KR840001567Y1 - Audio device with muting circuit - Google Patents

Abstract

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Description

Audio muting circuit

1 is a circuit diagram of the present invention.

Figure 2 (a) is a waveform diagram of the muting circuit output when the signal applied to the input terminal (A). (b) is a waveform diagram of the muting circuit output when a signal is applied to the input terminal (B). (c) is a waveform diagram of the muting circuit output when a signal is applied to the input amount terminals A and B.

The present invention mutes the pop noise generated when using a function switch switch attached to a general sound device and a communication device, so that an audio muting signal can be heard. Audio Muting) circuit.

Conventionally, since the audio muting circuit operation function cannot be delayed or released arbitrarily as needed, there is a problem that pop noise generated every time the function selection switch is switched is not satisfactorily eliminated.

The present invention has been made in consideration of this point to properly select the input signal applied to the two input terminals to mute the pop noise by randomly delaying or releasing the muting circuit operation function, which will be described in detail by the accompanying drawings. Is as follows.

As shown in FIG. 1, the two input terminals A and B are connected to the base side of the transistor Q ₁ and the transistor Q ₂ through the diodes D ₁ , D ₂ and the resistor R _1, respectively. ), The base side of transistor Q ₂ is connected to input terminal B via resistor R ₂ and capacitor C ₁ , and the collector side connection point C of transistor Q ₁ ) Is connected to the audio output terminal 3 through a resistor (R ₄ ) and a transistor (Q ₃ ). + B is a DC power supply, R ₃ is a capacitor (C ₁ ) charge discharge resistor, R ₅ is a resistor, D ₃ is a discharge diode, 1 is an audio input terminal, 2 is an audio amplifier. . Referring to the effect of the present invention configured as described above are as follows.

FIG. 1 is a circuit diagram of the present invention. In the state where a high level input signal is not applied to each of the two input terminals A and B, the base-side potential of the transistor Q ₁ is “0”. Since the transistor is in a non-conducting state (Q ₁ ), a high-potential signal appears as the DC power is supplied through the resistor (R ₅ ) to the connection point (C), the output terminal of the muting circuit, and this signal is a resistor (R ₄ ). The transistor Q ₃ is turned on to mute the audio output signal of the terminal 3.

On the other hand, in the state where a high potential signal is applied only to the input terminal A as shown in FIG. 2 (a), the signal is applied to the base side of the transistor Q ₁ through the diode D ₁ and the resistor R ₁ . As a result, the transistor Q ₁ is turned on, which causes a low level signal to appear at the connection point C, and the transistor Q ₃ is brought into a non-conducting state so that the audio output signal is displayed at the terminal 3.

On the other hand, in the state where a high potential signal is applied only to the input terminal B as shown in FIG. 2 (b), the signal is applied to the base side of the transistor Q ₁ through the diode D ₂ and the resistor R ₁ . However, on the other hand, the capacitor Q ₂ is applied to the base side of the transistor Q ₂ through the capacitor C ₁ and the resistor R ₂ so that the transistor Q ₂ is conducted so that the base side potential of the transistor Q ₁ is “0”. In this state, the transistor Q ₁ is put into a non-conducting state, thereby muting the audio output signal of the terminal 3 as described above.

However, when the signal applied to the input terminal B maintains the high potential state, the bias voltage is not applied to the base side of the transistor Q ₂ through the capacitor C ₁ and the resistor R ₂ . Q ₂ ) is in a non-conductive state, and at this time, only the transistor Q ₁ becomes conductive through the diode D ₂ and the resistor R ₁ , so the muting output becomes a low potential state as shown in FIG. 2 (b). The audio output signal appears at the terminal 3.

In this case, if the time constants of the capacitor C ₁ and the resistor R ₂ are set to t time, the delay time for the transistor Q ₂ to be in a non-conducting state is delayed by t hours. If you set it to allow more time than the switch switching time, it will mute the pop noise generated every time the function selection switch is used. If you do not apply the high potential signal applied to the input terminal B, the transistor Q ₁ ) is in a non-conducting state, and as described above, the potential of the connection point C is high, so that the audio output signal is muted to the terminal 3, and in this case, the pop noise can be muted.

On the other hand, in the state where the high potential signal is simultaneously applied to the input terminals A and B, the same circuit operation as in the case where the high potential signal is applied only to the input terminal B as shown in FIG. will be.

The present invention, which operates as described above, delays or releases the muting circuit operation function by appropriately selecting an input signal applied to two input terminals as necessary, and thus generates pop noise generated when using a function selector switch. By muting it, the characteristics of the product can be enhanced.

Claims (1)

Two input terminals (A), (B) a respective diode _{(D 1), (D 2} ) and a resistor (R _1), respectively to the collector side of the base side and the transistor (Q ₂₎ of the transistor (Q ₁₎ through the The base side of the transistor Q ₂ is connected to the input terminal B through the resistor R ₂ and the capacitor C ₁ , and the collector side connection point C of the transistor Q ₁ is connected to the resistor R. ₄ ) and an audio muting circuit configured to be connected to a known audio output terminal (3) through a transistor (Q ₃ ) to mute Pop noise when using a function selection switch switching.