CN105635491A - Vibration sense adjustment method, system and electronic device - Google Patents

Abstract

The invention provides a vibration sense adjustment method, a vibration sense system and an electronic device. The method includes the following steps that: a mapping relation table of motor vibration sense levels and voltage effective values at two ends of a motor is set; a vibration sense level adjustment instruction is obtained; a corresponding voltage effective value is obtained from the mapping relation table according to the adjustment instruction; and a driving circuit is controlled to drive the motor to vibrate with the corresponding voltage effective value. With the vibration sense adjustment method, the vibration sense system and the electronic device of the invention adopted, requirements for different vibration sense of users can be satisfied, and user experience can be enhanced.

Description

Seismaesthesia control method, system and electronics

Technical field

The present invention relates to the communications field, particularly relate to a kind of seismaesthesia control method, system and electronics.

Background technology

In smart mobile phone, motor vibration is as a kind of mode of information alert, and the virtual value that its main type of drive is the voltage exporting to motor by arranging realizes the driving to motor.

Due to power consumption and design underaction in current mobile phone, it is all fix a seismaesthesia intensity usually. Different customer needs cannot be met.

Therefore, prior art existing defects, is badly in need of improving.

Summary of the invention

The embodiment of the present invention provides a kind of seismaesthesia control method, system and the electronics that can regulate seismaesthesia grade; To solve the technical problem that existing electronics cannot carry out seismaesthesia adjustment according to customer need.

The embodiment of the present invention provides a kind of seismaesthesia rank control method, for, in electronics, comprising the following steps:

The mapping relation table of the voltage effective value at motor seismaesthesia rank and these motor two ends is set;

Obtain the regulating command of seismaesthesia rank;

From described mapping relation table, corresponding effective voltage value is obtained according to this regulating command;

Control driving circuit drives described motor vibration with the effective voltage value of correspondence.

In seismaesthesia rank control method of the present invention, described control driving circuit drives the step of described motor vibration to comprise with the effective voltage value of correspondence:

Send PWM duty cycle regulating command to the PWM chip of driving circuit to regulate its dutycycle, thus control driving circuit and drive described motor vibration with the effective voltage value of correspondence.

In seismaesthesia rank control method of the present invention, described control driving circuit drives the step of described motor vibration to comprise with the effective voltage value of correspondence:

Transmission frequency regulating command is to the frequency of voltage to regulate power supply module and export of the power supply module of driving circuit, thus controls driving circuit and drive described motor vibration with the effective voltage value of correspondence.

In seismaesthesia rank control method of the present invention, the step of the regulating command of described acquisition seismaesthesia rank comprises:

The acceleration angle value of detection electronics, according to the regulating command accelerating seismaesthesia rank corresponding to angle value acquisition.

In seismaesthesia rank control method of the present invention, the step of the regulating command of described acquisition seismaesthesia rank comprises:

Judge whether this electronics carries by user is next to the skin;

If this electronics carries by user is next to the skin, then obtain the regulating command being used for seismaesthesia rank is adjusted to the first seismaesthesia rank;

If this electronics does not carry by user is next to the skin, then obtain the regulating command being used for seismaesthesia rank is adjusted to the 2nd seismaesthesia rank.

In seismaesthesia rank control method of the present invention, described judge whether this electronics is comprised by user's step carried next to the skin:

The distance of this electronics and human body is detected by infrared sensor;

When this distance is less than the first preset value, judge that this electronics carries by user is next to the skin;

When this distance is less than the first preset value, judge that this electronics does not carry by user is next to the skin.

In seismaesthesia rank control method of the present invention, described judge whether this electronics is comprised by user's step carried next to the skin:

Detect the temperature value of environment residing for described electronics;

When this temperature value is in the first preset range, judge that this electronics carries by user is next to the skin;

When this temperature value is in the 2nd preset range, judge that this electronics does not carry by user is next to the skin.

Present invention also offers a kind of seismaesthesia regulation system, comprising:

Module is set, for setting the mapping relation table of motor seismaesthesia rank and the voltage effective value at motor two ends;

Acquisition module, for obtaining the regulating command of seismaesthesia rank;

Inquiry module, for obtaining corresponding effective voltage value according to this regulating command from this mapping relation table;

Adjustment module, drives described motor vibration for controlling driving circuit with the effective voltage value of correspondence.

