JP3870985B2 - Audio playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention reads and processes a digital audio signal from a recording medium such as a so-called mini-disc (hereinafter referred to as MD), which is a magneto-optical disc having a diameter of 64 mm that can be recorded and reproduced, or an optical disc for reproduction having a diameter of 64 mm. The present invention relates to an apparatus for reproducing audio by converting it into an analog audio signal.
[0002]
[Prior art]
In an MD playback device, a digital audio signal read from an MD by an optical head is supplied to a digital signal processor (hereinafter referred to as a DSP) through an RF amplifier, and demodulation processing for reproduction such as EFM decoding processing, error detection correction Decoding processing, interpolation processing, data decoding, and data decompression processing are performed for the digital audio signal supplied from the DSP to the DA converter and converted into an analog audio signal. After the audio signal is amplified by the headphone amplifier, the audio signal is supplied to the headphones and the audio is reproduced.
[0003]
This MD playback device is provided with a bass adjustment switch, and when this switch is switched to the bass enhancement position, the bass is enhanced by data calculation processing in the DA converter. However, if the bass is increased by adjusting the bass in this way, depending on the sound source to be played, the headphone amplifier's linearity range may be exceeded due to the relationship with the power supply voltage of the headphone amplifier, resulting in significant distortion in the playback sound. There is.
[0004]
Therefore, conventionally, when bass adjustment is turned on by a hardware circuit using a transistor switch, that is, to enhance bass, the input level to the headphone amplifier is lowered to greatly exceed the linearity range of the headphone amplifier. Is not increased, so that large distortion is not generated in the reproduced sound.
[0005]
[Problems to be solved by the invention]
However, such a hardware circuit using transistor switches has a disadvantage of increasing the cost of the apparatus.
[0006]
Therefore, the present invention suppresses the distortion of reproduced sound during bass enhancement without increasing the cost of the apparatus in an apparatus that processes digital audio signals, converts them into analog audio signals, and reproduces audio. In addition to being able to obtain a more natural volume feeling .
[0007]
[Means for Solving the Problems]
The audio reproducing apparatus of the present invention is
Digital signal processing means for processing a digital audio signal;
A digital / analog conversion means for converting the digital audio signal processed by the digital signal processing means into an analog audio signal;
Low-frequency level varying means for changing the level of only the low-frequency component in the analog audio signal;
When the level of only the low frequency component in the analog audio signal is enhanced by the low frequency level varying means, the decrease amount is increased as the enhancement amount is larger within the range of the decrease amount smaller than the enhancement amount. Output level control means for reducing the output level of the entire band of the analog audio signal according to the amount of enhancement,
It is characterized by providing .
[0008]
In the audio reproduction device of the present invention configured as described above, when the level of only the low frequency component in the analog audio signal is enhanced by the low frequency level varying means, the output level control means determines the amount of enhancement The output level of the entire band of the analog audio signal is lowered according to the amount of increase so that the amount of decrease increases as the amount of increase increases within the range of small amount of decrease. The bass sound is not greatly increased and the playback sound is not greatly distorted, and a more natural volume feeling can be obtained .
[0009]
According to the audio reproducing apparatus of the present invention, such processing is performed by software in the system control unit, so that the cost of the apparatus is not increased.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows an embodiment of a sound reproducing apparatus according to the present invention, which is an MD (mini disk) reproducing apparatus.
[0011]
MD1 is rotationally driven by a motor 2, and a digital audio signal modulated into an RF signal is read from MD1 by an optical head 3. The servo control circuit 4 controls the motor 2 so that the MD 1 rotates at a constant linear velocity, and performs focus control and tracking control of the optical head 3.
[0012]
A digital audio signal modulated into an RF signal from the optical head 3 is supplied to a DSP (digital signal processor) 6 through an RF amplifier 5 to perform reproduction demodulation processing such as EFM decoding processing and decoding for error detection and correction. Processing such as conversion processing, interpolation processing, data decoding, and data decompression is performed.
[0013]
The digital audio signal from the DSP 6 is supplied to the DA converter 7 and converted into an analog audio signal. The converted analog audio signal is amplified by the headphone amplifier 8 and then supplied to the headphone 9 for audio. Is played.
[0014]
The apparatus is provided with a system control unit 10 composed of a microcomputer for controlling each part of the apparatus such as the servo control circuit 4 and the DSP 6, and a bass adjustment switch 11.
