JP3429908B2 - Audio output control circuit - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an audio output control circuit for variably amplifying and outputting an audio signal, and more particularly to an audio output control circuit which enables smooth output suppression control and a sudden volume change when the audio mode is changed. The present invention relates to an audio output control circuit capable of suppressing changes.

[0002]

2. Description of the Related Art FIG. 8 shows the configuration of a conventional audio output control circuit. In FIG. 8, an audio output control circuit 90 includes an amplitude control circuit 1 to which stereo audio signals L and R are input and a PWM (pulse width modulation) signal generation circuit 2, and a PW
The output of the M signal generator 2 is an N-type FET that acts as a switch.
3, the source electrode of the N-type FET 3 is connected to the ground potential GND, and the drain electrode is connected to the resistors 4 and 5 which determine the time constant of the control voltage.
Here, one end of the resistor 4 is connected to the power supply potential V _S , one end of the resistor 4 is connected to the control voltage smoothing capacitor 6, and one end of the capacitor 6 is connected to the ground potential GND. The connection point N1 with the capacitor 6 is connected to the amplitude control circuit 1.

The two outputs of the amplitude control circuit 1 are given to a power amplification circuit 7 which amplifies the output signal of the amplitude control circuit 1.
Capacitors 8 and 9 for cutting the DC component of the audio output signal of the power amplification circuit 7 are respectively inserted in the two signal output lines LS and RS connected to the power amplification circuit 7, and the signal output lines LS and RS are Speakers 10 and 1
Connected to 1.

The signal output lines LS and RS are also connected to a positive voltage peak value detection circuit 12 for detecting the peak value of the positive voltage of the output signal of the power amplification circuit 7. Signal output line L
S and RS are connected to the anodes of the diodes 1201 and 1202 of the positive voltage peak value detection circuit 12, respectively, and the cathodes of the diodes 1201 and 1202 are commonly connected to the voltage dividing resistor 1203. One end of the resistor 1203 is connected to the smoothing capacitor 1205 and the voltage dividing resistor 1204. Here, one ends of the capacitor 1205 and the resistor 1204 are connected to the ground potential GND.

Further, one end, i.e. the positive voltage output terminal of the peak value detecting circuit 12 of the resistor 1203 is connected to the base electrode of the NPN transistor 13, the emitter electrode of the NPN transistor 13 via a resistor 14 for current limiting Connected to the ground potential GND. The NPN transistor 13 is a transistor that turns on and off depending on the level of the output voltage of the positive voltage peak value detection circuit 12, and the collector electrode of the NPN transistor 13 is connected to the connection point N1. Here, the control voltage VC is applied to the amplitude control circuit 1 from the connection point N1, and the terminal on the side of the amplitude control circuit 1 which receives the control voltage VC is called a control voltage terminal.

Next, the operation will be described with reference to FIG. First, the amplitude levels of the stereo audio signals L and R input to the amplitude control circuit 1 are controlled with an amplification factor determined by the control voltage VC applied to the control voltage terminal.
The control voltage VC is generated by charging and discharging the FET 3 with a time constant determined by the resistors 4 and 5 and the capacitor 6 by turning on and off the FET 3 with a signal generated by the PWM signal generating circuit 2. Therefore, by changing the pulse width of the output signal of the PWM signal generation circuit 2, the control voltage V
C can be adjusted.

The output signal of the amplitude control circuit 1 is amplified by the power amplification circuit 7 at a predetermined amplification factor to become an audio output signal, and the DC components are removed by the capacitors 8 and 9, and then added to the speakers 10 and 11. , Converted to voice.

The outputs of the capacitors 8 and 9 are connected to a positive voltage peak value detection circuit 12, and the peak value of the positive voltage of the audio output signal is detected. Specifically, only when an audio output signal having a voltage exceeding the forward voltage of the diodes 1201 and 1202 is output, the capacitor 1205 is charged with the voltage determined by the voltage dividing resistors 1203 and 1204, and the diodes 1201 and 1202 are charged. During the period when is off, the peak value is detected by discharging through the resistor 1204. Then, the detected peak voltage is determined by the envelope connecting the peak values. However, resistance 1
The detected peak voltage changes depending on the time constant determined by 203 and 1204 and the capacitor 1205.

The detected peak voltage, that is, a feedback signal is output from the positive voltage peak value detection circuit 12, and N
It is given to the base electrode of the PN transistor 13. N
When a voltage higher than the base-emitter voltage of the PN- type transistor 13 is applied to the base electrode, the NPN- type transistor 13 is turned on, and the current determined by the resistor 14 is applied to the collector of the NPN- type transistor 13 via the resistors 4 and 5. A control voltage VC that flows between the emitters and is output to the collector voltage of the NPN transistor 13, that is, the amplitude control circuit 1.
Pull down. Therefore, the amplitude of the output signal of the amplitude control circuit 1 is suppressed, and as a result, the amplification factor of the power amplification circuit 7 is suppressed and the peak value of the audio output signal is suppressed.

[0010]

Since the conventional audio output control circuit 90 is configured as described above, there is a problem that an active element such as the NPN type transistor 13 is required and the configuration becomes complicated. It was

When a transistor is used, there is a threshold such as a base-emitter voltage in operation, so that the control voltage VC is continuous and smooth in the simple structure shown in FIG. There is a problem that it is not given as a voltage and a more complicated structure is required to perform smooth control.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an audio output control circuit capable of realizing smoother output control with a simple structure without using active elements. And

Also, it tends to occur when the voice mode changes,
An object of the present invention is to provide an audio output control circuit capable of suppressing a sudden change in volume.

