KR0128033B1 - Multi-channel amplifier output control circuit - Google Patents

Abstract

An amplifier output control circuit is connected to an amplifier and controls an amplifier output by variably controlling an amplification degree of the amplifier in response to a use state of the amplifier. The present invention provides an amplifier including an amplifier, the power supply voltage sensing unit for receiving the + voltage of the amplifier power supply, and the-voltage of the constant voltage power supply for outputting a first switching control signal in response to the potential fluctuation state of the amplifier power supply An output sensing unit configured to receive a negative power supply voltage of an amplifier power supply and receive a positive voltage supply of the constant voltage power supply and output a second switching control signal in response to a potential change of the constant voltage power supply; and an output terminal and an input terminal of the amplifier. And an output control unit having a resistor connected therebetween, receiving the first and second switching control signals, and connected to the amplifier in response to the two input signals to switch the resistance value to vary the amplification degree of the amplifier. .

Description

Multichannel Amplifier Output Control Circuit

1 is a multi-channel amplifier output control circuit diagram according to one embodiment of the present invention.

The present invention relates to an amplifier output control circuit, and more particularly, to a multi-channel amplifier output control circuit used in connection with a plurality of amplifiers.

In general, surround amplifiers are usually four or more amplifiers, especially for Dolby Prolgic, which requires at least five channel amplifiers. In this case, when the power source for driving the amplifier is connected to each channel, the power supply circuit is proportional to the number of channels. Therefore, in general, in order to simplify the amplifier configuration and increase the productivity, a single power supply is connected to each channel of the amplifier and driven.

However, in the above-described two-channel audio amplifier driven by one amplifier power source, when all the channels are not used, the power supply voltage supplied to the amplifier of the channel being used increases. When the power supply voltage is increased, the output of the amplifier is also increased. As a result, the speaker is overloaded, resulting in speaker failure.

In addition, there are many kinds of impedance of the speaker. For example, when designing the amplifier, the speaker has an impedance of 8Ω, but if you use a speaker with an impedance of 2Ω in actual use, the amplifier will be overwhelmed and cause a failure of the amplifier.

Accordingly, an object of the present invention is to provide an amplifier output control circuit connected to an amplifier and controlling the amplifier output by varying the amplification degree according to the use state of the amplifier.

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

1 is a multi-channel amplifier output control circuit diagram according to an embodiment of the present invention, the amplifier 10 is a resistor 1 (R1), capacitor 1 (C1) and resistor 2 (R2) connected in series between the input terminal and the reference potential terminal. ), A power amplifier 11 having a first input terminal connected to a connection point of the resistor 2 (R2) and the capacitor 1 (C1), a second input terminal and a reference potential terminal of the power amplifier 11; Resistor 3 (R3), capacitor 2 (C2) connected between, resistor 4 (R4) connected between the second input terminal and the output terminal of the power amplifier 11, and the second of the power amplifier 11 A capacitor 3 (C3) is connected between the input terminal and the output terminal in parallel with respect to the resistor 4 (R4).

The amplifier output control circuit receives a + voltage from an amplifier power supply circuit (not shown) and receives a − voltage from a constant voltage circuit (not shown) to control the first switching in response to a potential rising state of the amplifier power supply circuit. A power supply voltage detector 30 for outputting a signal and a-voltage are applied from the amplifier power circuit, and a + voltage is applied from the constant voltage circuit to output a second switching control signal in response to a voltage drop state of the applied voltage. An output sensing unit 40, a resistor connected between the output terminal of the power amplifier 11 and the second input terminal, and switching means for switching the resistance connection, and the first and second switching control signals. The output controller 20 receives an input and changes an amplification degree of the amplifier by switching a resistance connection connected to the amplifier 10 in response to the two input signals. It is composed.

In addition, the output controller 20 is connected between the first transistor Q1 having a collector connected to the output terminal of the amplifier 10, the emitter of the transistor Q1, and the second input terminal of the power amplifier 11. Resistor 5 (R5), resistor 6 (R6) connected to the base terminal of the first transistor (Q1), a second transistor (Q2) connected to a collector to the resistor (6) R6, and the second transistor Resistor 7 (R7) connected between the emitter and the + potential terminal of the constant voltage circuit, resistor 8 (R8) connected between the base and the emitter of the second transistor (Q2), and the second transistor (Q2). It consists of a resistor 9 (R9) connected to the base.

The power supply voltage detecting unit 30 is a resistor 12 (R12), a resistor 13 (R13) and an input terminal of the output control unit 20 connected in series between the + potential terminal of the amplifier power circuit and the-power terminal of the constant voltage circuit. A collector and an emitter are connected between the node A and the reference potential terminal, and a fourth transistor Q4 having a base terminal connected to a connection node C of the resistor 12 (R12) and the resistor 13 (R13), and the connection node C. And capacitor 5 (C5) connected between the reference potential terminal.

The output sensing unit 40 includes a resistor 10 (R10), a resistor 11 (R11) connected in series between a + potential terminal of the constant voltage circuit and a -potential terminal of the amplifier power circuit, and an input terminal of the output control unit 20. A third transistor Q3 connected between a collector and an emitter between A and a reference potential terminal, and having a base terminal connected to a connection node B of resistors 10 (R10) and 11 (R11); It consists of a capacitor 4 (C4) connected between the reference potential terminals.

