CN104301545A - Circuit for realizing sleeping and awakening of mobile phone and sleeping and awakening method thereof - Google Patents

Abstract

The invention discloses a circuit for realizing sleeping and awakening of a mobile phone and a sleeping and awakening method thereof. The method comprises the following steps: firstly, setting a temperature threshold value and a distance threshold value and setting a corresponding command of the moving direction of a palm by a logic processing module; setting a threshold value of light intensity change and a time threshold value by a light sensor module; then, collecting temperature data by a temperature sensor in a data collecting module; collecting distance data between the palm and a screen of the mobile phone by a distance sensor; obtaining the data of the moving direction of the palm and the corresponding command of the moving direction of the palm by the light sensor module; then, judging the data of the data collecting module by the logic processing module; if the conditions that the temperature data reaches the temperature threshold value, the distance data reaches the distance threshold value and the corresponding command of the moving direction of the palm is in an executable state are simultaneously satisfied, outputting the corresponding command of the moving direction of the palm to a control display module by the logic processing module; executing the sleeping or awakening operation of the mobile phone; displaying the operation on the display of the mobile phone. The mode of the method disclosed by the invention is novel, so that the user experience is improved.

Description

A kind of mobile phone dormancy and wake realizing circuit and dormancy thereof and awakening method up

Technical field

The present invention relates to a kind of mobile phone dormancy and wake realizing circuit and dormancy thereof and awakening method up.

Background technology

The dormancy of current mobile phone and to wake up be substantially all that mode by button realizes, or combine by button the mode touching mobile phone screen and realize, use relatively loaded down with trivial details, mode is single, lacks interest.

Summary of the invention

The invention provides a kind of mobile phone dormancy and wake realizing circuit and dormancy thereof and awakening method up, mode is novel, improves Consumer's Experience.

In order to achieve the above object, the invention provides a kind of mobile phone dormancy and wake realizing circuit up, this mobile phone dormancy and wake realizing circuit up and comprise data acquisition module, be electrically connected the logic processing module of this data acquisition module and be electrically connected the control display module of this logic processing module;

Described data acquisition module comprises temperature sensor, range sensor and optical sensor module, and the output of described temperature sensor, range sensor and optical sensor module is electrically connected the input of described logic processing module respectively;

Described optical sensor module comprises the first optical sensor, the second optical sensor and processing module, the first described optical sensor and the output of the second optical sensor are electrically connected described logic processing module input respectively, the input of described processing module is electrically connected the output of the first optical sensor and the second optical sensor, and the output of described processing module is electrically connected described logic processing module input.

In a kind of embodiment, the first described optical sensor and the second optical sensor are separately positioned on the two ends up and down of mobile phone screen.

In another kind of embodiment, the first described optical sensor and the second optical sensor are separately positioned on the two ends, left and right of mobile phone screen.

Described temperature sensor is arranged on mobile phone front, and described range sensor is arranged on mobile phone front.

Described control display module comprises the controller being electrically connected described logic processing module output and the display module being electrically connected this controller.

The present invention also provides a kind of and adopts described mobile phone dormancy and wake realizing circuit up to the method for carrying out mobile phone dormancy and wake up, and the method includes the steps of:

Step S1, logic processing module and optical sensor module carry out data setting;

The corresponding instruction of logic processing module design temperature threshold value, distance threshold and setting palm moving direction, optical sensor module setting intensity variation threshold value and time threshold;

Step S2, data acquisition module BOB(beginning of block) image data, transfer data to logic processing module;

Temperature sensor collecting temperature data, range sensor gathers the range data of palm and mobile phone screen, optical sensor module acquisition palm moving direction data and instruction corresponding to palm moving direction;

Step S3, the logic processing module data to data acquisition module judge, if satisfied temperature data reach temperature threshold, range data reaches distance threshold, the corresponding instruction of palm moving direction is in executable state simultaneously, then the corresponding instruction of palm moving direction is exported to control display module by logic processing module;

The instruction of logic processing module is sent to display module by step S4, controller, and display module performs dormancy or the wake operation of mobile phone according to instruction, and is presented on mobile telephone display.