[0014]

[0015]

[0016]

[0017]

The audio output control circuit according to claim 1, wherein according to the problem-solving means for the invention, in accordance with the voltage increase in the control signal
Positive characteristic vibration output by increasing the amplitude level of the audio signal
Amplitude control means for performing width control and connected to the amplitude control means
The output of the amplitude control means is amplified to output a voice output signal.
Connected to the output side of the amplification means
Signal condition of the audio output signal is detected,
A feedback signal to feed back the
To output the voice output detection means and to generate the control signal
The audio output detection means
Connected to the stage and based on the feedback signal
A control signal generating means for adjusting the control signal and a voice multiplex signal, and detecting the type of voice mode of the voice multiplex signal,
And audio mode detecting means for outputting an audio mode corresponding signals corresponding to the audio mode, the audio mode detecting means and before
A feedback determining means, which is connected to the voice output detecting means and has a function of giving the feedback signal to the control signal generating means only when receiving the voice mode corresponding signal corresponding to a predetermined voice mode , sound
The voice output detection means is configured to detect the peak of the negative voltage of the voice output signal.
It is a negative voltage peak value detecting means for detecting and outputting a value,
As the feedback signal, a negative voltage of the audio output signal
Outputs the peak pressure value.

In the audio output control circuit according to a second aspect of the present invention, the feedback determining means connects the first terminal to a second terminal connected to a power supply potential, or connects the first terminal to the second terminal. A switch means for switching whether to connect to a third terminal connected to the ground potential according to the audio mode corresponding signal, a third resistor interposed between the first terminal and the capacitor. And the third resistor and the second resistor
And a path switching diode having a cathode connected to the third resistor and an anode connected to the second resistor.

An audio output control circuit according to a third aspect of the present invention includes an amplitude control means for performing an amplitude control for changing and outputting the amplitude level of the audio signal according to a voltage change of the control signal, and the amplitude control means. Connected to the amplification means for amplifying the output of the amplitude control means and outputting as an audio output signal, and connected to the output side of the amplification means for detecting the signal state of the audio output signal and feeding back the signal state. A voice output detection means for outputting a feedback signal, a control signal generation means for generating the control signal and giving it to the amplitude control means, and receiving the feedback signal,
An average value calculating means for calculating and outputting an average value for a predetermined period, and a voice multiplex signal, detecting a change in the voice mode of the voice multiplex signal, and outputting a voice mode change signal when the voice mode changes. When the voice mode detecting unit receives the voice mode change signal, it is connected to the voice mode detecting unit, the average value calculating unit and the voice mode detecting unit, and temporarily holds the average value output from the average value calculating unit. a holding means for outputting a mode change before the average value, is connected to the holding means and the audio output detecting means, the mode change before the average value, the mode change after the feedback signal after receiving the voice mode change signal and Is connected to the comparison means for comparing the output of the comparison result and the comparison result, and the comparison result is compared with the feedback value after the mode change from the average value before the mode change. If the signal is large, and a control signal adjusting means for adjusting said control signal by controlling the control signal generating unit based on the mode change after the feedback signal.

A voice output control circuit according to a fourth aspect of the present invention is connected to the voice output detecting means and the control signal adjusting means, defines a predetermined time, and receives the voice mode change signal, Until the predetermined time elapses,
The control signal adjusting means further comprises timer means for giving a predetermined signal to the control signal adjusting means, and the control signal adjusting means operates the control signal generating means based on the feedback signal after the mode change only during a period in which the predetermined signal is received. It has a function of controlling and adjusting a control signal.

A voice output control circuit according to a fifth aspect of the present invention is connected to the voice output detecting means and the control signal adjusting means, defines a first predetermined time, and receives the voice mode change signal. Thereafter, a first timer means for giving a first predetermined signal to the control signal adjusting means and a second predetermined time are defined until the first predetermined time elapses,
The control signal adjusting means further comprises: second timer means for giving the second predetermined signal to the control signal adjusting means until the second predetermined time elapses after receiving the voice mode change signal. The means controls the control signal generating means based on the feedback signal after the mode change to adjust the control signal only while receiving the first predetermined signal, and receives the second predetermined signal. It has a function of returning the control signal to the state before the adjustment of the control signal generating means after a lapse of a certain period.

According to a sixth aspect of the present invention, in the audio output control circuit according to the sixth aspect , the amplitude control means performs the amplitude control with a negative characteristic in which the amplitude level of the audio signal is reduced and output according to the increase in the voltage of the control signal. The audio output detection means is a positive voltage peak value detection means for detecting the positive voltage peak value of the audio output signal, and the positive voltage peak value of the audio output signal is the feedback signal. Is output.

According to a seventh aspect of the present invention, in the audio output control circuit according to the present invention, the amplitude control means increases the amplitude level of the audio signal in response to an increase in the voltage of the control signal and outputs the positive characteristic amplitude control. The audio output detecting means is a negative voltage peak value detecting means for detecting a negative voltage peak value of the audio output signal, and the audio output detecting means is a negative voltage peak value of the audio output signal as the feedback signal. Is output.

[0024]

[0025]

[0026]

[0027]

According to the audio output control circuit according to claim 1, wherein according to the present invention, the feedback only if the feedback determination unit, audio mode corresponding signal output from the audio mode detecting means corresponds to a predetermined sound mode Since the signal is given to the control signal generating means, the control signal is adjusted only in the predetermined audio mode.

According to the second aspect of the audio output control circuit of the present invention, in the switch means of the feedback determining means, when the first terminal is connected to the second terminal, the peak value detecting diode is used. Even when the diode is conducting, the voltage on the cathode side of the diode for opening and closing the path does not drop to the extent that the diode is rendered conductive, and the voltage of the control signal does not drop. On the other hand, when the first terminal is connected to the third terminal, the peak value detection diode conducts, and the voltage on the cathode side of the path opening / closing diode drops to such a degree that the diode conducts. When the peak value detection diode is not conducting, the capacitor discharges to the ground potential through the third resistor, and the smoothing function of the capacitor causes the peak value of the time-averaged negative voltage to generate the control signal. Will be given to the means.

