KR860002288Y1 - Audio-amp-fade-in circuit - Google Patents

Abstract

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Description

Fade-in Circuit of Audio Amplifier

1 is a detailed view of a fade-in circuit of the present invention.

2 is an output waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: Relay drive circuit VR ₁ : Variable resistor for volume adjustment

AMP ₁ : Audio Steam TR ₁ : Width Transistor

RS ₁ : Relay switch C ₁ : Capacitor

R ₁ -R ₆ : resistance

The present invention is a high output audio amplifier (Audio Amp), when the power is supplied to the audio amplifier when the normal operation time, by outputting the output signal of the audio amplifier to the speaker by shorting the relay switch by a known relay drive circuit, The present invention relates to a fade-in circuit of an audio amplifier, in which a magnitude of an audio signal input to an audio amplifier is gradually increased from a moment when a relay switch is shorted to an appropriate level adjusted to a volume through a predetermined time.

In a conventional high-powered audio amplifier, if the power switch is short-circuited inadvertently set by the user, the loud volume output is suddenly applied to the speaker, causing the speaker to be damaged or the user to feel severe discomfort. It was.

In addition, if a loud volume output is suddenly applied while the audio amplifier is normally operating, the audio amplifier detects this and opens the relay switch with the relay driving circuit for a certain time and short-circuits it again to protect the audio amplifier and the speaker. At the moment of short-circuit, the audio amplifier is already supplied with a large volume output, so that a loud volume output is supplied to the speaker, which may cause damage to the speaker, and the user may experience severe discomfort.

In view of this, the present invention provides a high output audio amplifier which outputs the output signal of the audio amplifier to the speaker by short-circuiting the relay switch with a relay driving circuit when the power is supplied and the audio amplifier becomes a normal operation time. From the moment of short circuit, the audio signal input to the audio amplifier is gradually increased to a proper standard adjusted to the volume after a certain time, thereby preventing the loud sound output from being applied to the speaker suddenly, protecting the speaker and not causing discomfort to the user. If it is described in more detail by the accompanying drawings as follows.

FIG. 1 is a detailed view of a fade-in circuit of the present invention. As shown in FIG. ₁ , when the audio amplifier AMP ₁ having an input side connected to the volume control variable resistor VR ₁ is brought into a normal operation state, the relay driving circuit 1 ) Is operated to turn on the transistor TR ₁ , and when the transistor TR ₁ is turned on, the relay switch RS ₁ is short-circuited so that the output signal of the audio amplifier AMP ₁ is applied to the speaker SP ₁ . In the amplifier, the collector of the transistor TR ₁ is connected to the non-inverting input terminal (+) of the capacitor C ₁ and the operational amplifier OP ₁ via a resistor R ₂ , and the operational amplifier OP ₁ . The resistor R ₅ connected to the output side of the circuit is connected to the gate terminal of the field effect transistor FET ₁ together with the resistor R ₆ connected to the negative power supply B ⁻ , and its source terminal is connected to the audio amplifier AMP _1. Is connected to the input side.

Here, the relay drive circuit 1 of Confucius detects when the power is supplied and the internal circuit of the audio amplifier AMP ₁ becomes a normal operating state, and outputs a high potential signal to its output side, and the audio amplifier AMP1 is normal. During the operation, suddenly a large volume output is input and the audio amplifier AMP ₁ switches to an unstable state, or when the speaker SP ₁ is overloaded, it detects it and outputs a low potential signal for a predetermined time to its output side. The circuit outputs a high potential signal again.

In the description of the drawings, reference numeral P denotes an audio signal input terminal, B + denotes a positive power supply, and D ₁ reduces the pulse generated when the relay switch RS ₁ is driven to protect the transistor TR ₁ . This diode removes noise.

In addition, R ₃ and R ₄ connected between the inverting input terminal (−) of the operational amplifier OP ₁ and the output side are resistors that determine the amplification factor of the operational amplifier OP ₁ . Referring to the effect of the present invention configured in this way in detail as follows.

If the power switch B ⁺ , B ⁻ is supplied by shorting the power switch (not shown in the drawing) at any time t ₀ , the audio amplifier AMP ₁ is brought into a normal operating state after a certain time.

However, as described above, the known relay driving circuit ₁ detects a circuit t ₁ when the audio amplifier AMP ₁ is in a normal operating state and is shown in FIG. 2A on the output side thereof. As described above, since the high potential signal is output, the transistor TR ₁ is turned on, and accordingly, the power supply B ⁺ flows to the transistor TR ₁ through the coil L ₁ of the relay switch RS ₁ , so that the coil The switch S ₁ interlocked with L ₁ is short-circuited and the output signal of the audio amplifier AMP ₁ is applied to the speaker SP ₁ .

However, the power (B ^+, B ^-) of the supply after a predetermined time (t ₀ -t _1), during the low potential, so the signal from the relay drive circuit (1), an output transistor (TR ₁₎ is sustained in an OFF state, the power source (B ⁺ ) is charged to the capacitor (C ₁ ) through the coil (L ₁ ) and the resistor (R ₂ ) of the relay switch (RS ₁ ), the charging voltage of this capacitor (C ₁ ) is shown in the second (b) As shown in FIG. ² , the voltage gradually increases from the time t ₀ of supplying the power supply B ⁺ , B ₋ to the maximum value at the time t ₁ when the transistor TR ₁ is turned on, and then the transistor TR ₁ is turned on. From the instant t ₂ , the battery gradually discharges through the resistor R ₂ and the transistor TR ₁ .