[0015]
The bass adjustment switch 11 can be switched to three positions 0, 1, and 2. When the position is switched to position 0, the power supply voltage Vcc from the power supply terminal 12 passes through the resistor 13 and the bass adjustment switch 11. Thus, it is supplied to the system control unit 10 and not supplied to the DA converter 7.
[0016]
Thus, when the bass adjustment switch 11 is switched to position 0, the bass adjustment is turned off in the DA converter 7. Further, the bass control OFF is detected in the system control unit 10, and the system control unit 10 instructs the DSP 6 to set the normal volume by the volume control output according to the volume control routine described later. Therefore, normal reproduction in which bass is not enhanced is performed.
[0017]
When the bass adjustment switch 11 is switched to position 1, the power supply voltage Vcc from the power supply terminal 12 is supplied to one bass adjustment switching input terminal L1 of the DA converter 7 via the resistor 13 and the bass adjustment switch 11. The system controller 10 is not supplied.
[0018]
As a result, when the bass adjustment switch 11 is switched to position 1, the DA converter 7 enhances the bass so as to increase the level by about 4 dB at 100 Hz by data calculation processing.
[0019]
However, at the same time, the bass control ON is detected in the system control unit 10, and the system control unit 10 instructs the DSP 6 to lower the volume by 2 dB by the volume control output according to the volume control routine described later, thereby The DSP 6 lowers the sound volume by 2 dB over the entire band by data calculation processing.
[0020]
Therefore, at this time, the input level to the headphone amplifier 8 is lowered by 2 dB over the entire band, the linearity is improved by 2 dB, and the distortion of the reproduction output is reduced. In addition, since the bass enhancement amount is 2 dB, it is possible to feel the bass raising effect without impairing the volume feeling.
[0021]
When the bass adjustment switch 11 is switched to position 2, the power supply voltage Vcc from the power supply terminal 12 is supplied to the other bass adjustment switching input terminal L2 of the DA converter 7 via the resistor 13 and the bass adjustment switch 11. The system controller 10 is not supplied.
[0022]
As a result, when the bass adjustment switch 11 is switched to position 2, the DA converter 7 enhances the bass so as to increase the level by about 9 dB at 100 Hz by data calculation processing.
[0023]
However, at the same time, the bass control ON is detected in the system control unit 10, and the system control unit 10 instructs the DSP 6 to lower the volume by 2 dB by the volume control output according to the volume control routine described later, thereby The DSP 6 lowers the sound volume by 2 dB over the entire band by data calculation processing.
[0024]
Therefore, also at this time, the input level to the headphone amplifier 8 is lowered by 2 dB over the entire band, the linearity is improved by 2 dB, and the distortion of the reproduction output is reduced. Moreover, since the bass enhancement amount is 7 dB, the bass raising effect can be sensed without impairing the volume feeling.
[0025]
And according to said embodiment, since said process is made by the software in the system control part 10, it does not bring about the cost increase of an apparatus.
[0026]
FIG. 2 shows the sound volume control routine performed by the system control unit 10. In this volume control routine, the bass adjustment ON / OFF detection input is viewed, and it is first determined in step S1 whether or not the bass adjustment is ON.
[0027]
When the bass adjustment switch 11 is switched to the position 0 and the power supply voltage Vcc is supplied to the system control unit 10 via the resistor 13 and the bass adjustment switch 11, it is determined that the bass adjustment is OFF. The process proceeds from step S1 to step S2, and the DSP 6 is instructed for a normal volume.
[0028]
On the other hand, the bass adjustment switch 11 is switched to the position 1 or 2 and the power supply voltage Vcc is not supplied to the system control unit 10 via the resistor 13 and the bass adjustment switch 11, so that the bass adjustment is ON. If it is determined, the process proceeds from step S1 to step S3 to instruct the DSP 6 to lower the volume by 2 dB.
[0029]
The embodiment shown in FIG. 1 and FIG. 2 is a case where the volume is lowered by a certain amount in the DSP 6 regardless of the magnitude of the bass enhancement amount in the DA converter 7 when the bass adjustment is ON. The volume reduction amount in the DSP 6 may be changed according to the amount of enhancement.