According to the audio output control circuit of the third aspect of the present invention, the audio output detecting means outputs the peak value of the audio output signal output from the amplifying means as a feedback signal, and the average value calculating means feeds it back. The average value of the signal for a predetermined period is calculated, and the average value is temporarily held in the holding means, and when the voice mode change signal output from the voice mode detection means is received, the held average before mode change is held. The value is given to the comparing means, and the comparing means compares the average value before the mode change and the feedback signal after the mode change. If the feedback signal after the mode change is larger than the average value before the mode change, the control signal adjusting means The control signal is adjusted by controlling the control signal generation means based on the feedback signal after the mode change.

According to the fourth aspect of the audio output control circuit of the present invention, the predetermined signal is given for a predetermined time from the timer means connected to the audio output detection means and the control signal adjustment means, and the control signal adjustment is performed. The means adjusts the control signal by controlling the control signal generating means based on the feedback signal after the mode change only during the period in which the predetermined signal is received.

According to the fifth aspect of the audio output control circuit of the present invention, the first predetermined time period from the first timer means connected to the audio output detecting means and the control signal adjusting means is the first predetermined time. Signal is given, the second predetermined signal is given from the second timer means for the second predetermined time, and the control signal adjusting means changes the mode only while receiving the first predetermined signal. The control signal generating means is controlled based on the feedback signal to adjust the control signal, and
The control signal is returned to the state before the adjustment of the control signal generation means after the lapse of the period of receiving the predetermined signal.

According to the sixth aspect of the audio output control circuit of the present invention, when the amplitude control means is the amplitude control means for performing the amplitude control of the negative characteristic, the audio output detection means is set to the positive voltage of the audio output signal. As a positive voltage peak value detecting means for detecting the peak value of, and by outputting the peak value of the positive voltage of the audio output signal as a feedback signal, an audio output control circuit having an audio output detecting means of a relatively simple structure is provided. can get.

According to the audio output control circuit of claim 7 of the present invention, when the amplitude control means is an amplitude control means for performing amplitude control of a positive characteristic, the audio output detection means is set to a negative voltage of the audio output signal. As a negative voltage peak value detecting means for detecting the peak value of, and outputting the negative voltage peak value of the audio output signal as a feedback signal, an audio output control circuit having an audio output detecting means of a relatively simple configuration is provided. can get.

[0034]

【Example】

<First Embodiment> A first embodiment of the audio output control circuit according to the present invention.
The embodiment will be described with reference to FIG. FIG. 1 is a diagram showing the configuration of the audio output control circuit 100. In FIG. 1, the signal output lines LS and RS are the negative voltage peak value detection circuit 1 for detecting the peak value of the negative voltage of the output signal of the power amplification circuit 7.
Connected to 5.

A signal output line L connected to the power amplifier circuit 7.
S and RS are respectively connected to the cathodes of the diodes 1501 and 1502 of the negative voltage peak value detection circuit 15, and the anodes of the diodes 1501 and 1502 are commonly connected to a resistor 1503 for preventing the amplitude of the audio output signal from being clipped. It is connected.

One end of the resistor 1503 is connected to a smoothing capacitor 1504 and resistors 1505 and 1506 that determine a control level by voltage division. here,
One ends of the capacitor 1504 and the resistor 1505 are connected to the ground potential GND.

Further, one end of the resistor 1506, that is, the output end of the negative voltage peak detection circuit 15 is connected to the connection point N1 between the resistor 4 and the capacitor 6.

The audio output control circuit 100 shown in FIG.
Has a configuration in which the positive voltage peak value detection circuit 12 of the conventional audio output control circuit 90 described with reference to FIG. 8 is changed to the negative voltage peak value detection circuit 15, and the same reference numerals are given to the same configurations. And redundant description will be omitted.

Next, the operation will be described with reference to FIG. First, the amplitude levels of the stereo audio signals L and R input to the amplitude control circuit 1 are controlled with an amplification factor determined by the control voltage VC applied to the control voltage terminal. Here, it is assumed that the positive voltage and the positive characteristic are change characteristics, and the amplitude level increases as the control voltage VC increases.

The control voltage VC is generated by turning on and off the FET 3 with a signal generated by the PWM signal generating circuit 2 to perform charging / discharging with a time constant determined by the resistors 4 and 5 and the capacitor 6. Therefore, the control voltage VC at the connection point N1 can be adjusted by changing the pulse width of the output signal of the PWM signal generation circuit 2.

The output signal of the amplitude control circuit 1 is amplified by the power amplification circuit 7 at a predetermined amplification factor to become an audio output signal, the direct current component is removed by the capacitors 8 and 9, and then the audio output signal is given to the speakers 10 and 11. , Converted to voice.

The negative voltage peak value detection circuit 15 is connected to the speakers 10 and 11 of the capacitors 8 and 9 for removing the DC component from the sound output signal of the power amplification circuit 7, and the diodes 1501 and 1502 are made conductive. When the output voltages of capacitors 8 and 9 drop to the level, current flows from ground potential GND through resistor 1503, and the voltage determined by the voltage division ratio of resistors 1505 and 1506 also drops.

While the diodes 1501 and 1502 are off, a current that tries to return to a voltage determined by the voltage division ratio of the resistors 1505 and 1506 flows from the power supply potential V _S and the resistor to the resistor 1506 or the resistor 1505.

The above operation is repeated every time a peak appears in the audio output signal of the power amplification circuit 7 to make the diodes 1501 and 1502 conductive. Therefore, as a result, due to the smoothing action of the capacitor 1504, the connection point N2 between the resistors 1505 and 1506 is
The voltage representing the temporal average value of the negative voltage peaks of the audio output signal of the power amplifier circuit 7, that is, the detected peak voltage is smoothly output. This voltage value is V1.

