JP3661939B2 - Audio equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an audio apparatus for reproducing an optical disk such as a CD or a DVD, and more particularly to an audio apparatus capable of automatically adjusting an analog audio output signal to a reference level at the time of production.
[0002]
[Prior art]
AV devices such as CD players and DVD players have a built-in D / A converter that converts digital audio signals into analog signals.
The AV apparatus including the D / A converter is likely to vary in output performance of a finished product due to a difference in characteristics of circuit elements mounted at the time of manufacture or a manufacturing process.
Therefore, a D / A converter IC (Japanese Patent Laid-Open No. 5-191287) and a D / A converter (Japanese Patent Laid-Open No. 5-129958) are examples of adjusting the output amplitude with a variable resistor to avoid this problem. Are known.
As an example of adjusting the output voltage of a constant voltage power supply, a D / A converter (Japanese Patent Laid-Open No. 6-132828) has been proposed.
However, none of the configurations are adjusted and controlled while detecting the output level at the final stage, so as described above, the products are shipped with variations in output performance, and the recorded information on the disc is actually played and sound is emitted from the speakers. When this was done, there was a problem that the sound was distorted and deteriorated.
[0003]
Various circuits and devices have been proposed for adjusting and controlling the audio signal in the AV device. For example, an automatic gain control circuit that can be configured without using a multiplier is known. (See Kaihei 5-206769).
The automatic gain control circuit includes analog-to-digital conversion means for digitizing an analog input signal, and a shift register that replaces the digitized signal and shifts an arbitrary number of bits in an arbitrary direction according to the control signal. Yes.
Further, an averaging means for obtaining an average of the absolute values of the digital signal for every fixed sample, and a control signal indicating the shift direction and the shift amount with respect to the shift register by comparing the averaged output with a target value. Generating control means.
[0004]
Also, an audio power control method has been proposed as a means for improving the problems caused by the difference in voltage power supply (see Japanese Patent Application Laid-Open No. 7-193444).
This includes a discriminating means for discriminating the battery pack voltage, a means for preliminarily storing control data corresponding to the voltage of the battery pack in a memory, and a memory control data corresponding to the voltage discriminated by the voltage discriminating means. Means for setting the variable attenuator of the amplifier circuit so as to obtain a maximum audio power output.
[0005]
There is also known a balance control circuit aimed at obtaining a large input dynamic range by balance control in stereo sound output (see Japanese Patent Laid-Open No. Hei 8-191499).
In this circuit, the control current for balance control is divided into two from the minimum to the center and from the center to the maximum, and the absolute value of the control current is obtained. The former is set as the RCh control current to the RCh balance control unit, and the latter Is provided with a converter having a function of distributing and outputting to the LCh balance control unit as an LCh control current.
[0006]
Also known is a semiconductor integrated circuit and its characteristic inspection method for the purpose of making the original output terminal usable as the output terminal of the characteristic changing circuit (see Japanese Patent Publication No. 7-9921).
This configuration reduces the number of connection terminals and reduces the number of connection terminals in the semiconductor integrated circuit by using the connection terminals that are used during the operation that the semiconductor integrated circuit should perform as output terminals when adjusting the characteristics of the bandpass filter. The characteristics of the band-pass filter can be easily inspected and adjusted as the stored characteristic changing circuit.
[0007]
Furthermore, a graphic equalizer device that can automatically set a preset volume for each band has also been proposed (see Japanese Patent Laid-Open No. 2-43361).
This device has a configuration in which the volume for setting the sound quality for each band and the data volume for storing the position of the set volume are shared by switching, so that the volume configuration is simple. In addition to being able to use a series of volumes, it is possible to save space by increasing the volume by increasing the bandwidth division.