In seismaesthesia regulation system of the present invention, described acquisition module comprises:

Judging unit, for judging whether this electronics carries by user is next to the skin;

Acquiring unit, for when this electronics carries by user is next to the skin, obtaining the regulating command being used for seismaesthesia rank is adjusted to the first seismaesthesia rank; And, for when this electronics does not carry by user is next to the skin, obtaining the regulating command being used for seismaesthesia rank is adjusted to the 2nd seismaesthesia rank.

Present invention also offers a kind of electronics, comprise above-mentioned seismaesthesia regulation system.

Compared to prior art, the seismaesthesia rank control method of the present invention, system and electronics are by carrying out corresponding by the vibrations rank of motor with the driving voltage of motor, and the adjustment of corresponding seismaesthesia rank is realized according to the virtual value of the driving voltage regulating motor, the demand of user for different seismaesthesia can be met, there is the useful effect improving Consumer's Experience.

Accompanying drawing explanation

Fig. 1 is the schema of the first preferred embodiment of the seismaesthesia rank control method of the present invention;

Fig. 2 is the schema of the 2nd preferred embodiment of the seismaesthesia rank control method of the present invention;

Fig. 3 is the structure iron of the first preferred embodiment of the seismaesthesia rank regulation system of the present invention.

Embodiment

Please refer to graphic, wherein identical element numbers represents identical assembly, and the principle of the present invention implements to illustrate in a suitable computing environment. The following description is based on the illustrated specific embodiment of the invention, and it should not be regarded as limiting the present invention not at other specific embodiment of this detailed description.

In the following description, specific embodiments of the invention illustrate with reference to by step and the symbol of the operation performed by or many computers, unless otherwise stating clearly. Therefore, it can recognize these steps and operation, wherein have and mentions as performing by computer for several times, include the computer processing unit by representing the electronic signal with the data in a structurizing pattern and handled. These data of this manipulation transforms or the position in being maintained the memory system of this computer, it is reconfigurable or changes running of this computer in addition in a manner familiar to those skilled in the art. The data structure that these data maintain is the provider location of this internal memory, and it has the particular characteristics defined by this data layout. But, the principle of the invention illustrates with above-mentioned word, and it is not represented as a kind of restriction, and those skilled in the art can recognize that the plurality of step of the following stated and operation also may be implemented in the middle of hardware.

Embodiment one

Please refer to Fig. 1, Fig. 1 is the schema of the first preferred embodiment of the seismaesthesia rank control method of the present invention, and this seismaesthesia rank control method is mainly used in the signal equipment such as mobile phone, IPAD. The seismaesthesia rank control method of this preferred embodiment comprises the following steps:

S101, the mapping relation table that the voltage effective value at motor seismaesthesia rank and these motor two ends is set;

S102, the regulating command obtaining seismaesthesia rank;

S103, the effective voltage value obtaining correspondence according to this regulating command from described mapping relation table;

S104, control driving circuit drive described motor vibration with the effective voltage value of correspondence.

The idiographic flow of each step the following detailed description of the seismaesthesia rank control method of this preferred embodiment:

In step S101, owing to vibration prompt and tactile feedback vibrotechnique (haptics) have become the standard function of major part mobile communication equipment, and these functions are realized by the motor being responsible for particular job. The seismaesthesia rank of motor is mainly by applying to determine in the virtual value of the voltage at its two ends. Therefore, in the present embodiment, according to test in advance, draw each voltage effective value corresponding to seismaesthesia rank, and it is kept in this electronics. Such as, the nominal operation voltage of this motor is 2.7 to 3.3V, and 2.7V is corresponding with first step seismaesthesia, and 2.9V is corresponding with second stage seismaesthesia, and 3.1V is corresponding with third stage seismaesthesia, and 3.3V is corresponding with fourth stage seismaesthesia.

In step s 102, obtaining seismaesthesia regulating command can be that the environmental parameter according to the electronics being checked through is produced automatically by electronics, it is also possible to manually input generation by user. When for electronics can be shaken by user when manually inputting, then detect the acceleration angle value of electronics, according to the regulating command accelerating seismaesthesia rank corresponding to angle value acquisition. Certainly, it is also possible to by carrying out conventional setting operation on a display screen.

