JP2586226C - - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic musical instrument which stores a large number of musical tone signal forming information such as tone color data, and which facilitates selection thereof. 2. Description of the Related Art As the function of a sound source of an electronic musical instrument has been improved, the number of timbres that can be produced and parameters used for forming musical tone signals have been increasing. The player can freely select and set. Various operators for selecting each information have been proposed. For example, in the case of tone selection, an electronic musical instrument provided with tone selection switches corresponding to all tone colors, a tone number is assigned to a tone, and the tone can be selected by inputting the tone number with a numeric keypad. Electronic musical instruments have been put to practical use. [0004] However, providing a tone selection switch corresponding to all of over 100 tones does not only reduce the size of the electronic musical instrument, but also increases the number of mechanical parts and increases the cost and reliability. There was a drawback that led to a decrease in degree. Further, in the method of inputting the tone color number from the numeric keypad, a desired tone color number must be stored, and there is a disadvantage that it is difficult to quickly switch the tone color. An object of the present invention is to provide an electronic musical instrument which solves the above-mentioned problem by classifying information used for forming a tone signal such as a timbre according to a common feature, and enabling efficient selection for each classification. Aim. According to the present invention, there is provided a storage means which is arranged in a predetermined order, stores a plurality of pieces of information used for forming a tone signal in a plurality of groups based on a common feature, and stores the information. Display means for reading out one of the plurality of pieces of information from the storage means and displaying the information; first change instructing means for sequentially instructing the information to be displayed on the display means in accordance with the arrangement order of the information; A second change instructing unit for instructing to change information displayed on the display unit to information of a group different from a group to which the currently displayed information belongs; and responding to a change instruction by the first change instructing unit. The information displayed on the display means is sequentially changed in accordance with the arrangement order of the information, and the information displayed on the display means in response to a change instruction by the second change instruction means is changed. The information of a different group than the group to which it belongs, and, by sequence ordinal position information currently displayed
And display control means for changing the information to a predetermined order position which is not affected . According to the electronic musical instrument of the present invention, a plurality of pieces of information used for forming a tone signal such as a tone color are classified into a plurality of groups based on common characteristics and stored, and the display means stores the plurality of pieces of information among the plurality of pieces of information. Display one. At the time of displaying information on the display means, the displayed information can be sequentially changed and displayed by instructing using the first change instructing means, and by instructing using the second change instructing means, Information that belongs to a different group and is affected by the arrangement order of the currently displayed information
The information of the predetermined order position not receiving the information can be sequentially displayed. Since the above-mentioned groups are classified based on the common features, displaying the features makes it possible to select information very quickly. For example, when the present invention is applied to timbres, as shown in FIG. 1, large categories are grouped into stringed instruments, woodwind instruments, and the like, and information stored as small categories is classified into strings, violins, and brass. They are arranged in a predetermined order in a system or the like. Then, the information of the small classification is sequentially changed by the first changing means in accordance with the predetermined arrangement order, and the information displayed for each group is changed by the second changing means depending on the arrangement order position of the display information before the change.
Change to the information of the predetermined order position that is not affected . An electronic musical instrument according to an embodiment of the present invention will be described with reference to the drawings. This electronic musical instrument is an electronic keyboard musical instrument having a keyboard, and one of a plurality of stored timbres can be selected by operating a panel switch. A plurality of tones are classified in a tree form by two-stage classification items of major classification and minor classification, and the tones belonging to that classification are displayed on the display for each minor classification, and the displayed tone can be selected. become. In the present embodiment, the timbres classified by the small classification are used as information used for forming a tone signal. FIG. 2 is a block diagram of the electronic musical instrument. The operation of the electronic musical instrument is controlled by a CPU 10, which is connected to a ROM 12, a RAM 13, a keyboard circuit 1 via a bus 11.