[0008]
[Problems to be solved by the invention]
By the way, none of the conventional circuits or devices described above perform adjustment or control while detecting the output level at the final stage, and therefore, an output specific to an audio DAC circuit including a D / A converter, an amplifier, and a filter. Due to variations in performance, when the recorded information on the disk is actually reproduced and emitted from the speaker, the above-described problem that the sound is distorted or deteriorated cannot be solved.
[0009]
The present invention has been devised in view of the above problems, and automatically adjusts the level of the audio signal output from the output terminals of the L channel and the R channel to a predetermined value to distort or degrade the sound emitted from the speaker. An object of the present invention is to provide an audio device that provides an audio device that can prevent the problem that occurs.
[0010]
[Means for Solving the Problems]
  In order to achieve the above object, the first aspect of the present invention provides an L channel and an R channel digital audio signal.Input audio port, an oversampling circuit for sampling a digital audio signal input from the audio port, a serial port for controlling the operation of the oversampling circuit, and an L channel for the digital audio signal from the oversampling circuit. An enhanced multilevel circuit that separates into an R channel, and each of the L channel and the R channel from the enhanced multilevel circuit.D / A converter for converting digital audio signal to analog audio signalWhen, Amplifier that amplifies analog audio signal from this D / A converterWhenThe output signal of this amplifier is filtered and the audio signal output terminal of L channel and R channelSend tofilterAnd havingIn an audio device equipped with an audio DAC circuit,An audio signal output unit that reads out audio data stored in advance in the memory and outputs the audio data to the audio port and the serial port, a control unit that controls the entire apparatus, and a stepwise process corresponding to a control signal input from the control unit A register setting unit for setting and outputting a numerical value; and a register for controlling the operation of the oversampling circuit by outputting a digital signal having a number of bits corresponding to the numerical value of the input signal from the register setting unit to the serial port; The control means comprisesPower onWhen it is determined thatThe audio signal output unitAudio data is read out from the memory and output, and an analog audio signal obtained by converting the audio data output as the test signal by the audio DAC circuit is input to the audio signal output terminal. The digital audio signal is input from the port and converted into a digital audio signal, and the level of the converted digital audio signal is compared with the digital reference value stored in advance in its own memory. The level of the analog audio signal appearing at the audio signal output terminal by changing the setting of the register by outputting the control signal indicating the quantity data to eliminate the difference to the register setting unit and controlling the oversampling circuit Variable adjustment, and this adjustment control, the audio signal output That analog audio signal appearing at the child is configured to continue until it reaches the level corresponding to the digital reference valueIt is a feature.
[0011]
  In the audio device according to the first aspect of the present invention, when a voltage fluctuation occurs on the audio signal output terminal side with respect to the input voltage of the audio DAC circuit due to the characteristics of the circuit elements of the audio DAC circuit, the audio signal output Since the level of the analog audio signal appearing at the terminal is automatically adjusted to be a preset reference value, it is possible to reliably prevent the sound emitted from the speaker from being distorted or deteriorated.
[0012]
  Claims2The invention described inThe control means converts the analog audio signals of the L channel and the R channel by inputting the analog audio signals respectively appearing at the audio signal output terminals of the L channel and the R channel through individual A / D input ports. The level of each digital audio signal and the digital reference value are individually compared, and the setting of the register is changed in accordance with the difference in level between the L channel and the R channel.It is characterized by that.
[0013]
  In the audio device according to the second aspect of the present invention, there is a slight variation in the resistance that determines the gain of each amplifier circuit on the L channel side and the R channel side externally connected to the audio DAC circuit. Even if there is a difference in the level of the analog audio signal appearing at each audio signal output terminal of the channel and the R channel, the level of the analog audio signal appearing at each audio signal output terminal of the L channel and the R channel is preset. Since the automatic adjustment is performed so that the reference value is reached, both the analog audio signals of the L channel and the R channel can be kept at a constant level.
