped recording media are:
The information recording surface is divided into a management area for recording management information and an information signal recording area for recording the information signal,
It is formed so that the information signal recorded in the information signal recording area can be managed by the management information,
The recording / reproducing apparatus comprises:
Reproduction side management information detecting means for reproducing the management information of the first disc-shaped recording medium and detecting reproduction side management information;
Recording-side management information detecting means for reproducing the management information of the second disc-shaped recording medium and detecting recording-side management information;
With predetermined display means
Have
The display means is
Forming the first and second bar graph-like displays corresponding to the first and second disc-shaped recording media side by side,
Information signal data recorded on the first and second disc-shaped recording media according to the display lengths of the first and second bar graphs based on the reproduction-side management information and the recording-side management information, respectively. Display the quantity,
Based on the reproduction-side management information, the information signal to be selectively reproduced is displayed by blinking on the first bar graph display,
The order in which the selectively reproduced information signals are recorded on the first disc-shaped recording medium is displayed by increasing the blinking position in accordance with the increase in the number of selectively reproduced information signals. ,
On the second bar graph display, the area corresponding to the data amount of the flashing display is flashed.
Information signal recording / reproducing apparatus
It is what.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
[0021]
FIG. 1 is a block diagram showing an audio apparatus according to an embodiment of the present invention. In response to the operation of the operation element detected in the operation block 2, the audio apparatus 1 switches the operation of the compact disk block (CD block) 4 and the mini disk block (MD block) 5 by the system control circuit 3 and is compact. A compact disk is reproduced by a disk block (CD block) 4, and a mini disk is recorded and reproduced by a mini disk block 5. At this time, the system control circuit 3 drives the display block 6 to display various information.
[0022]
Here, in the compact disc to be processed by the compact disc block 4, a lead-in area, a program area, and a lead-out area are formed in order from the innermost circumference side, and audio data is recorded in this program area.
[0023]
Audio data to be recorded on this compact disc is added with error correction codes, subcodes, etc. in predetermined block units, then converted into a recording data string by prescribed data processing, and a program is set so as to correspond to this recording data string Pits are sequentially formed in the area and recorded. The audio data is formed so as to be surely reproduced by error correction processing using this error correction code, and the inter-music piece, reproduction position, reproduction integration time, etc. of the audio data can be detected by the sub code.
[0024]
The compact disc records the management information of the audio data in the lead-in area. That is, in the lead-in area, the sub-code is added to the compact disc and recorded in the lead-in area, and a TOC (Table Of Contents) is formed by the data in the prescribed format. By this TOC, the total reproduction time of the audio signal recorded in the program area, the reproduction time of each performance (hereinafter referred to as music), the recording start position of each music, etc. are recorded on the compact disc. As a result, the compact disc is formed so that time information such as the total performance time can be detected by reproducing the lead-in area, and the remaining reproduction time is determined based on the management information and the subcode recorded in the program area. Detection processing, so-called reproduction processing by so-called program selection, etc. can be executed.
[0025]
FIG. 2 is a block diagram showing the configuration of the compact disk block 4. The compact disk block 4 rotates the compact disk 11 with a spindle motor 12. In this state, the compact disc block 4 emits a laser beam from the optical pickup 13. Here, the optical pickup 13 is held so as to be movable in the radial direction of the compact disc 11, whereby the compact disc block 4 can move the optical pickup 13 as necessary to reproduce the TOC from the lead-in area. In addition, a desired music piece can be selected based on the reproduced TOC.
[0026]
Further, the optical pickup 13 receives the return light from the compact disk 11 by a plurality of photodetectors, and the compact disk block 4 drives the optical pickup 13 by the servo circuit 14 based on the light reception results to perform tracking control and focus control. To do. Further, the optical pickup 13 generates a reproduction signal RF whose signal level changes according to the amount of return light from the output signals of these photodetectors, and the amplifier circuit 15 amplifies the reproduction signal RF with a specified gain and performs digital signal processing. Output to the circuit 16.
[0027]
The digital signal processing circuit 16 is formed of an integrated circuit and operates according to an operation mode set by the system control circuit 17 of the compact disk block 4. That is, the digital signal processing circuit 16 detects a reproduction clock from the reproduction signal RF in an EFM (Eight to Four Modulation) demodulation circuit 19 and outputs the reproduction clock to the speed control circuit 20. The speed control circuit 20 drives the spindle motor so that the reproduction clock has a prescribed frequency, and thereby the compact disk block 4 rotates the compact disk 11 under the condition of a constant linear velocity.
[0028]
Further, the EFM demodulating circuit 19 binarizes the reproduction signal RF, converts it into serial data on the basis of the reproduction clock, and EFM-demodulates the serial data. The deinterleave circuit 21 stores the output data of the EFM demodulation circuit 19 in a random access memory (RAM) 22 and performs a deinterleave process. Further, the deinterleave circuit 21 outputs the data stored in the random access memory 22 to the CIRC error correction circuit 23, where error correction processing is performed using the error correction code added to the audio data.
[0029]
Thus, in the compact disk block 4, audio data is correctly decoded to generate a digital audio signal, and the band of the digital audio signal is limited by the digital filter 24. The compact disc block 4 outputs the digital audio signal DA to the mini disc block 5 (FIG. 1) when the compact disc 11 is dubbed. On the other hand, when the compact disk 11 is simply reproduced, it is converted into an audio signal SA made up of an analog signal via a digital / analog conversion circuit (D / A) 25 and output to a speaker via an amplifier circuit (not shown).
[0030]
For such an audio data reproduction system, the digital signal processing circuit 16 outputs the subcode SUB added to the audio data to the system control circuit 17. Further, the system control circuit 17 controls the operation of the compact disk block 4 so as to reproduce the lead-in area when the compact disk 11 is loaded or the power is turned on, and is obtained from the lead-in area. TOC data is input from the digital signal processing circuit 16.
[0031]
Thus, the system control circuit 17 detects the total performance time of the compact disc 11, the number of recorded songs, and the performance time of each song from the TOC data, and displays them on the display block 6 via the system control circuit 3 as necessary. It has been made possible. Further, the recording start position of the music can be detected from the TOC data, and the optical pickup 13 can be moved based on the subcode SUB based on the detection result so that the desired music can be reproduced. The program can be reproduced according to the performance order input via the circuit 3.
[0032]
During reproduction, the reproduction accumulated time and the remaining reproduction time of the compact disc 11 are detected based on the subcode SUB and can be displayed on the display block 6 via the system control circuit 3 as necessary. Thus, the playback time of each song and the remaining playback time of each song can be displayed.
[0033]
On the other hand, the mini-disc to be processed by the mini-disc block 5 has a lead-in area, a program area, and a lead-out area in order from the innermost side, and a spiral shape from the inner side toward the outer side. In addition, a pregroove for forming a laser beam guide groove is formed. This pre-groove is formed by meandering by a so-called wobble signal, and a compact disc is formed so that tracking control can be performed with reference to this pre-groove, and the address of the recording / reproducing position can be detected with reference to this meandering. Has been made. In the mini-disc, after the compressed audio data is subjected to the same data processing as that of the compact disc, it is recorded in the program area with reference to this pre-groove.
