JP4219104B2 - Audio playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an audio reproduction device, and more particularly to a technique for preventing the generation of abnormal noise when a control means for controlling the operation of the audio reproduction device is abnormal.
[0002]
[Prior art]
In many recent audio reproduction apparatuses, various operations such as music selection operation, volume control, sound quality control, and various circuits such as an amplifier and a mute circuit are controlled by a microprocessor (microcomputer). Although the control by the microprocessor has an advantage that the complicated and fine control can be realized relatively easily, the microprocessor may run out of control due to the influence of noise or the like, and the sound reproducing apparatus may become unusable. In particular, in an in-vehicle audio reproduction device having a severe noise environment such as engine ignition noise, this problem is likely to occur, various measures are taken, and the frequency of runaway is low. When runaway occurs, it is necessary to initialize the microprocessor by giving a reset signal to the microprocessor. The microprocessor is initialized by the operation of the reset switch by the user of the audio playback device or the runaway detection circuit. It has become so.
[0003]
[Problems to be solved by the invention]
However, when the microprocessor is initialized, the sound playback device control becomes unstable until the initialization process is completed, so abnormal sounds may be output from the speaker, and the user may feel uncomfortable. If the volume is high, the user may be surprised or the speaker may be adversely affected.
[0004]
The present invention has been made in view of the above problems, and provides an audio reproduction device that can reliably prevent the generation of abnormal noise when a control unit of an audio reproduction device, for example, a microprocessor is initialized. It is aimed.
[0005]
[Means for solving the problems and effects thereof]
In order to solve the above problems, an audio reproduction device (1) according to the present invention includes an audio signal source that outputs an audio signal, a power amplifier that amplifies the audio signal from the audio signal source, and the audio signal source. In a sound reproducing apparatus comprising a mute means for cutting off a sound signal to the power amplifier and a control means for performing control including a mute control function for controlling a sound signal cut-off operation of the mute means, the control means is initialized. A reset signal generating means for generating a reset signal to be performed, and a mute generating means for causing the mute means to perform an audio signal blocking operation before starting the initialization operation of the control means in response to the reset signal from the reset signal generating means It is characterized by having.
Further, in the audio reproduction device (2) according to the present invention, in the audio reproduction device (1), the mute generation unit immediately responds to the reset signal from the reset signal generation unit, and the mute generation unit It is characterized in that a signal blocking operation is performed.
According to the audio reproduction devices (1) and (2) described above, since the mute generation unit reliably blocks the audio signal during the initialization process period in which the operation of the control unit is unstable, Occurrence can be reliably prevented.
[0006]
Further, an audio reproducing device ( 3 ) according to the present invention is characterized in that in the audio reproducing device (1) or (2) , there is provided delay means for delaying the reset signal inputted to the control means. Yes.
According to the audio reproduction device ( 3 ) described above, since the initialization process of the control unit is reliably performed after the audio signal is cut off by the mute generation unit, the generation of abnormal noise is more reliably prevented. be able to.
[0007]
Moreover, the audio | voice reproduction apparatus ( 4 ) which concerns on this invention is an abnormality detection means in which the said reset signal production | generation means detects abnormality of the said control means in either of the said audio | voice reproduction apparatuses (1) -(3). It is characterized by that.
According to the audio reproduction device ( 4 ) described above, when an abnormality occurs in the control means, the control means is automatically initialized, and the generation of abnormal noise accompanying the initialization of the control means is prevented. Can be prevented.
[0008]
Moreover, the audio reproduction device ( 5 ) according to the present invention has a drive / stop function in which the control means controls the drive / stop of the power amplifier in any of the audio reproduction devices (1) to ( 4 ). In addition, there is provided an amplifier cutoff means for stopping the amplification operation of the power amplifier before starting the initialization operation of the control means in response to a reset signal from the reset signal generation means.
According to the audio reproduction device ( 5 ), since the audio signal is not amplified by stopping the amplification operation of the power amplifier in addition to the interruption of the audio signal by the mute means, the reproduction level of the abnormal sound is further reduced to 0. It becomes possible to approach.
[0009]
Further, in the audio reproduction device ( 6 ) according to the present invention, in the audio reproduction device ( 5 ), the audio signal blocking operation of the mute means is performed before the amplification operation of the power amplifier is stopped. The mute generation means and the amplifier cutoff means are set.
