JPH03187599A - Sound output circuit - Google Patents

Abstract

PURPOSE:To improve reproduction at a low frequency band by adding each sound signal of input and feedback to a input sound signal with an addition circuit so as to prohibit exceeding the dynamic range of a sound signal amplification circuit with the action of a feedback function control circuit. CONSTITUTION:The feedback sound signal of a low frequency band is given to the addition circuit 3 and the feedback function control circuit 11 respectively from a detection circuit 10. The feedback function control circuit 11 amplifies and controls the input sound signal so as to prohibit exceeding the dynamic range of the sound signal amplification circuit 4 based on the given feedback sound signal, and outputs it to the addition circuit 3. Accordingly, in the sound signal amplification circuit 4, a summed sound signal from the addition circuit 3 can be outputted to a speaker 9 after amplifying it so as to prohibit exceeding its dynamic range. Thus, the sound signal is never clipped, and the reproduction at the low frequency band can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an audio output circuit configured to expand the reproduction band of an audio signal in a low frequency band using a motional feedback method.

(Prior art) The motional feedback method detects the operating state of the speaker, and depending on this detection, the audio signal amplification circuit,
This is a method in which a feedback audio signal corresponding to the operating state of the so-called power amplifier is given, and the operation of the audio signal amplification circuit is controlled in response to this feedback audio signal, thereby improving the characteristics of the speaker.

There are various types of motion feedback methods that aim to improve these characteristics.
Among these, in the case of a method aimed at expanding the low frequency band of a speaker, the impedance change of the speaker is used to detect the voltage according to the impedance change,
A method is often used in which this is fed back to an audio signal amplification circuit as a feedback audio signal.

FIG. 3 is a circuit diagram of a conventional audio output circuit that employs the motional feedback method when utilizing this impedance change, and includes an audio signal circuit system 1 and a feedback signal circuit system 2 as circuit systems. are doing. The audio signal circuit system 1 includes an adder circuit 3 and an audio signal amplification circuit 4. The feedback signal circuit system 2 includes a detection resistor 5, an amplifier circuit 6, and a bandpass filter 7.

In the audio signal circuit system I, the adder circuit 3 adds the input audio signal from the audio signal input terminal 8 and the feedback audio signal from the feedback signal circuit system 2, and sends this added audio signal to the audio signal amplification circuit 4. Output.

The audio signal amplification circuit 4 amplifies the added audio signal and outputs it to the speaker 9.

In the feedback signal circuit system 2, the detection resistor 5 is connected to the speaker 9.
The output audio signal from the speaker 9 is detected and outputted as a feedback audio signal in correspondence with the impedance change of the speaker 9.

The amplifier circuit 6 amplifies the feedback audio signal from the detection resistor 5. The bandpass filter 7 outputs the feedback audio signal in the low frequency band of the amplified feedback audio signal to the adding circuit 3 .

In the above case, the impedance of the speaker is generally not constant but changes depending on the frequency band of the audio signal, for example, as shown in FIG. The impedance is high at the lowest resonant frequency called f. A mountain of impedance is formed centered on . This fo occupies a large factor in the limit of the low reproduction frequency band, and in the low frequency band below f0, the level of the reproduction sound pressure of the speaker decreases at a constant rate. Therefore, in the audio output circuit adopting the motional feedback method shown in FIG. A signal is extracted by a band pass filter 7, added to the input audio signal of the entire frequency band from an input terminal 8 by an adder circuit 3, and the added audio signal is output to an audio signal amplification circuit 4. As a result, the audio signal amplification circuit 4 is supplied with the added audio signal in which the low frequency band has been boosted, and the low frequency reproduction frequency band is expanded.

(Problems to be Solved by the Invention) The conventional audio output circuit having the above configuration is generally applied to a small speaker in which it is difficult to reproduce low frequencies. One of the reasons for this application is, for example, when the speaker is small, the diameter is small and the area of the diaphragm is small. If the area of the diaphragm is small, it goes without saying that it becomes difficult to vibrate the diaphragm efficiently in low frequency bands, and as a result, reproduction in low frequency bands decreases. It's coming.

For this reason, small speakers employ the above-mentioned motional feedback type audio output circuit to easily reproduce low frequencies.