Here, when the diodes 1501 and 1502 are constantly turned off, the voltage applied to the connection point N2 (generated by the PWM signal generation circuit 2, the power supply potential V _S , the resistors 4, 5 and the capacitor 6). Voltage is V2, an average current according to the voltage difference between V1 and V2 flows through the resistor 1506 when the diodes 1501 and 1502 are ON, and the voltage at the connection point N1, that is, the amplitude control circuit 1 is output. The control voltage VC applied is smoothly lowered. That is, the negative voltage peak value detection circuit 15 and (PWM
Signal generating circuit 2, FET 3, the power source potential V _S, resistance 4,
5. No active element such as a transistor is required between the control voltage generating circuit and the control voltage generating circuit. Therefore, the temporal average value of the negative voltage peak due to the time constant determined by the capacitor 1504 and the resistors 1505 and 1506 is The presence of a transistor or the like having a threshold value allows the control voltage generation circuit to be continuously and smoothly supplied without being discontinuous.

Therefore, the amplitude of the output signal of the amplitude control circuit 1 is continuously and smoothly suppressed, and as a result, the power amplification circuit 7
The amplification factor of is continuously and smoothly suppressed, and the audio output signal is suppressed. This is nothing but providing the detected peak voltage to the amplitude control circuit 1 as a feedback signal and suppressing the amplitude of the output signal of the amplitude control circuit 1 based on the feedback signal.

The value of the detected peak voltage which is the output of the negative voltage peak value detection circuit 15 is determined by the voltage division ratio of the resistors 1505 and 1506, but when the voltage division setting is unnecessary,
It is needless to say that the resistor 1505 can be removed, for example, when a proper detection peak voltage (in which the suppression of the audio output signal is not too effective) is given without the voltage division.

Further, when the audio output is one system instead of two systems, the peak value of the audio output signal may be detected in only one system, and it is obvious that the same configuration can be realized. Further, when the audio output is three or more systems, the peak value of the audio output signal may be detected in three systems.

<Modification> In the audio output control circuit 100 described above, it is assumed that the amplitude level increases as the control voltage VC of the amplitude control circuit 1 increases, but the amplitude increases as the control voltage VC increases. FIG. 2 shows the configuration of the audio output control circuit 100A having the amplitude control circuit 1A whose level becomes small.

In FIG. 2, the positive voltage peak value detection circuit 3
Zero current backflow prevention diodes 3001 and 300
Two cathodes, each connected to a diode 3001
The cathodes of and 3002 are commonly connected to a resistor 3003 for preventing the amplitude of the audio output signal from being clipped.

One end of the resistor 3003 is connected to a smoothing capacitor 3004 and resistors 3005 and 3006 that determine a control level by voltage division. here,
One end of the capacitor 3004 is connected to the ground potential GND, and one end of the resistor 3005 is connected to the power supply potential V _S.

Further, one end of the resistor 3006, that is, the output end of the positive voltage peak detection circuit 30 is connected to the connection point N1 between the resistor 4 and the capacitor 6. One end of the resistor 4 is connected to the power supply potential V _S , one end of the capacitor 6 is connected to the ground potential GND, and the source electrode of the N-type FET 3 is connected to the ground potential GND.

Here, the diodes 3001 and 300
Since the second anode is connected to each of the signal output lines LS and RS, the peak value of the positive voltage of the audio signal output is detected, and the positive voltage peak value detection circuit 30 is configured.

With such a configuration, it is possible to obtain an audio output control circuit which does not require an active element such as a transistor even when detecting the peak value of the positive voltage of the audio signal output, and it is possible to detect the positive voltage peak value. The output of the circuit 30 is continuously and smoothly applied to the control voltage generation circuit.

<Second Embodiment> A second embodiment of the audio output control circuit according to the present invention will be described with reference to FIG. FIG. 3 is a diagram showing the configuration of the audio output control circuit 200. In FIG. 3, an audio multiplex signal MS which is a broadcast signal is given to an audio mode detection circuit 16 which detects the type of audio mode of the audio multiplex signal MS, and an audio mode corresponding signal corresponding to the detected audio mode is a switch 17 It is configured to be given to. The same components as those of the conventional audio output control circuit 90 are designated by the same reference numerals, and the duplicated description will be omitted.

The signal output lines LS and RS are diodes 1901 and 190 of the negative voltage peak value detection circuit 19 for detecting the peak value of the negative voltage of the output signal of the power amplification circuit 7.
It is connected to two cathodes. The anodes of the diodes 1901 and 1902 are commonly connected to a resistor 1903 for preventing the amplitude of the audio output signal from being clipped.

One end of the resistor 1503 has a smoothing capacitor 1904 and a diode 19 for preventing reverse current flow.
06 cathode, the anode of diode 1906 is connected to a resistor 1905 that determines the suppression level,
One end of the resistor 1905, that is, the output end of the negative voltage peak detection circuit 19 is connected to the connection point N1 between the resistor 4 and the capacitor 6. Here, one end of the capacitor 1904 is connected to the ground potential GND.

Further, one end of the resistor 1506, that is, the output end of the negative voltage peak detection circuit 15 is connected to the connection point N1 between the resistor 4 and the capacitor 6.

The switch 17 receives the voice mode corresponding signal and connects the contact a to the contact b on the side of the power supply potential V _S or the contact c on the side of the ground potential GND. The contact a is connected to the cathode of the diode 1906 via the resistor 18. Here, the resistor 18 operates as a pull-up or pull-down resistor by switching the switch 17, and the diode 1906 operates as a route opening / closing means for opening / closing the route.

Since the circuit composed of the switch 17, the resistor 18 and the diode 1906 gives a feedback signal to the amplitude control circuit 1 only when a specific voice mode is detected by switching the switch 17, the feedback decision is made. Call it means.

Next, the operation will be described with reference to FIG. Similar to the audio output control circuit 100 described with reference to FIG. 1, first, the stereo audio signals L and R input to the amplitude control circuit 1 are amplified with an amplification factor determined by the control voltage VC applied to the control voltage terminal. Control the level. Here, it is assumed that the positive voltage and the positive characteristic are change characteristics, and the amplitude level increases as the control voltage VC increases.

The control voltage VC is generated by charging and discharging the FET 3 with a time constant determined by the resistors 4 and 5 and the capacitor 6 by turning on and off the FET 3 with the signal generated by the PWM signal generating circuit 2. Therefore, the control voltage VC can be adjusted by changing the pulse width of the output signal of the PWM signal generation circuit 2.

The output signal of the amplitude control circuit 1 is amplified by the power amplification circuit 7 at a predetermined amplification factor to become an audio output signal, the direct current component is removed by the capacitors 8 and 9, and then it is given to the speakers 10 and 11. , Converted to voice.

On the other hand, the audio mode detection circuit 16 detects the audio mode (for example, monaural mode, stereo mode, dual audio mode) of the broadcast signal from the audio multiplex signal MS, and the audio mode corresponding to this audio mode. The switch 17 is switched by a corresponding signal. For example, when a certain specific audio mode is detected, the resistor 18 is connected to the ground potential GND side, and in the case of other audio modes, it is connected to the power supply potential V _S side. To do.

The negative voltage peak value detection circuit 19 is connected to the speakers 10 and 11 of the capacitors 8 and 9 for removing the DC component from the audio output signal of the power amplification circuit 7, and the diodes 1901 and 1902 are made conductive. When the output voltage of the capacitors 8 and 9 drops to the level, a current flows through the resistor 1903.

First, the case where the resistor 18 is connected to the power supply potential V _S will be described. When the diodes 1901 and 1902 conduct as described above, the resistance 190
3 flows, but the resistance value of the resistor 1903 is 18
If it is larger than a predetermined ratio compared to
Since the potential of the connection point between 03 and the resistor 18 does not drop to the level at which the diode 1906 is conductive, the control voltage of the amplitude control circuit 1 does not change, and the level of audio output does not change. That is, the path to the amplitude control circuit 1 is closed.

On the other hand, when the resistor 18 is connected to the ground potential GND, the diodes 1901 and 1902 are connected.
Is conducted, that is, when the path to the amplitude control circuit 1 is opened, a current flows through the resistor 1903, and when the potential on the cathode side of the diode 1906 decreases to a level at which the diode 1906 conducts, a current flows through the resistor 1905 and an amplitude The control voltage VC of the control circuit 1 is lowered, the amplitude of the output signal of the amplitude control circuit 1 is suppressed, and as a result, the amplification factor of the power amplification circuit 7 is suppressed and the audio output signal is suppressed. .

Incidentally, the diodes 1901 and 1902
Is off, the discharge current of the capacitor 1904 flows through the resistor 18, so that the diode 190
The potential on the cathode side of 6 has an average value determined by the charging / discharging relationship of the resistors 18, 1903 and 1905 and the capacitor 1904, and a current determined by this average voltage flows through the resistor 1905.

As described above, according to the audio output control circuit 200, the resistor 18 of the feedback determining means has the ground potential GN.
Only in a specific audio mode connected to D, the peak value of the audio output is detected by the negative voltage peak value detection circuit 19, and the control voltage VC of the amplitude control circuit 1 is lowered according to the detected level, and the audio output is detected. The signal will be suppressed. Therefore, it is possible to prevent a sudden change in volume when switching the audio mode of the broadcast signal.

When the amplitude of the audio output signal is increased, the output of the negative voltage peak value detection circuit 19 is continuously and smoothly applied to the control voltage generation circuit, and the control voltage VC is controlled smoothly. Needless to say.

<Modification> In the audio output control circuit 200 described above, an example in which the switch 17 having three contacts is used is shown. However, the feedback signal is supplied to the amplitude control circuit only when a specific audio mode is detected. 1, the switch 17A for opening and closing the path is inserted between the negative voltage peak value detection circuit 15 and the contact N1 as in the audio output control circuit 200A shown in FIG. The switch 17A may be controlled to be turned on and off by the voice mode corresponding signal.

<Third Embodiment> A third embodiment of the audio output control circuit according to the present invention will be described with reference to FIG. FIG. 5 is a diagram showing the configuration of the audio output control circuit 300. 5, the audio output control circuit 300 includes a positive voltage peak value detection circuit 12 that detects the peak value of the positive voltage of the output signal of the power amplifier circuit 7, as in the audio output control circuit 90 described with reference to FIG. I have it. The same components as those of the conventional audio output control circuit 90 are designated by the same reference numerals, and the duplicated description will be omitted.

One end of the resistor 1203, that is, the output end of the positive voltage peak value detection circuit 12 is an A / D for converting the output signal from the positive voltage peak value detection circuit 12 into digital data.
The output data of the A / D converter 20 connected to the converter 20 is provided to an average value calculation circuit 21 that calculates an average value within a predetermined time.

The output of the average value calculating circuit 21 is connected to the register 22 which holds the data output immediately before from the average value calculating circuit 21 when the voice mode changes, and the output data of the register 22 and the output of the A / D converter 20 are connected. The data is provided to a comparator 23 that compares the two. Here, the register 22 is connected to a voice mode detection circuit 16 for detecting the type of voice mode of the voice multiplex signal MS. The voice mode detection circuit 16 can also detect a change in voice mode and output a voice mode change signal at the timing of the change.

The comparator 23 is connected to the controller 24 which controls the PWM generating circuit 2 based on the comparison result of the comparator 23. The audio mode detection circuit 16 is connected to the controller 24.

Next, the operation will be described with reference to FIG. The detected peak voltage detected by the positive voltage peak value detection circuit 12 is sent to the A / D converter 20 and converted into digital data. This digital data is given to the register circuit 22 after the average value within the predetermined time is calculated by the average value calculation circuit 21.