If the first described optical sensor and the second optical sensor are separately positioned on the two ends up and down of mobile phone screen, then in described step S1, the step of the corresponding instruction of setting palm moving direction comprises:

Setting palm is from mobile phone screen lower slide to upper end, and be wake instruction up, palm slides into lower end from mobile phone screen upper end, be dormancy instruction, or setting palm is from mobile phone screen lower slide to upper end, be dormancy instruction, palm slides into lower end from mobile phone screen upper end, is wake instruction up.

If the first described optical sensor and the second optical sensor are separately positioned on the two ends, left and right of mobile phone screen, then in described step S1, the step of the corresponding instruction of setting palm moving direction comprises:

Setting palm slides into right-hand member from mobile phone screen left end, and be wake instruction up, palm slides into left end from mobile phone screen right-hand member, be dormancy instruction, or setting palm slide into right-hand member from mobile phone screen left end, be dormancy instruction, palm slides into left end from mobile phone screen right-hand member, is wake instruction up.

In described step S2, the step that optical sensor module obtains palm moving direction data also comprises following steps:

Step S2.1, when any one light sensor probes in two optical sensors exceedes the intensity variation threshold value of setting to intensity variation, processing module starts timing;

Step S2.2, when another light sensor probes exceedes the intensity variation threshold value of setting to intensity variation, processing module stop timing;

If the total duration of the timing of step S2.3 processing module exceedes the time threshold of setting, then processing module is further according to the time order and function order of two light sensor probes to intensity variation, and in conjunction with the physical location that two optical sensors are arranged, judge to obtain palm moving direction, and obtain the corresponding instruction of palm moving direction.

In described step S3, the corresponding instruction of described palm moving direction is in executable state and refers to:

If the corresponding instruction of palm moving direction wakes instruction up, then need to judge whether mobile phone current state is in resting state, if mobile phone current state is resting state, then this wakes instruction up and is in executable state, if mobile phone current state has been using state, then this has waken instruction up and has been in not executable state;

If the corresponding instruction of palm moving direction is dormancy instruction, then need to judge whether mobile phone current state is in using state, if mobile phone current state is using state, then this dormancy instruction is in executable state, if mobile phone current state has been resting state, then this dormancy instruction has been in not executable state.

Mode of the present invention is novel, improves Consumer's Experience.

Accompanying drawing explanation

Fig. 1 is mobile phone dormancy and the circuit block diagram waking realizing circuit up.

Fig. 2 is the circuit block diagram of data acquisition module.

Fig. 3 is the circuit block diagram of optical sensor module.

Fig. 4 is the circuit block diagram controlling display module.

Fig. 5 is the flow chart of mobile phone dormancy and awakening method.

Fig. 6 is the flow chart that optical sensor module obtains palm moving direction data.

Fig. 7 is the flow chart of embodiment.

Embodiment

Following according to Fig. 1 ~ Fig. 7, illustrate preferred embodiment of the present invention.

As shown in Figure 1, the invention provides a kind of mobile phone dormancy and wake realizing circuit up, this circuit comprises data acquisition module 1, is electrically connected the logic processing module 2 of this data acquisition module 1 and is electrically connected the control display module 3 of this logic processing module 2.

As shown in Figure 2, described data acquisition module 1 comprises temperature sensor 101, range sensor 102 and optical sensor module 103, and the output of described temperature sensor 101, range sensor 102 and optical sensor module 103 is electrically connected described logic processing module 2 input respectively; Described temperature sensor 101 is arranged on mobile phone front, and described range sensor 102 is arranged on mobile phone front.(as shown in Figure 3, described optical sensor module 103 comprises the first optical sensor 1031, second optical sensor 1032 and processing module 1033, the first described optical sensor 1031 and the output of the second optical sensor 1032 are electrically connected described logic processing module 2 input respectively, the input of described processing module 1033 is electrically connected the output of the first optical sensor 1031 and the second optical sensor 1032, and the output of described processing module 1033 is electrically connected described logic processing module 2 input; The first described optical sensor 1031 and the second optical sensor 1032 are separately positioned on the two ends up and down of mobile phone screen, or the first described optical sensor 1031 and the second optical sensor 1032 are separately positioned on the two ends, left and right of mobile phone screen.