By the way, in the audio output circuit shown in FIG. 3 which employs such a mosi-bonal feedback method, since the feedback audio signal in the low frequency band is added to the input audio signal, the feedback audio signal in the low frequency band is added to the input audio signal. Compared to the frequency band, the dynamic range of the audio signal amplification circuit 4 is easily exceeded. When this dynamic range is exceeded, the audio signal will be clipped and the reproduction characteristics in the low range will deteriorate.

Therefore, an object of the present invention is to make it possible to improve low frequency reproduction without clipping the audio signal.

(Means for Solving the Problems) The audio output circuit according to claim (1) of the present invention includes an audio signal circuit system and a feedback signal circuit system, and the audio signal circuit system includes an adder circuit, and an audio signal amplification circuit, the addition circuit adds the human input audio signal and the feedback audio signal,
This added audio signal is output to the audio signal amplification circuit, which amplifies the added audio signal and outputs it to the speaker, and the feedback signal circuit system includes a detection circuit and feedback amount control. The detection circuit detects and outputs an output audio signal in a low frequency band among the output audio signals from the speaker as a feedback audio signal, and outputs the feedback audio signal as a feedback audio signal. The feedback amount control circuit, in response to the input of the feedback audio signal, amplifies and controls the human input audio signal so that the addition audio signal of the audio signal amplification circuit is not clipped. It is characterized in that it outputs to a circuit.

Further, in the audio output circuit according to claim (2) of the present invention, the detection circuit does not output the feedback audio signal to the adding circuit, but outputs it to the feedback amount control circuit. This is characterized in that in response to input of the feedback audio signal, the feedback audio signal is amplified and controlled so as not to exceed the dynamic range of the audio signal amplification circuit, and is output to the adder circuit.

(Operation) In claim (1), a feedback audio signal in a low frequency band is provided from the detection circuit to the addition circuit and the feedback amount control circuit, respectively. The feedback amount control circuit amplifies and controls the input audio signal based on the applied feedback audio signal so as not to exceed the dynamic range of the audio signal amplification circuit, and outputs the amplified signal to the adder circuit.

Therefore, in the audio signal amplification circuit, the added audio signal from the adder circuit can be amplified without exceeding its dynamic range and output to the speaker.

Furthermore, in the audio output circuit according to claim (2), the feedback amount control circuit amplifies and controls the feedback audio signal so that the feedback audio signal does not exceed the dynamic range of the audio signal amplification circuit, and outputs the amplified feedback audio signal to the adder circuit. .

Therefore, the audio signal amplification circuit can amplify and output the added audio signal from the adder circuit without exceeding its dynamic range.

(Example) Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a circuit diagram of an audio output circuit according to a first embodiment of the present invention, in which parts corresponding to those in FIG. is omitted.

The audio output circuit of the first embodiment includes an audio signal circuit system I and a feedback signal circuit system 2.

The audio signal circuit system I includes an adder circuit 3 and an audio signal amplification circuit 4. The adder circuit 3 adds the human input audio signal and the feedback audio signal, and outputs this added audio signal to the audio signal amplification circuit 4. The audio signal amplification circuit 4 is configured to amplify the added audio signal and output it to the speaker 9.

The feedback signal circuit system 2 includes a detection circuit 10 and a feedback amount control circuit 11. The detection circuit IO includes a detection resistor 5, an amplifier circuit 6, and a bandpass filter 7, similar to the conventional circuit shown in FIG. The detection circuit IO detects and outputs an output audio signal in a low frequency band among the output audio signals from the speaker 9 as a feedback audio signal, and outputs the feedback audio signal to the addition circuit 3 and the feedback amount control circuit 11, respectively. It is supposed to be done.

The feedback amount control circuit 11 includes a rectifier circuit 12 , an amplifier circuit 13 , and a voltage-controlled amplifier circuit 14 .

In the feedback amount control circuit 11, the rectifier circuit 12 converts the feedback audio signal into a direct current. The amplifying circuit 13 has characteristics that match the dynamic range of the audio signal amplifying circuit 4, and when the input of the DC-converted feedback audio signal exceeds a certain feedback amount, the audio signal amplifying circuit 13 It outputs an amplification degree control signal that prevents the added audio signal of No. 4 from being clipped. The voltage-controlled amplifier circuit 14 includes an amplification control terminal, and an amplification control signal is applied to the amplification control terminal.

The voltage-controlled amplifier circuit 14 is configured to amplify and control the input audio signal from the audio signal input terminal 8 in response to the input of the amplification degree control signal, and outputs the amplified audio signal to the adder circuit 3.

