KR900004795Y1 - A.g.c. circuit of load detecting type - Google Patents

Abstract

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Description

Load Sensing Amplifier Gain Adjustment Circuit

1 is a circuit diagram of the present invention.

2 is a waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: amplifier 2,3: relay

4 pulse type voltage generator 5 voltage regulator

6: Latch 7,8: Comparator

9,10: analog switch

The present invention relates to a load-sensing amplifier gain adjustment circuit for preventing overloading of the amplifier and the speaker by connecting the load of the impedance lower than the rated impedance when the amplifier and the speaker are connected in the acoustic device.

In order to operate the amplifier by connecting a speaker with an impedance lower than the rated impedance since there is no circuit capable of converting the output by detecting the change in advance in the amplifier even when the load impedance is changed when the speaker is connected to the amplifier, The amplifier's output had to be adjusted in advance, or the amplifier and speakers would be overloaded, causing damage.

The present invention has been made to solve the above problems, a circuit that can prevent the damage caused by the overload of the amplifier and speaker by adjusting the gain of the amplifier in advance by detecting the state of the load in advance when using the amplifier and speaker connection To provide that purpose.

In order to achieve the above object, in the present invention, the speaker circuit is disconnected during the initial operation of the amplifier and at the same time, a DC voltage is applied to the speaker to determine the difference between the voltage across the speaker and the reference voltage using a comparator. It outputs to the amplifier gain adjustment circuit to adjust the gain of the amplifier so as to output an amplified signal suitable for the speaker.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram of the present invention, in which the acoustic signal is applied to the non-inverting input terminal of the amplifier 1, the acoustic signal is applied to the inverting input terminal, and the resistors R ₁ -R ₄ and the analog switch are applied to the inverting input terminal. (9, 10) is configured to adjust the amplification gain by the output of the latch (6).

The output terminal of the amplifier 1 is connected to the speaker via the relay 2, and the relay 3 is connected to the non-inverting input terminals of the comparators 7 and 8 from the connection point of the relay 2 and the speaker, respectively.

The output terminal of the voltage regulator 5 is connected to the inverting input terminals of the comparators 7 and 8 via resistors R ₆ , R ₇ , R ₉ , and R ₁₀ , respectively, and at the same time through the resistor R ₅ , respectively. , 8) is connected to the non-inverting input terminal. In addition, the input terminal of the voltage regulator (5) is a capacitor (C ₁₎ and is grounded by a resistor (R _8), the capacitor reset terminal (R) of the (C ₁₎ and resistor (R _8), the connection point is the latch (6) of Leads to. The latch receives the output signals of the comparators 7 and 8 and outputs them as control signals of the analog switches 9 and 10. The pulsed voltage generator 4 outputs the output signals to the relays 2 and 3 and the voltage regulator. It is applied simultaneously with (5). The relay 2 is a brake contact relay which is turned off when the control signal is applied from the pulsed voltage generator 4, and the relay 3 is a make contact relay which is turned on when the control signal is applied.

The operation of the inventive circuit having the above configuration will be described with reference to the waveform diagram of FIG.

When the power is turned on, the pulsed voltage generator 4 which outputs a constant voltage for a predetermined period tp is operated to apply a control signal to the relays 2 and 3 and the voltage regulator 5, whereby the relay 2 The relay 3 is turned off and the signal applied from the amplifier 1 to the speaker is cut off and the output voltage of the voltage regulator 5 is applied to the speaker through the voltage distribution resistor R ₅ . Therefore, at point a, the voltage is represented by the resistance ratio R ₅ and the series resistance of the speaker, and is applied to the non-inverting input terminal of the comparators 7 and 8. Therefore, the voltage applied to the non-inverting input terminals of the comparators 7 and 8 is dependent on the resistance value of the speaker.

In the present invention, when the resistance value of the speaker is 2Ω, 4Ω, 8Ω will be described as an example. When the speaker's resistance is 2Ω, the voltage at point (a) is V ₁ , when the speaker's resistance is 4Ω, the voltage at point (a) is V ₂ , and when the speaker's resistance is 8Ω, the voltage at point (a) When V ₃ is applied, when the voltage V ₁ is applied to the non-inverting input terminal of the comparators 7 and 8, all output signals of the comparators 7 and 8 output low level, and the voltage V ₂ is the comparator 7 and 8. When applied to the output of the comparator 7 outputs a low level, the output of the comparator 8 outputs a high level, when the voltage V ₃ is applied to the comparator (7, 8) the output of the comparator (7, 8) Are all high level. This is done by adjusting the reference voltage setting resistors R ₆ , R ₉ connected to the inverting input terminal of the comparator ₇ and the reference voltage setting resistors R ₇ , R ₁₀ connected to the inverting input terminal of the comparator 8. .

In each of the above cases, the output signals of the comparators 7 and 8 are applied to the latch 6 to turn off the power or to the output terminal Q ₁ , of the latch 6 until the reset signal is applied to the latch 6. Q ₂ ) is applied to the analog switches 9 and 10, respectively.

Therefore, when the speaker is 2Ω, both the analog switches 9 and 10 are turned off so that the gain of gain is increased by the gain adjusting resistors R _{1 to} R ₁ connected to the amplifier ₁ . When the speaker is 4 Ω, the analog switch 10 is turned on so that the gain of the amplifier 1 If the speaker is 8Ω, both the analog switches 9 and 10 are turned on so that the gain of the amplifier 1 It becomes

The unexplained capacitor C ₁ and resistor R ₈ apply a reset signal to the latch 6 when the power is applied for time constant adjustment so as to maintain the initial state.

The operation as described above is performed during the output time tp of the pulsed voltage generator 4, after which the relay 2 is turned on again and the relay 3 is turned off so that the amplifier 1 And speaker are connected to each other.

As described above, according to the present invention, when the power is initially applied, the amplifier 1 and the speaker are shut off, and the gain of the amplifier is adjusted according to the resistance value of the speaker, thereby overloading the speaker and the amplifier when the speaker is replaced. To prevent damage.

Claims (1)

As the output signal of the pulsed voltage generator 4 when the power is applied, the relay 2 connected between the speaker and the amplifier 1 is cut off and the relay 3 connected to the speaker is controlled by the voltage regulator 5. A voltage corresponding to the resistance value of the speaker is applied to the comparators 7 and 8 through the relay 3 so that the output signal of the comparators 7 and 8 is transmitted through the latch 6 to the analog switches 9 and 10. Load-sensing amplifier gain adjustment circuit, characterized in that the connection is configured to adjust the gain of the amplifier (10) according to the on-off operation of the analog switches (9, 10).