JP3695590B2 - Disc player - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a disc player that can be connected to a mixing device for mixing two audio signals.
[0002]
[Prior art]
The music played at the disco is called so-called dance music suitable for dancing, but even with such dance music, it is difficult and unfavorable to change the tempo for each dance music. On the other hand, for the reason that the tempo does not change, continuing to play the same song endlessly detracts from interest in dance. Therefore, the editor (disc jockey; DJ) who edits the dance music at the disco continues to the currently playing song (first song) without interruption through the editing mixer (mixing device). A plurality of (for example, two) disc players are prepared so as to be connected to the song (second song). While one player plays the first song, the other player cues the next song (second song) and controls the rotation speed of the other player's disc to match the playing speed. The reproduction of the second music is started by the other player when the reproduction of the first music is completed.
[0003]
[Problems to be solved by the invention]
As an editing method between the first song and the second song, cut-in editing and long mix editing are performed according to DJ's preference. Of these, the long mix editing is an editing in which the first music and the second music are mixed while being cross-faded by a mixer. In the case of long mix editing, the DJ cues the second song, and then waits for the second song to be ready for playback immediately, and the editing point for the first song to start the crossfade has arrived. Sometimes it was necessary to start playing the second song while adjusting the crossfade, and the DJ was required to perform complicated work.
[0004]
The problems to be solved by the present invention include the above-mentioned problems as an example. To provide a disc player that can be connected to an audio signal mixing apparatus capable of performing long mix editing with a simple operation. It is an object of the invention.
[0005]
[Means for Solving the Problems]
The disc player according to the first aspect of the present invention is a disc player that can be connected to a mixing device having an operation unit for mixing two audio signals and adjusting the mixing ratio thereof, and is read from the disc by a pickup. Output means for outputting the audio signal, storage means for storing the designated address position on the disc, and a playback operation is started when a playback start instruction is received from the mixing device, and playback stop is performed from the mixing device. Control means for controlling the disc player itself to a standby state by stopping the reproducing operation upon receiving an instruction and returning the read position of the pickup to the address position stored in the storage means; It is characterized by.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows an embodiment of the present invention, which shows an audio signal mixer and a disc player connectable thereto. In this embodiment, four compact disc players (hereinafter referred to as CD players) 1 to 4 are provided. The CD players 1 to 4 operate according to instructions from the microcomputer 5. Each CD player 1 to 4 outputs an audio signal as a reproduction signal at the time of reproduction. The output audio signal of the CD player 1 is supplied to the input terminal of CH (channel) 1, the output audio signal of the CD player 2 is supplied to the input terminal of CH2, and the output audio signal of the CD player 3 is supplied to the input terminal of CH3. Then, the output audio signal of the CD player 4 is supplied to the input terminal of CH4.
[0007]
An input level adjuster 11, an equalizer adjuster 21, and a channel fader adjuster 31 are connected to the input end of CH1 in this order. Similarly, the input level adjusters 12 to 14, the equalizer adjusters 22 to 24, and the channel fader adjusters 32 to 34 are connected to the input ends of the respective CH2, CH3, and CH4 in this order. The input level adjusters 11 to 14 adjust the audio signal level supplied from the CD player according to the operation, and the equalizer adjusters 21 to 24 operate the frequency characteristics of the audio signal supplied from the input level adjusters 11 to 14. The channel fader adjusters 31 to 34 adjust the audio signal levels supplied from the equalizer adjusters 21 to 24 according to the operation. The channel fader adjusters 31 to 34 enable fade-in and fade-out operations in a level change range that can be taken by the signals level-adjusted by the input level adjusters 11 to 14.
[0008]
The switches 61 to 64 are connected to the outputs of the channel fader adjusters 31 to 34 for each channel. The changeover switches 61 to 64 form an interlocking crossfade on / off switch 6. The changeover switch 61 selectively relays the audio signal output from the channel fader adjuster 31 to one of two terminals ON and OFF. Two A and B channel assignment switches 7 and 8 are connected to the terminal ON. An adder 10 is connected to the terminal OFF. The other changeover switches 62 to 64 are connected in the same manner as the changeover switch 61. The channel assign switches 7 and 8 are switches for selecting one of the four channels CH1 to CH4, and relay the audio signal of the selected channel from the output of the crossfade on / off switch 6. The adder 10 adds the audio signals of the respective channels relayed and output from the changeover switches 61 to 64 when the changeover switches 61 to 64 select the terminal OFF.