[0014]
  Claims3The invention described inThe audio signal output terminals of the L channel and the R channel and the A / D input ports of the control means are connected through a wiring pattern formed on a wiring board, and a changeover switch is connected to the wiring pattern. The control means outputs a control signal for switching the wiring pattern to the energized state at the timing when the control means instructs the audio signal output unit to output audio data as a test signal to the audio signal output unit. And a control signal for switching the wiring pattern so that the wiring pattern is in a non-energized state at the timing when the audio signal output unit is instructed to stop outputting audio data. It is characterized by. In the audio device of the present invention, the wiring pattern is set to the energized state only when the level of the analog audio signal appearing at the audio signal output terminal when the power is turned on automatically matches the reference value, and the wiring pattern is set to the non-energized state at the normal time. Since it is held, the wiring pattern formed on the wiring board is not affected by external noise, and it is possible to prevent the sound emitted from the speaker from being distorted due to the deterioration of the S / N ratio.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the illustrated examples.
FIG. 1 is a block diagram showing an electrical configuration of an audio DAC circuit according to the audio apparatus of the present invention, and FIG. 2 is an electric circuit diagram showing an audio DAC circuit of the audio apparatus.
This audio apparatus is applied to a popular CD player, and has a configuration in which a digital signal reproduced from a CD is converted into an analog audio signal by the audio DAC circuit 1 and sent to the speaker side to emit music. ing.
In the CD player, the servo control unit controls the motor and the optical pickup to rotate the CD, and sends the recording information optically read from the track of the CD to the signal processing unit.
[0016]
The signal processing unit processes the input read information and sends out the extracted digital signal to the input terminals 1c, 1d, and 1e of the audio DAC circuit 1.
The output of the audio signal output unit 24 is also connected to the input terminals 1c, 1d, and 1e.
The audio signal output unit 24 includes a microcomputer 24a, and the output of the control unit 25 is guided. In a memory (for example, EEPROM) of the microcomputer 24a, audio data for outputting a signal voltage of a desired level is stored in advance on the output terminals 19 and 20 side of the audio DAC circuit 1 as a test signal.
When the audio signal output unit 24 receives a command from the control unit 25, the microcomputer 24a reads out the audio data in the memory and sends it to the input terminals 1c, 1d, and 1e.
[0017]
In FIG. 1, reference numeral 1 denotes an audio DAC circuit, and its digital circuit portion and analog circuit portion operate upon receiving a supply voltage from a power supply circuit 21.
Reference numeral 2 denotes an audio serial port (audio port). The output side of the signal processing unit is connected to an input terminal, and a digital signal is input from the signal processing unit.
In addition, a bit clock signal and a clock signal at the switching timing of the L and R channels are guided to the audio port 2, and the digital signal is processed based on these signals.
Reference numeral 3 denotes a serial control port (serial port), and a register 23 is connected to an input terminal.
The serial port 3 receives the latch signal and the clock signal together with the signal from the register 23 and controls the operation of the oversampling circuit 5.
[0018]
A system clock manager (system clock) 4 receives a system clock signal from the oscillation circuit, and controls the operation time of the serial port 3 and the oversampling circuit 5 according to the system clock signal.
Reference numeral 5 denotes an oversampling digital filter (oversampling circuit) whose output is connected to the enhanced multilevel circuit 6.
The oversampling circuit 5 samples (samples) the digital audio signal from the audio port 2 and outputs it to the enhancement multilevel circuit 6.
[0019]
Reference numeral 6 denotes an enhanced multilevel delta-sigma modulation (enhanced multilevel circuit), and D / A converters 7 and 8 are connected to the output sides of the L channel and the R channel, respectively.
The enhanced multi-level circuit 6 separates the digital audio signal into an L channel and an R channel, and outputs them to the D / A converters 7 and 8, respectively. These D / A converters 7 and 8 are connected to amplifiers (AMP) 9 and 10, respectively. The D / A converter 7 converts the L-channel digital audio signal into an analog audio signal, and the amplifier 9 side. To send.