In the above configuration, when an input audio signal is applied to the audio signal input terminal 8 , the input audio signal is amplified and controlled by the voltage-controlled amplifier circuit 14 and is applied to the adder circuit 3 . The addition circuit 3 adds the feedback audio signal from the detection circuit IO and the human input audio signal, and outputs this to the audio signal amplification circuit 4 as an added audio signal. The audio signal amplification circuit 4 amplifies the added audio signal and outputs it to the speaker 9. The output audio signal from the speaker 9 is given to a detection circuit 10. The detection circuit IO outputs a low frequency band audio signal as a feedback audio signal. When the feedback amount of the feedback audio signal exceeds the dynamic range of the audio signal amplifier circuit 4, the feedback amount control circuit 11 lowers the level of the input audio signal and outputs it to the addition circuit 3. Therefore, the adder circuit 3 provides the audio signal amplifying circuit 4 with an added audio signal that is less than the dynamic range of the audio signal amplifying circuit 4. As a result, the audio signal amplification circuit 4 outputs an audio signal without clipping to the speaker 9.

FIG. 2 is a circuit diagram of an audio output circuit according to a second embodiment of the present invention, in which parts corresponding to those in FIG. do.

In the second embodiment, the feedback audio signal from the detection circuit IO is not output to the addition circuit 3, but is output only to the feedback amount control circuit 11.

In response to the input of the feedback audio signal, the feedback amount control circuit 11 amplifies and controls the feedback audio signal so as not to exceed the dynamic range of the audio signal amplification circuit 4, and outputs the amplified signal to the adder circuit 3. ing.

The feedback amount control circuit 11 of the second embodiment is different from the feedback amount control circuit 11 of the first embodiment in that it amplifies and controls the feedback audio signal and outputs it to the adder circuit 3. ing.

In the audio output circuit of the second embodiment as well, the audio signal amplification circuit 4 outputs an audio signal without clipping to the speaker 9 as in the first embodiment.

(Effects of the Invention) As is clear from the above explanation, according to the present invention,
In claim (1), the addition circuit is applied to the input audio signal, and in claim (2), the feedback amount control circuit is applied to the feedback audio signal so that the dynamic range of the audio signal amplification circuit is not exceeded. Since the input and feedback audio signals can be added together, the low frequency audio signal amplified by the MFB circuit will not be clipped, and as a result, the reproduction in the low frequency range can be improved.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of an audio output circuit according to a first embodiment of the invention, and FIG. 2 is a circuit diagram of an audio output circuit according to a second embodiment of the invention. FIG. 3 is a circuit diagram of a conventional audio output circuit, and FIG. 4 is a diagram showing the frequency characteristics of a speaker. l...Audio signal circuit system, 2...Feedback signal circuit system, 3
...Addition circuit, 4...Audio signal amplification circuit, 9...
Speaker, IO...detection circuit, 11...feedback amount control circuit.

Claims (2)

[Claims] (1) Audio signal circuit system (1) and feedback signal circuit system (
2), the audio signal circuit system (1) has an addition circuit (3) and an audio signal amplification circuit (4), and the addition circuit (3) has the following:
The input audio signal and the feedback audio signal are added together and the added audio signal is output to the audio signal amplification circuit (4), which amplifies the added audio signal and outputs the added audio signal to the speaker (9). ), and the feedback signal circuit system (
2) includes a detection circuit (10) and a feedback amount control circuit (1
1), and the detection circuit (10) has a speaker (9).
), the output audio signal in the low frequency band is detected and output as a feedback audio signal, and the feedback audio signal is sent to the adder circuit (3) and the feedback amount control circuit (11). In response to the input of the feedback audio signal, the feedback amount control circuit (11) amplifies and controls the input audio signal so that the added audio signal of the audio signal amplification circuit (4) is not clipped. An audio output circuit characterized in that it outputs to an adder circuit (3). (2) In claim (1), the detection circuit (10) does not output the feedback audio signal to the addition circuit (3) but outputs it to the feedback amount control circuit (11), and the feedback amount control The circuit (11) responds to the input of the feedback audio signal, controls the amplification of the feedback audio signal so as not to exceed the dynamic range of the audio signal amplification circuit (4), and outputs the amplified signal to the adder circuit (3). An audio output circuit characterized by: