JP3851156B2 - Audio output circuit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an audio output circuit for an apparatus having an external audio output terminal that also uses a horn jack such as an earphone jack different from a speaker terminal used for an audio apparatus as a speaker output terminal, and having an internal speaker.
[0002]
[Prior art]
Since speaker terminals used in audio equipment are large, a horn jack such as an earphone jack with a small component area may be used as an external audio output terminal in order to reduce the size of the equipment.
[0003]
FIG. 2 shows a configuration of a conventional audio output circuit in which a horn jack is used as an external audio output terminal.
[0004]
In FIG. 2, 1 and 2 are ICs whose output gain can be changed from mute (output stop) to about −12 db to +6 db with a DC voltage called VCA (Voltage Control Amplifier), which corresponds to a preamplifier. These ICs 1 and 2 change the amplitudes of the L signal and R signal as input signals according to the volume control voltage Vol applied thereto. When the volume control voltage Vol is GND, the ICs 1 and 2 are muted, and the output voltage of the ICs 1 and 2 increases as the volume control voltage Vol increases.
[0005]
The output signals of the ICs 1 and 2 are sent to the audio output IC 3 (main amplifier) and amplified at a constant amplification factor. The audio signals of the left and right channels output from the IC 3 are sent to a horn jack 6 that is an external audio output terminal via capacitors 4 and 5 that cut off a direct current component for external output.
[0006]
When no external terminal is inserted in the horn jack 6, the output audio signals of the left and right channels are sent to the left and right speakers 7 and 8 inside and output.
[0007]
When an external terminal is inserted in the horn jack 6, the contact in the horn jack 6 is removed, and the output audio signals of the left and right channels are sent only to the inserted external terminal. Accordingly, since no current flows through the internal speakers 7 and 8, the internal speakers 7 and 8 are not driven. Instead, the current flows to the external terminal side and the external speaker is driven.
[0008]
[Problems to be solved by the invention]
In conventional audio output circuits, internal speakers and audio output terminals (horn jacks) are used for stereo output. However, even in an audio output circuit for outputting a stereo signal, it is conceivable to use one internal speaker in order to reduce the size of a device on which the audio signal is mounted.
[0009]
The present invention relates to an audio output circuit for outputting a stereo signal, which is provided with a single monaural internal speaker, and can automatically switch signals and can save power. The purpose is to provide.
[0010]
[Means for Solving the Problems]
The invention according to claim 1 is an audio output circuit having an external audio output terminal and a monaural internal speaker connected to the external audio output terminal when no external terminal is connected to the external audio output terminal. A mixing circuit for mixing the input audio signal and the input audio signal of the right channel, one of the left channel and the right channel as the first channel and the other as the second channel, the output signal of the mixing circuit and the input of the first channel A switching circuit for switching and outputting the audio signal, a first audio for inputting the output audio signal of the switching circuit and generating an output audio signal of the first channel or a monaural audio signal A second sound for receiving a second channel input audio signal and generating a second channel output audio signal; When the external circuit is not connected to the signal generation circuit, the detection circuit that detects whether an external terminal is connected to the external audio output terminal, or the external audio output terminal, the output signal of the mixing circuit is output from the switching circuit And a control circuit for controlling the switching circuit so that the input audio signal of the first channel is output from the switching circuit when the external terminal is connected to the external audio output terminal. It is characterized by comprising power consumption reduction means for reducing the power consumption of the second audio signal generation circuit when no external terminal is connected to the audio output terminal.
[0011]
According to a second aspect of the present invention, in the first aspect of the invention, the power consumption reduction means is configured to mute the output audio signal of the second channel when the external terminal is not connected to the external audio output terminal. It is characterized by controlling an audio signal generation circuit.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to an audio output circuit used in a liquid crystal projector will be described with reference to FIG.
[0013]
FIG. 1 shows the configuration of an audio output circuit of the present invention used in a liquid crystal projector. In FIG. 1, the same components as those in FIG.
[0014]
The difference between the audio output circuit of the present invention of FIG. 1 and the conventional example of FIG. 2 is that the internal speaker is monaural in the audio output circuit of the present invention. That is, the internal speaker 8 for the right channel in FIG. 2 is not provided, and only the internal speaker 7 for the left channel is provided.
[0015]
Since the internal speaker is monaural, in this embodiment, the mixing circuit 11 for mixing the input audio signals L and R of the left and right channels, the mixture of the input audio signals L and R, A switch IC 12 for switching the audio input signal L of the left channel is added.
[0016]
Further, a control circuit for controlling the switch IC 12 is added. In addition, based on the output of this control circuit, a circuit for causing the preamplifier (IC2) for the audio input signal R of the right channel to be inactive (mute state) is added.
[0017]
A control circuit for controlling the switch IC 12 includes a switching transistor 26, resistors 21, 22, 23 and 24, and a capacitor 25.
[0018]
The base of the switching transistor 26 is connected to the DC power source B via the resistor 22, the internal speaker connecting terminal of the right channel of the horn jack 6, and the resistor 21. A connection point between the base of the switching transistor 26 and the resistor 22 is grounded via a resistor 23 and grounded via a capacitor 25.
[0019]
The emitter of the switching transistor 26 is grounded. The collector of the switching transistor 26 is connected to the DC power supply B through the resistor 24. The collector voltage of the switching transistor 26 is used as a switching control signal for the switch IC 12.
[0020]
A circuit for deactivating the preamplifier (IC2) includes a first switching transistor 31 that is on / off controlled by the switching transistor 26 and a second switching transistor that is on / off controlled by the first switching transistor 31. And a transistor 32.
[0021]
The base of the first switching transistor 31 is connected to the collector of the switching transistor 26 via the resistor 33. The emitter of the first switching transistor 31 is grounded. The collector of the first switching transistor 31 is connected to the DC power source B via the resistor 34.
[0022]
The base of the second switching transistor 32 is connected to the collector of the first switching transistor 31. The emitter of the second switching transistor 32 is grounded. The collector of the second switching transistor 32 is connected to the control voltage supply terminal of the preamplifier (IC2).
[0023]
The operation will be described separately when no external terminal is connected to the horn jack 6 and when an external terminal is connected to the horn jack 6.
[0024]
(1) Operation when an external terminal is not connected to the horn jack 6 [0025]
The resistor 21 is set to several tens KΩ or more, for example, 40 KΩ so that the influence on the speaker connected to the horn jack 6 is 1/1000 or less. When no external terminal is connected to the horn jack 6, the potential applied via the resistor 21 is applied to the base of the switching transistor 26 via the internal speaker connection terminal of the right channel of the horn jack 6 and the resistor 22. Switching transistor 26 is turned on.
[0026]
The resistors 22 and 23 are set to about 20 KΩ, for example. Therefore, the potential applied to the base of the switching transistor 26 is about (1/4) × B. The capacitor 25 is provided to prevent the operation of the switching transistor 26 from being disturbed by an audio signal.
[0027]
When the switching transistor 26 is turned on, the collector voltage of the switching transistor 26 (switching control signal of the switch IC 12) becomes Lo. When the switching control signal of the switch IC 12 is Lo, the switch IC 12 selects and outputs the output of the mixing circuit 11.
[0028]
Therefore, the mixed signal output from the mixing circuit 11 is sent to the internal speaker 7 via the switches IC12, IC1, IC3, the capacitor 4 and the horn jack 6.
[0029]
On the other hand, when the collector voltage of the switching transistor 26 becomes Lo, the first switching transistor 31 is turned off and the second switching transistor 32 is turned on. As a result, the control voltage of the preamplifier (IC2) on the right channel side is GND. Therefore, the preamplifier (IC2) on the right channel side is in an audio mute state, and the output of IC2 becomes a DC component. By eliminating the DC signal, that is, the right channel audio signal, in the right channel circuit in this way, the power consumption of the audio output circuit can be reduced by about 40%.
[0030]
(2) Operation when an external terminal is connected to the horn jack 6 [0031]
When an external terminal is connected to the horn jack 6, the contact in the horn jack 6 is disconnected, so that one end of the resistor 22 is disconnected from the horn jack 6 and becomes open. For this reason, no voltage is applied to the resistor 22, and the charge stored in the capacitor 25 is discharged through the resistor 23, so that the switching transistor 26 is immediately turned off.
[0032]
When the switching transistor 26 is turned off, the collector voltage of the switching transistor 26 (switching control signal of the switch IC 12) becomes Hi. When the switching control signal of the switch IC 12 becomes Hi, the switch IC 12 selects and outputs the input audio signal L of the left channel.
[0033]
On the other hand, when the collector voltage of the switching transistor 26 becomes Hi, the first switching transistor 31 is turned on and the second switching transistor 32 is turned off. As a result, the original control voltage is applied to the preamplifier (IC2) on the right channel side. That is, the right channel side preamplifier (IC2) is released from the audio mute state, and an audio signal is output from the right channel side preamplifier (IC2).
[0034]
Therefore, the input audio signals L and R of the left and right channels are sent to the external terminals via the preamplifiers (IC 1 and IC 2), the audio output IC 3, the capacitors 4 and 5, and the horn jack 6.
[0035]
When the audio output IC 3 having the function of individually activating and enabling the right channel and the left channel is used, the audio output IC 3 also has a circuit for the right channel. Similar control may be performed.
[0036]
【The invention's effect】
According to the present invention, in an audio output circuit for outputting a stereo signal and having a single monaural internal speaker, the signal can be automatically switched and power saving can be achieved. become.
[Brief description of the drawings]
FIG. 1 is a circuit diagram showing a configuration of an audio output circuit according to an embodiment of the present invention.
FIG. 2 is a circuit diagram showing a configuration of a conventional audio output circuit.
[Explanation of symbols]
1, 2 IC (Preamplifier)
3 IC for audio output
6 Horn jack (external audio output terminal)
11 Mixing circuit 12 Switch IC
26, 31, 32 switching transistors

Claims (2)

In an audio output circuit having an external audio output terminal and a monaural internal speaker connected to the external audio output terminal when no external terminal is connected to the external audio output terminal,
A mixing circuit for mixing the left channel input audio signal and the right channel input audio signal,
One of the left channel and the right channel is the first channel, and the other is the second channel. The switching circuit for inputting the output signal of the mixing circuit and the input audio signal of the first channel and switching and outputting those signals. ,
A first audio signal generation circuit for receiving the output signal of the switching circuit and generating an output audio signal of the first channel or a monaural output audio signal;
A second audio signal generation circuit for receiving an input audio signal of the second channel and generating an output audio signal of the second channel;
A detection circuit for detecting whether or not an external terminal is connected to the external audio output terminal;
When an external terminal is not connected to the external audio output terminal, the switching circuit is controlled so that the output signal of the mixing circuit is output from the switching circuit, and when the external terminal is connected to the external audio output terminal, The control circuit that controls the switching circuit so that the input audio signal of the first channel is output from the switching circuit, and the power consumption of the second audio signal generation circuit when the external terminal is not connected to the external audio output terminal. An audio output circuit comprising power consumption reduction means for reducing power consumption. The power consumption reduction means controls the second audio signal generation circuit so as to mute the output audio signal of the second channel when no external terminal is connected to the external audio output terminal. The audio output circuit according to claim 1.

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