On the other hand, the D / A converter 8 converts the R channel digital audio signal into an analog audio signal and sends it to the amplifier 10 side.
Low-pass filters (LPF) 11 and 12 are connected to the amplifiers 9 and 10, respectively, and an analog audio signal is amplified and sent to the low-pass filters 11 and 12.
[0020]
Pin terminals 13 and 14 are connected to these low-pass filters 11 and 12, respectively, and unnecessary bands of analog audio signals are cut and sent to the pin terminals 13 and 14 side.
These pin terminals 13 and 14 are audio signal output terminals, and the pin terminal 13 side is for L channel output and the pin terminal 14 side is for R channel output.
The pin terminals 13 and 14 are connected to external amplifier circuits 15 and 16 as shown in FIG.
The amplifier circuits 15 and 16 amplify the L and R channel analog audio signals, and filters 17 and 18 are connected to the output sides of the amplifier circuits 15 and 16, respectively.
Jacks 19 and 20 are connected to the filters 17 and 18, and unnecessary components of the amplified analog audio signal are cut and sent to the jacks 19 and 20, respectively.
These jacks 19 and 20 are connected to speakers although not shown.
[0021]
Reference numeral 21 denotes a power supply circuit, in which an AC voltage is guided to an input terminal, and DC voltages having different levels are output from the 3.3V and 5.0V output terminals after transformation, rectification, and smoothing.
Each part on the digital circuit side is connected to the 3.3 V output terminal via the voltage input terminal 1 a of the audio DAC circuit 1.
As a result, a DC voltage of 3.3 V is supplied to the audio port 2, the serial port 3, the system clock 4, the oversampling circuit 5, and the enhanced multilevel circuit 6, respectively.
Further, it is supplied to the digital signal input side of each D / A converter 7, 8. Further, this DC voltage is also supplied to the register setting unit 22 and the audio signal output unit 24 side. On the other hand, each part on the analog circuit side is connected to the 5.0 V output terminal via the voltage input terminal 1b. The DC voltage is also supplied to the control unit 25 side.
[0022]
Reference numeral 22 denotes a register setting unit, to which the output of the control unit 25 is guided, and a stepwise numerical value corresponding to a control signal from the control unit 25 is set to operate the register 23.
The register 23 sends a digital signal having the number of bits corresponding to the numerical value set by the register setting unit 22 to the serial port 3.
The register setting unit is capable of stepwise setting in 255 steps when the maximum amplitude value in one cycle of the audio signal is set to a gain of “0 db”.
In this example, when “−3 db”, the voltage appearing on the side of the jacks 19 and 20 that are analog audio output terminals of the L and R channels is designed to be 2V each.
[0023]
A control unit 25 includes a CPU, a ROM, and a RAM, and is connected unidirectionally or bidirectionally depending on each part of the circuit and its function.
The control unit 25 includes a plurality of A / D input ports for converting an analog signal into a digital signal. One A / D input port 25b and the jack 19 side are connected by a wiring pattern 19a. Yes.
The RAM is a work memory 25a, and stores data corresponding to analog audio signals of a predetermined level as reference values in advance.
This reference value is for comparison with the voltage appearing on the jacks 19 and 20 side. In this example, digital data indicating a voltage of 2 V is stored in advance.
[0024]
Next, the output adjustment operation of the CD player will be described with reference to the drawings.
First, when the power of the CD player is turned on, a DC voltage is supplied from the power supply circuit 21 shown in FIG. 1 to the control unit 25 shown in FIG. When receiving the supply voltage, the control unit 25 determines that the power is turned on, and sends an operation start command to the audio signal output unit 24.
Then, the microcomputer 24a of the audio signal output unit 24 reads the test audio data from the memory and sends it to the input terminals 1c, 1d, 1e side of the audio DAC circuit 1.
The audio data is converted into an analog signal by the audio DAC circuit 1 and transmitted from the pin terminals 13 and 14 to the external amplifier circuits 15 and 16, respectively.