[0009]
A first VCA (voltage control amplifier) 15 is connected to the output of the A channel assignment switch 7, and a second VCA 16 is connected to the output of the B channel assignment switch 8. A slide volume 17 is connected to the control ends of the VCAs 15 and 16. As shown in FIG. 2, the slide volume 17 has an operation element 17a slidable between the A end and the B end, and generates two voltages VA and VB according to the position of the operation element 17a. . That is, the voltage Vcc is applied to the slide volume 17, and the voltage Vcc is divided to generate two voltages VA and VB. When the operation element 17a is positioned at the A end, the voltage VA is maximum and the voltage VB is minimum. As the operation element 17a advances from the A end toward the B end, the voltage VA gradually decreases, the voltage VB gradually increases, and when the operation element 17a is located at an intermediate point between the A end and the B end, the voltage VA is increased. , VB are equal to each other. When the operation element 17a is positioned at the B end, the voltage is set to the minimum and the voltage VB is maximized.
[0010]
Therefore, the relationship between the gains (attenuation amounts) of the VCAs 15 and 16 and the position of the operation element 17a is opposite to each other as shown in FIG. That is, when the operation element 17a is at the A end, the gain of the VCA 15 is maximum (minimum attenuation) and the gain of the VCA 16 is minimum (maximum attenuation). As the operator 17a moves from the A end to the B end, the gain of the VCA 15 decreases and the gain of the VCA 16 increases. When the operating element 17a is between the A end and the B end, the gains of the VCA 15 and VCA 16 are equal. When the operating element 17a is at the B end, the gain of the VCA 15 is minimum and the gain of the VCA 16 is maximum.
[0011]
An adder 18 is connected to the outputs of the VCAs 15 and 16 so that the audio signals output from the VCAs 15 and 16 are added. A master fader adjuster 19 is connected to the output of the adder 18. The output of the adder 10 is also connected to the master fader adjuster 19. The output signal of the master fader adjuster 19 becomes the output signal of this mixing apparatus. The master fader adjuster 19 enables level adjustment or fade-in and fade-out operations in a level change range of the supplied audio signal.
[0012]
In each of the channel fader adjusters 31 to 34, a voltage signal indicating an adjustment position which is a position of an operator (not shown) is obtained, and the voltage signal is digitally transmitted through the A / D converters 91 to 94. And supplied to the microcomputer 5. The voltage VA output from the slide volume 17 is digitized via the A / D converter 95 and supplied to the microcomputer 5. Further, the microcomputer 5 is supplied with a signal indicating the on / off state of the crossfade on / off switch 6 and a signal indicating the selected channel of the A and B channel assign switches 7 and 8. A crossfade start switch 20 for instructing the start of crossfade is also connected to the microcomputer 5.
[0013]
In such a configuration, the audio signal output from any one of the CD players 1 to 4 is supplied to the input end of the corresponding channel. For example, if an audio signal is output from the CD player 1, it becomes a CH1 audio signal, the level is adjusted by the input level adjuster 11, the frequency characteristic is adjusted by the equalizer adjuster 21, and the channel fader adjuster At 31, the level is further adjusted. Audio signals individually output from the other CD players 2 to 4 are processed in the same manner as the CD player 1. When the selector switches 61 to 64 are switched to the terminal OFF side, the audio signal output from the channel fader adjuster 31 is supplied to the adder 10 via the selector switch 61, and further from the adder 10 to the master fader. The level is adjusted by the adjuster 19 and output. When audio signals are output from two of the CD players 1 to 4, the audio signals are added by the adder 10 after passing through the channel fader adjuster.
[0014]
On the other hand, when the selector switches 61 to 64 are switched to the terminal ON side, if audio signals are output from all the CD players 1 to 4, the A and B channel assignments are made via the selector switches 61 to 64. Audio signals of all channels are supplied to both switches 7 and 8. Since the A and B channel assignment switches 7 and 8 can individually select one of the channels CH1 to CH4 by the user, for example, the A channel assignment switch 7 selects the channel CH1 and the B channel assignment switch 8 If the channel CH2 is selected, the cross fade can be performed between the audio signals of the channels CH1 and CH2 output from the CD player 1 and the CD player 2. That is, the audio signal level of the channel CH1 is controlled in the first VCA 15 and the audio signal level of the channel CH2 is controlled in the second VCA 16 according to the position of the operation element 17a of the slide volume 17.
