CN106954143A - Manually adjust the method and electronic equipment of tonequality - Google Patents

Abstract

The present invention provides a kind of method and electronic equipment for manually adjusting tonequality, and this method is used for the tonequality for adjusting electronic equipment, and this method comprises the following steps：The housing or screen of electronic equipment are divided into different sound-emanating areas in advance and set corresponding acoustics signal processing to configure；User manually selects sound-emanating areas, and the sound-emanating areas selected based on user generates LisPos information corresponding with the sound-emanating areas；Audio signal is handled using acoustics signal processing corresponding with LisPos information configuration, and acoustic vibration activation bit corresponding with the LisPos information is generated according to the audio signal after processing.

Description

Manually adjust the method and electronic equipment of tonequality

【Technical field】

It can be manually selected the present invention relates to a kind of method and electronic equipment for manually adjusting tonequality, more particularly to one kind LisPos adjust the method and electronic equipment of tonequality.

【Background technology】

In the prior art, there is a kind of vocal skill, be vibration or the part of vibration or its housing for utilizing electronic equipment The vibration of housing carrys out sounding, and electronic equipment can be mobile phone or panel computer etc., and housing or local housing can be metal, glass The various forms of materials such as glass, plastics, ceramics.Compared to using traditional loudspeaker, shaken at this using vibration equipment or housing It is dynamic and in vocal skill, without setting up out acoustic aperture on apparatus casing, this is carried for the aesthetics and water proofing property of equipment It is high.

Utilization equipment body vibration mentioned above or the vocal skill of hull vibration, general in use, user is main It is to be used as sound-generating element using positive screen, i.e., ear is pressed close into front screen to obtain sound (in the applied field of call Audio under Jing Zhong, or handset mode plays application scenarios), this meets the use habit that user is formed for a long time.But The characteristics of due to the technology, in the diverse location of screen, the effect of sounding is different, for example, when user is by ear When pressing close to mobile phone top, user may obtain the sound that loudness is larger and high pitch is brighter, when ear is pressed close to mobile phone top by user During the on the lower side position in end, user may obtain that loudness is general and the dim sound of high pitch (may feel sound in sense of hearing It is vexed).Because the use habit of different users is different, i.e. different users is receiving calls or used receiver When pattern listens to audio, ear is different with respect to the position of mobile phone screen, then in this case, for different It is unfavorable that user, which can obtain good audio experience,.

A kind of new manually adjust the method and electronic equipment of tonequality to solve the above problems therefore, it is necessary to provide.

【The content of the invention】

It is an object of the invention to provide a kind of method and electronic equipment for manually adjusting tonequality, allow users to pass through LisPos are selected manually, so as to ensure that different users can obtain consistent audio experience.

Technical scheme is as follows：

A kind of method for manually adjusting tonequality is provided, the tonequality for adjusting electronic equipment, this method comprises the following steps：

Configuration step：The housing or screen of electronic equipment are divided into different sound-emanating areas and corresponding acoustics is set in advance Signal transacting is configured；

Input step：User manually selects sound-emanating areas, the sound-emanating areas generation selected based on user and the hair The corresponding LisPos information in sound area domain；

Audio processing step：Audio signal is entered using acoustics signal processing corresponding with LisPos information configuration Row processing, and generate acoustic vibration activation bit corresponding with the LisPos information according to the audio signal after processing.

Preferably, after the audio processing step, methods described also includes：

Response of step：When detecting the electronic equipment in receiver mode of operation, driven based on the acoustics activation bit Employ the sound-emanating areas output acoustic vibration of family selection.

Preferably, the input step is specifically included：

Needed for showing that each sound-emanating areas, user are manually selected on the electronic equipment in the user interface of electronic equipment Sound-emanating areas, it is determined that the corresponding LisPos information in the sound-emanating areas selected with user.

Preferably, the form of the LisPos information is binary system.

Preferably, the configuration step includes：

The housing of electronic equipment or the acoustic response of screen diverse location are measured, and is set electronics according to the acoustic response Standby housing or screen is divided into multiple different sound-emanating areas；

Corresponding acoustics signal processing configuration is set for each sound-emanating areas.