In step s 103, after getting regulating command, the seismaesthesia rank corresponding according to this regulating command, inquires about corresponding effective voltage value from mapping relation table. Such as, by effective voltage value 2.7V corresponding for first step seismaesthesia, the effective voltage value 2.9V that second stage seismaesthesia is corresponding, the effective voltage value 3.1V that third stage seismaesthesia is corresponding, the effective voltage value 3.3V that fourth stage seismaesthesia is corresponding.

In step S104, after inquiring effective voltage value, to send corresponding signal to the driving circuit of motor, the driving circuit of motor exports corresponding effective voltage value to motor according to this signal, thus realizes control motor and shake with the seismaesthesia rank of correspondence.

Specifically, when regulating effective voltage value, it is possible to by sending PWM duty cycle regulating command to the PWM chip of driving circuit to regulate its dutycycle, thus control driving circuit and shake with the effective voltage value CD-ROM drive motor of correspondence. By transmission frequency regulating command to the frequency of voltage to regulate power supply module and export of the power supply module of driving circuit, thus driving circuit can also be controlled and shakes with the effective voltage value CD-ROM drive motor of correspondence.

Seismaesthesia rank control method in this preferred embodiment is by carrying out corresponding by the vibrations rank of motor with the driving voltage of motor, and the adjustment of corresponding seismaesthesia rank is realized according to the virtual value of the driving voltage regulating motor, there is the demand meeting user for different seismaesthesia, it is to increase the useful effect of Consumer's Experience.

Embodiment two

Please refer to Fig. 2, Fig. 2 is the schema of the 2nd preferred embodiment of the seismaesthesia rank control method of the present invention. The seismaesthesia rank control method of this preferred embodiment comprises the following steps:

S201, the mapping relation table that the voltage effective value at motor seismaesthesia rank and these motor two ends is set;

S202, judge this electronics and whether carry by user is next to the skin; If this electronics carries by user is next to the skin, then obtain the regulating command being used for seismaesthesia rank is adjusted to the first seismaesthesia rank; If this electronics does not carry by user is next to the skin, then obtain the regulating command being used for seismaesthesia rank is adjusted to the 2nd seismaesthesia rank.

S203, the effective voltage value obtaining correspondence according to this regulating command from described mapping relation table;

S204, control driving circuit drive described motor vibration with the effective voltage value of correspondence.

The idiographic flow of each step the following detailed description of the seismaesthesia rank control method of this preferred embodiment:

In step s 201, owing to vibration prompt and tactile feedback vibrotechnique (haptics) have become the standard function of major part mobile communication equipment, and these functions are realized by the motor being responsible for particular job. The seismaesthesia rank of motor is mainly by applying to determine in the virtual value of the voltage at its two ends. Therefore, in the present embodiment, according to test in advance, draw each voltage effective value corresponding to seismaesthesia rank, and it is kept in this electronics. Such as, the nominal operation voltage of this motor is 2.7 to 3.3V, and 2.7V is corresponding with first step seismaesthesia, and 2.9V is corresponding with second stage seismaesthesia, and 3.1V is corresponding with third stage seismaesthesia, and 3.3V is corresponding with fourth stage seismaesthesia.

In step S202, when judging whether this electronics carries by user is next to the skin, it is possible to adopt following two kinds of methods.

Method one: the distance being detected this electronics and human body by infrared sensor; When this distance is less than the first preset value, judge that this electronics carries by user is next to the skin; When this distance is less than the first preset value, judge that this electronics does not carry by user is next to the skin. This first preset value can be arranged on and be less than or equal 0.05 meter.

Method two: the temperature value detecting environment residing for described electronics; When this temperature value is in the first preset range, judge that this electronics carries by user is next to the skin; When this temperature value is in the 2nd preset range, judge that this electronics does not carry by user is next to the skin. This first preset range position close to the scope of human body temperature, but owing to there being certain distance, next to the skin when being placed in pocket temperature may not reach body temperature, therefore, this first preset range is set as 28 degrees Celsius to 36 degrees Celsius. 2nd preset range is for being less than 28 degrees Celsius. Certainly, adopt and only it is only applicable to weather temperature in this way and under human body temperature has the environment of larger difference, its use has bigger limitation.

In step S203, after getting regulating command, the seismaesthesia rank corresponding according to this regulating command, inquires about corresponding effective voltage value from mapping relation table. Such as, by effective voltage value 2.7V corresponding for first step seismaesthesia, the effective voltage value 2.9V that second stage seismaesthesia is corresponding.

In step S204, after inquiring effective voltage value, sending corresponding signal to the driving circuit of motor, the driving circuit of motor exports corresponding voltage to motor according to this signal, thus realizes control motor and shake with the seismaesthesia rank of correspondence.

Specifically, when regulating effective voltage value, it is possible to by sending PWM duty cycle regulating command to the PWM chip of driving circuit to regulate its dutycycle, thus control driving circuit and shake with the effective voltage value CD-ROM drive motor of correspondence. By transmission frequency regulating command to the frequency of voltage to regulate power supply module and export of the power supply module of driving circuit, thus driving circuit can also be controlled and shakes with the effective voltage value CD-ROM drive motor of correspondence.

Embodiment three

Please refer to Fig. 3, Fig. 3 is the structure iron of the first preferred embodiment of the seismaesthesia rank regulation system of the present invention, and this seismaesthesia rank regulation system is mainly used in the signal equipment such as mobile phone, IPAD. Seismaesthesia regulation system at the present embodiment comprises: arrange module 301, acquisition module 302, inquiry module 303 and adjustment module 304.

Wherein, this arranges module 301 for setting the mapping relation table of motor seismaesthesia rank and the voltage effective value at motor two ends. Owing to vibration prompt and tactile feedback vibrotechnique (haptics) have become the standard function of major part mobile communication equipment, and these functions are realized by the motor being responsible for particular job. The seismaesthesia rank of motor is mainly by applying to determine in the virtual value of the voltage at its two ends. Therefore, in the present embodiment, according to test in advance, draw each voltage effective value corresponding to seismaesthesia rank, and it is kept in this electronics. Such as, the nominal operation voltage of this motor is 2.7 to 3.3V, and 2.7V is corresponding with first step seismaesthesia, and 2.9V is corresponding with second stage seismaesthesia, and 3.1V is corresponding with third stage seismaesthesia, and 3.3V is corresponding with fourth stage seismaesthesia.

This acquisition module 302 is for obtaining the regulating command of seismaesthesia rank. The regulating command obtaining seismaesthesia rank can be that the environmental parameter according to the electronics being checked through is produced automatically by electronics, it is also possible to manually inputs generation by user.

This inquiry module 303 for obtaining corresponding effective voltage value according to this regulating command from this mapping relation table. After inquiry module 303 gets regulating command, the seismaesthesia rank corresponding according to this regulating command, inquires about corresponding effective voltage value from mapping relation table. Such as, by effective voltage value 2.7V corresponding for first step seismaesthesia, the effective voltage value 2.9V that second stage seismaesthesia is corresponding, the effective voltage value 3.1V that third stage seismaesthesia is corresponding, the effective voltage value 3.3V that fourth stage seismaesthesia is corresponding.

For controlling, driving circuit drives described motor vibration with the effective voltage value of correspondence to this adjustment module 304. After inquiring effective voltage value, sending corresponding signal to the driving circuit of motor, the driving circuit of motor exports corresponding effective voltage value to motor according to this signal, thus realizes control motor and shake with the seismaesthesia rank of correspondence.

Specifically, when regulating effective voltage value, it is possible to by sending PWM duty cycle regulating command to the PWM chip of driving circuit to regulate its dutycycle, thus control driving circuit and shake with the effective voltage value CD-ROM drive motor of correspondence. By transmission frequency regulating command to the frequency of voltage to regulate power supply module and export of the power supply module of driving circuit, thus driving circuit can also be controlled and shakes with the effective voltage value CD-ROM drive motor of correspondence.

Seismaesthesia rank regulation system in this preferred embodiment is by carrying out corresponding by the vibrations rank of motor with the driving voltage of motor, and the adjustment of corresponding seismaesthesia rank is realized according to the virtual value of the driving voltage regulating motor, there is the demand meeting user for different seismaesthesia, it is to increase the useful effect of Consumer's Experience.