Hereinafter, an embodiment of the present invention will be described in detail according to the configuration of FIG. In the following description, specific details are set forth in order to provide a more complete understanding of the present invention. For those skilled in the art, the following description may become apparent and will be fully practiced without these details. In addition, well-known circuits and their functions are descriptive in order not to obscure the present invention.

First, when the amplifier 10 uses only one channel at the rated amplifier output when the amplifier 10 is connected to two or more channels, the voltage of the amplifier power is increased than when using all channels. The fourth transistor Q4 maintains the turn-off state by receiving a voltage (0.3V to -3V) of the C node, which is a connection node of the resistor 12 (R12) and the resistor 13 (R13). However, the C node voltage rises to 0.7 V or more when the channel is not in the full channel use state. Thus, the fourth transistor Q4 is turned on. Thereafter, the potential of the node A, which is the connection node of the third transistor Q3, the fourth transistor Q4, and the output control unit 20, that is, the first switching control signal, which is the output of the power supply voltage detector 30, is set to a low state. The second transistor Q2 in the output controller is turned on by being supplied with the first switching signal in the low state.

When the second transistor Q2 is turned on, the first transistor Q1 is turned on by applying a high voltage to the base. When the first transistor 1 Q1 is turned on, the amplifier 10 maintains the output as an amplification of R3 / R4. As a result, the power supply voltage changes. The amplification of the output will be. In addition, the amplifier output speaker maintains the rated output when using the rated 8Ω, but when using a speaker with a low impedance of about 2Ω or 1Ω, the amplifier power voltage is lowered due to overload. Therefore, the third transistor (at the output detector 40) Q3) is turned on by applying the voltage of node B (0.3V to -3V), which is a connection node of resistor 10 (R10) and resistor 11 (R11), so that the voltage of node B rises above 0.7V. Is switched on. Thereafter, the potential of the node A, which is a connection node between the third transistor Q3, the fourth transistor Q4, and the output controller 20, that is, the second switching control signal, which is the output of the output detector 40, is set to a low state. The second transistor Q2 in the output control unit 20 is turned on by being supplied with the first switching signal in the low state. When the second transistor Q2 is turned on, the first transistor 1 Q1 is turned on by applying a high voltage to the base. When the first transistor 1 (Q1) is turned on, as a result, the amplifier 10 maintains the output with the amplification of R3 / R4 in accordance with the change in the power supply voltage The amplification of the output will be.

Therefore, as described above, the present invention provides an increase in the amplifier power supply voltage that is raised when the channel having less than all channels is used in an amplifier having two or more channels, and a decrease in the amplifier power supply voltage generated by connecting the amplifier to a load having a rated impedance or less. It has the advantage of improving the stability of the amplifier circuit by sensing and maintaining constant constant output at all times. It also has the effect of preventing the damage of the load by preventing the overpower of the amplifier.

Claims (5)

A power supply voltage sensing unit for receiving at least two channels of an amplifier output control circuit and receiving a + voltage of an amplifier power supply and receiving a -voltage of a constant voltage power supply and outputting a first switching control signal in response to a potential variation state of the amplifier power supply; An output sensing unit configured to receive an −supply voltage of an amplifier power source and to receive a + voltage of the constant voltage power supply and output a second switching control signal in response to a potential change of the constant voltage power supply, between the output terminal and the input terminal of the amplifier; A resistor connected to the resistor and a resistor connected to the resistor, the switching means for switching a connection between the resistor and the amplifier, receiving the first and second switching control signals and being connected to the amplifier in response to the two input signals. The output control unit for varying the amplification degree of the amplifier by switching the resistance of the multi-channel amplifier Power control circuit. 2. The output transistor of claim 1, wherein the output controller comprises: a first transistor having a collector connected to an output terminal of the amplifier; a first resistor (RS) connected between an emitter of the transistor 1 and an input terminal of the amplifier; A second resistor connected to the base terminal of the transistor, a second transistor connected to the collector of the second resistor, a third resistor connected between the emitter of the second transistor and the + potential terminal of the constant voltage circuit, and the second resistor. And a fourth resistor connected between the base and the emitter of the second transistor, and a fifth resistor connected to the base of the second transistor. 2. The power supply voltage detector of claim 1, wherein the power supply voltage detector comprises a sixth resistor and a seventh resistor connected in series between the + potential terminal of the amplifier power supply and the-power supply terminal of the constant voltage circuit, and between the input terminal and the reference potential terminal of the output control unit. And a emitter connected to each other, a transistor having a base terminal connected to a connection node of the sixth and seventh resistors, and a capacitor connected between the connection node and a reference potential terminal. Output control circuit. 3. The power supply voltage sensing unit of claim 2, wherein the power supply voltage sensing unit comprises a sixth resistor and a seventh resistor connected in series between the + potential terminal of the amplifier power supply and the-power supply terminal of the constant voltage circuit, and the collector between the input terminal of the output control unit and the reference potential terminal. And a emitter connected to each other, and a transistor having a base terminal connected to a connection node of the sixth and seventh resistors, and a capacitor connected between the connection node and a reference potential terminal. Output control circuit. The collector of claim 1, wherein the output sensing unit comprises: an eighth resistor and a ninth resistor connected in series between a + potential terminal of the constant voltage circuit and a-potential terminal of the amplifier power supply, and a collector between the input terminal and the reference potential terminal of the output control unit. And a emitter connected to each other, a transistor having a base terminal connected to a connection node of the eighth and ninth resistors, and a capacitor connected between the connection node and a reference potential terminal. Output control circuit.