In addition, since the charging voltage of the capacitor C ₁ is applied to the non-inverting input terminal (+) of the operational amplifier OP ₁ , a high potential signal gradually increasing as the charging voltage of the capacitor C ₁ increases on its output side. is, is applied to the gate of a field effect transistor (FET _1), wherein a field effect transistor the negative voltage source (B ^-) gates of the (FET ₁₎ is via a resistor (R ₆₎ is applied, but the operational amplifier (OP ₁₎ Since the high potential signal output from the output side is relatively large, the voltage applied to the field effect transistor FET ₁ is the instant when the power supply B ⁺ , B ⁻ is supplied (t ₀ ) as shown in FIG. ) Gradually increases to a positive potential to turn on the field effect transistor FET ₁ , and since the charging voltage of the capacitor C ₁ gradually discharges from the moment t ₁ when the transistor TR ₁ is turned on, the operational amplifier OP ₁ Output signal from high potential signal to low potential signal And Hi fall, yiettara becomes gradually deeper up field-effect transistor (FET ₁₎ voltage Fig claim 2 (c) a transistor (TR ₁₎ is turned on when the (t ₁₎ failure on the positive potential from as shown in Figure applied to the gate of When the charging voltage of the capacitor C ₁ is completely discharged (t ₂ ), the highest negative potential state is maintained, and thus the field effect transistor FET ₁ is completely turned off after a predetermined time (t ₁ -t ₂ ).

As described above, when the transistor TR ₁ is turned on and the relay switch RS ₁ is short-circuited (t ₁ ), the field effect transistor FET ₁ is gradually switched from the on state to the off state, and thus the audio input to the input terminal P is performed. signal the resistance (R ₁₎ and a volume adjustment the flow as the variable resistance gradually cut off by the field effect transistor (FET ₁₎ through (VR ₁₎ is the charging voltage is completely discharged, the capacitor (C ₁₎ a field effect transistor (FET ₁₎ Is shut off completely (t ₂ ).

Accordingly, when the relay switch RS ₁ is short-circuited (t ₁ ) to the input side of the audio amplifier AMP ₁ , the audio signal is gradually inputted while the field effect transistor FET ₁ is completely turned off (t ₂ ). As an audio signal of an appropriate standard according to the adjustment of the volume control variable resistor (VR ₁ ) is input and output to the speaker (SP ₁ ).

In this manner the power (B ^+, B ^-) of the supply and then the relay switch (RS ₁₎ at time (t ₁₎ is short-circuited, the audio amplifier (AMP ₁₎ and the speakers (SP ₁₎ connected but the audio amplifier (AMP ₁₎ The output signal of is gradually increased from the time when the relay switch (RS ₁ ) is shorted (t ₁ ), and after a predetermined time (t ₂ ), the audio signal of appropriate standard according to the adjustment of the variable resistor (VR ₁ ) for volume adjustment. Since the user can adjust the volume control variable resistance VR ₁ using this time (t ₁ -t ₂ ), accordingly the loudspeaker SP ₁ is prevented from suddenly supplying a large volume signal. SP ₁ ) can prevent damage, and users can eliminate the discomfort caused by sudden loud volume output. In addition, when the audio amplifier AMP ₁ performs normal operation and an audio signal is excessively input, or the volume control variable resistor VR ₁ is set high, and the output signal of the audio amplifier AMP ₁ is excessive, a known relay is known. because to by the drive circuit (1) turning off the transistor (TR ₁₎ for a certain period of time, turns off the relay switches (RS ₁₎ the output signal of the audio amplifier (aMP ₁₎ is prevented from being applied to the speaker (SP _1).

However, the transistor (TR ₁₎ is the terminal voltage of the capacitor (C ₁₎ has when the turn transistor (TR ₁₎ after the charging, the power (B ⁺⁾ back capacitor (C _1), as in when off for some time the gradually By discharging, the output signal of the audio amplifier AMP ₁ is gradually increased over a predetermined time, thereby protecting the speaker SP ₁ and not causing discomfort to the user.

Claims (1)

When the audio amplifier AMP ₁ having the input side connected to the volume control variable resistor VR ₁ is in a normal operation state, the relay driving circuit 1 is operated to turn on the transistor TR ₁ so that the relay switch RS ₁ is short-circuited. And the output side of the audio amplifier AMP ₁ is connected to the speaker SP ₁ , wherein the collector of the transistor TR _{1 is} connected through the resistor R ₂ to the capacitor C ₁ and the operational amplifier OP _1. ) of the non-connected to the inverting input terminal (+), and the operational amplifier (OP _1), a resistance (R ₅₎ connected to the output side negative voltage source (B ^of-field effect transistor with a resistor (R ₆₎ connected to) A fade-in circuit for an audio amplifier, characterized in that it is connected to a gate terminal of (FET ₁ ), and its source terminal is connected to an input side of an audio amplifier (AMP ₁ ).