JP2642231B2 - Control equipment for audio equipment - Google Patents

Description

The present invention relates to a control device for an audio device having a front amplifier, a rear amplifier, and a center amplifier, and more particularly to a control device for an audio device that operates to suppress heat generation in the device. It relates to a control device.

(B) Problems to be Solved by the Prior Art / Invention In a conventional surround amplifier having a front amplifier, a rear amplifier, and a center amplifier, the above three amplifiers always operate, so that the temperature inside the device becomes large and the temperature rises. There is a problem that the transformer and the radiator which try to suppress the noise become large. Further, in the conventional audio equipment, a speaker having a large load, that is, a speaker having a large impedance is supplied to the amplifier circuit with a voltage that can provide a sufficient output even when the speaker is connected. When a small speaker is connected, the output of the amplifier circuit is small even though a high voltage is supplied, so that the loss in the amplifier circuit is large, and there is also a problem of increasing the temperature in the device.

The present invention has been made in view of the above points,
An object of the present invention is to provide a control device for an audio device capable of suppressing a temperature rise in the device and reducing the size of a transformer and a radiator.

(C) Means for Solving the Problem The control device for audio equipment according to the present invention comprises: a first amplifier;
A second amplifier, a relay provided between the second amplifier and a speaker connected to the second amplifier, an impedance changeover switch for selecting an impedance of the speaker connected to the first amplifier, A power supply circuit for selectively applying the first voltage or a second voltage higher than the first voltage to the amplifier and the second amplifier; and a power supply circuit when the impedance changeover switch selects the first impedance. The first voltage is selected and output, and the impedance changeover switch is connected to the second voltage larger than the first impedance.
Power supply circuit control means for controlling the power supply circuit so that the power supply circuit selects and outputs the second voltage when the impedance is selected, and a relay when the impedance changeover switch selects the second impedance. And a relay control means for controlling to a disconnected state.

(D) Operation According to the present invention, when the impedance of the speaker connected to the first amplifier is the first impedance (the impedance smaller than the second impedance), the first voltage ( The power supply circuit selects and outputs a voltage lower than the second voltage).
The impedance of the speaker connected to the amplifier of
The power supply circuit operates to select and output the second voltage (voltage higher than the first voltage) when the impedance is higher than the first impedance (impedance higher than the first impedance). When the impedance of the speaker connected to the second amplifier is the second impedance, the operation of prohibiting the output of the sound from the second amplifier is performed.

Therefore, if the load is small, reduce the supply voltage,
When the load is large, the supply voltage is increased, but by reducing the number of driven speakers, heat generation in the device can be suppressed at all times, and the capacity of the transformer and the size of the radiator can be reduced. It is possible.

Here, the first amplifier is a front amplifier, the second amplifier is a rear amplifier and a center amplifier, and the first amplifier is
Impedance of 4Ω, second impedance of 8Ω
If the impedance of the front speaker is 8Ω and the impedance changeover switch is switched to the 8Ω side, the power supply circuit control means applies a high voltage output from the power supply circuit to the front amplifier, the rear amplifier and the center amplifier.

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

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

However, since the voltage of the power supply circuit is determined so that an excessive current does not flow through the speaker, the capacity of the transformer and the shape of the radiator can be reduced.

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

In the figure, 1 is a rear amplifier, 2 is a speaker serving as a load of the rear amplifier 1, 3 is a relay provided between the output terminal of the rear amplifier 1 and the speaker 2, 4 is a center amplifier, and 5 is a speaker serving as a load of the center amplifier 4. , 6 are relays provided between the output terminal of the center amplifier 4 and the speaker 5,
7 is a power supply circuit for selectively applying the first voltage or the second voltage to the front amplifier F, the center amplifier 4 and the rear amplifier 1, 8 is an impedance changeover switch for selecting the impedance of the speaker S connected to the front amplifier F, Reference numeral 9 denotes a microcomputer for controlling the audio equipment of the present invention based on the impedance changeover switch 8. Reference numeral 10 denotes a first amplifier which 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 for applying a second voltage higher than the first voltage to the amplifier. When selecting, select relay 3 and This is a relay control means provided in the microcomputer 9 for turning off the laser 6.

Therefore, in this embodiment, when the impedance of the speaker connected to the first amplifier (front amplifier) is the first impedance (small, for example, 4Ω), the power supply circuit selects the first voltage (low voltage). When the speaker connected to the first amplifier (front amplifier) has the second impedance (large, for example, 8Ω), the audio is also output from the second amplifier (rear amplifier or the like). Means that the power supply circuit selects and outputs the second voltage (high voltage), and also operates to inhibit the output of the sound from the second amplifier (rear amplifier or the like). When the load is large, the supply voltage is increased, but the number of speakers to be driven is reduced. In addition to being able to always suppress the heat generation in the device, it is possible to achieve the effect of reducing the capacity of the transformer and the size of the radiator.

That is, when the impedance changeover switch 8 is switched to the 8Ω side when the impedance of the speaker S is 8Ω, the power supply circuit control means 10 outputs the high voltage output from the power supply circuit 7 to the front amplifier F. , To the rear amplifier 1 and the center amplifier 4.

At the same time, since the relay control means 11 turns off both the relay 3 of the rear amplifier 1 and the relay 6 of the center amplifier 4, the capacity of the transformer and the shape of the radiator (both not shown) can be reduced. It is.

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

However, since the voltage of the power supply circuit 7 is determined so that an excessive current does not flow through the speakers S, 2, and 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, as described above, the supply voltage is reduced when the load of the amplifier is small, and the supply voltage is increased when the load is large. Since the number of speakers that are driven at the same time is configured to be reduced, the temperature rise in the device becomes small. For this reason, the reliability of the device is improved.

In addition, since the capacity of the transformer and the shape of the radiator can be reduced, the mounting density of components is improved, and the cost is reduced.

[Brief description of the drawings]

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 switch 9: Microcomputer 10: Power supply circuit control means 11: Relay control means F: Front amplifier

Claims (1)

(57) [Claims] A first amplifier, a second amplifier, a relay provided between the second amplifier and a speaker connected to the second amplifier, and an impedance of a speaker connected to the first amplifier. , A power supply circuit for selectively applying a first voltage or a second voltage higher than the first voltage to the first amplifier and the second amplifier, and an impedance change switch comprising: When the impedance is selected, the power supply circuit selects and outputs the first voltage, and the impedance changeover switch selects the first voltage.
Power supply circuit control means for controlling the power supply circuit so that the power supply circuit selects and outputs the second voltage when the second impedance greater than the second impedance is selected, and the impedance changeover switch selects the second impedance And a relay control means for controlling a relay to be turned off when the control is performed.