Preferably, the acoustic response of the housing of the measurement electronic equipment or screen diverse location, and according to the acoustics The housing or screen of electronic equipment are divided into multiple different sound-emanating areas by response, including：

One energized position and multiple measurement points are set on the housing or screen of electronic equipment；

Vibration exciter is measured to send out with the housing of preset signals drive electronics or screen vibration in the energized position The acoustic response of the multiple measurement point during sound；

Determine that acoustic response is distributed according to the acoustic response of the multiple measurement point；

The housing or screen of the electronic equipment are divided into corresponding multiple different sounding according to acoustic response distribution Region.

Preferably, it is described to set the step of corresponding acoustics signal processing is configured for each sound-emanating areas, refer to：

The multiple different sound-emanating areas, which is distributed as, according to the acoustic response formulates acoustics signal processing configuration respectively, Make it that the multiple different sound-emanating areas obtains consistent audio frequency effect.

Preferably, the configuration step also includes：With on the housing or screen for storing electronic equipment in the form of configuration form The acoustics signal processing configuration of different sound-emanating areas；

The output step includes：It is corresponding described to obtain sound-emanating areas residing for LisPos to search the configuration form Acoustics signal processing is configured；Audio signal is handled and according to processing using the acoustics signal processing configuration found Audio signal afterwards generates acoustic vibration activation bit corresponding with the LisPos information.

Present invention also offers a kind of electronic equipment, including：

Configuration module, for dividing casting of electronic device or screen into different sound-emanating areas and setting corresponding acoustic signal Processing configuration；

Manual selection modules, sound-emanating areas, and the sound-emanating areas life selected based on user are manually selected for user Into LisPos information；

Audio processing modules, are connected with the configuration module and the Manual selection modules, for according to the manual choosing Select module generation the LisPos information, acoustics signal processing configuration audio signal is handled, and according to processing after Audio-signal-driven LisPos residing for sound-emanating areas output acoustic vibration.

Preferably, the electronic equipment also includes operational module detection module, is connected, is used for the audio processing modules Detect whether the electronic equipment is in receiver mode of operation, the audio processing modules are based in the receiver mode of operation The sound-emanating areas output acoustic vibration of acoustics activation bit driving user's selection.

Compared with correlation technique, the method and electronic equipment that manually adjust tonequality that the present invention is provided so that electronics is set Standby user can manually select sound-emanating areas, so that different users is suitable according to own situation or custom selection LisPos, it is ensured that different users can obtain consistent audio experience.

【Brief description of the drawings】

Technical scheme in order to illustrate more clearly the embodiments of the present invention, below will be to that will make needed for embodiment description Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for For those of ordinary skill in the art, on the premise of not paying creative work, it can also obtain other according to these accompanying drawings Accompanying drawing, wherein：

Fig. 1 is a kind of flow chart of the method for manually adjusting tonequality of first embodiment of the invention；

Fig. 2 is another flow chart of the method for manually adjusting tonequality of first embodiment of the invention；

Fig. 3 is another flow chart of the method for manually adjusting tonequality of first embodiment of the invention；

Fig. 4 is the electronic equipment screen dividing mode schematic diagram that the present invention is first embodiment of the invention；

Fig. 5 is another flow chart of the method for manually adjusting tonequality of first embodiment of the invention；

Fig. 6 is a kind of structural representation of the electronic equipment of second embodiment of the invention；

Fig. 7 is another structural representation of the electronic equipment of second embodiment of the invention.

【Embodiment】

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is all other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.

The first embodiment of the present invention is related to a kind of method for manually adjusting tonequality, the sound for adjusting electronic equipment Matter, idiographic flow as shown in figure 1, including：

Configuration step S10：The housing or screen of electronic equipment are divided into different sound-emanating areas in advance and set corresponding Acoustics signal processing is configured；

Input step S11：User manually selects sound-emanating areas, based on user select the sound-emanating areas generation with it is described The corresponding LisPos information in sound-emanating areas；

Audio processing step S12：Audio is believed using acoustics signal processing corresponding with LisPos information configuration Number handled, and acoustic vibration driving corresponding with the LisPos information is generated according to the audio signal after processing and believed Breath；

Response of step S13：When detecting the electronic equipment in receiver mode of operation, the hair of driving user's selection Sound area domain exports acoustic vibration.

