JPH0535609Y2 - - Google Patents

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to a muting control device, and particularly to a muting control device that reduces switching noise (pop noise) that occurs when switching operations or characteristics.

<Prior Art> In audio equipment, switching noise occurs when switching playback devices (when switching operations) or when switching equalizing characteristics or volume (when switching characteristics). This switching noise causes discomfort to the listener, so conventionally, when switching operations or characteristics, a muting circuit built into the audio equipment is operated prior to the switching, and after the switching is completed, muting is canceled and switching is performed. I'm trying to remove noise.

<Problems to be solved by the invention> However, in conventional audio equipment, the mute circuit operates regardless of the audio signal level. For this reason, there is a problem in that necessary audio signals are also removed while muting is being applied.

Furthermore, in conventional audio equipment, if the audio signal level is large just before mutating is started or immediately after mutating is canceled, a sudden difference in signal level occurs, giving rise to the illusion that pop noise has not been removed by mutating.

From the above, the purpose of the present invention is to provide a muting control device that can reduce pop noise, prevent all audio signals from being removed during muting, and prevent sudden signal level differences from occurring at the start and end of mutating. That's true.

<Means for Solving the Problems> FIG. 1 is a block diagram of a muting control device that is an embodiment of the present invention.

11 is a playback device consisting of a tuner, CD player, cassette deck, etc.; 13 is an equalizer; 14
is a mute circuit, 17 is an audio signal detection section,
18 is a level determination section, 19 is a mutating control section, and 20 is a key section provided on the operation panel.

<Function> In the key part 20, for example, the equalizer 13
When the characteristic switching operation is performed, the muting control section 19 operates the muting circuit 14 prior to switching the equalizing characteristic.

Thereafter, the audio signal detection unit 17 detects the audio signal level at predetermined time intervals, the level determination unit 18 determines whether the audio signal level is higher than the set level, and the muting control unit 19 determines whether the audio signal level is higher than the set level. In the above cases, mutating is canceled, and in the following cases, mutating is applied.

Then, after completing the characteristic switching operation,
From now on, muting is canceled regardless of the audio signal level.

<Example> Fig. 1 is a block diagram of a mutating control device according to an embodiment of the present invention, Fig. 2 is a flowchart showing the overall operation of the mutating control device according to the present invention, and Fig. 3 is a time chart of each part. be.

11 is a playback device consisting of a tuner, CD player, cassette deck, etc.; 12 is an input buffer;
3 is an equalizer, which controls the frequency characteristics of the audio signal input from the input buffer 12 based on predetermined equalizing characteristic data. 1
4 is a mute circuit, 15 is a fader controller composed of an electronic volume, 16 is an output buffer, 17 is an audio signal detection section, 18 is a level judgment section that determines the magnitude of the audio signal level L _D and the set level L _REF ; Reference numeral 19 represents a muting control unit configured as a microcomputer, and reference numeral 20 represents a key unit provided on the operation panel. Keys include, for example, a key that requests automatic determination of equalizing characteristics (auto equalizer key), a key that requests frequency control based on preset equalizing characteristic data, and a key that requests characteristic compensation amount (gain, gain, etc.) for each frequency.
There are up and down keys for setting the amount of attenuation. 21 is a display driver, and 22 is an equalizing characteristic display section that displays equalizing characteristics.

The equalizer 13 is provided for each predetermined frequency band, and includes a filter section 13a having a filter that passes signal components of the band, and a filter section 13a that is provided for each band and based on equalizing characteristic data given from the mutating control section 19. Characteristic changing unit 13b such as an electronic volume that changes the characteristics of each band
have.

The audio signal detection section 17 includes a bandpass filter 17a provided for each band and a multiplexer 17b.

Hereinafter, the overall operation shown in FIG. 1 will be described with reference to the flowchart of FIG. 2 and the time chart of FIG. 3 in the case of removing switching noise that occurs when switching equalizing characteristics.

(1) Assume that the key unit 20 requests frequency control based on, for example, preset equalizing characteristic data (generation of signal MS indicating a muting operation start event). however,
For example, it is assumed that auto-equalizer control has been performed until then.

(2) When a mutating operation start event to remove switching noise occurs, the muting control unit 1
9 sets the mode to mute mode and immediately starts timing.