According to the audio reproduction device ( 6 ), the amplification operation of the power amplifier is stopped after the audio signal blocking operation of the mute means, that is, when the power amplifier is in an unstable state when the amplification operation of the power amplifier is stopped. Since the signal input to the power amplifier is cut off, it is possible to prevent the generation of abnormal noise due to the unstable state of the power amplifier.
[0010]
Further, in the audio reproduction device ( 7 ) according to the present invention, in the audio reproduction device ( 5 ) or ( 6 ), the stop cancellation of the amplification operation of the power amplifier is performed before the audio signal cutoff cancellation operation of the mute means. As described above, the mute generation means and the amplifier cutoff means are set.
According to the audio reproduction device ( 7 ), the audio signal blocking operation of the mute means is released after the amplification operation stop of the power amplifier is released, that is, the power amplifier unstable state at the start of the amplification operation of the power amplifier. Sometimes signal input to the power amplifier is interrupted and signal input to the power amplifier is started after the operation is stabilized, so that it is possible to prevent the generation of abnormal noise due to the unstable state of the power amplifier. it can.
[0011]
Further, in the audio reproduction device ( 8 ) according to the present invention, in any of the audio reproduction devices (1) to ( 7 ), the mute generation unit performs a predetermined time from the input of the reset signal from the reset signal generation unit. The mute means is configured to perform a sound signal blocking operation.
According to the audio reproduction device ( 8 ) described above, the mute generation means is a time circuit having a relatively simple configuration without requiring a detection circuit or the like for detecting a signal from another circuit or the like whose configuration is likely to be complicated. Can be realized.
[0012]
Further, in the sound reproducing device ( 9 ) according to the present invention, in any one of the sound reproducing devices ( 5 ) to ( 8 ), the amplifier shut-off unit has a predetermined time from the input of the reset signal from the reset signal generating unit. The amplification operation of the power amplifier is stopped.
According to the audio reproduction device ( 9 ) described above, the amplifier shut-off means is realized by a time circuit having a relatively simple configuration without requiring a detection circuit for detecting a signal from another circuit or the like whose configuration is likely to be complicated. can do.
[0013]
The audio reproduction device ( 10 ) according to the present invention controls an audio signal source that outputs an audio signal, a power amplifier that amplifies the audio signal from the audio signal source, and driving / stopping of the power amplifier. In a sound reproducing device including a control unit that performs control including a drive / stop function, a reset signal generation unit that generates a reset signal that causes the control unit to perform initialization, and a reset signal from the reset signal generation unit In response, an amplifier cutoff means is provided for stopping the amplification operation of the power amplifier before the initialization operation of the control means is started.
According to the audio reproduction device ( 10 ) described above, since the audio signal is reliably interrupted by stopping the amplification operation of the power amplifier during the initialization process period in which the operation of the control means is unstable, Occurrence can be reliably prevented.
[0014]
Further, the sound reproducing device ( 11 ) according to the present invention is characterized in that in the sound reproducing device ( 10 ), there is provided delay means for delaying the reset signal inputted to the control means.
According to the audio reproduction device ( 11 ) described above, the initialization process of the control unit is surely performed after the audio signal is cut off by the mute generation unit, so that the generation of abnormal noise is more reliably prevented. be able to.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of an audio playback device according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an in-vehicle audio reproducing apparatus according to an embodiment.
[0016]
The audio signal source 1 is a device that outputs an audio signal, and includes, for example, a CD player, a cassette player, a radio receiver, and the like. The audio signal from the audio signal source 1 is input to the volume / sound quality adjustment circuit 2 so that the volume / sound quality is adjusted. The volume / sound quality adjustment circuit 2 is constituted by a volume, a resonance circuit, and the like, and a digital signal processor for digitally calculating an audio signal, and its operation is controlled by a microprocessor 10 described later. The audio signal processed by the volume / sound quality adjusting circuit 2 is input to a mute circuit 3 that performs a signal blocking operation. The audio signal is grounded when muted, and is input to the power amplifier 4 at the subsequent stage when not muted. Yes.
[0017]
The mute circuit 3 includes a resistor R1 inserted into the audio signal line, a collector at the subsequent stage of the resistor R1, an emitter at the ground, and an NPN transistor TR to which an OR circuit OR1 which is a drive control circuit of the mute circuit 3 is connected at the base. When the applied voltage level of the base is high (ON) level (when the output of the OR circuit OR1 is H), the transistor TR is turned on so that transmission of the audio signal to the subsequent stage is cut off. It has become. On the contrary, when the applied voltage level of the base is low (OFF) level (the output of the OR circuit OR1 is L), the transistor TR becomes non-conductive and the audio signal is transmitted to the subsequent stage.