Preferably, in certain embodiments, this acquisition module 301 comprises:

Judging unit, for judging whether this electronics carries by user is next to the skin;

Acquiring unit, for when this electronics carries by user is next to the skin, obtaining the regulating command being used for seismaesthesia rank is adjusted to the first seismaesthesia rank; And, for when this electronics does not carry by user is next to the skin, obtaining the regulating command being used for seismaesthesia rank is adjusted to the 2nd seismaesthesia rank. Wherein, the vibrations of the first seismaesthesia rank are less than the vibrations of seismaesthesia rank.

Judging unit is when judging whether this electronics carries by user is next to the skin, it is possible to adopt following two kinds of methods.

Method one: the distance being detected this electronics and human body by infrared sensor; When this distance is less than the first preset value, judge that this electronics carries by user is next to the skin; When this distance is less than the first preset value, judge that this electronics does not carry by user is next to the skin. This first preset value can be arranged on and be less than or equal 0.05 meter.

Method two: the temperature value detecting environment residing for described electronics; When this temperature value is in the first preset range, judge that this electronics carries by user is next to the skin; When this temperature value is in the 2nd preset range, judge that this electronics does not carry by user is next to the skin. This first preset range position close to the scope of human body temperature, but owing to there being certain distance, next to the skin when being placed in pocket temperature may not reach body temperature, therefore, this first preset range is set as 28 degrees Celsius to 36 degrees Celsius. 2nd preset range is for being less than 28 degrees Celsius. Certainly, adopt and only it is only applicable to weather temperature in this way and under human body temperature has the environment of larger difference, its use has bigger limitation.

During placement next to the skin due to electronics next to the skin, it is not necessary to too big vibrations can be perceived by the user, and if shake and likely can frighten user too greatly, then need bigger vibrations just can be perceived by the user during placement not next to the skin. Therefore by judging whether whether this electronics is the vibrations rank that placement next to the skin controls this motor, it is possible not only to effectively reduce power consumption, also helps and improve Consumer's Experience further.

Present invention also offers a kind of electronics, comprise the seismaesthesia regulation system in above-described embodiment.

There is provided herein the various operations of embodiment. In an embodiment, described one or more operations can form on one or more computer-readable medium the computer-readable instruction stored, and it will make calculating equipment perform described operation when being performed by electronics. The order describing some or all of operation should not be interpreted as implying what these operations were necessarily sequentially correlated with. It will be appreciated by those skilled in the art that the alternative sequence of the benefit with this specification sheets. Also, it should be understood that not all operation must exist in each embodiment provided in this article.

And, word used herein " preferably " means to be used as example, example or illustration. Feng Wen is described as " preferably " any aspect or design need not be interpreted as more favourable than other aspects or design. On the contrary, the use of word " preferably " is intended to propose in a concrete fashion concept. Term "or" as used in this application is intended to mean the "or" that comprises and the "or" of non-excluded. Unless otherwise or clear from the context, that is, " X uses A or B " means any one that nature comprises arrangement. That is, if X uses A; X uses B; Or X uses A and B both, then " X uses A or B " is met in aforementioned any example.

And, although illustrate and describing the disclosure relative to one or more implementation, but those skilled in the art are based on to the reading of this specification sheets and accompanying drawing with understand and will expect equivalent variations and amendment. The disclosure comprises all such amendments and modification, and only by the range limit of claims. Especially about the various functions performed by said modules (such as element, resource etc.), it is intended to the random component (unless otherwise instructed) corresponding to the appointed function (such as it is functionally of equal value) performing described assembly, even if the open structure structurally with the function performed in exemplary implementations of the present disclosure shown in this article is not equal to for describing the term of such assembly. In addition, although special characteristic of the present disclosure relative in some implementations only one be disclosed, but this kind of feature can with can be such as expect and other characteristics combination one or more of other favourable implementations given or application-specific. And, with regard to term " comprising ", " having ", " containing " or its distortion are used in embodiment or claim, such term is intended to comprise in the way of similar to term " comprising ".