As shown in Figure 4, described control display module 3 comprises the controller 301 being electrically connected described logic processing module 2 output and the display module 302 being electrically connected this controller 301.

In the present embodiment, controller 301 can adopt the CPU of any model, and display module 302 is mobile phone display screens.

Described mobile phone dormancy and to wake the operation principle of realizing circuit up as follows:

Temperature sensor 101 detects the temperature of palm, and range sensor 102 detects the distance of palm and mobile phone screen, and optical sensor module 103 obtains palm moving direction by obtaining the change of light intensity, start sequence and duration.If the first optical sensor 1031 and the second optical sensor 1032 are separately positioned on the two ends up and down of mobile phone screen, then palm should move to upper end in the lower end from mobile phone screen, or move to lower end from the upper end of mobile phone screen, when palm is close or contact screen, mobile palm, when crossing first optical sensor, optical sensor analyzes light intensity change, processing module 1033 starts timing, until palm crosses another optical sensor, another optical sensor gets intensity variation event equally, the timing of processing module 1033 terminates, if palm crosses total duration of the first optical sensor 1031 and the second optical sensor 1032, be positioned at the effective time provided, then by the sense events order of optical sensor, distinguishable go out palm movement direction (from top to bottom, or from top to bottom), when the first optical sensor 1031 and the second optical sensor 1032 are separately positioned on the two ends, left and right of mobile phone screen, operation principle is the same.By temperature sensor 101, the data that range sensor 102 and optical sensor module 103 obtain are transferred to logic processing module 2 and process, according to the temperature threshold of setting, distance threshold, the corresponding instruction setting of palm moving direction, judgement performs mobile phone to wake up or mobile phone dormancy, then judged result is exported to controller 301 by logic processing module 2, controller 301 pairs of display modules 302 send corresponding operating instruction, display module 302 performs dormancy or wake operation, if execution sleep operation, if now mobile phone is in using state, then sleep operation can be performed, display extinguishes, if execution wake operation, if now mobile phone is in resting state, then wake operation can be performed, display is lighted.

As shown in Figure 5, the present invention also provides a kind of mobile phone dormancy and awakening method, and the method includes the steps of:

The corresponding instruction of step S1, logic processing module 2 design temperature threshold value, distance threshold and setting palm moving direction, optical sensor module 103 sets intensity variation threshold value and time threshold;

Described temperature threshold is: be more than or equal to 28 degree, is less than or equal to 42 degree;

Described distance threshold is: be more than or equal to 0cm, is less than or equal to 3cm;

Described intensity variation threshold value is: 10cd/m ²;

Described time threshold is: 500ms;

Step S2, data acquisition module 1 start image data, transfer data to logic processing module 2;

Temperature sensor 101 collecting temperature data, range sensor 102 gathers the range data of palm and mobile phone screen, and optical sensor module 103 obtains palm moving direction data and instruction corresponding to palm moving direction;

The data of step S3, logic processing module 2 pairs of data acquisition modules 1 judge, if satisfied temperature data reach temperature threshold, range data reaches distance threshold, the corresponding instruction of palm moving direction is in executable state simultaneously, then the corresponding instruction of palm moving direction is exported to and is controlled display module 3 by logic processing module 2;

The instruction of logic processing module 2 is sent to display module 302 by step S4, controller 301, and display module 302 performs dormancy or the wake operation of mobile phone according to instruction, and is presented on mobile telephone display.

In described step S1, the step of the corresponding instruction of setting palm moving direction comprises:

When the first optical sensor 1031 and the second optical sensor 1032 are separately positioned on the two ends up and down of mobile phone screen, setting palm is from mobile phone screen lower slide to upper end, wake instruction (or dormancy instruction) up, palm slides into lower end from mobile phone screen upper end, is dormancy instruction (or waking instruction up); When the first optical sensor 1031 and the second optical sensor 1032 are separately positioned on the two ends, left and right of mobile phone screen, setting palm slides into right-hand member from mobile phone screen left end, wake instruction (or dormancy instruction) up, palm slides into left end from mobile phone screen right-hand member, is dormancy instruction (or waking instruction up).