[0018]
The audio signal input to the power amplifier 4 is amplified in power and output to the speaker 5 (audio output signal h), and is reproduced from the speaker 5 as audio. The power amplifier 4 is controlled by the output of the AND circuit AND1, and performs an amplification operation when the output of the AND circuit AND1 is H level (high voltage level), and stops the amplification operation when the output is L level (low voltage level). To do. The amplification operation of the power amplifier 4 can be stopped by a method of stopping the power supply to the amplifier circuit element.
[0019]
The microprocessor 10 controls various operations of the sound reproducing device and each circuit. The microprocessor 10 has a built-in memory (ROM and RAM), and performs various processes according to programs stored in the memory (ROM). The microprocessor 10 includes a mute control terminal that outputs a mute control signal (signal g: H level when instructing mute operation), a power amplifier control terminal that outputs a power amplifier control signal (signal d: H level when instructing power amplifier operation), A reset terminal for taking in a reset delay signal (signal c: L level at the time of reset request) and a watchdog pulse terminal for outputting a watchdog pulse signal having a substantially predetermined period when the microprocessor 10 operates normally. The watchdog pulse signal is generated by including processing for outputting a pulse signal at predetermined time intervals in the processing program of the microprocessor 10, and the processing program is not executed normally when the microprocessor 10 runs away. At this time, pulse signals at predetermined time intervals are not output.
[0020]
The watchdog circuit 8 monitors the watchdog pulse signal, and outputs a reset signal (signal a: L level at the time of reset request) when the pulse signal is not input at a predetermined cycle. From the timer, counter, comparator, etc. It can be realized by a known pulse signal period monitoring circuit constituted by a digital circuit or an analog circuit comprising a differentiation circuit, a charge / discharge circuit, a comparison circuit, and the like.
[0021]
Further, the audio playback device is provided with a reset switch RSW in a form that is relatively difficult to operate, and a reset signal equivalent to the reset signal from the watchdog circuit 8 is output when the user operates in an abnormal state. It is like that. In the present embodiment, both the reset switch RSW and the watchdog circuit 8 are provided as reset signal output means. However, either one may be used depending on the product form, or the microprocessor 10 according to another method may be used. A circuit that detects an abnormality may be employed.
[0022]
The delay circuit 7 delays the reset signal a and outputs the delayed reset signal c to the reset terminal of the microprocessor 10. The delay circuit 7 can be configured by a digital circuit including a timer, a counter, a comparator, and the like, and an analog circuit including a charge / discharge circuit, a comparison circuit, and the like.
[0023]
The mute generation circuit 6 is a circuit that outputs a mute generation signal (signal b: H level for a predetermined time from when the signal a becomes L level) in response to the reset signal a, and includes a timer, a counter, a comparator, and the like. This is realized by a known timed circuit constituted by a digital circuit, an analog circuit including a differentiation circuit, a charge / discharge circuit, a comparison circuit, and the like.
[0024]
The predetermined time for maintaining the H level is longer than the time during which the microprocessor 10 can initialize the mute control signal g to the H level after the reset signal a becomes the L level and the mute control signal g can be reliably set to the H level. The initialization process is completed after the signal a becomes L level, and the time is set shorter than the time when the mute control signal g is set to L level and the audio reproduction is resumed. The outputs of the mute control signal g and the mute generation signal b are input to the OR circuit OR1 connected to the base of the transistor TR, and the OR circuit OR1 controls the transistor TR of the mute circuit 3 with the output signal. It has become. That is, when at least one of the mute control signal g and the mute generation signal b is at the H level, the audio signal output is cut off.
[0025]
The amplifier cutoff generation circuit 9 is a circuit that outputs an amplifier cutoff generation signal (signal e: L level for a predetermined time from the time when the signal a becomes L level) in response to the reset signal a, such as a timer, counter, comparator, etc. And a digital circuit consisting of a differential circuit, a charge / discharge circuit, a comparison circuit, and the like. The predetermined time for maintaining the L level is longer than the time during which the microprocessor 10 can perform the initialization process after the reset signal a becomes the L level and the power amplifier control signal d can be reliably set to the L level. After the reset signal a becomes L level, the initialization process is completed and the time is set shorter than the time for restarting the operation of the power amplifier 4.