[0034]
Also, the mini disc records the management information of the audio data recorded in the program area in the lead-in area, like the compact disc. That is, in the minidisc, data in a prescribed format is recorded by preformatting on the inner periphery side of the lead-in area, and a P-TOC is formed by this data. The mini-disc is formed so that the subsequent lead-in area can be updated as audio data is recorded / reproduced, whereby a U-TOC is formed in the remaining lead-in area.
[0035]
Here, the P-TOC is formed by a plurality of sectors, and mainly manages a reproduction-only area, U-TOC, formed on the mini-disc by these sectors. That is, FIG. 3 is a chart showing the P-TOC of sector 0 among the P-TOCs of the plurality of sectors. In the P-TOC of sector 0, the head 8 bits × 4 × 6 area is allocated to the header, and a synchronization pattern formed by arranging all 1 or all 0 1-byte data is allocated to this header. Further, the upper address and lower address (cluster H and cluster L) of the cluster are divided and assigned to this header.
[0036]
Following the header, a character code of “MINI” is assigned by the ASCII code, and the type of the disk is specified. Subsequently, the disc type and recording level data are allocated, and then the track number (First TNO) of the first recorded music and the track number (Last TNO) of the last music number are recorded. In addition, the start address (PO) of the lead-out area, the address (PC) of the light amount adjustment area, the start address (UST) of the U-TOC area, and the start address (RST) of the recordable area are recorded. With this information, the mini-disc is formed so that the U-TOC area, the program area, etc. can be accessed.
[0037]
Subsequently, the P-TOC is set so that 255 pointers (P-TNO) of each reproduction-only music can be sequentially recorded, and start addresses and end addresses corresponding to the pointers are sequentially recorded. ing. As a result, the program area of the playback-only mini-disc, the so-called hybrid type mini-disc (which consists of a mini-disc formed by dividing the program area into a playback-only area and a recordable playback area), The number of recorded music can be detected by the track number (First TNO) of the first music and the track number (Last TNO) of the last music. In this kind of program area, the recording position of each music piece can be confirmed from the pointer (P-TNO) of each music piece and the corresponding start address and end address. Furthermore, the start address and end address can be confirmed. Is converted into time information so that the performance time of each song can be confirmed.
[0038]
On the other hand, in the hybrid type mini-disc and the mini-disc formed with the entire program area in the recordable area, the lead-out area (PO) and the start address (RST) of the recordable area are detected. An area that can be recorded and reproduced can be detected. In addition to this, with this type of mini-disc, it is possible to confirm the recording position of each piece of music recorded in this recordable / reproducible area by referring to the U-TOC from the start address (UST) of the U-TOC area. In addition, an unrecorded area can be detected.
[0039]
That is, the U-TOC is formed by a plurality of sectors as in the P-TOC, and manages a recordable / reproducible area formed on the mini-disc by these sectors. FIG. 4 is a chart showing the U-TOC of sector 0 among the U-TOCs of the plurality of sectors. In the U-TOC of sector 0, the head 8 bits × 4 × 7 area is allocated to the header, and a synchronization pattern formed by arranging all 1 or all 0 1-byte data is allocated to this header. Further, the upper address and lower address (cluster H and cluster L) of the cluster are divided and assigned to this header.
[0040]
Subsequently, the maker code (Maker code), the model code (Model code), the track number of the first music (First TNO), and the track number of the last music (Last TNO) are recorded in the U-TOC. Subsequently, the sector use status (Used Sector), disc serial number (Disc Serial NO), disc ID (Disc ID), etc. are recorded with all 0 data in between.
[0041]
Subsequently, the U-TOC is set so that 255 pointers (P-TNO) can be sequentially recorded for each piece of music recorded in the recordable / reproducible program area. Here, in the case of a mini-disc, there may be a case where a desired music is deleted from a plurality of music recorded continuously. In addition, there may be a case where music is separately recorded in the erased area, and further, these processes may be executed by a single recording process. In these cases, for example, the performance time of newly recorded music may be longer than that of the erased area. Even in such a case, the mini-disc can record the newly recorded music in the erased area and record the rest in other unrecorded areas so that the erased area can be used effectively. Has been made. Here, each piece of music recorded discretely in this way is called a part.
[0042]
In the U-TOC, the start address and end address of each part are sequentially recorded by the start address and end address corresponding to the pointer (P-TNO). Corresponding to the start address and end address, mode information (Track mode) of each part and a link pointer (Link-P) having the same expression format as the pointer (P-TNO) for specifying the subsequent part are recorded. It is made to be done. As a result, in this type of minidisc, for each piece of music, after a part is played based on the start address and end address corresponding to the pointer (P-TNO) of each piece, the link pointer is set. Each piece of music can be reproduced by tracing the link pointer and sequentially reproducing the following parts based on the start address and end address of the corresponding pointer (P-TNO).
[0043]
In the P-TOC, the pointer (P-TNO) designates the start address and end address of each part. In the case of the P-TOC, the playback-only area is managed. Since the music is recorded as one part, all-zero data is recorded as data corresponding to the link pointer (FIG. 3), and in practice, the pointer (P-TNO) has each corresponding to the track number. A song is specified.
[0044]
In this way, in a recordable / reproducible mini-disc, a track pointer (P-TNO) and a corresponding link pointer are sequentially traced to obtain a cumulative value of address data from a start address and an end address, and this cumulative value is used as time information. The recording time of each musical piece can be confirmed in terms of, and the total recording time can be detected by accumulating these recording times. Further, the remaining recording time having the opposite relationship can be detected by subtracting the accumulated time detected in this way from the total recordable time detected from the P-TOC.
[0045]
Further, based on the performance time of each piece of music detected in this way and the recording / reproducing position detected from the pre-groove, the accumulated reproduction time, the remaining reproduction time, the accumulated recording time, and the remaining recording time can be detected.
[0046]
FIG. 5 is a block diagram showing a mini-disc block 5 for reproducing this mini-disc. The mini disk block 5 rotates the mini disk 31 with a spindle motor 32. In this state, the mini-disc block 5 emits a laser beam from the optical pickup 33. Here, the optical pickup 33 is held so as to be movable in the radial direction of the mini-disc 31 by the thread mechanism 35 together with the modulation coil 34 held so as to be opposed to each other with the mini-disc 31 interposed therebetween. The block 5 is formed so that the optical pickup 33 and the modulation coil 34 are moved as necessary so that the P-TOC and U-TOC can be reproduced from the lead-in area, and the U-TOC can be updated. It is formed so that desired music can be recorded and reproduced based on P-TOC and U-TOC.