By the way that the housing or screen of electronic equipment are divided into different sound-emanating areas in advance and corresponding acoustic signal is set Processing configuration, then user manually selects sound-emanating areas, determines the sound-emanating areas of selection position on an electronic device and generation LisPos information, is handled audio signal using acoustics signal processing corresponding with LisPos information configuration, And acoustic vibration activation bit corresponding with the LisPos information is generated according to the audio signal after processing, allow users to Consistent audio experience is obtained in different LisPos.

On the configuration step S10, the housing or screen of electronic equipment are divided into different sound-emanating areas in advance and set Corresponding acoustics signal processing configuration is put, acoustics signal processing configuration can be stored in the form of configuration form.

In the present embodiment mode, electronic equipment can be for mobile phone, panel computer, PDA etc., can be according to electronic equipment The acoustic response of housing or screen diverse location, is divided into multiple sound-emanating areas, so by the housing or screen of electronic equipment Different acoustics signal processing configurations are set for each described sound-emanating areas afterwards.Therefore, in the present embodiment, Fig. 2 is referred to, The configuration step S10, may comprise steps of：

Step S20, measures the housing of electronic equipment or the acoustic response of screen diverse location, and according to the acoustic response The housing or screen of electronic equipment are divided into multiple different sound-emanating areas.

Step S21, is that each sound-emanating areas sets corresponding acoustics signal processing configuration.

As shown in figure 3, the step S20 is referred in the following manner execution：

Step S201, sets an energized position and multiple measurement points on the housing or screen of electronic equipment；

Step S202, measurement vibration exciter is in energized position with preset signals drive electronics or hull vibration sounding When multiple measurement points acoustic response；

Step S203, determines that acoustic response is distributed according to the acoustic response of multiple measurement points；

The housing or screen of electronic equipment, are divided into corresponding multiple different by step S204 according to acoustic response distribution Sound-emanating areas.

In step S201, energized position is set on the housing or screen of electronic equipment, for subsequently encouraging position herein Install vibration exciter and drive the housing or screen vibration sounding of electronic equipment, multiple measurement points are set, for follow-up Measure acoustic response of multiple measurement points under vibration exciter drive/driving.

In step S202, can by sending default audio signal to the vibration exciter for being arranged on energized position, with Drive the vibration exciter to drive the housing or screen vibration sounding of electronic equipment, then measure the sound of the multiple measurement point Learn response.

In step S203, it is whole that the acoustic response of each measurement point that can be measured according to step S202 obtains electronic equipment Acoustic response distribution on screen or whole housing.

In step S204, in the multiple measurement point, acoustic response is identical or the less measurement point position of difference is in same hair In the domain of sound area, acoustic response difference or the measurement point differed greatly are then located in different sound-emanating areas, are so designed that, just can be directed to Acoustic response characteristic different everywhere on the housing or screen of electronic equipment and distribute different acoustics signal processings configurations, make electricity Identical/close acoustics effect can be produced by being respectively on the housing or screen of sub- equipment under corresponding acoustics signal processing configuration Really.It should be noted that shape, size and the equal flexibly configurable of quantity that the screen of electronic equipment is divided, specific to divide Mode is as shown in Figure 4.

On the step S21, following steps progress specifically can refer to：It is distributed as according to the acoustic response the multiple Acoustics signal processing configuration is formulated in different sound-emanating areas respectively, make it that the multiple different sound-emanating areas is obtained unanimously Audio frequency effect.

On the step S11, each LisPos is shown in the user interface of electronic equipment, electronic device user is manual Ear residing LisPos on the electronic equipment are selected, determine that the LisPos of selection are residing on the electronic equipment Sound-emanating areas, so that it is determined that LisPos information corresponding with the sound-emanating areas of selection, the form of the LisPos information is Binary system.

