JPH04107100A - Controller for audio device - Google Patents

Abstract

PURPOSE:To control a temperature rising and to miniaturize by applying a higher voltage to an amplifier when the impedance of a loudspeaker connected to a first amplifier is a second impedance, and making the loudspeaker connected to a second amplifier a disconnecting state. CONSTITUTION:When the impedance of a loudspeader S is 8OMEGA, switching a impedance changeover switch 8 to an 8OMEGA side, a power source circuit control means 10 applies a high voltage that is the output of a power source circuit 7 to a front amplifier F, a rear amplifier 1 and a center amplifier 4. At the same time, a relay control means 11 makes both a relay 3 of the rear amplifier 1 and a relay 6 of the center amplifier 4 a turn-off state. And when the impedance of the loudspeader S is 4OMEGA, the switch 8 is switched to a 4OMEGA side, and the control means 10 controls the circuit 7 so as to apply a low voltage to the front amplifier F, the rear amplifier 1 and the center amplifier 4.

Description

Detailed Description of the Invention (a) Industrial Application Field The present invention relates to a control device for audio equipment having a front amplifier, a rear amplifier, and a center amplifier, and particularly relates to an audio equipment that operates to suppress heat generation within the equipment. The present invention relates to a control device.

(b) Problems to be solved by the prior art/invention In conventional surround amplifiers that have a front amplifier, rear amplifier, and center amplifier, the above three amplifiers are always operating, resulting in a large temperature rise within one device. Attempts to suppress this have the problem of increasing the size of the transformer and heatsink.

This invention has been made in view of the above points, and its purpose is to provide a control device for audio equipment that can suppress the temperature rise inside the equipment and downsize the transformer and radiator. It's there.

(C) Means for Solving the Problem The control device for audio equipment of the present invention provides a control device for audio equipment between a first amplifier, a second amplifier, and a speaker connected to the second amplifier and the second amplifier. an impedance changeover switch for selecting the impedance of a speaker connected to the first amplifier, and selectively applying a first voltage or a second voltage to the first amplifier and the second amplifier. a power supply circuit that applies a first voltage to the two amplifiers when the impedance of the speaker connected to the first amplifier is a first impedance, and the impedance of the speaker connected to the first amplifier is a second impedance. power supply circuit control means for controlling the power supply circuit to apply a second voltage higher than the first voltage to the amplifier when the impedance is , and when the impedance selector switch selects the second impedance, the relay and relay control means for controlling the OFF state.

(D) Effect According to the present invention, when the impedance of the front speaker is 8Ω, when the impedance selector switch is switched to the 8Ω side, the power supply circuit control means transfers the high voltage output from the power supply circuit to the front amplifier, rear amplifier, and center amplifier. to be applied.

At the same time, since the relay control means turns off both the rear amplifier relay and the center amplifier relay, it is possible to reduce the capacity of the transformer and the shape of the radiator.

Further, if the impedance of the front speaker is 4Ω, the impedance changeover switch is switched to the 4Ω side, so the power supply circuit control means controls the power supply circuit so as to apply a low voltage to the front amplifier, rear amplifier, and center amplifier.

However, since the voltage of the power supply circuit is determined so that excessive current does not flow through the speaker, it is possible to reduce the capacity of the transformer and the shape of the heatsink.

(E) Embodiment An embodiment of the control device for audio equipment according to the present invention will be described with reference to FIG.

In the figure, l is the rear amplifier, 2 is the speaker that is the load of the rear amplifier I, 3 is the relay installed between the output end of the rear amplifier 1 and the speaker 2, 4 is the center amplifier, and 5 is the load of the center amplifier 4. A speaker, 6 is a relay provided between the output end of the center amplifier 4 and the speaker 5,
7 is a power supply circuit that selectively applies a first voltage or a second voltage to the front amplifier F, center amplifier 4, and rear amplifier 1; 8 is an impedance changeover switch that selects the impedance of the speaker S connected to the front amplifier F; 9 is a microcomputer that controls the audio equipment of the present invention based on the impedance changeover switch 8; 10 is a microcomputer that applies a first voltage to the three amplifiers when the impedance of the speaker S connected to the front amplifier F is 4Ω; When the impedance of the speaker S connected to F is 8Ω, a power supply circuit control means provided in the microcomputer 9 applies a second voltage higher than the first voltage to the amplifier; This is a relay control means provided in the microcomputer 9 that turns off the relays 3 and 6 when selected.

In the control device for audio equipment configured as described above, when the impedance of the speaker S is 8Ω, when the impedance changeover switch 8 is switched to the 8Ω side, the two power supply circuit control means 10 transmits the high voltage output from the power supply circuit 7 to the front amplifier. F, applied to rear amplifier l and center amplifier 4.

At the same time, relay control means I! Since both the relay 3 of the rear amplifier 1 and the relay 6 of the center amplifier 4 are turned off, the capacity of the transformer and the shape of the heat sink (both not shown) can be reduced.

Further, if the impedance of the speaker S is 4Ω, the impedance changeover switch 8 is switched to the 4Ω side, so the power supply circuit control means 10 controls the power supply circuit 7 to apply a low voltage to the front amplifier F1, the rear amplifier 1, and the center amplifier 4. control.

However, since the voltage of the power supply circuit 7 is determined so that an excessive current does not flow through the speakers S and 2.5, it is possible to reduce the capacity of the transformer and the shape of the radiator.

(F) Effects of the Invention According to the control device for audio equipment according to the present invention, since it is configured as described above, the temperature rise within the equipment is reduced. This improves the reliability of one device.

Furthermore, since it is possible to reduce the capacity of the transformer and the shape of the heat sink, the mounting density of components is improved, and the cost is further reduced.

Moreover, it has excellent features such as being easy to implement because the single circuit structure is simple.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of a control device for audio equipment according to the present invention. Explanation of main symbols 1: Rear amplifier 2.5. S: Speaker 3.6 = Relay 4: Center amplifier 7: Power supply circuit 8: Impedance selection switch 9: Microcomputer 10: Power supply circuit control means 11: Relay control means F: Front amplifier

Claims (1)

[Claims] Select impedances of a first amplifier, a second amplifier, a relay provided between the second amplifier and a speaker connected to the second amplifier, and a speaker connected to the first amplifier. an impedance selector switch; a power supply circuit that selectively applies a first voltage or a second voltage to the first amplifier and the second amplifier;
A first voltage is applied to the two amplifiers when the impedance is , and a second voltage higher than the first voltage is applied to the amplifier when the impedance of a speaker connected to the first amplifier is a second impedance. and a relay control means that controls the relay to be turned off when the impedance changeover switch selects the second impedance. Equipment control device.