(3) Next, check whether t≧T _EQD .
Note that T _EQD is the equalizing characteristic data transfer start time after the occurrence of the mute mode operation start event (see FIG. 3).

(4) If t≧T _EQD , the mutating control unit 1
9 transfers the equalizing characteristic data stored in the built-in memory to the characteristic changing section 13b of the equalizer 13.

As a result, the characteristic changing section 13b stores the sent equalizing characteristic data for each frequency band in a built-in storage means, such as a latch circuit, and then changes the characteristic compensation amount by switching an analog switch or the like based on the data. do.
Note that CCS in FIG. 3 is a characteristic changing signal.

The following mutating control is performed in parallel with the characteristic changing operation by the characteristic changing section 13b.

(5) The muting control unit 19 generates a switching pulse to the multiplexer 17b at a predetermined period, and causes the multiplexer to sequentially select frequency signal components ₁ , ₂ , . . . _o in a predetermined band. That is,
The multiplexer 17b counts the switching pulses P, and outputs the audio signal component _i output from the bandpass filter 17a in a frequency band corresponding to the counted value to the level determination section 18. still,
The time required to detect the levels of audio signal components in all bands is called one detection cycle time.

(6) The level determination unit 18 performs AD conversion on the level of the audio signal component of each band, compares the detection level L _D obtained by the AD conversion with a predetermined level L _REF , and Output the comparison results.

(7) In step (6), if L _D ≦L _REF ,
In other words, when the audio signal level is low, switching noise can be easily identified, so the muting control section 19 generates a high-level muting signal MTC to cause the muting circuit 14 to start or continue muting.

(8) On the other hand, if L _D > L _REF in step (6), in other words, if the audio signal level is high, the muting control unit 19 will control the muting signal MTC
Set to low level to cancel muting.

That is, during muting control to remove switching noise, it is determined whether to apply muting based on the audio signal level.

Note that in the above, the audio signal component is detected for each frequency band and its level is compared with the set level, but the bandpass filter 17a and multiplexer 17b are removed and only one audio signal level is detected. It is also possible to perform muting control by comparing the set level.

(9) After that, the mutating control unit 19 determines that t≧
_TM (see FIG. 3), in other words, it is checked whether the characteristic changing operation by the characteristic changing section 13b has been completed.

Then, if t< _TM , the processing from step (5) onwards is repeated.

(10) However, if t≧T _M , the muting mute mode is canceled.

As described above, even during muting control for removing switching noise, muting is not performed if the audio signal level is high, and therefore the audio signal shown as SA' in FIG. 3 is output from the output buffer 16.

Although the case has been described in which the audio signal level output from the equalizer is detected, the configuration may be such that the audio signal level before the equalizer is detected.

Further, although the present invention has been described above in the case where it is applied to pop noise removal when switching equalizing characteristics, the present invention is not limited to such a case.

Furthermore, it is also possible to configure the remaining functions of the level determination section except for the AD conversion function and the functions of the muting control section to be executed by a microcomputer.

<Effects of the invention> As described above, according to the invention, even during the muting control for switching noise removal, no muting is performed when the audio signal level is high, and the muting is applied only when the audio signal level is low. Because of this structure, pop noise can be reduced, all audio signals are not removed during muting, and there is no sudden difference in signal level at the start and end of muting, so there is no discomfort when switching. You can enjoy music comfortably.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a mutating control device according to an embodiment of the present invention, FIG. 2 is a flowchart showing the overall operation of the mutating control device according to the present invention, and FIG. 3 is a time chart of each part. 11... Reproduction device, 13... Equalizer, 14
... Muting circuit, 17... Audio signal detection section, 18... Level determining section, 19... Muting control section, 20... Key section.

Claims (1)

[Claims for Utility Model Registration] In a muting control device that operates a muting circuit prior to switching the operation or characteristics of an audio device, and cancels the muting after the switching is completed to remove switching noise, the audio signal level a detection unit that detects the level of the audio signal; a determination unit that determines whether the audio signal level is equal to or higher than the set level; and a mute mode that is set by the operation switching operation or the characteristic switching operation,
A mute control section that operates a mute circuit to apply muting when the audio signal is below a set level, executes control that does not apply muting when the audio signal is above the set level, and releases the mute mode after switching is completed. Muting control device.