[0025]
The amplifier circuits 15 and 16 amplify the analog audio signals of the L and R channels and send them to the filters 17 and 18 side.
The filters 17 and 18 cut unnecessary components of the amplified analog audio signal and send them to the jacks 19 and 20, respectively.
At this time, the analog audio signal is guided to the A / D input port 25b side of the control unit 25 via the wiring pattern 19a.
Along with this, the control unit 25 compares the level of the analog audio signal transmitted from the jack 19 side with the reference value stored in the memory 25a.
[0026]
If there is a difference in the analog audio signal with respect to this reference value, a quantity of data that eliminates the difference is output as a control signal to the register setting unit 22 side.
The register setting unit 22 sets a stepwise numerical value according to the control signal and sends it to the register 23.
Since the register 23 sends a digital signal having the number of bits corresponding to the set numerical value to the serial port 3, the operation of the oversampling circuit 5 is controlled by the register 23.
For this reason, the test audio data output from the audio signal output unit 24 is changed stepwise by the audio DAC circuit 1 and converted into an analog audio signal, which is then sent to the jacks 19 and 20 side.
Therefore, the analog audio signal appearing on the jacks 19 and 20 side is automatically adjusted to a level equal to the reference value.
Thereafter, when the input signal from the jack 19 side becomes a value indicating 2V, the control unit 25 ends the automatic adjustment operation of the output voltage.
[0027]
This eliminates the voltage fluctuation problem associated with the production of the CD player. That is, in this type of CD player, voltage fluctuation is likely to occur on the output side to which a speaker is connected with respect to the input voltage to the audio DAC circuit 1.
This voltage fluctuation is caused by the characteristics of circuit elements including the audio DAC circuit 1, and the greater the fluctuation, the greater the influence on the distortion and deterioration of the sound. Therefore, the smaller the voltage fluctuation, the better. However, normally, the tolerance is designed to be about ± 5%.
However, when actually manufactured, there was a problem that voltage fluctuations far exceeding this range occurred.
In this example, as described above, the test signal is supplied at the front stage of the circuit and is automatically adjusted in advance so that the reference voltage can be obtained on the output side.
[0028]
FIG. 3 is an electric circuit diagram showing the CD player according to the second embodiment.
This CD player has the same basic configuration as that of the first embodiment, and introduces analog audio signals to the two A / D input ports 25b and 25c of the control unit 25, respectively.
In this device, the A / D input port 25b and the jack 19 side are connected by a wiring pattern 19a, and the A / D input port 25c and the jack 20 are connected by a wiring pattern 20a.
As a result, when the control unit 25 sends an operation start command to the audio signal output unit 24 as described above, the analog audio signals output to the jacks 19 and 20 via the audio DAC circuit 1 can be made constant.
[0029]
That is, when analog audio signals output from the pin terminals 13 and 14 of the audio DAC circuit 1 are input to the external amplifier circuits 15 and 16, the resistors that determine the gains of these amplifier circuits 15 and 16 have some resistance. Due to the variation, an output difference may occur in the analog audio signals of the L and R channels appearing on the jacks 19 and 20 side.
In this example, the control unit 25 introduces the analog audio outputs of the jacks 19 and 20, respectively, compares them individually with the reference value of the memory, and changes the register settings according to the difference.
Since the audio DAC circuit 1 has a configuration in which a register can be set for each channel, the output of the analog audio signal on the jacks 19 and 20 on the subsequent stage can be maintained at a constant level.
[0030]
FIG. 4 is an electric circuit diagram showing the CD player according to the third embodiment.
In this CD player, a switch 26 is provided on the wiring pattern 19a between the A / D input port 25b of the control unit 25 and the jack 19 side.
The switch 26 has a fixed contact 26a connected to the jack 19 side and a movable contact 26b connected to the A / D input port 25b side. The movable contact 26 b is turned on / off by a control signal from the control unit 25.