It is preferred that, before step S11, it can also include detecting whether the electronic equipment is in receiver mode of operation Step, as shown in Figure 5.In " step S31：Detect the electronic equipment and be in receiver mode of operation " perform after, then carry out Step S11 LisPos detection so that the detection of LisPos is performed only when electronic equipment enables handset mode, and at it During his pattern (such as earphone output audio mode), because not utilizing housing or screen sounding, without according to LisPos adjustment The acoustics signal processing configuration of housing or screen.In other preferred embodiments of the present invention, detect at the electronic equipment It can also be arranged between step S12 and step S13 in the step S31 of receiver mode of operation.

On the step S12, it is after abovementioned steps S11 sets sound-emanating areas residing for LisPos, just using this Sound-emanating areas corresponding acoustics signal processing configuration handles audio signal, then utilizes the audio-signal-driven hair after processing The output acoustic vibration of sound area domain and sounding, to export the audio output effect that different user can be made to obtain consistent audio experience；

Specifically, the step 12 further comprises the steps：The configuration form is searched to obtain LisPos institute Locate the corresponding acoustics signal processing configuration in sound-emanating areas；Audio is believed using the acoustics signal processing configuration found Number handled and according to sound-emanating areas output acoustic vibration and sounding residing for the audio-signal-driven LisPos after processing.

It should be noted that the step of various methods above are divided, it is intended merely to describe clear, can be merged into when realizing One step is split to some steps, is decomposed into multiple steps, as long as comprising identical logical relation, it is all special at this In the protection domain of profit；To adding inessential modification in algorithm or in flow or introducing inessential design, but The core design of its algorithm and flow is not changed all in the protection domain of the patent.

Second embodiment of the invention is related to a kind of electronic equipment 10, as shown in fig. 6, including configuration module 11, manual choosing Select module 12 and audio processing modules 13.

The configuration module 11 divides the housing of electronic equipment 10 or screen and sets corresponding acoustics into different sound-emanating areas Signal transacting is configured；The Manual selection modules 12 are used to manually select sound-emanating areas, determine the sound-emanating areas of selection described The acoustics signal processing configuration of residing LisPos on electronic equipment 10；The audio processing modules 13 and the configuration module 11 and the Manual selection modules 12 connect, the acoustics signal processing for being selected according to the Manual selection modules 12 is configured Audio signal is handled, and shaken according to sound-emanating areas output acoustics residing for the audio-signal-driven LisPos after processing It is dynamic, so that sounding.

The electronic device module 10 also includes the mode of operation detection module 20 being connected with the audio processing modules 13, The mode of operation detection module 20 detects whether the electronic equipment 10 is in receiver mode of operation, the audio processing modules 13 The sound-emanating areas output acoustic vibration of user's selection is driven in the receiver mode of operation, it is specific as shown in Figure 7.So Set, can make electronic equipment 10 under non-handset mode (such as earphone output audio mode), housing or screen sounding are not utilized, Acoustics signal processing configuration without adjusting housing or screen according to sound-emanating areas.

On the configuration module 11, the Manual selection modules 12, the audio processing modules 13 and the work The more detailed method of work of mode detection module 20, it is corresponding with the method and step in aforementioned first embodiment, to avoid weight It is multiple, repeat no more here, it is seen that, present embodiment is the system embodiment corresponding with first embodiment, this implementation Mode can work in coordination implementation with first embodiment.The relevant technical details mentioned in first embodiment are in present embodiment In still effectively, in order to reduce repetition, repeat no more here.Correspondingly, the relevant technical details mentioned in present embodiment It can be applicable in first embodiment.It should be noted that each module involved in present embodiment is logic module, In actual applications, a logic unit can be a part for a physical location or a physical location, may be used also To be realized with the combination of multiple physical locations.In addition, will not in the innovative part in order to protrude the present invention, present embodiment Introduced with solving technical problem relation proposed by the invention less close unit, but this is not intended that in present embodiment not In the presence of other units.

Compared with correlation technique, the method and electronic equipment that manually adjust tonequality that the present invention is provided so that electronics is set Standby user can manually select sound-emanating areas, so that different users is suitable according to own situation or custom selection LisPos, it is ensured that different users can obtain consistent audio experience.

Above-described is only embodiments of the present invention, it should be noted here that for one of ordinary skill in the art For, without departing from the concept of the premise of the invention, improvement can also be made, but these belong to the protection model of the present invention Enclose.