[0047]
Further, the optical pickup 33 receives the return light from the mini-disc 31 with a plurality of photodetectors, and the mini-disc block 5 amplifies these light reception results via the amplifier circuit 36 and outputs them. At this time, the optical pickup 33 performs a calculation process on the light reception result, so that the tracking error signal TE whose signal level changes according to the tracking error amount, the focus error signal FE whose signal level changes according to the focus error amount, and the pregroove. The wobble signal in which the signal level changes is generated following the meandering. Further, the optical pickup 33 intermittently raises the light amount of the laser beam at the time of recording, whereas at the time of reproduction, the optical pickup 33 generates a reproduction signal MO whose signal level changes according to the change of the polarization plane of the return light. Generate.
[0048]
The servo circuit 37 moves the objective lens 33a of the optical pickup 33 vertically and horizontally so that the signal levels of the focus error signal FE and the tracking error signal TE become 0 level, thereby performing focus control and tracking control. . In addition, the servo circuit 37 rotates the spindle motor 32 so that the center frequency of the wobble signal becomes a specified frequency, thereby rotating the minidisk at a specified rotational speed. Further, the servo circuit 37 is controlled by the system control circuit 38 to drive the sled mechanism 35, thereby moving the optical pickup 33 and the modulation coil 34 to a desired recording / reproducing position.
[0049]
The address decoder 39 generates a reproduction clock based on the wobble signal. The address decoder 39 frequency-demodulates the wobble signal, thereby detecting address data recorded by pregroove meandering. The address decoder 39 outputs the detected address data to the encoder / decoder 40 and the system control circuit 38 so that the system control circuit 38 can detect the recording / reproducing position.
[0050]
At the time of reproduction, the encoder / decoder 40 binarizes the reproduction signal output from the amplification circuit 36 and then converts it into serial data with reference to the reproduction clock. Further, the encoder / decoder 40 performs error correction processing after EFM demodulation of the serial data, and outputs the resulting audio data to the memory controller 42. Contrary to these processes, at the time of recording, the encoder / decoder 40 converts the audio data input via the memory controller 42 into a prescribed data structure, and then performs EFM modulation, thereby generating a recording data string. .
[0051]
During recording, the drive circuit 41 drives the modulation coil 34 in accordance with the recording data string, and thereby applies a modulation magnetic field corresponding to the recording data string to the irradiation position of the laser beam output from the optical pickup 33. Thus, the minidisk block 5 can record desired audio data by applying a thermomagnetic recording technique.
[0052]
During reproduction, the memory controller 42 temporarily stores the audio data input from the encoder / decoder 40 in the large-capacity random access memory 43 and then outputs it to the audio compression encoder / decoder 44. At this time, the memory controller 42 outputs audio data at a data transfer rate that is ½ of that at the time of storage. Thus, in the mini disc block 5, at the time of reproduction, the audio data is reproduced from the mini disc 31 at a double transfer speed, and the random access memory 43 is used as a buffer memory, and the parts specified by the link pointer are discretely distributed. Even when playing back, sound interruptions can be effectively avoided.
[0053]
On the other hand, at the time of recording, the memory controller 42 temporarily stores the audio data output from the audio compression encoder / decoder 44 in the random access memory 43 and then outputs it to the encoder / decoder 40. At this time, the memory controller 42 outputs audio data at a data transfer rate twice as high as that at the time of storage. Thereby, in the mini disc block 5, at the time of recording, the audio data is recorded on the mini disc 31 at the double transfer speed, the random access memory 43 is used as a buffer memory, and one piece of music is disassembled into parts, and the program is recorded. Even when recording is sequentially performed in a recordable area that remains discretely in the area, recording can be performed while effectively avoiding sound interruption.
[0054]
The audio compression encoder / decoder 44 decompresses the audio data output from the memory controller 42 during reproduction and outputs a digital audio signal DA. When the mini-disc 31 is simply reproduced, it is converted into an audio signal SA made up of an analog signal through the digital / analog conversion circuit 46 and output to a speaker through an amplifier circuit (not shown).
[0055]
On the other hand, the audio compression encoder / decoder 44 converts the audio signal SA sequentially input during recording into a digital audio signal by the analog-digital conversion circuit 47, and compresses the digital audio signal to compress the audio data. Generate. When the compact disc 11 is dubbed, the digital audio signal DA output from the compact disc block 4 is compressed to generate audio data, and this audio data is output to the memory controller 42. As a result, in the audio apparatus 1, the audio signal of the compact disc 11 can be dubbed to the mini disc.
[0056]
For such an audio data recording / reproducing system, the encoder / decoder 40 reproduces P-TOC and U-TOC data obtained by reproducing the lead-in area and outputs the data to the system control circuit 38. Further, the drive circuit 41 is driven based on the U-TOC data output from the system control circuit 38, thereby updating the U-TOC of the mini-disc 31.
[0057]
In response to this, the system control circuit 38 controls the operation of the mini-disc block 5 so as to reproduce the lead-in area when the mini-disc 31 is loaded or when the power is turned on. P-TOC and U-TOC data are taken in from the decoder 40. Further, the system control circuit 38 forms a table formed by the pointer (P-TNO), the start address, the end address, the link pointer, etc. described above with reference to FIG. 4 in the internal memory from the fetched U-TOC data. The overall operation is controlled based on this table, and the audio signal recorded on the mini-disc 31 is reproduced.
[0058]
Further, the system control circuit 38 controls the audio signal input from the external device and the audio data output from the compact disk block 4 under the control of the system control circuit 3 on the basis of the table formed therein. And a table formed therein corresponding to the recording process is sequentially updated. Further, the system control circuit 38 outputs the data of the table formed therein to the encoder / decoder 40 when the power of the audio apparatus is turned off or the mini-disc is ejected, and thereby the contents of the U-TOC. Update.
[0059]
When executing the recording / reproducing process in this way, the system control circuit 38 detects the total recordable time of the mini-disc 31 from the P-TOC data as described above with reference to FIG. By sequentially tracking the start address of each part from the TOC data and accumulating the address data, it is converted into time information, thereby detecting the performance time of each song, the number of recorded songs, and the performance time of the entire recorded song, and necessary. In response to this, the image is displayed on the display block 6 via the system control circuit 3.
[0060]
Further, the system control circuit 38 detects the remaining recordable time by subtracting the performance time of the entire recording tune obtained in this way from the total recordable time, and similarly, via the system control circuit 3 as necessary. Displayed on the display block 6. Further, the system control circuit 38 calculates the playback integration time, playback remaining time, recording integration time, recording remaining time, etc. during recording / playback from the address data obtained from the address decoder 39 based on these address data and wobble signal. Detect and display.
[0061]
The audio apparatus 1 displays the time information obtained from the compact disc block 4 and the mini disc block 5 in this way on the display block 6 as required (FIG. 1). In this display, the audio device 1 displays the time information so that the progress of the dubbing can be grasped visually and sensibly during dubbing.
[0062]
That is, the display block 6 (FIG. 1) is formed by a liquid crystal display panel 49 and peripheral circuits that drive the liquid crystal display panel. The liquid crystal display panel 49 has rectangular segments arranged continuously in a straight line. Bar graph-like displays 50 and 51 can be formed. In the case of this embodiment, the bar graph-like displays 50 and 51 can be formed by 20 segments. The segments are arranged in two rows in the vertical direction corresponding to the arrangement of the compact disc 11 and the mini disc 31 in the audio apparatus 1, and the compact disc 11 and the mini disc 31 are arranged at the left end of the arrangement, respectively. "CD" and "MD" character display portions corresponding to the above are formed. As a result, in the audio apparatus 1, in the operation mode in which the compact disc is selected and the operation mode in which the mini disc is selected, the character display portion is lit so that the user can grasp the operation mode.