[0026]
The outputs of the power amplifier control signal d and the amplifier cutoff generation signal e are input to the AND circuit AND1 connected to the control terminal of the power amplifier 4, and the AND circuit AND1 outputs the power amplifier 4 with the amplifier control output signal f. It comes to control. That is, when at least one of the power amplifier control signal d and the amplifier cutoff generation signal e is at the L level, the amplifier control output signal f becomes the L level, power amplification of the audio signal is stopped, and the audio output is interrupted. It becomes.
[0027]
The mute generation circuit 6, delay circuit 7, watchdog circuit 8, and amplifier cutoff generation circuit 9 described above are so-called external circuits having a configuration different from that of the microprocessor 10, and the operation of the microprocessor 10 even when the microprocessor 10 runs out of control. Regardless of whether it works normally.
[0028]
Next, the operation of the audio reproducing apparatus will be described with reference to the timing chart of FIG. FIG. 2 is a timing chart showing signal states of respective units in the audio reproduction device.
The mute generation signal b is L level and the delay reset signal c is L level until the reset signal a becomes L level at time t1 due to the abnormality detection of the microprocessor 10 by the watchdog circuit 8 or the operation of the reset switch RSW by the user. The H level, the power amplifier control signal d is at the H level, the amplifier cutoff generation signal e is at the H level, the amplifier control output signal f is at the H level, the mute control signal g is at the L level, and the mute circuit 3 outputs the sound in the non-operating state. The signal h is in an output state.
[0029]
When the microprocessor 10 is in an abnormal state and the watchdog pulse signal output is not output at a predetermined cycle, the watchdog circuit 8 detects this state after a while, or the user notices an abnormality in the sound reproducing device and resets it. When the switch RSW is operated (time t1), the reset signal a becomes L level. Then, due to the transition of the reset signal a to L level, the mute generation signal b becomes H level and the mute circuit 3 enters the mute state.
[0030]
Further, since the amplifier cutoff generation signal e becomes L level after a while, the amplifier control output signal f becomes L level and the amplification operation of the power amplifier 4 is stopped. For this reason, the sound output signal h enters a signal non-output (silence) state with more certainty and high accuracy (low residual sound level) by the double blocking operation. However, at this time, the delay reset signal c input to the reset terminal of the microprocessor 10 is at the H level, and the microprocessor 10 is not performing initialization processing. Further, when the amplification operation of the power amplifier 4 is stopped, the input signal to the power amplifier 4 is in a no-signal state due to the mute operation by the mute circuit 3, so that an abnormal sound due to an unstable state in the stop operation of the power amplifier 4 is generated. Occurrence can be prevented.
[0031]
When a predetermined time elapses from the transition of the reset signal a to the L level, the delayed reset signal c transitions to the L level, and the microprocessor 10 performs the initialization process, but the audio output signal h is already in a signal non-output state (mute operation). State and amplification stop state), no abnormal noise occurs during the initialization process.
[0032]
When the initialization process of the microprocessor 10 is completed and the microprocessor 10 is operating normally (time t2), the delayed reset signal c is at the H level, and the reset request to the microprocessor 10 is released. . The reset signal a has already been at the H level (by setting the watchdog circuit 8 or canceling the operation of the reset switch RSW). Thereafter, the microprocessor 10 causes the mute control signal g to be set to the H level to maintain the mute state first, and then the power amplifier control signal d is set to the L level to maintain the amplification stop state of the power amplifier 4 by its own operation. To do.
[0033]
After a while, when the L level continuation time of the amplifier cutoff generation signal e by the amplifier cutoff generation circuit 9 ends (when a predetermined time elapses from the time when the reset signal a shifts to the L level), the amplifier cutoff generation signal e becomes the H level. Thus, the operation of the power amplifier 4 is left to the microprocessor 10. After a while, when the H level duration of the mute generation signal b by the mute generation circuit 6 ends (when a predetermined time elapses from the time when the reset signal a shifts to L level), the mute generation signal b becomes L level, The operation of the mute circuit 3 is left to the microprocessor 10.