4, display circuit 15, panel switch circuit 16, and sound source 17 are connected. The ROM 12 stores an operation control program, timbre data, and the like. RAM
In 13, various registers are set. Data input by a performance operation, panel switch operation, or the like is set in the register. The keyboard circuit 14 includes a keyboard of about five octaves and a detection circuit for detecting on / off of the keyboard, touch intensity, and the like. The display circuit 15 comprises an LCD display 20 shown in FIG. 3 and a circuit for controlling display contents of the display. The panel switch circuit 16 includes the tone color selection switch 21, the page selection switch 22, and the jump key 23 shown in FIG. 3, and detects an ON event of these switches. The sound source 17 has a plurality of sounding channels, and forms a tone signal based on sounding parameters sent from the CPU 10. The formed tone signal is input to the sound system 18. The sound system 18 includes a speaker and an amplifier circuit for driving the speaker, and outputs a tone signal as a tone (sound). FIG. 3 is a diagram showing an operation panel surface of the electronic musical instrument. The LCD display 20 has two-stage display units 20s and 20t provided at the upper part, and tone color display units 20a to 20t.
m. The tone color name display sections 21a to 21m correspond to twelve tone color selection switches 21 (21a to 21m) provided below the display 20. Each display unit is obtained by dividing one LCD display 20 by software. The display section 20 s at the top displays a currently selected tone color name and a page number (described later) to which the tone color name belongs. In the middle display section 20t, a small category name of the page selected by the page selection switch 22 is displayed. The timbre name display sections 20a to 20m display the timbre names belonging to the above-mentioned small categories. The page selection switch includes a forward switch 22a and a backward switch 22b. When these switches are turned on, the displayed page is forward or backward by one page. When these switches are turned on together with the jump switch 23, the page advances or retreats for each of the major categories (see FIG. 4). FIG. 4 is a diagram showing a classification structure of timbres in the electronic musical instrument. The timbres are classified into six major categories: stringed instruments, brass instruments, woodwind instruments, sustained sound systems, attenuated sound systems, and user voices, and are further classified into 2 to 4 small categories within each major category. In this example, the major classification corresponds to the group classification of the present invention, and the timbre classified into the minor classification corresponds to the information of the present invention. As a result, all the timbres are classified into 20 minor categories. Each subclass is assigned a serial number (page number) of 1 to 20. Each subclass includes a maximum of 12 tones. For example, as shown in FIG. 6A, strings 1, strings 2, strings 3,
Seven tones of Synth Strings 1, Synth Strings 2, Tremolo Strings and Pizzicato Strings are included. FIG. 5 is a table (Table 1 to Table 4) that stores which page number to go from the current page number when the page selection switch 22 (22a, 22b) and the jump switch 23 are turned on. When only the advance switch 22a or the reverse switch 22b is turned on, the process proceeds to the next page or the previous page as shown in Tables 1 and 3. Jump switch 23 and progress switch 2
When 2a is pressed at the same time, the display jumps to the first page of the next large category to which the currently displayed page belongs (Table 2). When the jump switch 23 and the backward switch 22b are pressed at the same time, the display jumps to the last page of the large category before the large category to which the currently displayed page belongs (Table 4). In this way, when moving between the major categories as in Tables 2 and 4,
The page in the previous major category is added to the page number (array order position) of the currently displayed page.
Therefore, the first or last page is not affected. In this example, the page selection switch 22 corresponds to the first change instruction means of the present invention, and the combination of the jump switch 23 and the page selection switch corresponds to the second change instruction means of the present invention. Referring to a display example of the LCD display 20 in FIG. 6 and a flowchart in FIG. 7, a timbre switching operation in the electronic musical instrument will be described. FIG. 7A is a flowchart showing a main routine. When the power of the electronic musical instrument is turned on, an initial setting operation is first executed at n1. In this operation, LC
The D display 20 displays an initial screen (FIG. 6A). On the initial screen, the sub-category name of page number 1 and the timbre names belonging to it are displayed, of which strings 1 as the first timbre are designated. This state is preset when the power is turned on. In addition to this method, the state immediately before the power is turned off may be reproduced. Thereafter, the keyboard processing (n2), the page selection processing (n3), the timbre selection processing (n4), and other processing (n5) are repeatedly executed. Keyboard processing (n2
) Is a sound / silence control operation based on on / off of a key on the keyboard. The other processes (n5) are operations such as effect control of the generated musical sound and main volume control. FIG. 7B is a flowchart showing the page selection processing operation. First, it is determined whether the page selection switch 22 has been turned on (n10). If it is not turned on, it returns as it is. When the progress switch 22a is turned on, it is determined whether or not the jump switch 23 is on at that time (n11). If it is not turned on, that is, if only the progress switch 22a is turned on, the page number to be displayed next is read out with reference to Table 1 and the next page register P
AGENO is set (n12). When the jump switch 23 is on, the next page number is read out with reference to the table 2 and the PAGE is read.