Claims (10)

1. a kind of method for manually adjusting tonequality, the tonequality for adjusting electronic equipment, it is characterised in that this method includes as follows Step：

Configuration step：The housing or screen of electronic equipment are divided into different sound-emanating areas and corresponding acoustic signal is set in advance Processing configuration；

Input step：User manually selects sound-emanating areas, the sound-emanating areas generation selected based on user and the articulating region The corresponding LisPos information in domain；

Audio processing step：Configured using acoustics signal processing corresponding with the LisPos information to audio signal Reason, and generate acoustic vibration activation bit corresponding with the LisPos information according to the audio signal after processing.

2. the method according to claim 1 for manually adjusting tonequality, it is characterised in that the audio processing step it Afterwards, also include：

Response of step：When detecting the electronic equipment in receiver mode of operation, driven and used based on the acoustics activation bit The sound-emanating areas output acoustic vibration of family selection.

3. the method according to claim 1 for manually adjusting tonequality, it is characterised in that the input step is specifically included：

Each sound-emanating areas is shown in the user interface of electronic equipment, user manually selects required hair on the electronic equipment Sound area domain, it is determined that LisPos information corresponding with the sound-emanating areas that user selects.

4. the method according to claim 3 for manually adjusting tonequality, it is characterised in that the form of the LisPos information For binary system.

5. the method according to claim 1 for manually adjusting tonequality, it is characterised in that the configuration step includes：

The housing of electronic equipment or the acoustic response of screen diverse location are measured, and according to the acoustic response by electronic equipment Housing or screen are divided into multiple different sound-emanating areas；

Corresponding acoustics signal processing configuration is set for each sound-emanating areas.

6. the method according to claim 5 for manually adjusting tonequality, it is characterised in that the housing of the measurement electronic equipment Or the acoustic response of screen diverse location, and according to the acoustic response by the housing or screen of electronic equipment be divided into it is multiple not Same sound-emanating areas, including：

One energized position and multiple measurement points are set on the housing or screen of electronic equipment；

Vibration exciter is measured when the energized position is with the housing of preset signals drive electronics or screen vibration sounding The acoustic response of the multiple measurement point；

Determine that acoustic response is distributed according to the acoustic response of the multiple measurement point；

The housing or screen of the electronic equipment are divided into corresponding multiple different sound-emanating areas according to acoustic response distribution.

7. the method according to claim 6 for manually adjusting tonequality, it is characterised in that described for the setting of each sound-emanating areas The step of corresponding acoustics signal processing is configured, refers to：

The multiple different sound-emanating areas, which is distributed as, according to the acoustic response formulates acoustics signal processing configuration respectively, so that Obtain the multiple different sound-emanating areas and obtain consistent audio frequency effect.

8. the method according to claim 1 for manually adjusting tonequality, it is characterised in that

The configuration step also includes：With different sound-emanating areas on the housing or screen that electronic equipment is stored in the form of configuration form Acoustics signal processing configuration；

The output step includes：The configuration form is searched to obtain the corresponding acoustics in sound-emanating areas residing for LisPos Signal transacting is configured；Using find the acoustics signal processing configuration audio signal is handled and according to processing after Audio signal generates acoustic vibration activation bit corresponding with the LisPos information.

9. a kind of electronic equipment, it is characterised in that including：

Configuration module, for dividing casting of electronic device or screen into different sound-emanating areas and setting corresponding acoustics signal processing Configuration；

Manual selection modules, sound-emanating areas is manually selected for user, and the sound-emanating areas generation selected based on user is listened Sound positional information；

Audio processing modules, are connected with the configuration module and the Manual selection modules, are manually selected for application with described The corresponding acoustics signal processing configuration of the LisPos information of module generation is handled audio signal, and according to processing Audio signal afterwards generates acoustic vibration activation bit corresponding with the LisPos information.

10. electronic equipment according to claim 9, it is characterised in that the electronic equipment also includes mode of operation and detected Module, is connected with the audio processing modules, for detecting whether the electronic equipment is in receiver mode of operation, the audio Processing module drives the sound-emanating areas of user's selection defeated in the receiver mode of operation based on the acoustics activation bit Go out acoustic vibration.