Each functional unit in the embodiment of the present invention can be integrated in a processing module, it is also possible to is that the independent physics of each unit exists, it is also possible to two or more unit are integrated in a module. Above-mentioned integrated module both can adopt the form of hardware to realize, it is also possible to adopts the form of software function module to realize. If described integrated module realize using the form of software function module and as independent production marketing or when using, it is also possible to be stored in a computer read/write memory medium. The above-mentioned storage media mentioned can be read-only storage, disk or CD etc. Above-mentioned each device or system, it is possible to perform the method in correlation method embodiment.

In sum; although the present invention discloses as above with preferred embodiment; but above preferred embodiment is also not used to restriction the present invention; the those of ordinary skill of this area; without departing from the spirit and scope of the present invention; all can doing various change and retouching, the scope that therefore protection scope of the present invention defines with claim is as the criterion.

Claims (10)

1. a seismaesthesia rank control method, in electronics, it is characterised in that, comprise the following steps:

The mapping relation table of the voltage effective value at motor seismaesthesia rank and these motor two ends is set;

Obtain the regulating command of seismaesthesia rank;

From described mapping relation table, corresponding effective voltage value is obtained according to this regulating command;

Control driving circuit drives described motor vibration with the effective voltage value of correspondence.

2. seismaesthesia rank control method according to claim 1, it is characterised in that, described control driving circuit drives the step of described motor vibration to comprise with the effective voltage value of correspondence:

Send PWM duty cycle regulating command to the PWM chip of driving circuit to regulate its dutycycle, thus control driving circuit and drive described motor vibration with the effective voltage value of correspondence.

3. seismaesthesia rank control method according to claim 1, it is characterised in that, described control driving circuit drives the step of described motor vibration to comprise with the effective voltage value of correspondence:

Transmission frequency regulating command is to the frequency of voltage to regulate power supply module and export of the power supply module of driving circuit, thus controls driving circuit and drive described motor vibration with the effective voltage value of correspondence.

4. seismaesthesia rank control method according to claim 1, it is characterised in that, the step of the regulating command of described acquisition seismaesthesia rank comprises:

The acceleration angle value of detection electronics, according to the regulating command accelerating seismaesthesia rank corresponding to angle value acquisition.

5. seismaesthesia rank control method according to claim 1, it is characterised in that, the step of the regulating command of described acquisition seismaesthesia rank comprises:

Judge whether this electronics carries by user is next to the skin;

If this electronics carries by user is next to the skin, then obtain the regulating command being used for seismaesthesia rank is adjusted to the first seismaesthesia rank;

If this electronics does not carry by user is next to the skin, then obtain the regulating command being used for seismaesthesia rank is adjusted to the 2nd seismaesthesia rank.

6. seismaesthesia rank control method according to claim 5, it is characterised in that, described judge whether this electronics is comprised by user's step carried next to the skin:

The distance of this electronics and human body is detected by infrared sensor;

When this distance is less than the first preset value, judge that this electronics carries by user is next to the skin;

When this distance is less than the first preset value, judge that this electronics does not carry by user is next to the skin.

7. seismaesthesia rank control method according to claim 5, it is characterised in that, described judge whether this electronics is comprised by user's step carried next to the skin:

Detect the temperature value of environment residing for described electronics;

When this temperature value is in the first preset range, judge that this electronics carries by user is next to the skin;

When this temperature value is in the 2nd preset range, judge that this electronics does not carry by user is next to the skin.

8. a seismaesthesia regulation system, it is characterised in that, comprising:

Module is set, for setting the mapping relation table of motor seismaesthesia rank and the voltage effective value at motor two ends;

Acquisition module, for obtaining the regulating command of seismaesthesia rank;

Inquiry module, for obtaining corresponding effective voltage value according to this regulating command from this mapping relation table;

Adjustment module, drives described motor vibration for controlling driving circuit with the effective voltage value of correspondence.

9. seismaesthesia regulation system according to claim 8, it is characterised in that, described acquisition module comprises:

Judging unit, for judging whether this electronics carries by user is next to the skin;

Acquiring unit, for when this electronics carries by user is next to the skin, obtaining the regulating command being used for seismaesthesia rank is adjusted to the first seismaesthesia rank; And, for when this electronics does not carry by user is next to the skin, obtaining the regulating command being used for seismaesthesia rank is adjusted to the 2nd seismaesthesia rank.

10. an electronics, it is characterised in that, comprise the seismaesthesia regulation system described in claim 8 or 9.