Here, the detected peak voltage which is the output of the positive voltage peak value detection circuit 12 is the resistors 1203 and 120.
4 is an average value of peak values within a time constant determined by the capacitor 1205, and is an average value within a relatively short time. On the other hand, the average value calculated by the average value calculation circuit 2 is an average value when the detection time is relatively long.

The register circuit 22 is the average value calculation circuit 21.
Is a circuit for receiving the outputs of the above one after another and temporarily holding them, and old data is sequentially erased. Here, when the voice mode changes, the voice mode change signal detected by the voice mode detection circuit 16 is given to the register circuit 22, and the register circuit 22 outputs the average value calculation circuit 21 input immediately before the change of the voice mode. Send data to the comparator.

In the comparator 23, after changing the voice mode, A /
The output data provided from the D converter 20 is compared with the output data of the average value calculation circuit 21 held in the register circuit 22 immediately before the change of the audio mode, and the comparison result is sent to the controller 24.

In the controller 24, the comparison result from the comparator 23 is A / A higher than the output data of the register circuit 22.
Only when the output data of the D converter 20 is larger,
By controlling the pulse width of the output pulse of the PWM generation circuit 2,
It operates to lower the control voltage VC applied to the amplitude control circuit 1.

As described above, since the voice output can be suppressed only when the voice output after the voice mode change is larger than that before the change, when the voice output signal is uniformly suppressed according to the change of the voice mode. As described above, the sound signal output does not always change when the sound mode changes, and the sound can be heard without any discomfort.

In the audio output control circuit 300 described above, the positive voltage peak value detection circuit 1 is added to the A / D converter 20.
Although the example in which the average value calculation circuit 21 that calculates the average value of the detected peak voltage that is the output of 2 is connected is shown, instead, the maximum value calculation circuit that calculates the maximum value of the detected peak voltage within a predetermined time is connected. You may.

Further, the structure after conversion into digital data by the A / D converter 20, that is, the structure from the average value calculation circuit 21 to the controller 24 may be replaced with a microcomputer.

The audio output control circuit 30 described above is also used.
0, the configuration including the positive voltage peak value detection circuit 12 that detects the peak value of the positive voltage of the output signal of the power amplification circuit 7 has been described, but the audio output control circuit 1 described with reference to FIG.
The negative voltage peak value detection circuit 15 of 00 may be provided. In that case, the control voltage VC may have a negative characteristic change characteristic or a positive characteristic change characteristic.

<Fourth Embodiment> A fourth embodiment of the audio output control circuit according to the present invention will be described with reference to FIG. FIG. 6 is a diagram showing the configuration of the audio output control circuit 400. In FIG. 6, the controller 24A defines a predetermined time,
A timer 25 that gives a predetermined signal to the controller 24A is connected until a predetermined time elapses after the voice mode of the voice multiplex signal MS changes. The output of the audio mode detection circuit 16 is connected to the timer 25. The audio output control circuit 30 described with reference to FIG.
The same components as those of 0 are designated by the same reference numerals, and duplicate description will be omitted.

Next, the operation will be described with reference to FIG. Similar to the audio output control circuit 300 described with reference to FIG. 5, the output data given from the A / D converter 20 after the audio mode changes and the average value calculation circuit immediately before the audio mode change held in the register circuit 22. The comparison result with the output data of 21 is from the comparator 23 to the controller 24A.
However, the timer 25 operates in accordance with the change of the voice mode, and the controller 24 operates for a predetermined time set in advance.
A predetermined control signal is output to A.

The controller 24A receives a predetermined control signal, and while receiving the predetermined control signal, that is, the timer 2
5 has a function of becoming operable only within a predetermined time set in advance. Therefore, the controller 24A outputs A more than the output data of the register circuit 22 within a predetermined time.
Only when the output data of the / D converter 20 becomes larger, the PWM signal generating circuit 2 is controlled to operate so as to lower the control voltage applied to the amplitude control circuit 1.

With the configuration described above, the audio signal output is suppressed only when the audio signal output becomes larger than that before the mode change within a preset predetermined time after the audio mode change. Therefore, since the audio signal output is not suppressed after the lapse of a predetermined time, it is possible to avoid the adverse effect that the audio output is suddenly suppressed after a lapse of a while after the audio mode is changed.

Instead of the average value calculation circuit 21, a maximum value calculation circuit for calculating the maximum value of the detected peak voltage within a predetermined time may be connected, and the configuration from the average value calculation circuit 21 to the controller 24A is configured. It may be replaced with a microcomputer as in the third embodiment.

<Fifth Embodiment> A fifth embodiment of the audio output control circuit according to the present invention will be described with reference to FIG. FIG. 7 is a diagram showing the configuration of the audio output control circuit 500. In FIG. 7, the controller 24B defines a first predetermined time, and after the audio mode of the audio multiplex signal MS has changed, the controller 24B continues until the first predetermined time elapses.
A first timer 25A for giving a first predetermined signal to the controller 24B and a second predetermined time, and the controller 24B is provided with a second predetermined time after the voice mode of the voice multiplexed signal MS is changed. A second timer 25B that gives a second predetermined signal is connected.

The output of the audio mode detection circuit 16 is connected to the first timer 25A and the second timer 25B. Note that the same components as those of the audio output control circuit 300 described with reference to FIG. 5 are designated by the same reference numerals, and redundant description will be omitted.

Next, the operation will be described with reference to FIG. Similar to the audio output control circuit 400 described with reference to FIG. 6, the output data given from the A / D converter 20 after the audio mode change and the average value calculation circuit held in the register circuit 22 immediately before the audio mode change. The comparison result with the output data of 21 is from the comparator 23 to the controller 24B.
Is sent to the first timer 2 as the voice mode changes.
5A operates and during the preset first predetermined time,
A predetermined first control signal is output to the controller 24B.