The control unit 25 turns on the switch 26 when sending an operation start command to the audio signal output unit 24 to output a test signal, and turns off the switch 26 when not outputting the test signal.
Then, after outputting the test signal, the wiring pattern 19a is energized only when the level of the analog audio signal appearing on the jacks 19 and 20 side is automatically adjusted, and is normally disconnected from the circuit.
Therefore, the wiring pattern 19a formed on the wiring board of the CD player is not affected by the external noise, and the problem that the sound is distorted due to the deterioration of the S / N ratio is also avoided.
[0031]
FIG. 5 is an electric circuit diagram showing a CD player according to the fourth embodiment.
This CD player is provided with switches 27 and 28 on the wiring patterns 19a and 20a between the A / D input ports 25b and 25c of the control unit 25 and the jacks 19 and 20, respectively.
The switch 27 has a fixed contact 27a connected to the jack 19 side and a movable contact 27b connected to the A / D input port 25b side. The switch 28 has a fixed contact 28a connected to the jack 20 side and a movable contact 28b connected to the A / D input port 25c side.
The movable contacts 27b and 28b are turned on / off by a control signal from the control unit 25.
[0032]
When the control unit 25 sends an operation start command to the audio signal output unit 24 to output a test signal, the control unit 25 turns on the switches 27 and 28. When the test signal is not output, the control unit 25 turns off the switches 27 and 28. Let
Then, after outputting the test signal, the wiring patterns 19a and 20a are in the energized state only when the level of the analog audio signal appearing on the jacks 19 and 20 side is automatically adjusted, and is normally disconnected from the circuit.
Therefore, the wiring patterns 19a and 20a formed on the wiring board of the CD player are not affected by the external noise, and the problem that the sound is distorted due to the deterioration of the S / N ratio is also avoided.
[0033]
FIG. 6 is an electric circuit diagram showing a CD player according to the fifth embodiment.
In this CD player, a changeover switch 29 is provided on each of the wiring patterns 19a, 20a between the A / D input port 25b of the control unit 25 and the jacks 19, 20 side.
The changeover switch 29 has a first fixed contact 29 a connected to the wiring pattern 19 a on the jack 19 side, a second fixed contact 29 b connected to the wiring pattern 20 a on the jack 20 side, and an A / D input port 25 b of the control unit 25. A movable contact 29c is connected to the side.
The movable contact 29c is switched to either the first fixed contact 29a or the second fixed contact 29b by a control signal from the control unit 25.
[0034]
When the control unit 25 sends an operation start command to the audio signal output unit 24 to output a test signal, the control unit 25 switches the movable contact 29c of the changeover switch 29 to either the first or second fixed contact 29a, 29b. .
Then, after outputting the test signal, the wiring pattern 19a or 20a is energized only when the level of the analog audio signal appearing on the jack 19 or 20 side is automatically adjusted, and is normally disconnected from the circuit.
For this reason, the wiring patterns 19a and 20a on the wiring board are hardly affected by external noise, and the problem that the sound is distorted due to the deterioration of the S / N ratio is avoided.
[0035]
FIG. 7 is an electric circuit diagram showing a CD player according to the sixth embodiment.
This CD player is provided with a changeover switch 30 on each of the wiring patterns 19a, 20a between the A / D input port 25b of the control unit 25 and the jacks 19, 20 side.
The changeover switch 30 has a first fixed contact 30a connected to the wiring pattern 19a on the jack 19 side, a second fixed contact 30b connected to the wiring pattern 20a on the jack 20 side, and a third fixed contact 30c connected to the ground side. Has been.
A movable contact 30d is connected to the A / D input port 25b side of the control unit 25.
The movable contact 30d is switched to one of the first, second, and third fixed contacts 30a, 30b, and 30c by a control signal from the control unit 25.