[0015]
Next, the operation of the microcomputer 5 during the crossfade operation will be described. As shown in FIGS. 4 and 5, the microcomputer 5 first determines whether or not the fade start switch 20 is on (step S1). If the fade start switch 20 is on, it is determined whether or not the crossfade on / off switch 6 has been switched to the ON side (step S2). When the crossfade on / off switch 6 is switched to the ON side, the crossfade operation is enabled, the voltage VA of the slide volume 17 is read from the output digital value of the A / D converter 95 (step S3), and the voltage VA To determine whether or not the position of the operation element 17a of the slide volume 17 is at the A end (step S4). If the position of the operation element 17a is at the A end, it is determined from the digital value of the voltage VA whether or not the position of the operation element 17a has moved from the A end (step S5). Step S5 is repeated until the movement of the position of the operation element 17a from the A end is detected. When the movement of the position of the operation element 17a from the A end is detected, the selected channel by the B channel assign switch 8 is detected (step S6). Here, assuming that the detected selected channel is CHn (n is one of 1 to 4), a start signal is output to the CD player of channel CHn (step S7). Therefore, when the position of the operation element 17a of the slide volume 17 is moved away from the A end, the reproduction operation of the CD player of the channel CHn is started according to the start signal.
[0016]
If it is determined in step S4 that the position of the operation element 17a is not at the A end, it is determined from the voltage VA whether or not the position of the operation element 17a of the slide volume 17 is at the B end (step S8). If the position of the operation element 17a is at the B end, it is determined from the digital value of the voltage VA whether or not the position of the operation element 17a has moved from the B end (step S9). Step S9 is repeated until the movement of the position of the operation element 17a from the B end is detected. When the movement of the position of the operation element 17a from the B end is detected, it is detected which channel is selected by the A channel assign switch 7 (step S10). Here, if the detected selected channel is CHm (m is one of 1 to 4), a start signal is output to the CD player of channel CHm (step S11). Therefore, when the position of the operation element 17a of the slide volume 17 is moved away from the B end, the reproduction operation of the CD player of the channel CHm is started according to the start signal.
[0017]
If it is determined in step S8 that the position of the operation element 17a is not at the B end, the position of the operation element 17a of the slide volume 17 is between the A end and the B end. It is determined whether or not the position of the operation element 17a of the volume 17 has reached the B end (step S12). If it is determined that the position of the operation element 17a of the slide volume 17 has moved from the A end and has reached the B end, the selected channel by the A channel assign switch 7 is detected (step S13). Similarly to step S10, if the selected channel is CHm, a back cue signal is output to the CD player of channel CHm (step S14). Accordingly, when the position of the operation element 17a of the slide volume 17 moves away from the A end and then reaches the B end, the playback operation of the CD player of the channel CHm is stopped according to the back cue signal, and the pickup of the player (not shown) 2) is returned to the address position designated in advance. This predesignated address position is designated by a user (editor) and stored in a memory or the like.
[0018]
In step S12, if the position of the operation element 17a of the slide volume 17 has not reached the B end, it is determined from the voltage VA whether or not the position of the operation element 17a of the slide volume 17 has reached the A end (step S12). S15). If the A end has not been reached, the operating element 17a still exists between the A end and the B end, and the process returns to step S12. If it is determined that the position of the operating element 17a of the slide volume 17 has moved from the B end and has reached the A end, the selected channel by the B channel assign switch 8 is detected (step S16). Similarly to step S6, when channel CHn is selected, a back cue signal is output to the CD player of channel CHn (step S17). Therefore, when the position of the operation element 17a of the slide volume 17 moves away from the B end and then reaches the A end, the playback operation of the CD player of the channel CHn is stopped according to the back cue signal, and the pickup of the player (not shown) 2) is returned to the address position designated in advance.
[0019]
Assuming that the A channel assign switch 7 selects the channel CH1 and the B channel assign switch 8 selects the channel CH2, the output audio of the CD player 1 of the channel CH1 when the operation member 17a of the slide volume 17 is at the A end. Only the signal is output through the input level adjuster 11, the equalizer adjuster 21, the channel fader adjuster 31, the changeover switch 61, the A channel assign switch 7, the VCA 15, the adder 18, and the master fade adjuster 19 in order. Become. At this time, the gain of the VCA 15 is the maximum value, and the gain of the VCA 16 is the minimum value. When the operation element 17a of the slide volume 17 moves away from the A end, a start signal is supplied to the CD player 2, and output of the audio signal of the channel CH2 from the CD player 2 is started. The audio signal from the CD player 2 is supplied to the adder 18 via the input level adjuster 12, equalizer adjuster 22, channel fader adjuster 32, changeover switch 62, B channel assign switch 8, and VCA 16. It is mixed by being added to the output audio signal of the CD player 1 that has passed through the VCA 15. The audio signal thus mixed is output via the master fade adjuster 19. As the operating member 17a of the slide volume 17 moves from the A end toward the B end, the gain of the VCA 15 gradually decreases from the maximum value, and the gain of the VCA 16 gradually increases from the minimum value. The signal level gradually decreases, and conversely, the audio signal level of channel CH2 gradually increases.
