RU2098868C1 - Electronic sound simulator - Google Patents

Abstract

FIELD: microelectronics. SUBSTANCE: device has multivibrator which is made from transistors. When circuit is switched on by means of button, multivibrator is driven to self-oscillating state. Loudspeaker outputs sound oscillations. Simulation of voice of specific animal is achieved by means of soft closing of control transistor. EFFECT: decreased size. 1 dwg

Description

 The invention relates to electric musical devices, in particular to sound simulators, designed to sound children's toys, depicting, for example, a kitten, lupus, fox, etc. animals.

Known electronic sound simulator (analogue) containing a relaxation generator of sound frequency and an emitter follower [1]
The disadvantage of this device is the inability to use it without a significant change in design for voicing children's toys depicting the animals mentioned above.

Known for another electronic sound simulator of a siren (analogue) containing a three-stage generator, one of the stages of which is a transistor, and the other two are formed by a four-element microcircuit connected to an acoustic speaker, and a resistor circuit included in the transistor base circuit [2]
The disadvantage of this dual-tone device is the inability to use it as a voiceover of children's toys without introducing a key control system into the circuit.

Known for the closest in design and achieved effect electronic sound simulator (prototype), which contains a multivibrator on transistors connected to an acoustic speaker and a control transistor having a capacitor in parallel with its base and collector, and a contact contactor connected to the negative circuit of the power source [3]
A significant drawback of this device, called "meow", is the bulkiness of its electronic circuit and its relative complexity, as a result of which the "electronic filling" of the device is not placed in the toy body, but in its stand.

 This gives the toy a negative quality of stationarity, not characteristic of a mass children's toy, thereby reducing the effect of its emotional impact on the child.

 The aim of the invention is to ensure compactness, achieved by significantly simplifying the device, reducing cost.

 In an electronic sound simulator [3] containing a multivibrator on transistors, connected to an acoustic speaker and to a control transistor having a capacitor in parallel with its base and collector, and a contact contactor connected to the negative terminal of the power supply, this goal is achieved by the fact that the multivibrator assembled according to an asymmetric circuit on transistors, to the emitter and collector of which a capacitor is connected, the acoustic speaker is connected to the emitter and collector of transistors multivibrator and an emitter of a control transistor, and a resistor circuit with a capacitor connected in parallel to it is connected to the base of the multivibrator transistor, which is connected to the emitters of the multivibrator transistors, to the emitter of the transistor of which the base of the control transistor is connected, while the capacitor’s circuit is parallel to the last connected push button closure.

 The drawing shows a schematic diagram of the proposed electronic sound simulator.

The sound simulator contains a multivibrator on the transistor T ₁ and the transistor T ₂ assembled according to an asymmetric circuit. A capacitor C _{1 is} connected to the emitter of the transistor T ₁ and the collector of the transistor T ₂ . The acoustic speaker Gr is connected to the emitter of the transistor T ₁ , the collector of the transistor T ₂ and the emitter of the transistor T ₃ key. At the same time, a chain of series-connected resistors R ₁ , R ₂ and R _{3 is} connected to the base of transistor T ₁ with a capacitor C ₃ connected in parallel between resistors R ₁ and R ₂ . The resistor circuit is connected to the emitters of transistors T ₁ and T ₂ . The transistor base T _{3 of the} key is connected to the emitter of the transistor T ₂ through the resistors R ₄ and R ₅ , connected to its collector through the capacitor C ₂ , in parallel with which the KN push-button contactor is connected to the negative terminal of the power source.

The positive terminal of the power source is connected to the emitter circuit of the transistor T ₂ .

 The device operates as follows.

In the closed state of the transistor T _{3 the} device is turned off. The current consumption in it is 1-2 μA, which is lower than the self-discharge current of the power source and no other current chopper is required.

The KN circuit breaker is used to start the multivibrator. To start it, press the KN button and hold its contacts in this position for 5-8 s, after which, releasing the button, the contacts open. When voltage is applied through the opening transistor T _{3 of the} key, the circuit comes into operation. Capacitor C ₃ is charging. Self-oscillations are made in the circuit of transistors T ₁ and T ₂ , while the transistor T ₂ acts as a low-frequency generator. When charging the capacitor C ₃ , the oscillation frequency of the transistor T ₂ changes, creating sound vibrations in the acoustic dynamics of Gr.

The formation of a sound simulation of a voice, such as a kitten, and the reproduction of a two-stroke sound "meow" involves the smooth closing of the transistor T ₃ of at least the capacitor C ₂ .

 The proposed device is much simpler, cheaper and more compact than the prototype device, which makes it possible to place it directly in the body of a small-sized toy for individual use. This opens up great opportunities for mass production of voiced toys.

Information sources:
1. Simonov I.D. New in electric musical instruments. M. "Energy", 1966, p. 36.

 2. The journal "Radio", 1979, N 2, p. 61.

 3. The journal "Radio", 1974, N 2, p. 38 (prototype).

Claims (1)

 An electronic sound simulator containing a multivibrator on transistors, connected to an acoustic speaker and with a control transistor having a capacitor in parallel with its base and collector, and a contact closure circuit connected to the negative terminal of the power source, characterized in that the multivibrator is assembled according to an asymmetric circuit on np - n- and pn p-transistors, to the emitter and collector of which a capacitor is connected, the acoustic speaker is connected to the emitter and collector of multivibrator transistors and to the emitter a control transistor, and a resistor circuit with a parallel capacitor connected to an emitter of a multivibrator transistor connected to the base of the np n-transistor of the multivibrator, to the emitter of the transistor pn p-transistor which is connected to the base of the control transistor, and a button contactor.