As shown in Figure 6, in described step S2, the step that optical sensor module 103 obtains palm moving direction data also comprises following steps:

Step S2.1, when any one light sensor probes in two optical sensors exceedes the intensity variation threshold value of setting to intensity variation, processing module 1033 starts timing;

Step S2.2, when another light sensor probes exceedes the intensity variation threshold value of setting to intensity variation, processing module 1033 stops timing;

If the total duration of the timing of step S2.3 processing module 1033 exceedes the time threshold of setting, then processing module is further according to the time order and function order of two light sensor probes to intensity variation, and in conjunction with the physical location that two optical sensors are arranged, judge to obtain palm moving direction, and obtain the corresponding instruction of palm moving direction.

In described step S3, the corresponding instruction of described palm moving direction is in executable state and refers to: if the corresponding instruction of palm moving direction wakes instruction up, then need to judge whether mobile phone current state is in resting state, if mobile phone current state is resting state, then this wakes instruction up and is in executable state, if mobile phone current state has been using state, then this has waken instruction up and has been in not executable state; If the corresponding instruction of palm moving direction is dormancy instruction, then need to judge whether mobile phone current state is in using state, if mobile phone current state is using state, then this dormancy instruction is in executable state, if mobile phone current state has been resting state, then this dormancy instruction has been in not executable state.

Embodiment 1

In the present embodiment, the first described optical sensor 1031 is arranged on the lower end of mobile phone screen, and the second described optical sensor 1032 is arranged on the upper end of mobile phone screen, and mobile phone is in resting state, and palm is from mobile phone screen lower slide to upper end.

As shown in Figure 7, in this case, mobile phone dormancy provided by the invention and awakening method comprise following steps:

Steps A, logic processing module 2 and optical sensor module 103 carries out data setting;

Logic processing module 2 sets:

Temperature threshold is: be more than or equal to 28 degree, is less than or equal to 42 degree;

Distance threshold is: be more than or equal to 0cm, is less than or equal to 3cm;

The corresponding instruction of setting palm moving direction is: palm, from mobile phone screen lower slide to upper end, is wake instruction up, and palm slides into lower end from mobile phone screen upper end, is dormancy instruction;

Optical sensor module 103 sets:

Intensity variation threshold value is: 10cd/m ²;

Time threshold is: 500ms;

Step B, temperature sensor 101 collecting temperature data, transfer data to logic processing module 2;

Step C, range sensor 102 gather the range data of palm and mobile phone screen, transfer data to logic processing module 2;

First step D, the first optical sensor 1031 detect luminous intensity and change, and judge whether intensity variation exceedes the intensity variation threshold value of setting, if so, then carry out step e;

Step e, processing module 1033 start timing;

Step F, the second optical sensor 1032 then detect luminous intensity and change, and judge whether intensity variation exceedes the intensity variation threshold value of setting, if so, then carry out step G;

Step G, processing module 1033 stop timing;

Step H, processing module 1033 judge whether the total duration of timing exceedes the time threshold of setting, if so, then carry out step I;

Step I, be arranged on the lower end of mobile phone screen according to the first optical sensor 1031, second optical sensor 1032 is arranged on the upper end of mobile phone screen, and first optical sensor 1031 first detect luminous intensity and change, processing module 1033 judges that obtaining palm moving direction data is that palm is from mobile phone screen lower slide to upper end, the corresponding instruction of palm moving direction wakes instruction up, by palm moving direction data and wake command up to logic processing module 2;

Step J, logic processing module 2 judge whether temperature data reaches threshold value, if so, carry out step K;

Whether step K, logic processing module 2 judging distance data reach threshold value, if so, carry out step L;

Step L, logic processing module 2 judge palm moving direction data, are from mobile phone screen lower slide to upper end, then carry out step M;

Step M, logic processing module 2 judge whether current phone is in resting state, if so, carry out step O;

Step O, logic processing module 2 will be waken instruction up and export to control display module 3;

The instruction that wakes up of logic processing module 2 is sent to display module 302 by step P, controller 301, and display module 302 performs the wake operation of mobile phone according to waking instruction up, mobile telephone display is lighted.

Embodiment 2

In the present embodiment, the first described optical sensor 1031 is arranged on the lower end of mobile phone screen, and the second described optical sensor 1032 is arranged on the upper end of mobile phone screen, and mobile phone is in resting state, and palm slides into lower end from mobile phone screen upper end.

