KR830000459B1 - Electronic pronunciation device - Google Patents

Abstract

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Description

Electronic pronunciation device

1 is a block diagram showing the configuration of an electronic sounding apparatus having one scale generation series.

2 is a block diagram showing the configuration of an electronic sounding apparatus according to the present invention.

3rd and 6th are sheet music to melody development.

4 and 7 show output waveforms (envelope waveforms) of respective scale generation series.

5 is a diagram showing actual output waveforms.

8 shows an embodiment of an envelope addition.

9 is a view showing the operation of the envelope additional circuit.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic sound emitting device for generating melody, and its object is to generate a sound having a large musical effect.

The basic configuration of an electronic sounding device that generates a melody by controlling a programmable counter as data of the scale and the length of the memory described in the memory circuit, and dividing the clock pulses in the clock generation circuit to obtain a predetermined scale. As shown in FIG. 1, the contents of the memory circuit 101 for storing the scale and the length of the sound are read in order according to the address indicated by the address counter 102, and according to the scale data stored in the memory circuit. The pulse obtained by the clock generation circuit 103 is divided while changing the division ratio in the programmable counter 104 so as to generate a scale, and the electric signal waveform obtained in the counter is randomly generated by the waveform processing circuit 105. After converting into waveforms or adding appropriate envelopes, the amplifiers amplify them in the amplifying circuit 106, and in the electroacoustic transducers 107 such as speakers, Thereby reproducing a. In addition, the length of each sound is read out by the memory circuit 101 at the same time as the data of the scale, and the division ratio of the programmable counter 108 is changed. The programmable counter 108 divides the clock pulses from the clock generation circuit 109 which generates pulses with the shortest time widths of the note lengths to determine a predetermined sound length, and control the timing of reading each scale. The clock obtained from the clock generation circuit 109 may be obtained by dividing the clock pulses from the clock generation circuit 103.

In this configuration, 110 is a scale generator circuit.

The sound obtained in such an electronic sounding device is relatively monotonous, and is inferior in that it is a musical effect in comparison with, for example, orgel. However, in the present invention, it is possible to provide an electronic sound emitting device that is sufficiently practical and musically and acoustically.

As shown in FIG. 2, the basic configuration of the electronic sounding apparatus according to the present invention is provided with at least three sets of melodic generators shown in FIG. 1, so that each of the scale generator circuits 201, 202, The electric signal waveform at 203 is amplified by the mixed amplifier circuit 204 and output as sound by the electroacoustic transducer 205. Each scale generating circuit section generates a scale as follows. First, when a melody such as that shown in the score of FIG. 3 is generated, the first scale generation sequence includes the scale corresponding to the notes of # 1, # 3, # 5, # 7, # 9, and the second scale. In the scale generation series, the notes corresponding to the notes of # 2, -4, # 6, and # 8 of the main tone, and the # 1 ', # 2', and # 3 'notes of the subordinates in the third scale generation series Generate a scale. 4 shows a state in which a scale is generated from each scale generation sequence with an envelope added to each pronunciation system.

A denotes an output waveform from the first scale generation sequence, B denotes the second scale generation sequence, and C denotes an output waveform from the third scale generation sequence. In FIG. 4, the attack timing of the generation of scales is represented only by the envelope waveform. In reality, as shown in FIG. 5, it is a waveform having a frequency corresponding to a predetermined scale. In this case, the fundamental waveform is represented by a square wave, but the same applies to the sine wave and the triangular wave.

In the above-described embodiment, the scale of each adjacent note is different from the whole tone, but in the melody of the score as shown in FIG. 6, only the semitone is different between the notes of # 2 and # 3. In this case, generating a musical scale as shown in Fig. 7 can bring about a musically good effect.

The use of a square wave as the waveform of scale generation is simple in configuration and easy to IC, so it is easy to make it into a clock or other small equipment.

In the waveform processing circuit, even if the waveform is shaped by a sine wave or a triangular wave based on the square wave at the programmable scale for generating scale, a good effect peculiar to each waveform can be obtained. 8 shows an example of addition of the envelope in the waveform processing circuit section.