[0034]
When the microprocessor 10 determines that there is no problem even if the reproduction of the audio output signal h from the speaker 5 is started (for example, after a predetermined time has elapsed from the end of initialization), the power amplifier control signal d is set to the H level. Then, the amplifier control output signal f of the AND circuit AND1 becomes H level, and the power amplifier 4 starts an amplification operation (power supply to the amplifier circuit element is started). Furthermore, when the time required for the operation of the power amplifier 4 to stabilize has elapsed since the start of the operation (time t3), the microprocessor 10 sets the mute control signal g to the L level. Then, the output of the OR circuit OR1 becomes L level, the sound signal blocking operation of the mute circuit 3 is canceled, the sound output signal h is output to the speaker 5, and sound reproduction is started. Therefore, since the power amplifier 4 is operated first and the sound signal cut-off operation by the mute circuit 3 is released after the operation is stabilized, it is possible to prevent the generation of noise due to the unstable operation of the power amplifier 4. it can.
[0035]
As described above, according to the audio reproduction device according to the embodiment of the present invention, when the microprocessor 10 is initialized, the audio signal is transmitted by an external circuit that is not affected by the initialization process of the microprocessor 10. Since the shut-off process is performed, it is possible to reliably prevent the generation of abnormal noise associated with the initialization process of the microprocessor 10.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a configuration of an in-vehicle audio reproduction device according to an embodiment of the present invention.
FIG. 2 is a time chart showing the operation of the in-vehicle audio reproduction device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Audio signal source 2 ... Volume / sound quality adjustment circuit 3 ... Mute circuit 4 ... Power amplifier 6 ... Mute generation circuit 7 ... Delay circuit 8 ... Watch dog circuit 9 ..Amplifier cutoff circuit 10 ... Microprocessor

Claims (11)

An audio signal source that outputs an audio signal, a power amplifier that amplifies the audio signal from the audio signal source, a mute unit that cuts off an audio signal from the audio signal source to the power amplifier, and an audio of the mute unit In a sound reproducing device including a control means for performing control including a mute control function for controlling a signal cutoff operation,
Reset signal generating means for generating a reset signal for causing the control means to perform initialization;
An audio reproduction apparatus comprising: a mute generation unit that responds to a reset signal from the reset signal generation unit and causes the mute unit to perform an audio signal blocking operation before the initialization operation of the control unit is started. . 2. The audio reproducing apparatus according to claim 1, wherein the mute generating unit is configured to promptly respond to a reset signal from the reset signal generating unit and cause the mute unit to perform an audio signal blocking operation. 3. The sound reproducing apparatus according to claim 1, further comprising delay means for delaying the reset signal input to the control means. The sound reproduction apparatus according to any one of claims 1 to 3, wherein the reset signal generation means is an abnormality detection means for detecting an abnormality of the control means. The control means has a drive / stop function for controlling the drive / stop of the power amplifier,
In response to a reset signal from said reset signal generating means, according to claim 1-4, characterized in that an amplifier blocking means for stopping the amplification operation of the power amplifier before the initialization operation start of the control means The audio reproducing device according to any one of the items. Before the stop of the amplifying operation of the power amplifier, so that voice signal cutoff operation of the muting means is carried out, according to claim 5, characterized in that said muting generating means and said amplifier blocking means is configured Audio playback device. The mute generation means and the amplifier cutoff means are set so that the stop of the amplifying operation of the power amplifier is canceled before the audio signal cutoff cancellation operation of the mute means. The audio reproducing device according to claim 5 or 6 . Said muting generating means, a predetermined time from the input of the reset signal from said reset signal generating means, according to any one of claims 1-7, characterized in that to perform audio signal cutoff operation to said muting means Audio playback device. The sound reproduction according to any one of claims 5 to 8 , wherein the amplifier shut-off means stops the amplification operation of the power amplifier for a predetermined time from the input of the reset signal from the reset signal generating means. apparatus. An audio signal source that outputs an audio signal, a power amplifier that amplifies the power of the audio signal from the audio signal source, and a control unit that performs control including a drive / stop function for controlling drive / stop of the power amplifier In the audio playback device
Reset signal generating means for generating a reset signal for causing the control means to perform initialization;
An audio reproducing apparatus comprising: an amplifier blocking means for stopping an amplification operation of the power amplifier before starting an initialization operation of the control means in response to a reset signal from the reset signal generating means. 11. The sound reproducing apparatus according to claim 10, further comprising delay means for delaying the reset signal input to the control means.

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