SU790013A1 - Electromusical instrument - Google Patents

Description

one

The invention relates to electromusical instruments with electronic oscillation exciters, and can be used when playing simple musical phrases in hours 5 with a musical mark of time, intervals, musical signal type of telephone sets, musical signaling of door bells and other similar specified 10 , systems with music time stamps or calls.

An electromusical device is known that calls a subscriber by playing a musical phrase, which consists of an opto-triggering circuit that connects the telephone network to the input of the device, a pairing scheme, which is a 10-second strobe driver built on the Schmitt integral trigger. and the timer, and the musical phrase generator on integral timers, working for a time, shaper shaper 25

strobe fll.

The disadvantages of the known electromusic device are considerable size and lack of reliability due to the presence of 30

A large number of large capacitors are needed to switch both rhythm and signal tones, as well as insufficient tuning accuracy, false in the musical phrase being played, due to the large number of tuning elements and temperature and temporal deviations of the capacitance values used for tuning. The closest technical solution to the present invention is a device consisting of a rhythm generator, which is an integrated timer with two switchable time. Tasks, a decimal counter, a first decoder, the output of which is used to switch the time of the setting rhythm generator capacities, the second a decoder connected to the inputs in parallel with the first decoder, with outputs connected to the time master capacitors of the tone generator. Such a musical synthesizer reproduces a simple musical phrase of 10 notes. The rhythm generator sets the melody, and the tone generator generates signals of the specified sound frequencies. The output of the CHTHaJiOB tone generator is further connected to the input of the euk frequency amplifier. After connecting the power to the control input, the melody repeats continuously. The number of lost phrases can be adjusted by connecting the power to the control input to the relay through a cascade. f2} .. A disadvantage of the known electromusic device is that they lack the reliability and accuracy of the adjustment. The purpose of the invention is to increase the reliability and accuracy of the restructuring of an electromusical device. The goal is achieved by the fact that an electromusical device containing a rhythm signal generator, the output of which is connected to the input of a K-bit counter through the pulse shaper, whose outputs are bitwise connected to the inputs of the decoder having N outputs and the current signal generator, has been entered diodes and two. variable resistor, each decoder output through the first serially connected separation diode and variable resistor connected to the control input of the signal generator A rhythm is connected to the control input of the tone signal generator through the second series-connected decoupling diode and variable resistor. The drawing shows a functional diagram of an electromuscular device. The electro-musical device consists of a rhythm generator 1 containing a single junction transistor 2, a load resistor 3 in the circuit of the first base of the single junction transistor 2, and the time specifying the capacitor 4 connected between the emitter of the single junction transistor 2 and the common bus. The shaper has 5 pulses, t1 -digit counter b pulses on potential triggers (in r. General case, the number of outputs of the counter corresponding to the number of potential triggers included in its composition can be arbitrary), the decoder. 7 / generator 8 of the tone signal containing the second unijunction transistor 9, the resistor 10 in the circuit of its first base and the capacitor 11 connected between the emitter of the second unijunction transistor 9 and the common bus, dividing diodes 12-21, variable resistors 22-31. The connection points of the diodes 12-21 are connected to the corresponding links of the decoder 7, terminal 32 serves to supply the supply voltage to the rhythm generator 1, the generator 8 of current signals, the driver 5 of pulses, the counter b of pulses and the decoder 7. - Electromusic device works as follows. A high voltage potential at each considered moment of time can only be at one of the outputs of the decoder 7 (for example, the first). This voltage through diode 12 is fed to the second output of variable resistor 22. The capacitor 4 of the rhythm generator 1 is charged from the indicated voltage through resistor 22 and the forward-mounted diode 12. The remaining variable resistors are disconnected from the charging circuit by locked diodes 13-16 and are not affected during the charging process of the capacitor 4. When the voltage on the capacitor 4 reaches the turn-on voltage of the single junction transistor 2, the latter turns on and produces a short pulse on the resistor 3, while the capacitor 4 is discharged and the single junction transistor Op 2 is turned off. The impulse produced by the rhythm generator 1 from the resistor 3 is fed to the input form-. There are 5 pulses, where, if necessary, the steepness of the front of this pulse and its amplitude increase. The generated pulse from the output of the formath 5 pulses is fed to the counting input of the counter 6 pulses and causes the switching of the triggers of this counter. Due to the switching of the flip-flops of the counter 6, a high level of voltage is now at another output of the decoder 1 (for example, the second). The next charge cycle of the capacitor 4 is already carried out through another variable resistor — in this case, through a resistor 23 and another direct-mounted coupling diode. Further, the processes are repeated. By selecting the resistance values of the resistors 22-26, you can set the required amount of time for charging the capacitor 4 in each clock cycle. This time corresponds to the time of each subsequent note. By adjusting the resistors 22-26, you can set the desired rhythm. At the same time, the output voltage of the decoder 7 controls the generator frequency 8 of the tone signals. If the high voltage level is at the first output of the decoder 7, then this voltage is fed through the diode 21 to the resistor 27. The time setting capacitor 11 of the generator 8. is charged through the resistor 27. During this clock cycle, corresponding to the presence of a high voltage level at the first output decoder 7 / generator 8 frequency is determined by resistor 27. In the next cycle, corresponding to the presence of a high voltage level at the second output of decoder 7, the frequency of the tone generator will be determined by resistor 28, etc. Thus, the decoder 7 controls both the length of each beat and the frequency of the tone in that beat.

It should be noted that if the duration of any cycles is the same, then the number of resistors can be reduced. For example, if the durations of the first and second cycles are the same, then only the rheistor 22 can be used, and the resistor 23 is eliminated, the output of diode 13 is connected to the output of diode 12. Similarly, when playing one note in some cycles, you can eliminate the number of variable resistors in the generator tones; for example, if one note should sound in the first and second cycles, then only resistor 27 can be used, resistor 28 is eliminated, and the output of diode 20 is connected to the output of diode 21

This electromuscular device allows to significantly improve the manufacturability of tuning both the rhythm and tonal frequencies due to variable resistors, which have the possibility of an almost continuous change of resistance, which simplifies tuning and improves the accuracy of setting frequencies. In addition, this device allows to increase the accuracy of maintaining a given separation of tonal frequencies, as well as to reduce the barits of the time of the driver circuits by using a single time of the drive capacitor in each generator and the possibility of eliminating some of the resistors with the same notes And different melody beats.

Claims (1)

1. Electronics, 1975, May, 15, P. 115. 2, Electronics, 1974, April, 17, p. 106 Zf / " ff. yJ