JP3596024B2 - Electronic musical instrument - Google Patents

Description

[0001]
[Industrial applications]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic musical instrument capable of performing a split performance, that is, dividing a key range into a plurality of regions and performing a different tone for each region.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is a technique of a split performance (a key range is divided into a plurality of regions and each region is played with a different tone color) in an electronic musical instrument (electronic keyboard musical instrument). Regarding the setting of the split performance, for example, Japanese Patent Application Laid-Open No. 4-181295 discloses that a split performance mode is set by pressing a split performance designation switch, and then a tone color selection switch is operated while operating a right key range key, so that the right key range timbre is operated. An electronic musical instrument is described in which a tone color selection switch is operated while operating a key in the left key range to set a tone color in the left key range.
[0003]
There is also an electronic musical instrument in which a position for dividing a key range can be selected from a plurality of positions. For example, in an electronic musical instrument described in Japanese Patent Application Laid-Open No. 4-181295, a split performance provided on an operation panel is provided. The division position is changed according to the number of times the designated switch is operated, and the set division position is displayed by an LED or the like provided near the keyboard.
[0004]
[Problems to be solved by the invention]
In the above-described conventional electronic musical instrument, the timbre set in the right key range and the left key range cannot be confirmed. That is, when setting the tone in both the right key range and the left key range, the same tone selection switch is operated. For example, an LED is provided for each tone selection switch, and the set tone is confirmed by turning on the LED. Even if it could be done, only the tone set in either the right key range or the left key range could be displayed
.
[0005]
In addition, regarding the selection of the position for dividing the key range, it is difficult to understand the relationship between the operation of the split performance designation switch and the division position, and the setting of the division position cannot be understood without referring to the instruction manual of the electronic musical instrument. There is a disadvantage that the desired position cannot be set by the above operation.
[0006]
The present invention has been made in view of the above-described inconvenience, and the invention according to claim 1 includes a keyboard having a plurality of keys, and a musical sound generating means for generating a musical sound signal based on the keyboard operation. In the electronic musical instrument, the keyboard is divided into at least a first area and a second area, and the first performance mode in which the tone color of the generated tone signal differs for each of the divided areas is the same in all areas of the keyboard. And a tone designating means for designating any one of the second performance modes for generating a tone signal of the tone of the first tone and a tone selecting means for selecting a tone of the tone generated based on the keyboard operation from a plurality of tone colors. And a timbre display means for displaying a tone selected by the timbre selection means, which is commonly used in both the first performance mode and the second performance mode. And the second When the mode designation operator is not operated, the tone color selected in the first area or the entire area is selected according to the designated mode. Is displayed, and when the mode designating operator is operated, the tone selected for the second region of the divided regions is displayed while the mode designating operator is operated. Controlling the tone display means, and switching the mode between the first and second performance modes when the mode designating operator is turned off before a predetermined time has elapsed after the mode designating operator has been turned on. And control means for controlling not to switch the mode when it is turned off after a predetermined time has elapsed after being turned on.
[0007]
An electronic musical instrument according to a second aspect of the present invention is the electronic musical instrument according to the first aspect, further comprising a plurality of split point operators for selecting and specifying a position at which the keyboard area is divided from a plurality of positions. The split point operators are provided near the keyboard and at positions corresponding to the dividing positions, and in the first mode, the split point operators are operated based on the operation of the split point operators. Setting means for setting the position of dividing the keyboard area to a position corresponding to the operated split point operator.
[0008]
[Action]
In the invention according to claim 1, the keyboard is divided into at least a first area and a second area, and a first performance mode in which the tone color of the generated tone signal differs for each of the divided areas; Has a mode designating operator for designating any one of the second performance modes for generating a tone signal of the same timbre in the entire region of the above-mentioned mode. When this mode designating operator is not operated, the designated mode is set. The tone selected in the first area or the entire area is displayed and controlled by tone color display means commonly used in both the first performance mode and the second performance mode, and the mode designation is performed. When the operator is operated, while the mode designating operator is being operated, the tone selected for the second one of the divided ones of the divided ones is changed to the tone color. Display means Therefore, control is performed so as to be displayed, and when the mode designating operator is turned off before a predetermined time has elapsed after being turned on, the mode is switched between the first and second performance modes. When the power is turned off after a lapse of a predetermined time from being turned on, control is performed so that mode switching is not performed.
[0009]
According to the second aspect of the present invention, when performing in the first mode, a position at which a keyboard area is divided can be selected and designated by a plurality of operators.
[0010]
【Example】
Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram of a hardware configuration. A CPU (Central Processing Unit) 1 controls the operation of the entire apparatus, and executes processing according to a control program stored in a ROM (Read Only Memory) 3. Further, the CPU 1 and each section are connected via a bus 2, and various kinds of data are transmitted and received. A RAM (random access memory) 4 is provided with areas such as buffers, registers, and flags for temporarily storing various data generated during processing by the CPU 1. The timer 11 supplies an interrupt signal of a predetermined cycle to the CPU 1, and the CPU 1 executes a timer interrupt process according to the generation of the interrupt signal.
[0011]
The keyboard 5 has a large number (for example, 61) of keys. When operated by a player, the keyboard detection circuit 6 detects the operation and outputs operation information to the CPU 1 via the bus 2. The CPU 1 creates note data such as note-on and note-off based on the key operation information, and outputs the note data to the tone generator 10 via the bus 2. The tone generator 10 forms a tone waveform signal based on the supplied note data. As a method of the sound source circuit, a well-known waveform memory reading method, an FM (frequency modulation) method, a physical model simulation method, or the like is used. The tone waveform signal formed in the tone generator 10 is supplied to the sound system 13 to generate a tone.
[0012]
Reference numeral 7 denotes a panel switch, which has a number of switches for designating various functions of the electronic musical instrument, such as selection of a tone color, designation of a left voice mode, and selection of a split point. The operation of these switches is detected by the switch detection circuit 8, and operation information is supplied to the CPU 1 via the bus 2. The CPU 1 executes various functions according to the supplied switch information. Reference numeral 9 denotes a display circuit comprising LEDs provided on the operation panel surface, and displays various setting states. Reference numeral 12 denotes a MIDI (Musical Instrument Digital Interface) interface (I / F) for outputting note event data and the like generated by operating the keyboard 5 to an external tone generator, a tone generator circuit of the electronic musical instrument, and the like. In order to drive the electronic musical instrument 10, note event data or the like is received from an external electronic musical instrument or the like.
[0013]
FIG. 2 is a diagram showing an operation panel surface of the electronic musical instrument. Many switches 7 are provided on the operation panel surface. The switch 7-1 is a tone color selection switch. By operating any one of these switches, the tone color of a tone generated when a keyboard is operated is selected. An LED for displaying the selected tone color is provided near each tone color selection switch. The user can confirm the tone selected at that time by turning on the LED. The switch 7-2 is a left voice switch, which divides the keyboard area into two areas, a right key area and a left key area, and allows each area to be played with a different tone color (split performance mode). Is a switch for designating. Each time the left voice switch is operated for a short time (for example, within 1 second), the mode is switched between a left voice mode and a normal voice mode (a mode in which the entire key range can be played with a single tone). On the other hand, when this switch is operated for a long time (for example, 1 second or longer), a left voice confirming state in which the tone set in the left key range can be confirmed as the left voice, and while this switch is pressed, The LED of the tone set as the left voice lights up, and when the switch operation is completed, the LED of the tone set in the original right key range (left voice mode) or the entire key range (normal voice mode) lights up I do. As described above, when the switch is operated for a short time, the mode is switched, and when the switch is operated for a long time, the mode is not switched. Therefore, only one switch needs to be provided for two functions, and the panel surface is complicated. Can be avoided and lead to cost reduction. In order to confirm the set tone, a relatively long recognition time is required. However, a long time is not required only when the mode is switched. Therefore, in the present invention, the operation is controlled such that the mode is switched when the operation is performed for a short time, and the set tone is confirmed when the operation is performed for a long time. When the timbre selection switch 7-1 is operated while the left voice switch is being operated, the timbre set for the left voice can be changed.
[0014]
Switches 7-3-1, 2, and 3 provided near the keyboard are split point switches. The switch 7-3-1 is a first split point switch, and is a switch for dividing a key range between F # and G into two. The switch 7-3-2 is a second split point switch, and is a switch for dividing the key range between B and C on the treble side from the position specified by the switch 7-3-1. The switch 7-3-3 is a third split point switch for dividing the key range into two between F # and G, which is one octave higher than the position specified by the switch 7-3-1. . An LED for displaying the currently set split point is provided near each of the split point switches. Since each split point switch and LED are provided near the keyboard and at positions corresponding to the division positions, it is possible to easily determine what to do when changing the division position. Since a switch is provided for each division position, the division position can be set to a desired position by one operation, and the setting operation is very easy.
[0015]
The switch 7-4 is a power switch. Turning on this switch starts the operation of the electronic musical instrument.
[0016]
The switch 7-5 is a registration switch. The registration is a storage of a plurality of sets of settings of various switches on a panel, and a desired setting can be reproduced by one-touch operation by operating any of the registration switches 7-5. It is. Each registration data also stores initial data of the second tone set in the left key range in the left voice mode. Therefore, a suitable second tone color is automatically set when the left voice mode is set according to the selected registration. Further, it is possible to set a tone color arbitrarily selected by the user as the second tone color, instead of the initially set second tone color as described later. A number of switches (for example, switches related to automatic rhythm performance) other than the above-mentioned switches are also provided on the operation panel surface, but the description thereof is omitted here.
[0017]
Next, a flowchart of a process performed by the CPU 1 will be described with reference to FIGS. FIG. 3 shows the main routine. When the power switch 7-4 is turned on, a main routine is started. First, in step S1, initialization processing such as RAM clearing and initial setting of various registers is performed. Next, a keyboard process is executed in step S2, a switch process is executed in step S3, and other processes are executed in step S4. The process returns to step S2 again, and the above processes are repeated.
[0018]
FIG. 5 shows details of the keyboard processing in step S2. In step S11, the presence or absence of a key event is determined. If a key event is detected, the process proceeds to step S12, and if not detected, the process returns. In step S12, it is determined whether or not the value of a flag LVMODE indicating whether or not the camera is in the left voice mode is 1. If 0, that is, if it is the normal voice mode, the process proceeds to step S13, and it is determined whether or not the detected key event is a key-on event. If the result is Yes, the tone generation process for the first tone color is performed in step S14. Here, the first timbre is a timbre set in the entire key range in the normal voice mode and in the right key range in the left voice mode. In this case, since the normal voice mode is set, a musical tone is generated in the same tone regardless of the key range of the keyboard. On the other hand, when No is determined in step S13, it means that the key-off event is detected, and in step S15, the mute processing for the first tone color is performed. Since the sound generation and the silencing process are well known, detailed description thereof will be omitted.
[0019]
When the left voice mode is set, it is determined as Yes in the process of step S12. In this case, in step S16, it is determined whether the detected key event is a key-on event. At the time of the key-on event, it is determined in step S17 whether or not the key code of the key-on event is above the currently set split point. If it is above the split point, the tone generation process for the first tone color is executed in step S18, and if it is below the split point, the tone generation process for the second tone color is executed in step S19. In the process of step S19, the key code of the left key range may be shifted by an octave as necessary.
[0020]
If it is determined in step S16 that the detected key event is a key-off event, it is determined in step S20 whether the key code of the key-off event is above the currently set split point. When it is above the split point, the mute processing for the first timbre is executed in step S21, and when it is below the split point, mute processing for the second timbre is executed in step S22. As described above, in the left voice mode, when the right key of the keyboard is operated, a tone is generated in the first tone set in the right key, and when the left key is operated, the tone is generated in the left key. A tone is generated with the second tone color set as (1).
[0021]
Next, regarding the switch processing in step S3, processing corresponding to each switch will be described. Here, only specific switches related to the present invention will be described. FIG. 6 is a flowchart showing processing of the left voice switch. In step S31, it is determined whether an event of the left voice switch has occurred. If there is an event, the process proceeds to step S32, and it is determined whether the event is a switch-on event. At the time of the switch-on event, the process proceeds to step S33, and if the LED provided near the left voice switch is not lit, it is lit to indicate that it is in the state related to the left voice. If the LED provided near the split point switch is not turned on, the LED corresponding to any of the set split points is turned on. Then, in step S34, 10 is set in a register COUNT for counting the switch operation continuation time, and a flag LVSW indicating that the left voice switch is operated is set to 1. The value of the register COUNT is decremented in a timer interrupt process every 100 ms, which will be described later, and the value 10 corresponds to one second. Thereafter, the process returns to the main routine.
[0022]
If No is determined in step S32, that is, if the switch event is a switch-off event, the process proceeds to step S35, and it is determined whether the flag CONFIRM is 1. This flag CONFIRM is a flag indicating that the tone color currently set as the left voice is confirmed. As described above, when the left voice switch is pressed for a long time, for example, 1 second or longer, the left voice confirmation state is set. In the left voice confirmation state, the flag CONFIRM is 1. The value 10 corresponding to one second set in the above-mentioned register COUNT is for measuring the time during which the left voice switch is kept pressed.
[0023]
If the flag CONFIRM is 0, that is, if it is not in the left voice confirmation state, the process proceeds to step S36 to invert the value of the flag LVMODE. As a result, when the value of the flag LVMODE becomes 1, it is determined as Yes in step S37, the first tone is set in the right key range, the second tone is set in the left key range in step S38, and the right and left sides of the split point are set. The left voice mode enables different sounds to be played. On the other hand, if No is determined in the step S37, the first tone color is set in the entire key range in a step S39, and a normal voice mode is set. Then, in step S40, the LED near the left voice switch and the LED near the split point switch are turned off. As described above, when the flag CONFIRM is 0 when the left voice switch is turned off, it is regarded that the left voice switch has been operated to switch the performance mode, and the mode switching processing as described above is executed.
[0024]
If it is determined Yes in step S35, the process proceeds to step S41, and it is determined whether the value of the flag LVMODE is 0. When the value is 0, it means that the tone set as the left voice in the normal voice mode has been confirmed, so that each LED turned on in step S33 is turned off in step S42. That is, in the present embodiment, even in the normal voice mode, it is possible to confirm the tone set as the left voice in the left voice mode. On the other hand, when the value of the flag LVMODE is 1, since the left voice mode is maintained even when the left voice switch is turned off, and it is not necessary to turn off each LED, step S42 is skipped. Subsequently, the flag CONFIRM is reset to 0 in a step S43. Thereafter, or after steps S38 and S40, the process proceeds to step S44, where the register COUNT and the flag LVSW are reset to 0, and the process returns to the main routine.
[0025]
Here, a timer interrupt process executed by interrupting the main routine every 100 ms will be described. In step S51, it is determined whether or not the value of the register COUNT is 0. If the value is 0, the timer interrupt processing ends. On the other hand, if the value of the register COUNT is not 0, that is, is 1 or more, the process proceeds to step S52, and the value of the register COUNT is decremented. As a result, it is determined in step S53 whether or not the value of the register COUNT has become 0. If Yes, the flag CONFIRM is set to 1 in step S54. That is, when it is determined to be Yes in step S53, the interrupt processing is performed 10 times from the time when the value of the register COUNT is set to 10 in step S34 in FIG. One second has elapsed. Therefore, the flag CONFIRM is set to 1 to set the left voice confirmation state. Thereafter, or when it is determined as No in step S53, the timer interrupt process is terminated and the process returns to the main routine.
[0026]
Returning to the description of the main routine, the voice switch processing of FIG. 7 will now be described. In step S61, it is determined whether or not there is a switch event of the voice switch 7-1. If so, the process proceeds to step S62, and it is determined whether or not this is a switch-on event. At the time of the switch-on event, the process proceeds to step S63, and it is determined whether or not the flag LVSW is 1. If Yes, it means that the voice switch has been pressed while pressing the left voice switch, so that the second tone for the left key range is changed to the tone of the operated voice switch. If No is determined in step S63, the first tone color relating to the right key range or the entire key range is changed to the tone color of the operated voice switch in step S64. Thereafter, or when it is determined as No in the processing of steps S61 and S62, the voice switch processing ends.
[0027]
Next, the split point switch processing of FIG. 8 will be described. In step S71, it is determined whether or not an event of any of the split point switches has occurred. If Yes, it is determined in step S72 whether or not the event is an ON event of the first split point switch. If Yes, the process proceeds to step S73, where the split point is set to the first position. Then, in a step S78, it is determined whether or not the flag LVMODE is 1, and if it is 1, the LED provided near the switch is turned on in a step S79, and the LEDs near the other split point switches are turned off. If No is determined in the step S78, the processing in the step S79 is omitted. That is, when the split point switch is operated in a state other than the left voice mode, the setting of the split point is changed, but the performance of the left voice cannot be performed, so that the LED of the split switch is not turned on.
[0028]
When No is determined in the step S72, the process proceeds to a step S74, and it is determined whether or not the event is an ON event of the second split point switch. If Yes, the process proceeds to step S75, where the split point is set to the second position. If No is determined in the step S74, the process proceeds to a step S76, and it is determined whether or not the event is an ON event of the third split point switch. If Yes, the flow advances to step S77 to set the split point at the third position. After step S75 and step S77, the process proceeds to step S78, and the same process as the process after step S73 is performed. The determination of No in step S76 is when the event is an off event of any of the split point switches, and the split point switch processing ends as it is.
[0029]
In the embodiment, when the left voice switch is operated for more than about 1 second, the left voice switch is set to the left voice check state, and when the left voice switch is operated for a shorter time, the left voice mode is switched. The time is not limited to about one second.
[0030]
Further, the position of dividing the key range, the number of divisions, and the like are not limited to those in the embodiment. For example, when the key range is divided into three, the tone of the first key range is normally displayed, and if the operation time of the split switch (switch for designating the key range division performance mode) is within one second, the mode is switched. The display of the tone color of the second key range if the display time is 1 second or more and 2 seconds or less, or the display of the tone color of the third key range if the display time is 2 seconds or more, may be changed according to time. Alternatively, the timbre may be confirmed in another display mode.
[0031]
The operator for designating the key range division position is not limited to a plurality of switches corresponding to each division position, but may be a slide switch having a click at each division position.
[0032]
As described above, according to the first aspect of the present invention, in the tone color display means used in both the first mode and the second mode, the plurality of tone color display means are operated by operating the mode designating operator in the first mode. Since it is possible to confirm the tone selected in the area, it is possible to avoid complication of the panel surface and to reduce the cost. Also, the operability is good.
[0033]
According to the second aspect of the invention, in addition to the effect of the first aspect, when performing in the first mode and further in the first mode, the keyboard area is divided by a plurality of operators. Since the position can be selected and specified, the setting of the division position becomes easy.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a hardware configuration according to an embodiment of the present invention.
FIG. 2 is a diagram showing a panel surface in an embodiment of the present invention.
FIG. 3 is a diagram showing a processing flowchart (main routine) by a CPU in the embodiment of the present invention.
FIG. 4 is a diagram showing a processing flowchart (timer interruption processing) by a CPU in the embodiment of the present invention.
FIG. 5 is a diagram showing a processing flowchart (keyboard processing) by a CPU in the embodiment of the present invention.
FIG. 6 is a diagram illustrating a processing flowchart (left voice switch processing) performed by a CPU according to the embodiment of the present invention.
FIG. 7 is a diagram illustrating a processing flowchart (voice switch processing) performed by a CPU according to the embodiment of the present invention.
FIG. 8 is a diagram illustrating a processing flowchart (split point switch processing) by the CPU according to the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... CPU, 3 ... ROM, 4 ... RAM, 5 ... keyboard, 7 ... Switch, 9 ... Display circuit, 10 ... Sound generator circuit, 12 ... MIDI interface

Claims (2)

A keyboard with multiple keys,
An electronic musical instrument comprising: a musical sound generating means for generating a musical sound signal based on the keyboard operation;
A first performance mode in which the keyboard is divided into at least a first area and a second area, and a tone color of the generated tone signal is different for each of the divided areas; and a tone signal of the same tone in all areas of the keyboard. A mode designating operator for designating any of the second performance modes for generating
A timbre selecting means for selecting a timbre of a tone generated based on the keyboard operation from a plurality of timbres, which is commonly used in both the first performance mode and the second performance mode;
Tone color display means for displaying the tone color selected by the tone color selection means, which is commonly used in both the first performance mode and the second performance mode;
When the mode designation operator is not operated, the tone selected in the first area or the entire area is displayed according to the designated mode, and when the mode designation operator is operated Controlling the timbre display means to display a timbre selected with respect to a second area of the divided areas while the mode specifying operator is being operated, and When the power is turned off before a predetermined time has elapsed since the power was turned on, the control is performed so that the mode is switched between the first and second performance modes, and the operation time is predetermined for a predetermined time after the mode designating operator is turned on. Control means for controlling not to switch modes when turned off for a time longer than the time. Furthermore, a plurality of split point operators for selecting and specifying a position for dividing the keyboard area from among a plurality of positions, wherein each of the split point operators is near the keyboard and corresponds to the dividing position. That are provided at each of the positions
2. The apparatus according to claim 1, further comprising: setting means for setting a position at which the keyboard area is divided at a position corresponding to the operated split point operator based on an operation of the split point operator. Electronic musical instruments.

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