As shown in Figure 7, in this case, mobile phone dormancy provided by the invention and awakening method comprise following steps:

Steps A, logic processing module 2 and optical sensor module 103 carries out data setting;

Logic processing module 2 sets:

Temperature threshold is: be more than or equal to 28 degree, is less than or equal to 42 degree;

Distance threshold is: be more than or equal to 0cm, is less than or equal to 3cm;

The corresponding instruction of setting palm moving direction is: palm, from mobile phone screen lower slide to upper end, is wake instruction up, and palm slides into lower end from mobile phone screen upper end, is dormancy instruction;

Optical sensor module 103 sets:

Intensity variation threshold value is: 10cd/m ²;

Time threshold is: 500ms;

Step B, temperature sensor 101 collecting temperature data, transfer data to logic processing module 2;

Step C, range sensor 102 gather the range data of palm and mobile phone screen, transfer data to logic processing module 2;

First step D, the second optical sensor 1032 detect luminous intensity and change, and judge whether intensity variation exceedes the intensity variation threshold value of setting, if so, then carry out step e;

Step e, processing module 1033 start timing;

Step F, the first optical sensor 1031 then detect luminous intensity and change, and judge whether intensity variation exceedes the intensity variation threshold value of setting, if so, then carry out step G;

Step G, processing module 1033 stop timing;

Step H, processing module 1033 judge whether the total duration of timing exceedes the time threshold of setting, if so, then carry out step I;

Step I, be arranged on the lower end of mobile phone screen according to the first optical sensor 1031, second optical sensor 1032 is arranged on the upper end of mobile phone screen, and second optical sensor 1032 first detect luminous intensity and change, processing module 1033 judges that obtaining palm moving direction data is that palm slides into lower end from mobile phone screen upper end, the corresponding instruction of palm moving direction is dormancy instruction, by palm moving direction data and wake command up to logic processing module 2;

Step J, logic processing module 2 judge whether temperature data reaches threshold value, if so, carry out step K;

Whether step K, logic processing module 2 judging distance data reach threshold value, if so, carry out step L;

Step L, logic processing module 2 judge palm moving direction data, are to slide into lower end from mobile phone screen upper end, then carry out step N;

Step N, logic processing module 2 judge whether current phone is in wake-up states, if not, return and carry out step B.

Mode of the present invention is novel, improves Consumer's Experience.

Although content of the present invention has done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to limitation of the present invention.After those skilled in the art have read foregoing, for multiple amendment of the present invention and substitute will be all apparent.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (10)

1. a mobile phone dormancy and wake realizing circuit up, it is characterized in that, this mobile phone dormancy and wake realizing circuit up and comprise data acquisition module (1), be electrically connected the logic processing module (2) of this data acquisition module (1) and be electrically connected the control display module (3) of this logic processing module (2);

Described data acquisition module (1) comprises temperature sensor (101), range sensor (102) and optical sensor module (103), and the output of described temperature sensor (101), range sensor (102) and optical sensor module (103) is electrically connected the input of described logic processing module (2) respectively;

Described optical sensor module (103) comprises the first optical sensor (1031), the second optical sensor (1032) and processing module (1033), described the first optical sensor (1031) and the output of the second optical sensor (1032) are electrically connected described logic processing module (2) input respectively, the input of described processing module (1033) is electrically connected the output of the first optical sensor (1031) and the second optical sensor (1032), and the output of described processing module (1033) is electrically connected described logic processing module (2) input.

2. mobile phone dormancy as claimed in claim 1 and wake realizing circuit up, it is characterized in that, described the first optical sensor (1031) and the second optical sensor (1032) are separately positioned on the two ends up and down of mobile phone screen.

3. mobile phone dormancy as claimed in claim 1 and wake realizing circuit up, it is characterized in that, described the first optical sensor (1031) and the second optical sensor (1032) are separately positioned on the two ends, left and right of mobile phone screen.

4. as claimed in claim 2 or claim 3 mobile phone dormancy and wake realizing circuit up, it is characterized in that, described temperature sensor (101) is arranged on mobile phone front, and described range sensor (102) is arranged on mobile phone front.