[0020]
When the operating element 17a reaches an intermediate point between the A end and the B end, the gains of the VCAs 15 and 16 become the same. Therefore, if the supply levels of the audio signals to the VCAs 15 and 16 are the same, the audio signals of the channels CH1 and CH2 Levels will be mixed in adder 18 at approximately the same level. By moving the operation element 17a further from the intermediate point toward the B end, the gain of the VCA 15 further decreases, the gain of the VCA 16 further increases, and the gain of the VCA 16 becomes higher than the gain of the VCA 15. Therefore, the audio signal level of the channel CH1 mixed by the adder 18 is lowered, and the audio signal level of the channel CH2 is increased. When the controller 17a reaches the B end, the gain of the VCA 15 becomes the minimum value, and the gain of the VCA 16 becomes the maximum value, so that only the output audio signal of the CD player 2 of the channel CH2 is the input level adjuster 12 and the equalizer adjuster 22 , The channel fader adjuster 32, the changeover switch 62, the B channel assign switch 8, the VCA 16, the adder 18, and the master fade adjuster 19 are outputted in this order. At this time, since the back cue signal is supplied to the CD player 1, the CD player 1 stops the reproduction operation, returns the pickup reading position to the address position designated in advance, and enters a standby state.
[0021]
When the operation element 17a of the slide volume 17 is moved from the B end toward the A end, an operation opposite to the above operation is performed. In the above-described embodiment, the case where the A channel assignment switch 7 selects the channel CH1 and the B channel assignment switch 8 selects the channel CH2 has been described. However, the channels selected by the A and B channel assignment switches 7 and 8 are described. In either case, the same operation as described above is performed. It is assumed that the same channel is not selected in the A and B channel assignment switches 7 and 8.
[0022]
In step S2, when the cross fade on / off switch is switched to the OFF side instead of the ON side, the control operation of the CD players 1 to 4 is performed according to the position of each operator of the channel fader adjusters 31 to 34. (Step S18). For example, when the operation unit of the channel fader adjuster 31 is in the MIN (minimum) position, the microcomputer 5 generates a start signal to the CD player 1 when the operation unit moves in the MAX (maximum) position direction. On the other hand, when the operator of the channel fader adjuster 31 is at a position other than the MIN position, a back cue signal is generated in the CD player 1 when the operator reaches the MIN position. Similar CD player control is performed for the operators of the other channel fader adjusters 32-34.
[0023]
In the above-described embodiment, when the operating element 17a moves from the A end to the B end, the CD player 1 of the channel CH1 stops the reproduction operation when reaching the B end. The playback operation of the CD player 1 of the channel CH1 may be stopped when it is located on the B end side from the intermediate point between the end and the B end. In the above-described embodiments, the CD player is shown as an apparatus for reproducing the recording signal of the recording medium. However, the present invention is not limited to this, and other reproducing apparatuses such as a tape deck and a mini disk player are used. It is clear that it is also good.
[0024]
Furthermore, in the above-described embodiment, the slide volume for linearly moving the operation element is shown, but a rotation volume for rotating the operation element may be used. Further, a switch for detecting the presence of the operation element may be provided at the A end and B end of the slide volume, and the reproduction operation of the CD player may be controlled according to the output of the switch.
The disc player according to the present invention is provided with storage means for storing a designated address position on the disc. When receiving a playback start instruction from the mixing device, the playback operation is started, and a playback stop command is received from the mixing device. Then, the reproducing operation is stopped and the reading position of the pickup is returned to the address position stored in the storage means, thereby controlling the disc player itself in a standby state. Therefore, if the disc player of the present invention is connected to an audio signal mixing device, long mix editing can be performed with a simple operation.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of the present invention.
FIG. 2 is a diagram showing a slide volume operator in the apparatus of FIG. 1;
FIG. 3 is a characteristic showing a relationship between a position of an operator and gains of two VCAs.
FIG. 4 is a flowchart showing the operation of the microcomputer.
FIG. 5 is a flowchart showing a continuation of FIG.
[Explanation of main part codes]
6 Crossfade on / off switch 7, 8 Channel assign switch 17 Slide volume

Claims (1)

A disc player that can be connected to a mixing device having an operation unit for mixing two audio signals and adjusting a mixing ratio thereof,
An output means for outputting an audio signal read from the disc by a pickup;
Storage means for storing a specified address position on the disk;
When the reproduction start instruction is received from the mixing device, the reproduction operation is started. When the reproduction stop instruction is received from the mixing device, the reproduction operation is stopped and the reading position of the pickup is stored in the storage means. A disc player comprising: control means for controlling the disc player itself to a standby state by returning to an address position.

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