The controller 24B receives the predetermined first control signal, and is operable only while receiving the predetermined first control signal, that is, within the first predetermined time preset in the first timer 25A. Has the function of becoming. Therefore, the controller 24B controls the PWM signal generation circuit 2 only when the output data of the A / D converter 20 becomes larger than the output data of the register circuit 22 within the first predetermined time, thereby controlling the amplitude. It operates to lower the control voltage applied to the circuit 1.

On the other hand, the second timer 25B also operates in accordance with the change in the voice mode, and the predetermined second control signal is output to the controller 24B during the preset second predetermined time.

The controller 24B receives the predetermined second control signal, and while receiving the predetermined second control signal, that is, within the second predetermined time preset in the second timer 25B, the amplitude control circuit. The control voltage VC applied to 1 is not returned to the level before the suppression of the audio signal output, and the control voltage VC is returned to the level before the suppression of the audio signal output after the second predetermined time has elapsed. It has the function of

Here, regarding the relationship between the first and second predetermined times, the second predetermined time may be equal to or longer than the first predetermined time, and the first and second predetermined times may be the same. In that case, the first timer 25A and the second timer 25B may be shared, and the configuration is almost the same as that of the voice output control circuit 400 described with reference to FIG. 24B will be connected.

With the configuration described above, after the voice mode is changed, the voice signal output is suppressed only when the voice signal output becomes larger than that before the mode change within the preset first predetermined time. After the preset second predetermined time has elapsed, the control voltage VC is returned to the level before the suppression of the audio signal output, so that, for example, after a program of a monaural broadcast, a stereo broadcast of which the audio signal output is generally larger than that. When a CM is received and then a stereo broadcast program is received, the control signal can be adjusted according to the CM of the stereo broadcast, and the control signal can be returned to the state before the adjustment after the CM of the stereo broadcast is finished. Since it is possible to adjust the audio signal output again for the stereo broadcast program, the adverse effect that the volume signal output is different for each audio mode is suppressed. It can, it is possible to reduce the discomfort and discomfort when listening to the broadcast.

Instead of the average value calculation circuit 21, a maximum value calculation circuit for calculating the maximum value of the detected peak voltage within a predetermined time may be connected, and the configuration from the average value calculation circuit 21 to the controller 24 may be configured. Similar to the third embodiment, it may be replaced with a microcomputer.
When a microcomputer is used, it is possible to easily perform a process such as gently changing the control voltage VC when the suppression level of the audio signal output is returned to the original level, and a more comfortable suppression effect can be obtained.

[0099]

[0100]

[0101]

[0102]

According to the audio output control circuit according to claim 1, wherein according to the present invention, it means that the adjustment of the control signals when a predetermined audio mode is performed, in the speech level between speech mode When there is a difference, it is possible to suppress the audio signal output only in a predetermined audio mode, and it is possible to suppress an abrupt volume change that occurs when the audio mode changes.

According to the second aspect of the audio output control circuit of the present invention, the feedback determining means for adjusting the control signal only in the predetermined audio mode can be constituted by the switching means, the resistor and the diode. Because you can
It is possible to suppress an increase in manufacturing cost due to the addition of the feedback determining means.

According to the third aspect of the audio output control circuit of the present invention, when the feedback signal after the mode change is larger than the average value before the mode change, the control signal adjusting means is based on the feedback signal after the mode change. Since the control signal is adjusted by controlling the control signal generation means, the audio signal output is suppressed only when the audio signal output after the mode change is larger than the audio signal output before the mode change. Therefore, as in the case of uniformly suppressing the audio output signal according to the change of the audio mode, the audio signal output does not always change when the audio mode changes, and it is possible to adjust the audio output signal with less discomfort. Become.

According to the fourth aspect of the audio output control circuit of the present invention, the control signal adjusting means controls the control signal generating means based on the feedback signal after the mode change only during the period in which the predetermined signal is received. Since the control signal is adjusted by controlling the audio output signal, the audio output signal is suppressed only when there is a change in the audio signal output within a predetermined time. It is possible to avoid the adverse effect that the output is suppressed.

According to the audio output control circuit of the fifth aspect of the present invention, the control signal adjusting means is based on the feedback signal after the mode change only in the period in which the first predetermined signal is received, and the control signal generating means. Is adjusted to adjust the control signal, and the control signal is returned to the state before the adjustment of the control signal generating means after the period of receiving the second predetermined signal. , C for stereo broadcasting, in which the audio output signal is generally larger than that.
When M is received and then a monaural broadcast program is received, the control signal can be adjusted according to the CM of the stereo broadcast, and the control signal can be returned to the state before the adjustment after the CM of the stereo broadcast is finished. This is effective in reducing discomfort and discomfort when viewing a program.

According to the audio output control circuit according to the sixth aspect of the present invention, since the audio output control circuit having the audio output detection means having a relatively simple structure can be obtained, the positive voltage peak value detection means is used. This can suppress an increase in manufacturing cost.

According to the audio output control circuit of the seventh aspect of the present invention, since the audio output control circuit having the audio output detection means of a relatively simple structure can be obtained, the negative voltage peak value detection means is used. This can suppress an increase in manufacturing cost.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a configuration of a first embodiment of an audio output control circuit according to the present invention.

FIG. 2 is a diagram illustrating a configuration of a modification of the first embodiment of the audio output control circuit according to the present invention.

FIG. 3 is a diagram illustrating a configuration of a second embodiment of an audio output control circuit according to the present invention.

FIG. 4 is a diagram illustrating a configuration of a modification of the second embodiment of the audio output control circuit according to the present invention.

FIG. 5 is a diagram illustrating a configuration of a third embodiment of an audio output control circuit according to the present invention.

FIG. 6 is a diagram illustrating a configuration of a fourth embodiment of an audio output control circuit according to the present invention.

FIG. 7 is a diagram illustrating a configuration of a fifth embodiment of an audio output control circuit according to the present invention.

FIG. 8 is a diagram illustrating a configuration of a conventional audio output control circuit.