[0036]
When the control unit 25 sends an operation start command to the audio signal output unit 24 to output a test signal, the control unit 25 switches the movable contact 30d of the changeover switch 30 to either the first or second fixed contact 30a, 30b. .
When this automatic adjustment is completed, the movable contact 30d is switched to the third fixed contact 30c side and connected to the ground side.
As a result, after the test signal is output, the wiring pattern 19a or 20a is energized only when the level of the analog audio signal appearing on the jack 19 or 20 side is automatically adjusted, and the wiring pattern on the control unit 25 side is also normally grounded. It is connected to the.
For this reason, the wiring patterns 19a and 20a on the wiring board are not affected by external noise, and the problem of sound distortion due to the deterioration of the S / N ratio is avoided.
[0037]
FIG. 8 is an electric circuit diagram showing a CD player according to the sixth embodiment.
In this CD player, a changeover switch 31 and an auxiliary switch 32 are provided on the wiring patterns 19a, 20a between the A / D input port 25b of the control unit 25 and the jacks 19, 20 side.
The changeover switch 31 has a first fixed contact 31a connected to the wiring pattern 19a on the jack 19 side, a second fixed contact 31b connected to the wiring pattern 20a on the jack 20 side, and a fixed contact 32a of the auxiliary switch 32 to the movable contact 31c. Is connected.
Further, the movable contact 32 c of the auxiliary switch 32 is connected to the A / D input port 25 b side of the control unit 25.
The movable contact 31c of the changeover switch 31 is switched to either the first fixed contact 31a or the second fixed contact 31b by the control signal of the control unit 25, and the auxiliary switch 32 is turned on / off by the control signal of the control unit 25. It is supposed to work.
[0038]
When the control unit 25 sends an operation start command to the audio signal output unit 24 to output a test signal, the control unit 25 turns on the auxiliary switch 32 and fixes the movable contact 31c of the changeover switch 31 to the first or second fixed state. Switch to either contact 31a or 31b.
When this automatic adjustment is completed, the auxiliary switch 32 is turned off.
Then, after outputting the test signal, the wiring pattern 19a or 20a is energized only when the level of the analog audio signal appearing on the jack 19 or 20 side is automatically adjusted, and is normally disconnected from the circuit.
For this reason, the wiring patterns 19a and 20a on the wiring board are not affected by external noise, and the problem of sound distortion due to the deterioration of the S / N ratio is avoided.
[0039]
【The invention's effect】
  As described above, the invention described in claim 1 of the present invention is caused by characteristics of circuit elements constituting an audio DAC circuit including a D / A converter, an amplifier, and a filter.The audio signal output terminal side with respect to the input voltage of the audio DAC circuitVoltage fluctuation occursIn this case, the level of the analog audio signal appearing at the audio signal output terminal is automatically adjusted to become a preset reference value.Sound emitted from the speakerInDistortion and deteriorationSurely occursCan be prevented.
[0040]
  Claims2The invention described inAppears at each of the audio signal output terminals of the L channel and the R channel due to a slight variation in the resistance that determines the gain of each amplifier circuit on the L channel side and the R channel side externally connected to the audio DAC circuit. Even when there is a difference in the level of the analog audio signal, the level of the analog audio signal appearing at each of the L channel and R channel audio signal output terminals is automatically adjusted so as to become a preset reference value. Both the analog audio signals of the channel and the R channel can be kept at a constant level. According to the third aspect of the present invention, only when the level of the analog audio signal appearing at the audio signal output terminal when the power is turned on is automatically adjusted so as to match the reference value, the wiring pattern is set in the energized state, and the wiring pattern is set in the normal state. Since the non-energized state is maintained, the wiring pattern formed on the wiring board is not affected by external noise, and the sound emitted from the speaker is prevented from being distorted due to the deterioration of the S / N ratio. Can do.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of an audio apparatus according to Embodiment 1 of the present invention.