5. mobile phone dormancy as claimed in claim 4 and wake realizing circuit up, it is characterized in that, described control display module (3) comprises the controller (301) being electrically connected described logic processing module (2) output and the display module (302) being electrically connected this controller (301).

6. adopt mobile phone dormancy as claimed in claim 5 and wake realizing circuit up to a method of carrying out mobile phone dormancy and wake up, it is characterized in that, the method includes the steps of:

Step S1, logic processing module (2) and optical sensor module (103) carry out data setting;

The corresponding instruction of logic processing module (2) design temperature threshold value, distance threshold and setting palm moving direction, optical sensor module (103) setting intensity variation threshold value and time threshold;

Step S2, data acquisition module (1) start image data, transfer data to logic processing module (2);

Temperature sensor (101) collecting temperature data, range sensor (102) gathers the range data of palm and mobile phone screen, optical sensor module (103) acquisition palm moving direction data and instruction corresponding to palm moving direction;

Step S3, the data of logic processing module (2) to data acquisition module (1) judge, if satisfied temperature data reach temperature threshold, range data reaches distance threshold, the corresponding instruction of palm moving direction is in executable state simultaneously, then the corresponding instruction of palm moving direction is exported to and is controlled display module (3) by logic processing module (2);

The instruction of logic processing module (2) is sent to display module (302) by step S4, controller (301), and display module (302) performs dormancy or the wake operation of mobile phone according to instruction, and is presented on mobile telephone display.

7. mobile phone dormancy as claimed in claim 6 and awakening method, it is characterized in that, if described the first optical sensor (1031) and the second optical sensor (1032) are separately positioned on the two ends up and down of mobile phone screen, in then described step S1, the step of the corresponding instruction of setting palm moving direction comprises:

Setting palm is from mobile phone screen lower slide to upper end, and be wake instruction up, palm slides into lower end from mobile phone screen upper end, is dormancy instruction;

Or setting palm is from mobile phone screen lower slide to upper end, and be dormancy instruction, palm slides into lower end from mobile phone screen upper end, is wake instruction up.

8. mobile phone dormancy as claimed in claim 6 and awakening method, it is characterized in that, if described the first optical sensor (1031) and the second optical sensor (1032) are separately positioned on the two ends, left and right of mobile phone screen, in then described step S1, the step of the corresponding instruction of setting palm moving direction comprises:

Setting palm slides into right-hand member from mobile phone screen left end, and be wake instruction up, palm slides into left end from mobile phone screen right-hand member, is dormancy instruction;

Or setting palm slides into right-hand member from mobile phone screen left end, and be dormancy instruction, palm slides into left end from mobile phone screen right-hand member, is wake instruction up.

9. mobile phone dormancy as claimed in claim 8 and awakening method, is characterized in that, in described step S2, the step that optical sensor module (103) obtains palm moving direction data also comprises following steps:

Step S2.1, when any one light sensor probes in two optical sensors exceedes the intensity variation threshold value of setting to intensity variation, processing module (1033) start timing;

Step S2.2, when another light sensor probes exceedes the intensity variation threshold value of setting to intensity variation, processing module (1033) stop timing;

If the total duration of timing of step S2.3 processing module (1033) exceedes the time threshold of setting, then processing module is further according to the time order and function order of two light sensor probes to intensity variation, and in conjunction with the physical location that two optical sensors are arranged, judge to obtain palm moving direction, and obtain the corresponding instruction of palm moving direction.

10. mobile phone dormancy as claimed in claim 9 and awakening method, it is characterized in that, in described step S3, the corresponding instruction of described palm moving direction is in executable state and refers to:

If the corresponding instruction of palm moving direction wakes instruction up, then need to judge whether mobile phone current state is in resting state, if mobile phone current state is resting state, then this wakes instruction up and is in executable state, if mobile phone current state has been using state, then this has waken instruction up and has been in not executable state;

If the corresponding instruction of palm moving direction is dormancy instruction, then need to judge whether mobile phone current state is in using state, if mobile phone current state is using state, then this dormancy instruction is in executable state, if mobile phone current state has been resting state, then this dormancy instruction has been in not executable state.