[0030]
FIG. 3 shows an embodiment in this case. When the bass adjustment switch 11 is switched to the position 0, the power supply voltage Vcc from the power supply terminal 12 is passed through the resistor 13 and the bass adjustment switch 11 to the DA converter 7. Neither is supplied to the system control unit 10.
[0031]
Therefore, at this time, the bass adjustment is turned off in the DA converter 7. Further, the system control unit 10 detects the bass adjustment OFF and instructs the DSP 6 to set a normal volume.
[0032]
When the bass adjustment switch 11 is switched to position 1, the power supply voltage Vcc from the power supply terminal 12 is supplied to one bass adjustment switching input terminal L1 of the DA converter 7 via the resistor 13 and the bass adjustment switch 11. At the same time, it is supplied to the system control unit 10 as one bass adjustment switching detection input.
[0033]
Accordingly, at this time, the DA converter 7 enhances the bass so that the level is increased by about 4 dB at 100 Hz by data calculation processing. At the same time, one bass adjustment switching detection input is detected in the system control unit 10, and the system control unit 10 instructs the DSP 6 to lower the sound volume by 2 dB, thereby causing the DSP 6 to perform data calculation processing. Reduce the volume by 2 dB over the entire band.
[0034]
Therefore, at this time, the input level to the headphone amplifier 8 is lowered by 2 dB over the entire band, the linearity is improved by 2 dB, and the distortion of the reproduction output is reduced. In addition, since the bass enhancement amount is 2 dB, it is possible to feel the bass raising effect without impairing the volume feeling.
[0035]
When the bass adjustment switch 11 is switched to position 2, the power supply voltage Vcc from the power supply terminal 12 is supplied to the other bass adjustment switching input terminal L2 of the DA converter 7 via the resistor 13 and the bass adjustment switch 11. At the same time, it is supplied to the system control unit 10 as the other bass adjustment switching detection input.
[0036]
Therefore, at this time, in the DA converter 7, the bass is enhanced by the data calculation process so that the level is increased by about 9 dB at 100 Hz. At the same time, the other bass adjustment switching detection input is detected in the system control unit 10, and the system control unit 10 instructs the DSP 6 to lower the sound volume by 4 dB, thereby causing the DSP 6 to perform data calculation processing. The volume is lowered by 4 dB over the entire band.
[0037]
Accordingly, at this time, the input level to the headphone amplifier 8 is lowered by 4 dB over the entire band, the linearity is improved by 4 dB, and the distortion of the reproduction output is reduced. In addition, since the bass enhancement amount is 5 dB, it is possible to feel the bass raising effect without impairing the volume feeling.
[0038]
In the present embodiment, when the bass adjustment is ON, the DSP 6 according to the magnitude of the bass enhancement amount in the DA converter 7 so that the volume reduction amount in the DSP 6 increases as the bass enhancement amount in the DA converter 7 increases. Since the amount of volume reduction at can be changed, a more natural volume feeling can be obtained.
[0039]
【The invention's effect】
As described above, according to the present invention , in a device that processes a digital audio signal, converts it into an analog audio signal, and reproduces the audio, the distortion of the reproduced sound at the time of increasing the bass without increasing the cost of the device. Can be suppressed , and a more natural volume feeling can be obtained .
[Brief description of the drawings]
FIG. 1 is a diagram showing a first embodiment of an audio reproducing device according to the present invention.
FIG. 2 is a diagram showing a volume control routine performed by a system control unit in the embodiment of FIG. 1;
FIG. 3 is a diagram showing a second embodiment of the sound reproducing device of the invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... MD (recording medium), 2 ... Motor, 3 ... Optical head, 4 ... Servo control circuit, 5 ... RF amplifier, 6 ... DSP (digital signal processor), 7 ... DA converter, 8 ... Headphone amplifier, 9 ... Headphone 10 ... System control unit, 11 ... Bass adjustment switch

Claims (1)

Digital signal processing means for processing a digital audio signal;
Digital / analog conversion means for converting the digital audio signal processed by the digital signal processing means into an analog audio signal;
Low-frequency level varying means for changing the level of only the low-frequency component in the analog audio signal;
When the level of only the low frequency component in the analog audio signal is enhanced by the low frequency level varying means, the decrease amount is increased as the enhancement amount is larger within the range of the decrease amount smaller than the enhancement amount. Output level control means for reducing the output level of the entire band of the analog audio signal according to the enhancement amount,
Audio reproducing apparatus comprising: a.

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