It is set to NO (n13). When the reverse switch 22b is turned on, it is determined whether or not the jump switch 23 is on at that time (n14). If it is not turned on, that is, if only the reverse switch 22b is turned on, the next page number to be displayed is read out with reference to Table 3 and set in the next page register PAGENO (n15). When the jump switch 23 is on, the next page number is read out with reference to the table 4 and the PAG is read.
It is set to ENO (n16). Thereafter, a screen corresponding to PAGENO is displayed (n17). This display change is a change of the page number displayed in reverse on the page numbers displayed on the display unit 20s, a change of the minor classification name of the display unit 20t, and a change of the timbre name of the timbre name display units 20a to 20m. Since the tone has not been switched,
The tone color name on the display section 20s is displayed as it is (see FIG. 6B). FIG. 7C is a flowchart showing a tone color selection processing operation. First, at n20, it is determined whether or not the tone color selection switch 21 is turned on. If it is not turned on, the routine returns. When any one of the tone color selection switches 21a to 21m is turned on, a parameter for generating a tone corresponding to the turned on switch is read from the ROM 12 and transmitted to the sound source 17 (n21). The tone generator 17 sets this parameter in a predetermined register so that the tone can be generated. Next, the display on the display 20 is changed (n22). This display change is an operation of changing the uppercase tone color name of the display unit 20s and changing the area corresponding to the selected tone color in the tone color name display units 20a to 20m to reverse display. In this embodiment, the timbre is classified into a large classification and a small classification and can be switched for each classification. However, it is also possible to display and select a pattern such as a rhythm pattern and an accompaniment pattern and an effect program. Can be applied. Also, any classification method may be used, and the number of classification steps is not limited to two but may be more. Further, in this embodiment, the major category name is not displayed, but the major category name may be displayed. Displaying the major classification name makes information setting easier. As described above, in the electronic musical instrument according to the present invention, a large amount of information is classified into a plurality of groups for each common feature, and displayed when the first change instruction means is operated. Information is sequentially changed and displayed, and when the second change instructing means is operated, the information belongs to a different group and is affected by the arrangement order position of the currently displayed information.
Since the information of the predetermined order positions that are not displayed is sequentially displayed, even a desired electronic musical instrument having information such as many timbres can be quickly selected, and information can be efficiently selected by a simple operation. Can be switched.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a tree structure when the present invention is applied to classification of timbres; FIG. 2 is a block diagram of an electronic musical instrument according to an embodiment of the present invention; ] Is a diagram showing an operation panel surface of the electronic musical instrument, [FIG. 4] is a diagram showing a timbre classification method of the electronic musical instrument, [FIG. 5] is a diagram showing a table used for page selection of the electronic musical instrument, [FIG. FIG. 6 is a diagram showing a display example of a display of the electronic musical instrument, and FIG. 7 is a flowchart showing an operation of the electronic musical instrument. [Description of Signs] 20-LCD display, 21-tone selection switch, 22-page selection switch, 2
3- Jump switch.

Claims (1)

Claims 1. A storage means arranged in a predetermined order and storing a plurality of pieces of information used for forming a tone signal in a plurality of groups based on a common feature, and storing the plurality of pieces of information. Display means for reading and displaying one piece of information from the storage means, first change instructing means for sequentially instructing the information to be displayed on the display means in accordance with the arrangement order of the information, Second change instructing means for instructing to change the information to be displayed to information of a group different from the group to which the currently displayed information belongs; and the display means responding to the change instruction by the first change instructing means. The information to be displayed is sequentially changed in accordance with the arrangement order of the information, and the information to be displayed on the display means in response to a change instruction from the second change instruction means is defined as a group to which the information belongs. In group information comprising, and, by sequence ordinal position information currently displayed
And display control means for changing the information to a predetermined order position which is not affected .