FIG. 2 is an electric circuit diagram showing an audio DAC circuit of the audio apparatus.
FIG. 3 is a block diagram showing an electrical configuration of an audio apparatus according to Embodiment 2 of the present invention.
FIG. 4 is a block diagram showing an electrical configuration of an audio apparatus according to Embodiment 3 of the present invention.
FIG. 5 is a block diagram showing an electrical configuration of an audio apparatus according to Embodiment 4 of the present invention.
FIG. 6 is a block diagram showing an electrical configuration of an audio apparatus according to Embodiment 5 of the present invention.
FIG. 7 is a block diagram showing an electrical configuration of an audio apparatus according to Embodiment 6 of the present invention.
FIG. 8 is a block diagram showing an electrical configuration of an audio apparatus according to Embodiment 7 of the present invention.
[Explanation of symbols]
  1 Audio DAC circuit
  2 Audio port
  3 Serial port
  5 Oversampling circuit
  6 Enhanced multi-level circuit
  19 Audio signal output terminal
  20 Audio signal output terminal
  22 Register setting part
  23 registers
  24 Audio signal output means
  24a memory
  25 Control means
  25a memory

Claims (3)

An audio port for inputting digital audio signals of L channel and R channel, an oversampling circuit for sampling the digital audio signal input from the audio port, a serial port for controlling the operation of the oversampling circuit, and the oversampling circuit Multi-level circuit for separating the digital audio signal from the L-channel and the R-channel, and a D / A converter for converting each of the L-channel and R-channel digital audio signals from the enhanced multi-level circuit into an analog audio signal ; , audio having an amplifier for amplifying the analog audio signal, and a filter for transmitting the audio signal output terminal of the L channel and the R channel by filtering the output signal of the amplifier from the D / a converter In the audio apparatus having an AC circuit,
An audio signal output unit that reads out audio data stored in advance in a memory and outputs the audio data to the audio port and the serial port;
Control means for controlling the entire apparatus;
A register setting unit for setting and outputting stepwise numerical values according to control signals input from the control means;
A register for controlling the operation of the oversampling circuit by outputting a digital signal having a number of bits corresponding to a numerical value of an input signal from the register setting unit to the serial port;
The control means includes
When it is determined that power is turned on, the audio signal output unit reads out and outputs audio data from the memory, and the audio data output as the test signal is converted by the audio DAC circuit. Is input from the A / D input port connected to the audio signal output terminal and converted into a digital audio signal, and the level of the converted digital audio signal is compared with a digital reference value stored in advance in its own memory. The setting of the register is changed by outputting the control signal indicating the quantity data that eliminates the difference in level of the converted digital audio signal with respect to the digital reference value to the register setting unit, and the oversampling circuit The level of the analog audio signal appearing at the audio signal output terminal is controlled. Le variably adjusted, the adjustment control, audio system, characterized in that the analog audio signal appearing at the audio signal output terminal is configured to continue until it reaches the level corresponding to the digital reference value. The control means converts the analog audio signals of the L channel and the R channel by inputting the analog audio signals respectively appearing at the audio signal output terminals of the L channel and the R channel through individual A / D input ports. 2. The level of each digital audio signal and the digital reference value are individually compared, and the setting of the register is changed in accordance with the difference between the levels of the L channel and the R channel. The audio device according to 1. The audio signal output terminals of the L channel and the R channel and the A / D input ports of the control means are connected through a wiring pattern formed on a wiring board, and a changeover switch is connected to the wiring pattern. Connected,
The control means outputs a control signal for switching the wiring pattern so that the wiring pattern is energized to the change-over switch at a timing when the audio signal output unit instructs to output audio data as a test signal; and 3. A control signal for switching the wiring pattern so that the wiring pattern is in a non-energized state is output to the change-over switch at a timing at which an audio data output stop command is issued to an audio signal output unit. The audio device described in 1 .

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