[0063]
Also, on the left side of the character display, stylized symbols 52 and 53 of the compact disc 11 and the mini disc 31 are formed, respectively. Here, the symbols 52 and 53 are formed so as to form an elliptical design by a set of substantially fan-shaped segments. In the audio apparatus 1, the substantially fan-shaped segments are sequentially lit in a cyclic manner. , The state in which the compact disc is being reproduced and the state in which the mini-disc is being recorded and reproduced are visually displayed.
[0064]
Therefore, in this display block 6, when the audio signal of the compact disc 11 is dubbed to the mini disc 31, the symbols 52 and 53 are both displayed cyclically, so that the user can confirm the operation mode easily and reliably. It is made like that. The symbol 53 on the mini disc side is formed so as to surround an elliptical display by a rectangular display indicating a case, whereby the audio device 1 has a symbol similar to the outer shape of the compact disc 11 and the mini disc 31. Is displayed so that the operating statuses of the compact disk block 4 and the mini disk block 5 can be reliably identified.
[0065]
In addition, an arrow-shaped display from the symbol 52 of the compact disc 11 to the symbol 53 of the mini-disc 31 is formed between the symbols 52 and 53 and the character display. During dubbing, the arrow display is turned on. The flow of the audio signal is visually displayed. As a result, the audio apparatus 1 allows the user to easily and surely grasp the dubbing operation mode by visually observing the display of the arrow in a state where the symbols 52 and 53 are cyclically displayed. Has been made.
[0066]
Further, in this liquid crystal display panel 49, a character display portion 55 is formed at the lower and right ends of the bar graph display, and this character display portion 55 is formed so that the track number and time information being reproduced can be displayed. Thus, the accumulated reproduction time, remaining reproduction time, recordable time, accumulated recording time, remaining recording time, and the like of the compact disc 11 and mini disc 31 can be accurately confirmed.
[0067]
Accordingly, the audio device 1 uses the bar graph-like displays 50 and 51 so that the dubbing progress can be visually and sensibly grasped during dubbing, and only the compact disc 11 is reproduced. In this case, even when only the mini-disc 31 is recorded and reproduced, the operation status can be visually and sensibly grasped.
[0068]
The display of the display block 6 is formed by being controlled by the system control circuit 3 that controls the operation of the entire audio apparatus 1. That is, the system control circuit 3 lights up the character display of “CD” when the user operates the operator to select the operation mode of the compact disc. In this state, when the playback control is operated, the symbols 52 of the compact disc 11 are displayed cyclically.
[0069]
Further, the system control circuit 3 switches the display of the character display unit 55 in response to a user operation, and displays the accumulated reproduction time and remaining reproduction time of the entire compact disc 11, the reproduction time and the remaining reproduction time of each music piece, and the like. Further, all segments arranged side by side in the character display of “CD” are turned on to form a bar graph display 50. In this state, the system control circuit 3 detects the playback position in the total performance time of the compact disc 11 based on the time information obtained from the system control circuit 17 of the compact disc block 4, and counts from the left end of the bar graph display. The segment at the corresponding position is displayed in a blinking manner (in the drawing, the blinking segment is indicated by an asterisk). In other words, the system control circuit 3 is in a state in which the entire length of the bar graph display 50 corresponds to the total performance time of the compact disc 11 and the left end is set as the performance start position in a state where all segments are lit. The playback integration time is detected from the playback position obtained from the subcode, and the segment corresponding to this playback integration time is displayed blinking.
[0070]
As a result, the system control circuit 3 sets the length of the bar graph display to indicate the total playback time of the compact disc 11 even when the recording time varies depending on the compact disc 11, and sets the playback position on the bar graph. indicate. As a result, the user can visually grasp the state of reproduction such as when the compact disc 11 is substantially half reproduced, and the usability of the audio apparatus can be improved accordingly. Also, the cumulative playback time and remaining playback time can be easily and visually grasped from the left side of this blinking display, the length of the bar graph, and the right side, the length of the bar graph, and track number and time information as necessary. Can be displayed as character information, and accurate time information can be detected.
[0071]
If the compact disc to be played back by the compact disc block 4 is a so-called single CD, the system control circuit 3 replaces the length of the bar graph display 50 by lighting of all segments with the total performance time of the compact disc, instead of assigning the length of all segments. The performance time allocated to one segment is set so that the length of the bar graph display 50 by lighting is 74 minutes (that is, in this embodiment, the total number of segments is 20, so that 3.7 per segment is obtained). The above-mentioned bar graph display 50 is formed by lighting the segment for the duration of the single CD.
[0072]
On the other hand, when the compact disc 11 is played back by the program, the system control circuit 3 effectively uses the bar graph display 50 at the time of music selection to assist the user in music selection work. That is, when the user selects the program playback operation mode, the system control circuit 3 switches the display of the character display unit 55 and sets the track number and recording time of each song recorded on the compact disc 11 in response to the user's operation. It is displayed on the character display unit 55. Further, the system control circuit 3 turns on all the bar graph-like displays 50 on the compact disc side, and when the user selects a desired music piece, detects the start address and end address of the corresponding track.
[0073]
Subsequently, the system control circuit 3 sets the entire length of the bar graph display 50 to be the total performance time of the compact disc 11 when all the segments of the bar graph display 50 are lit, and is selected by the user. The number of performance time segments corresponding to the entire length of the bar graph display is detected from the performance time of the music piece. At this time, if the performance time of the music selected by the user is less than one segment, the system control circuit 3 sets the corresponding number of segments to a value of one. Subsequently, the system control circuit 3 sets the left end side of the bar graph display 50 to the lead-in area side, detects the segment position corresponding to the music selected by the user from the start address, and the number of segments detected before this position Only the bar graph display 50 blinks. In this case as well, when the compact disc 11 is a mini-CD, the system control circuit 3 uses one segment instead of setting the total length of the bar graph display 50 by lighting of all the segments to the total performance time of the compact disc 11. A bar graph-like display 50 is formed by setting the per-play time to 3.7 minutes.
[0074]
Thus, in this display, the position and time of the music selected by the user can be displayed visually and sensibly, and the user can assist the selection operation. Incidentally, when the reproduction of this program music selection is started, the system control circuit 3 blinks and displays the segment corresponding to the reproduction position as well as the remaining segment in the same manner as in the previous reproduction operation.
[0075]
On the other hand, when the user selects the operation mode of the mini disk, the system control circuit 3 turns on the character display (MD) of the mini disk instead of the character display (CD) of the compact disk 11. Further, when recording / reproducing of the mini-disc is started, the mini-disc symbol 53 is cyclically displayed. Further, in response to the user's selection operation, the character display section 55 displays the track number and recording time, recording accumulated time, accumulated reproduction time, remaining recording time, recordable time, etc. of the music to be recorded and reproduced.
[0076]
Further, the system control circuit 3 displays a bar graph display 51 on the mini disc side instead of the bar graph display on the compact disc 11 side. At this time, when the mini-disc is reproduced in the normal mode, the system control circuit 3 has a total length of 74 minutes (which is the standard recordable time of the mini-disc) when all segments are lit. The performance time per unit segment assigned to each segment is set so as to correspond to the performance time, and the segment of this bar graph display 51 is lit from the left end for the total recording time of the mini disc detected by following the link pointer. To do. Accordingly, in this embodiment, the number of segments in the bar graph display 51 is selected to be 20, so that a data amount corresponding to 3.7 minutes is allocated to one segment.
[0077]
Further, the system control circuit 3 similarly calculates the total performance time for the music having a track number lower than that of the music being reproduced, and from the start of performance of the music being reproduced to the current time based on the address data detected from the wobble signal. The elapsed time of is calculated. The system control circuit 3 adds the two pieces of time information calculated in this way, and detects the playback position where the user plays and feels the mini-disc based on the time information. Further, the system control circuit 3 switches the segment corresponding to the added time to blinking display. As a result, the audio apparatus 1 can visually and sensibly grasp the reproduction status even when the mini-disc is reproduced.
[0078]
On the other hand, in program reproduction, the segment of the bar graph-like display 51 is turned on at the time of selection similarly for the total recording time of the mini-disc. In this state, as in the case of the compact disc 11, the segment corresponding to the music selected by the user is switched to blinking display. At this time, the system control circuit 3 displays the number of segments blinking corresponding to the performance time of the music selected by the user so that the entire length of the bar graph display 51 when all the segments are lit is 74 minutes. Set. As with normal mode playback, the total performance time is calculated for music with a track number younger than the track number corresponding to the song selected by the user, and the position of the segment that starts blinking from this total performance time is calculated. To detect. As a result, the system control circuit 3 assists the user's selection operation using the bar graph display 51 and then switches the bar graph display 51 to the same display as in the normal mode when the user instructs a reproduction operation.
[0079]
On the other hand, when recording a mini-disc, the segment of the bar graph display 51 is lit for the total recording time of the audio signal already recorded on the mini-disc. In this state, when the user selects an operation mode for recording an audio signal in an unrecorded area (hereinafter referred to as “additional recording”), recording starts from the address data obtained from the wobble signal until the current time is reached. Accumulate time with address data. Further, this accumulated value is converted into time information, and the bar graph display 51 corresponding to the accumulated time information and the total recording time lit at the start of recording is sequentially extended and turned on. Further, the first segment that is lit and extended is displayed in a blinking manner, thereby displaying the recording position.
[0080]
On the other hand, when an audio signal is recorded even in an area in which music is already recorded (hereinafter referred to as overwriting recording), this bar graph is also used for the total recording time of the audio signal already recorded on the mini disk. With the segment of the status display 51 lit, the start address, end address, and link pointer are sequentially traced separately for the music that the user desires to leave on the mini disk from the music already recorded on the mini disk. Detect time. When recording is started, the system control circuit 3 switches the segment following the separately detected total recording time to blinking display, and then starts recording according to the accumulated value of the address data obtained by sequentially detecting the wobble signal. The accumulated time until the current time is detected. Further, the system control circuit 3 sequentially shifts the position of the blinking display to the right by the accumulated time, and switches to the lighting display from the left end to the blinking display segment. As a result, the system control circuit 3 displays the recording position and the accumulated recording time while displaying the data amount of the already recorded music.
[0081]
In this overwriting recording, when the user selects a piece of music to be overwritten, the system control circuit 3 performs the same as in the case of selecting a piece of music in the program selection so as to assist the user's selection operation. The bar graph display 51 is switched. As a result, the audio apparatus 1 can grasp the recording position visually and sensibly even when the mini disk 31 is recorded.
[0082]
On the other hand, when the audio signal recorded on the compact disc 11 is dubbed to the mini disc 31, the system control circuit 3 lights both the compact disc 11 and the character display (CD and MD) of the mini disc. When dubbing is further started, symbols 52 and 53 of the compact disc and mini disc are displayed cyclically. Further, when dubbing is started, the system control circuit 3 lights up the display of an arrow arranged between the symbols 52 and 53 and between the character displays, thereby displaying the flow of the audio signal. Further, the system control circuit 3 displays the track number and recording time of the music to be recorded / reproduced, the accumulated recording time, the accumulated reproduction time, the remaining recording time, the recordable time, etc. on the character display unit 55 in response to the user's selection operation. indicate.
[0083]
Further, the system control circuit 3 lights the bar graph display 50 and 51 of the compact disk 11 and the mini disk 31. At this time, the system control circuit 3 calculates the total recording time of the audio signal already recorded on the mini disc by following the link pointer, and in the bar graph display 51 on the mini disc side, as shown in FIG. The segments for the calculated total performance time are lit so that the entire length of the bar graph display 51 when all the segments are lit corresponds to the performance time of 74 minutes. Here, a segment that is lit up is indicated by a rectangular shape filled with black, and a segment that is not lit is indicated by a black frame.
[0084]
Further, the system control circuit 3 detects the total recording time from the TOC for the bar graph display 50 on the compact disk side, and segments the total recording time so as to correspond to the bar graph display 51 of the mini disk 31. Light. That is, in this case, the system control circuit 3 uses the compact disk 11 side bar graph so that the bar graph-like displays 50 and 51 are both formed of 20 segments, so that one segment displays the playing time of 3.7 minutes. The segment of the state display 50 is displayed. Therefore, in the state shown in FIG. 6A, the total performance time of the compact disc 11 is 74 minutes equal to the total recordable time of the mini disc 31.
[0085]
In this state, when the user selects the additional recording operation mode and starts dubbing, the system control circuit 3 uses the subcode in the bar graph display 50 on the compact disc side as shown in FIG. The corresponding segments are sequentially blinked and displayed according to the reproduction position detected in this manner. As a result, in the bar graph display 50 on the compact disc side, the blinking segment is sequentially moved from the left end to the right end as the dubbing progresses (FIG. 6C).
[0086]
On the other hand, in the bar graph display 51 on the mini disc side, the address data detected from the wobble signal is accumulated to detect the recording time from the start of recording to the current time. Further, the system control circuit 3 sequentially shifts the position of the blinking display to the right by the accumulated time, and switches to the lighting display from the left end to the blinking display segment. As a result, the system control circuit 3 displays the recording position and the accumulated recording time while displaying the data amount of the already recorded music.
[0087]
As a result, the system control circuit 3 can visually and sensuously grasp the playback status on the compact disc 11 side and the recording status on the mini disc side at the same time for the user viewing the bar graph-like displays 50 and 51. Thus, bar graph-like displays 50 and 51 are formed. Further, the system control circuit 3 forms the bar graph displays 50 and 51 side by side, so that in the audio apparatus 1, for example, when all the music on the compact disc 11 is recorded, it is difficult to record on the mini disc side. Thus, it is possible to easily and surely grasp the dubbing situation easily and reliably.
[0088]
In this embodiment, the time information is also displayed as character information, so that the dubbing situation can be grasped in more detail as necessary. When the bar graphs 50 and 51 are arranged side by side with the symbols 52 and 53, and the flow of the audio signal is indicated by arrows in this state, the user can grasp the dubbing situation sensuously. Thus, the situation of the compact disc and the situation of the mini disc can be grasped without fail, and the usability of the audio apparatus 1 can be improved accordingly.
[0089]
On the other hand, when the user selects the overwriting recording operation mode on the mini disc 31 side, the system control circuit 3 displays the bar graph-like display 50 on the compact disc 11 side in the same manner as in the additional recording. In addition, the position of the blinking display is moved sequentially.
[0090]
In the bar graph display 51 on the mini disc side, the system control circuit 3 displays the bar graph display 51 for the total recording time of the audio signal already recorded on the mini disc, as shown in FIG. With the segment lit, track the start address, end address, and link pointer for the music that the user wants to keep on the mini disk from the music already recorded on the mini disk, and detect the total recording time separately. . When recording is started, the system control circuit 3 switches the segment following the separately detected total recording time to blinking display, and then starts recording according to the accumulated value of the address data obtained by sequentially detecting the wobble signal. The accumulated time until the current time is detected. Further, the system control circuit 3 sequentially shifts the position of the blinking display to the right by the accumulated time, and switches to the lighting display from the left end to the blinking display segment. As a result, the system control circuit 3 displays the recording position and the accumulated recording time while displaying the data amount of the already recorded music.
[0091]
Thus, the system control circuit 3 forms the bar graph displays 50 and 51 so that the dubbing situation can be grasped visually and sensibly even when overwriting recording is performed on the mini-disc 31 side.
[0092]
On the other hand, when the audio signal recorded on the compact disc 11 by the program selection is dubbed to the mini disc, the system control circuit 3 executes the processing procedure shown in FIG. 7, thereby effectively using the bar graph display. To help the user select music.
[0093]
That is, the system control circuit 3 moves from step SP1 to step SP2, and when the user selects the program music selection mode, the operation mode is switched to the program selection mode. Here, as shown in FIG. 8A, the system control circuit 3 lights the bar graph-like displays 50 and 51 of the compact disc 11 and the mini disc 31. At this time, the system control circuit 3 calculates the total recording time of the audio signal already recorded on the mini disc by following the link pointer, and in the bar graph display 51 on the mini disc side, the bar graph shape when all the segments are lit. A performance time of 3.7 minutes is assigned to one segment so that the entire length of the display 51 corresponds to a performance time of 74 minutes, and the segment corresponding to the calculated total performance time is lit. On the compact disc side, all segments are lit.
[0094]
In this state, the system control circuit 3 proceeds to step SP3, and inputs the music selected by the user. Subsequently, the system control circuit 3 moves to step SP4 and detects the start address and end address of the music selected by the user by data communication with the system control circuit 17, and also detects the performance time of this music. To do.
[0095]
Subsequently, the system control circuit 3 proceeds to step SP5, where it is determined whether or not the program performance time selected by the user exceeds the remaining recording time of the mini-disc. If a negative result is obtained, the system control circuit 3 proceeds to step SP6. .
[0096]
Here, as shown in FIG. 8B, the system control circuit 3 blinks the corresponding segment in the bar graph-like display 50 on the compact disc 11 side from the start address and end address, and at the same time, the mini disc In the bar graph display 51 on the 31st side, the corresponding segment is displayed blinking.
[0097]
Here, in the blinking display on the mini disc side, when an audio signal is additionally recorded on the mini disc 31, it is selected from the segments on the right side of the segment that is lit up (that is, the data amount of the recorded audio signal). The segment flashes for the duration of the song. On the other hand, when the audio signal is overwritten and recorded on the mini disc 31, the performance time is accumulated by tracing the link pointer for the music selected by the user to remain on the mini disc, and this accumulation is started from the left end of the bar graph display 51. From the next segment moved to the right by the amount of time, the segment is blinked for the performance time of the selected music piece.
[0098]
As a result, the system control circuit 3 displays the data amount of the audio signal that is dubbed to the mini disc from the compact disc side in response to the user's music selection operation, along with the area to be recorded and reproduced, on the bar graph. As a result, usability is improved.
[0099]
Thus, when the segment is blinked and displayed in this way, the system control circuit 3 moves to step SP7 and waits for the recording start operation. When the subsequent music selection operation is executed instead of the recording start operation, the system control circuit returns to step SP3 and repeats a series of processes for the music selected by the subsequent user.
[0100]
Thus, for example, when the user selects a music recorded at the beginning of the compact disc 11 of about 11.1 (3.7 minutes × 3) in the additional recording operation mode (FIG. 8B), system control is performed. The circuit 3 blinks and displays three corresponding segments in the bar graph-like displays 51 and 50 on the mini disc 31 side and the compact disc 11 side, and then accepts the subsequent music selection by the user. Subsequently, when the user selects a music piece of about 14.8 (3.7 minutes × 4) recorded at an almost intermediate position of the compact disk 11 (FIG. 8C), the system control circuit 3 On the 11th side, the corresponding segment is switched to the blinking display for four, and on the mini disk side, the four segments following the three blinking display are switched to the blinking display.
[0101]
As a result, the system control circuit 3 sequentially switches the bar graph-like displays 50 and 51 in response to the user's series of selection operations. If the performance time selected by the user exceeds the remaining recording time of the mini-disc 31, a negative result is obtained in step SP5. When the result is obtained, the process proceeds to step SP8. Here, the system control circuit 3 switches the bar graph display as shown in FIG. 8 (D)), and displays the characters “OVER” on the right side of the bar graph display 51 on the mini disc side. The user is warned that the selected performance time has exceeded the remaining recording time of the mini-disc 31. Incidentally, in this case, in the bar graph display 51 on the mini disc side, the segment corresponding to the music remaining on the mini disc is lit up and displayed from the left end, and all the remaining segments are blinked.
[0102]
Accordingly, the system control circuit 3 can perform the music selection operation by visually observing the display of the bar graph display 50 and 51, so that the remaining recording time is displayed by the display of the bar graph display 50 and 51 before issuing this warning. It is possible to make the user recognize that there is a possibility of exceeding. That is, the user can confirm from the bar graph display 51 on the mini-disc side that the remaining recordable area has decreased, and in this case, the time information character display portion 55 (FIG. 1) determines whether recording is possible. This warning display 59 can confirm this erroneous judgment even if the music is selected by mistake so that recording is possible. As a result, the system control circuit 3 can visually and sensibly grasp the result of the program music selection work by means of a bar graph display, displays time information as necessary, and displays a warning. The desired music can be dubbed reliably.
[0103]
Thus, after displaying the warning in this way, the system control circuit 3 moves to step SP9, waits for the user's key input, and receives a key input confirming the user's music selection to record within the recordable range of the user. The process proceeds to step SP7. On the other hand, when the user judges that the music selection is to be performed again and receives a key input for denying the user's music selection, the system control circuit 3 returns to step SP3 and waits for the user's music selection operation again.
[0104]
On the other hand, when the user performs a series of music selection processes as described above and the user operates the recording start operator, the system control circuit 3 moves from step SP7 to step SP10, and changes to the compact disc block 4 and the mini disc block 5. After issuing a control command and starting dubbing, the process proceeds to step SP11 and this processing procedure is terminated.
[0105]
When dubbing is started in this way, the system control circuit 3 switches the display in the mini-disc side bar graph display 51 as in the case of additional recording and overwriting recording as shown in FIG. 8 (E). . Further, in the bar graph display 50 on the compact disc side, the performance time of the music that the user did not select is accumulated with all the segments lit, and the segment on the right side of this bar from the left end of the bar graph display 50 is accumulated. The flashing display segment is sequentially displayed, and the flashing display segment is sequentially moved to the right as the playback position is displaced.
[0106]
In the above configuration, the compact disc 11 (FIG. 2) is loaded into the compact disc block 4 and when the power is turned on, the lead-in area is accessed, and the TOC recorded in the lead-in area is stored in the system. It is expanded in the memory of the control circuit 17. As a result, the audio signal recorded on the compact disk 11 is played back and output according to the TOC developed in the system control circuit 17 according to the TOC desired by the user.
[0107]
Similarly, when the mini-disc 31 (FIG. 5) is loaded into the mini-disc block 5 and the power is turned on, the lead-in area is accessed and the P-TOC and U recorded in the lead-in area are accessed. The TOC is expanded in the memory of the system control circuit 38. As a result, the audio signal recorded on the mini-disc 31 is played back and output according to the P-TOC and U-TOC developed in the system control circuit 38. Further, after an unrecorded area or the like is selected in accordance with the P-TOC and the U-TOC, the sequentially input audio signal is recorded, and the U-TOC developed in the system control circuit 38 is updated correspondingly. The U-TOC in the lead-in area is updated.
[0108]
When the compact disc 11 is reproduced in this way, the system control circuit 17 of the compact disc block 4 detects the total recording time of the entire compact disc 11, the recording time of each music piece, and the number of music pieces from the TOC, and audio data. The reproduction position is detected by the subcode recorded together, and the time information is displayed on the display block 6 by the system control circuit 3 that controls the operation of the entire audio apparatus 1.
[0109]
Of these, the accumulated reproduction period, the remaining reproduction time, the reproduction time of each song, and the remaining reproduction time are displayed as characters via the character display unit 55, and thus the user can switch the display contents as necessary to display these time information. It is made to be able to confirm accurately. In addition to this, in the bar graph display 50 formed by continuously forming rectangular segments, the total recording time of the compact disc 11 is displayed by the length of the bar graph display 50, and the blinking display during this display The playback position is displayed according to the position. Thus, the user can grasp the reproduction accumulation period, the remaining reproduction time, and the reproduction position visually and sensuously through the bar graph display 50.
[0110]
In addition, the compact disk 11 is being played back by the character display (CD) of the compact disk 11 arranged on the left side of the bar graph-like display 50 of the compact disk 11 and the display of the following symbols 52. In FIG. 2, it is possible to visually and sensibly grasp that the compact disc 11 is being reproduced.
[0111]
On the other hand, when the mini-disc 31 is recorded and reproduced, the system control circuit 38 of the mini-disc block 5 determines the total recording time of the entire mini-disc 31, the recording time of each music, and the number of music from P-TOC and U-TOC. The recording / reproducing position is detected based on the address data detected and recorded by the meandering of the pregroove, and the time information is displayed on the display block 6 by the system control circuit 3 that controls the operation of the entire audio apparatus 1.
[0112]
In this display, the accumulated reproduction period, the remaining reproduction time, the reproduction time of each song, and the remaining reproduction time are displayed via the character display unit 55, so that the user can switch the display contents as necessary to change these times. The information can be confirmed accurately. In addition, in the bar graph display 51 formed by continuously forming rectangular segments, the recording time of the mini-disc 31 is displayed by the length of the bar graph display 51, and the blinking display position in this display As a result, the recording / reproducing position is displayed. As a result, the user can visually and sensorially indicate the reproduction, accumulated reproduction period, remaining reproduction time, and reproduction position, and the recorded, accumulated accumulation period, remaining recording time, and recording position via the bar graph display 51. It is formed so that it can be grasped.
[0113]
In addition, the character display (MD) of the mini-disc 31 arranged on the left side of the bar graph-like display 51 of the mini-disc 31 and the subsequent display of the symbol 53 indicate that the mini-disc 31 is being recorded and reproduced. The user can grasp the operation state visually and sensuously.
[0114]
On the other hand, when the audio signal recorded on the compact disc 11 is dubbed to the mini disc 31, the bar graph displays 50 and 51 of the compact disc 11 and the mini disc 31 are formed together. Here, in the bar graph display 50 of the compact disc 11, a performance time of 3.7 minutes is assigned to one segment, and the segment is lit for the performance time recorded on the compact disc 11, and is detected via a subcode. The segment corresponding to the played position is flashed.
[0115]
Similarly, in the bar graph display 51 of the mini disc 31, when the performance time of 3.7 minutes is similarly assigned to one segment and all the segments are lit, the standard recordable time of the mini disc 31 is set to 74 minutes. Correspondingly, the segment is lit for the performance time recorded on the mini-disc 31. In this state, based on the address data detected by the pregroove, the recording position that the user feels by operating the mini disc by sequentially following the link pointer is calculated from the time information, and the segment corresponding to this recording position flashes Is displayed. As the dubbing progresses, the blinking segment moves to the right, and the segment on the left side of the blinking segment switches to the lit display.
[0116]
As a result, it is possible to visually and sensibly grasp the reproduction status of the compact disc 11 and the recording status of the mini disc 31 by means of the two bar graph-like displays 50 and 51 arranged side by side. In addition, it is possible to visually and sensibly grasp that the compact disc block 4 and the mini disc block 5 are operating by the cyclic display of the symbols 52 and 53 arranged adjacent to the bar graph-like displays 50 and 51. In addition, the display of an arrow connecting the symbols 52 and 53 makes it possible to grasp the flow of the audio signal and grasp that the dubbing is in progress.
[0117]
Further, at this time, the character display section 55 arranged below the bar graph-like displays 50 and 51 displays the accumulated reproduction time in response to the user's selection operation. Can be confirmed.
[0118]
On the other hand, in this dubbing, when the user selects program selection, in the bar graph display 50 on the compact disc 11 side, all segments are lit up and the segment corresponding to the song selected by the user flashes. Switch to display. At the same time, in the bar graph-like display 51 on the mini disc 31 side, the segment selected by the user is selected from the segment corresponding to the recording position selected by the user while the segment corresponding to the audio signal already recorded on the mini disc 31 is lit. The segment corresponding to the music is switched to blinking display.
[0119]
As a result, the two bar graph-like displays 50 and 51 can be visually checked to help program selection, and the user selects a desired piece of music while roughly grasping the remaining amount of the mini-disc 31, for example. be able to. When the music selected by the user exceeds the recordable time of the mini-disc 31 at the time of the music selection, a warning character is displayed adjacent to the mini-disc side bar graph display 51, and the user's desired music is thereby displayed. The recording can be performed easily and reliably.
[0120]
According to the above configuration, when the audio signal recorded on the compact disc is recorded by the mini disc, the playback position of the compact disc and the recording position on the mini disc are displayed by the bar graph display corresponding to the compact disc and the mini disc. As a result, it is possible to visually and sensibly grasp the reproduction status of the compact disc and the recording status of the mini-disc, thereby making it possible to intuitively grasp the dubbing status.
[0121]
When selecting a program, the performance of the music selected by the user, the recording position, and the recording time are displayed by these two bar graphs, so that the program selection status can be grasped visually and sensuously. As a result, the usability of the audio apparatus 1 can be improved.
[0122]
In the above-described embodiment, the case where a bar graph display is formed by continuously arranging rectangular segments has been described. However, the present invention is not limited thereto, and circular segments and the like are continuously arranged. In the case of forming a bar graph display by arranging, the present invention can be widely applied not only to the continuation of segments but also to the case of forming a bar graph display by a liquid crystal display or the like.
[0123]
Furthermore, in the above-described embodiment, the case where the bar graph-like display is formed so as to correspond to the recordable time of the mini-disc has been described. However, the present invention is not limited to this, and for example, as shown in FIG. The total length of the two bar graph displays may be displayed so as to correspond to the playback time of the compact disc and the recordable time of the mini disc, and the playback position and the recording position may be displayed by the relative positional relationship on these displays.
[0124]
In the above-described embodiment, the case where a warning is generated by displaying the characters “OVER” at the time of program selection has been described. However, the present invention is not limited to this. For example, as shown in FIG. Various generation methods can be widely applied, for example, when a disk relationship is displayed by the symbol 60, or when a warning is generated by speech synthesis.
[0125]
Furthermore, in the above-described embodiment, the case where the dubbing status is displayed by a dedicated graph-like display has been described. You may display.
[0126]
Further, in the above-described embodiment, the case where the audio signal is dubbed between the compact disc and the mini disc has been described. However, the present invention is not limited to this, and various discs such as the case where the audio signal is dubbed between the mini discs. The present invention can be widely applied to recording and reproducing information signals such as audio signals between the recording media.
[0127]
【The invention's effect】
As described above, according to the present invention, when information signals are recorded and reproduced between disc-shaped recording media, the reproduction position and the recording position are displayed by the bar graph display arranged side by side, thereby indicating the progress of the recording and reproduction. Visual and sensory understanding.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an audio apparatus according to an embodiment of the present invention.
2 is a block diagram showing the compact disk block of FIG. 1. FIG.
FIG. 3 is a chart for explaining the P-TOC of the mini-disc of FIG. 1;
4 is a chart for explaining the U-TOC of the mini-disc of FIG. 1; FIG.
FIG. 5 is a block diagram showing the minidisk block of FIG. 1;
6 is a schematic diagram showing display by the display block of FIG. 1. FIG.
FIG. 7 is a flowchart for explaining the operation of program selection during dubbing.
8 is a schematic diagram showing display by a display block during program selection in FIG. 7;
FIG. 9 is a schematic diagram showing display by a display block according to another embodiment.
FIG. 10 is a schematic diagram showing a warning display according to another embodiment.
FIG. 11 is a schematic diagram showing a case where conventional time information display is applied during dubbing.
[Explanation of symbols]
1 Audio device
2 Operation block
3, 17, 38 System control circuit
4 Compact disc block
5 Mini disk block
6 display blocks
11 Compact disc
31 Mini Disc

Claims (3)

In a recording / reproducing apparatus for reproducing an information signal recorded on a first disk-shaped recording medium and recording the information signal on a second disk-shaped recording medium,
Reproduction position detection means for detecting reproduction position and generating reproduction position information based on position information recorded on the first disc-shaped recording medium;
Recording position detecting means for detecting the recording position and generating the recording position information based on the position information recorded on the second disc-shaped recording medium;
Predetermined display means,
The display means is
Based on the reproduction position information and the recording position information, the first and second bar graph-shaped displays corresponding to the first and second disk-shaped recording media are formed side by side,
While displaying the reproduction position and the recording position by the first and second bar graph display,
Forming the first bar graph display so that the maximum length of the first bar graph display corresponds to the reproducible data amount of the first disc recording medium;
The maximum length of the second bar-graph display is equal to the maximum length of the first bar-graph display, and corresponds to the recordable data amount of the second disc-shaped recording medium. Thus, the information signal recording / reproducing apparatus is characterized in that the second bar graph display is formed. In a recording / reproducing apparatus for selectively reproducing an information signal recorded on a first disk-shaped recording medium and recording the information signal on a second disk-shaped recording medium,
The first and second disc-shaped recording media are:
The information recording surface is divided into a management area for recording management information and an information signal recording area for recording the information signal,
It is formed so that the information signal recorded in the information signal recording area can be managed by the management information,
The recording / reproducing apparatus comprises:
Reproduction side management information detecting means for reproducing the management information of the first disc-shaped recording medium and detecting reproduction side management information;
Recording-side management information detecting means for reproducing the management information of the second disc-shaped recording medium and detecting recording-side management information;
Predetermined display means,
The display means is
Forming the first and second bar graph-like displays corresponding to the first and second disc-shaped recording media side by side,
Information signal data recorded on the first and second disc-shaped recording media according to the display lengths of the first and second bar graphs based on the reproduction-side management information and the recording-side management information, respectively. Display the quantity,
Based on the reproduction-side management information, the information signal to be selectively reproduced is displayed by blinking on the first bar graph display,
The order in which the selectively reproduced information signals are recorded on the first disc-shaped recording medium is displayed by increasing the blinking position in accordance with the increase in the number of selectively reproduced information signals. ,
An information signal recording / reproducing apparatus, wherein an area corresponding to the data amount of the blinking display is blinked on the second bar graph display. In a method for reproducing an information signal recorded on a first disk-shaped recording medium and recording it on a second disk-shaped recording medium,
Based on the position information recorded on the first disc-shaped recording medium, the reproduction position is generated by detecting the reproduction position;
Based on the position information recorded on the second disc-shaped recording medium, the recording position is detected to generate the recording position information,
Based on the reproduction position information and the recording position information, first and second bar graph displays corresponding to the first and second disc-shaped recording media are formed side by side on the display means,
While displaying the reproduction position and the recording position by the first and second bar graph display,
Forming the first bar graph display so that the maximum length of the first bar graph display corresponds to the reproducible data amount of the first disc recording medium;
The maximum length of the second bar-graph display is equal to the maximum length of the first bar-graph display, and corresponds to the recordable data amount of the second disc-shaped recording medium. An information signal recording / reproducing method configured to form the second bar graph display.

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