The resistor 801 and the capacitor 802 are connected to an N-channel MOS transistor 803 which operates as a switch, and the other end thereof is connected to a positive power supply terminal 804. One end of the N-channel MOS transistor 803 is connected to the negative power supply terminal 805. A signal waveform for an attack as shown in FIG. 9A is input to an input terminal 806 connected to the gate of the N-channel MOS transistor 803. When the gate potential is high, the potential of the terminal 807 changes as shown in FIG. 9B by the ON resistance of the N-channel MOS transistor 803. When the gate potential is lowered, the N-channel MOS transistor 803 is turned off, and the charge charged in the capacitor 802 is discharged through the resistor 801. The input terminal 808 is inputted with a waveform (Fig. 9C) for generating a scale to which an envelope is to be added. The transmission gates 809 and 810 are alternately turned ON and OFF by the potentials given to the respective gates. 812 is an inverter. As a result, the output terminal 811 obtains a waveform to which an envelope is added as shown in FIG. In addition, in order to change the polarity of the envelope, the power supply terminal may be reversed in this embodiment. The envelope waveform described in this embodiment is used as an attack and a release, but the circuit may be complicated again, and may be a waveform consisting of four parts: attack, decay, sustain, and release. . The time constant of the envelope is preferably such that the sounds in the grammatical generation series overlap. The signal waveforms from the three sound field generation sequences obtained as described above are input to the addition and amplification circuits and become negative in the electroacoustic transducer.

As described above, the present invention comprises at least three sets of melodic generating means, and alternately generates the musical scales of the notes constituting the melody to be played by two sets of melodic generating means, and the third or more melodic generating means is negative. Since the sound corresponding to the sound part of the melody is generated, and the output signals from the plural melody generating means are mixed and electro-acoustic conversion, a melody is generated and the waveform processing circuit has an envelope adding function. Even in the case of two-chord playing, in reality, the first and second scales overlap, and thus the triad is played. The overlap between the first and the second scales is one of the envelope attenuators and the other. Since the side is attacked, it has the effect of obtaining a natural superimposed electronic sound. Therefore, the configuration of the present invention results in a heavy chord performance compared to the conventional monotonous color performance, resulting in excellent electronic sound with improved musicality. In particular, as shown in FIG. 2, the circuit part can be configured as an integrated circuit by C-MOS circuits, except for an electroacoustic transducer, and thus can be widely applied from portable eletronic products to industrial equipment. Can be. In particular, by making the circuit of the present invention in the same chip as the circuit having a clock function, a clock with an electronic sound generation function can be realized without increasing the number of manufacturing steps.

In describing the embodiments of the present invention, the present invention has been described as an example having three systems of scale generation, but if the scale generation sequence is again provided and the sub-line is alternately attacked, an increase in musical effect can be expected. Further, adaptation to any measure of melody playing the embodiment according to the present invention does not depart from the spirit of the present invention.

Claims (1)

The clock generation circuits 103 and 109, the memory circuit 101 for storing the scale and the length of the scale, and the clock pulses from the clock generation circuit 109 are divided to determine a predetermined length of sound and read each scale. A programmable counter 108 for controlling timing, a programmable counter 104 for dividing a clock pulse from a clock generating circuit 103 for generating a scale whose sound length is defined based on data of a memory circuit, and a program In an electronic pronunciation apparatus having melodic generating means serving as a waveform processing circuit 105 for forming a waveform corresponding to an output signal of the counter 104, the melodic generating means comprises at least three sets of melodies to be played. The tone scale of the sound to be composed is alternately generated by two sets of melodic generating means 201 and 202, and the third or more melodic generating means 203 generates a sound corresponding to the negative portion of the negative melody and the plurality of melodic generating means. Of An electromagnetic sounding device characterized by mixing amplified output signals and electro-acoustic conversion to generate melodies and to add an envelope to the waveform processing circuit.

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