[Explanation of symbols]

12,30 Positive voltage peak value detection circuit, 15,19 Negative voltage peak value detection circuit, 17,17A switch.

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Katsumasa Fukuda No. 1 Baba Institute, Nagaokakyo City, Kyoto Prefecture Mitsubishi Electric Corporation Kyoto Plant (56) Reference JP-A-6-310966 (JP, A) JP-A 5-175768 (JP, A) JP 61-125212 (JP, A) Jpn 4-2495 (JP, Y2) Jpn 1-445192 (JP, Y2) (58) Fields investigated (Int. Cl. ⁷ , DB name) H03G 11/00 H04S 7/00

Claims (7)

(57) [Claims] 1. A voice signal according to an increase in voltage of a control signal.
Amplitude control with positive characteristics is performed to increase and output the amplitude level.
And an output of the amplitude control means connected to the amplitude control means.
And an amplification means for amplifying and outputting as an audio output signal, and connected to the output side of the amplification means,
To detect the signal condition and feed back the signal condition
An audio output detecting means for outputting a feedback signal, when it generates the control signal supplied to the amplitude control means preparative
And is connected to the audio output detecting means,
Control signal for adjusting the control signal based on the back signal
Receiving means for generating the sound multiplex signal, and a kind of sound mode of the sound multiplex signal
A voice mode compatible signal that detects a type and supports a voice mode
And a voice mode detecting means for outputting the voice mode detecting means and the voice output detecting means.
The voice mode that is connected and supports a predetermined voice mode
Only when receiving the corresponding signal, the feedback signal
A feed having a function of giving the control signal generating means.
And a voice output detection means for detecting a negative voltage of the voice output signal.
With the negative voltage peak value detection means that detects and outputs the peak value
Yes, the audio output signal as the feedback signal
Voice output characterized by outputting the peak value of the negative voltage of
Force control circuit. 2. The feedback determining means comprises a first
Connect the terminal to a second terminal connected to the power supply potential, or
Connect the first terminal to a third terminal connected to ground potential.
Switching whether to continue depending on the audio mode compatible signal
The switch means, the first terminal, and the capacitor.
A third resistor, and a resistor interposed between the third resistor and the second resistor.
A sword is connected to the third resistor and an anode is connected to the third resistor.
And a diode for opening and closing a path connected to the resistor 2
The audio output control circuit according to claim 1. 3. The audio signal is changed according to the voltage change of the control signal.
Amplitude control that performs amplitude control by changing the amplitude level and outputting
Control means and the output of the amplitude control means connected to the amplitude control means
And an amplification means for amplifying and outputting as an audio output signal, and connected to the output side of the amplification means,
To detect the signal condition and feed back the signal condition
Output detecting means for outputting a feedback signal of the control signal, and control for generating the control signal and giving it to the amplitude control means.
The signal generation means and the feedback signal are received, and an average value for a predetermined period is calculated.
An average value calculating means for calculating and outputting and a voice multiplex signal are received, and a voice mode change of the voice multiplex signal is performed.
Is detected and the voice mode changes when the voice mode changes.
Connection of the audio mode detecting means and said average value calculation means and the audio mode detecting means for outputting a signal
The average value output from the average value calculation means.
Hold for a moment and receive the voice mode change signal
Is connected to the holding means for outputting the average value before the mode change, the holding means and the voice output detecting means,
The average value before the mode change and the voice mode change signal are received.
After changing the mode, the comparison with the feedback signal is performed.
A comparison means for outputting a comparison result, and the comparison result is connected to the comparison means.
From the average value before conversion, the feedback signal after the mode change is
If larger, the feedback signal after the mode change
Based on the control signal generating means for controlling the control signal.
Output control including control signal adjusting means for adjusting signal
circuit. 4. The voice output detection means and the control signal
Connected to the signal adjusting means to specify a predetermined time,
Until the predetermined time elapses after receiving the card change signal
During the period, a tie that gives a predetermined signal to the control signal adjusting means.
Further comprises a control means, and the control signal adjusting means receives the predetermined signal.
Based on the feedback signal after the mode change only during the period
And controlling the control signal generating means to adjust the control signal.
4. The voice output according to claim 3, wherein the voice output is provided.
Force control circuit. 5. The voice output detecting means and the control signal
Connected to the signal adjusting means to define a first predetermined time,
After receiving the voice mode change signal, the first predetermined time
Until the time elapses, the control signal adjusting means is provided with a first predetermined value.
A first timer means for giving a signal and a second predetermined time are defined.
After receiving the voice mode change signal, the second
Until the predetermined time elapses, the control signal adjusting means
And second timer means for providing a second predetermined signal.
The control signal adjusting means receives the first predetermined signal.
The feedback signal after the mode change only during the
And controlling the control signal generation means based on the control signal.
Is adjusted and is receiving the second predetermined signal
After the lapse of the period, the control signal is adjusted by the control signal generating means.
A device having a function of returning to a state before adjustment.
The audio output control circuit described in 3. 6. The amplitude control means is configured to output the control signal.
Output by decreasing the amplitude level of the audio signal according to the increase in pressure
Amplitude control means for controlling the amplitude of a negative characteristic, wherein the audio output detection means is a positive voltage of the audio output signal.
Positive voltage peak value detection means for detecting the peak value,
The positive voltage of the audio output signal as a feedback signal
The peak value of is output.
Item 6. The audio output control circuit according to any one of Items 5. 7. The amplitude control means is adapted to transmit the control signal.
Output by increasing the amplitude level of the audio signal as the pressure increases
Amplitude control means for performing amplitude control with a positive characteristic, wherein the audio output detection means is a negative voltage of the audio output signal.
It is a negative voltage peak value detection means for detecting the peak value.
The negative voltage of the audio output signal as a feedback signal
The peak value of is output.
Item 6. The audio output control circuit according to any one of Items 5.